UNCLASSIFIED TM No. 377 (Vol. 2)
OBSERVATIONS OF PARTICLE
MOTIONS IN OCEAN WAVES
(Vol. 2: Appendices)
by D. H. Shonting
NAVAL UNDERWATER WEAPONS
RESEARCH AND ENGINEERING STATION
NEWPORT, RHODE ISLAND
UNCLASSIFIED
UNCLASS IF TED EM Norn Sita (Voila s2))
NAVAL UNDERWATER WEAPONS RESEARCH AND ENGINEERING STATION
NEWPORT, RHODE ISLAND
TECHNICAL MEMORANDUM
OBSERVATIONS OF PARTICLE MOTIONS
IN OCEAN WAVES
(Vol. 2: Appendices )
Prepared by: D. H. Shonting
IAN
win
MN
July 1967 G. G. GOULD
Technical Director
We We WITTER
Captain, USN
Commanding Officer
WEPTASK Assignment No.
RU22 -20-000/219 1/R104-03-01
0 Distribution of this
document is unlimited. UNCLASS IF TED
T™ NO. 377
APPENDIX A
SUPPLEMENTARY DISCUSSIONS
Dynamics of a Ducted Meter
Response to a Step Input =-=- In discussing the dynamic characteristics of
the ducted meter in chapter II, there is frequent mention of the terms "time
constant", "response time", and "frequency response". Since these terms are
often used (and also misused) in discussions of fluid flow sensors, it is
desirable to clarify these meanings as they apply to the wave meters. The
first step is to derive the relation for instrument response to a step in=
crease in the driving force function.
The equation of motion representing the balance of forces on a ducted
meter system can be written as:
T$=-Kw+ uw 5 (A-1)
A B (a
where I is the moment of inertia of the impeller (gm em”), W is the instan-
taneous angular velocity (sec 5 uis the velocity of fluid through the meter,
and K and K, are proportionality constants.
Equation (A=1) represents the inertial force (term A) as equal to the sum
of the drag force (B) produced by the impeller as it spins in the fluid and
the dynamic thrust (C) caused bythe moving fluid on the impeller. In other
words, the drag force (B) is merely the reaction to the impressed force (C).
To investigate the solution w(t), one must rewrite equation (A-1) in
the form:
dw , Ki bts
de) ee Sete. (Ae2)
The initial conditions are given by:
) (t) = u(t) = o t€O 3 and
(A=3)
u(t) =U, = constant +t 30.
These conditions imply that the driving velocity Up is applied instantaneously
to the impeller at time t = 0. The solution to equation (A-2) is obtained by
substitution of:
ww + Key ; (Ash)
\
T NO. 377
giving
dw’ Kadulrhi o_ As5
de te det pw 7O- ba
From conditions (A-3), the time derivative of UL is zero, producing the homo=-
geneous equation:
'
Ga + Bul co, (a-6)
Solving equation (A-6):
5 ph
wt ey iee as (A-7)
where K, is an integration constant. Substituting this in equation (A-4) yields
the complete solution:
= boos
Wek, CF + u (a-8)
|
o
At time t=0, from the initial conditions (A-3), one can evaluate:
By syore Un an
Thus : = Ke
kK; i Ke
This is the general solution of (A-2), which contains the sum of the transient
and steady state’ solutions.
It is evident that:
LIM Wt) = “Ur =<Wr . (A-11)
tra '
For steady flow, the frequency of the impeller is directly proportional to the
linear speed Up. This important property is borne out by the calibration
curves of the three ducted meter systems in figures II-5, II-9, and II-20.
Az2
TM NO. 377
Referring to chapter II, the ducted meter is subjected to a step input of
velocity Up at a point in time where:
Th L = Tr , (A-12)
Ky
In equation (A-10) G) (+) can be evaluated, utilizing (A=11), as:
w(t) =wi = Ke up (1-5) = 6366h - (A=13)
Ky Ky
The value T, = I/K, is defined as the response time. Likewise, tT=1 (seco)
may be defined as the frequency response. Generally speaking, the instrument
is incapable of registering fluctuations in flow greater than T.-L cps. The
dividing line is completely arbitrary. However, for OMDUM III, having T, =
6C) milliseconds, this response time is surely small enough to observe fluctu=
ations due to surface waves which are of the order of 3000-4000 milliseconds.
Response to a Sinusoidal Input == The next step is to examine the response
characteristics of the ducted meter to a sinusoidal driving function, which
might be crudely compared to a single Fourier component of an ocean wave.
One can assume the same equation of motion given in equation (A=2), except
that u is given as a sinusoidal function. Thus, instead of (A=2):
dw Ki 2 =
ae © *2 cos S&t. (A=1})
The SLis the driving frequency given by 21 Te’ 3 where Te is the period of the
forcing function on the right hand side of (A-14).
letting Kj /I =o, the auxiliary equation becomes:
a t
w= Ae Se ’ (A=15)
It is assumed that A=A(t) can serve as part of the solution to equation (A-14).
Substituting (A=15) into (A-14), with the necessary adjustment, gives:
A=3
ITM NO. 377
The term B is an integration constant. Substituting (A-16) into (A-15) and
integrating:
No COSNt ER sIN AE -2et
ag St, + $
(A!) (8')
or simplifying with trigonometric relationships;
- Kot
Cos (Rt T . A-18
== cor os (Rt) + Be (A-18)
4-9)
Equation (A=12) has been used in anaes to define;
* = ARCTAN = = ARCTAN Tr. (A=19)
tp
As with the solution (A-10) for response to a step function, solution (A-18)
contains a steady oscillatory component term (A') and a time variable solution
term (B'). The angle @& can be thought of as the phase shift angle between
the response function W and the driving function KOS Ne . It is clear
from (A-19) that the phase angle & increases with an increasing time constant
T,- Likewise, for a system with a constant T,, the phase angle og increases
as the frequency of the driving function. Also, the amplitude of the instru-
ment response decreases as {\U increases.
In chapter II a test was made of the response of OMDUM II to a vertical
oscillation. The period of oscillation was about 0.7 second. The phase angle
ov was found to be about 12°. Substituting these values into equation (A-19)
written as
TANS
i aka (A-20)
results in tr 24 milliseconds. This value for Ty is somewhat lower than the
value obtained for OMDUM III by the method described in (A=-1).
Relationship Between Instrument Output and Driving Motion Spectra =- The
measurement in ocean waves using the ducted meters provides a time series record
of the angular velocity vector of each impeller. From the time variable magni-
tude and direction of this vector one can infer, on the basis of steady flow
and response time calibrations, an estimate of the Eulerian particle velocity
at the position of the meter system. From this velocity data one can estimate
averages, auto-covariance, covariance, and their related spectral functions.
The accuracy of the statistical description of the actual motions is based on
the assumption that the statistics of the impeller motion can be identified with
statistics of ambient random motions driving the impellers. A simple analysis
can be made of the criteria by which one can justify the correspondence of the
Statistics of the angular velocity vector with the particle velocity vector.
Axl
T™ NO. 377
Write the equation of motion (A-1) in the form:
dpe ue ale
Teese ae = ult) 3; ep
where u(t) is..considered to be a quasirrandom function of time. The functions ‘on a t)
and u(t) may be written as the complex Fourier integrals:
6 6
woes f oe dw/v) (A=22)
= 0
and
"5) ‘apt
aed | eo dt). “ices
-
The term-/ represents angular frequency, and dW (V) anddZ (¥v) are increments
in the quasierandom complex functions w (v) and #@ (wv). These functions have
the following properties:
Lim d W lt) IW(a)
dy =-dv, =dv 0 ig a ae ae
\ A-2
aa Z1M dey) d12-(») f ( )
dy, = a = dv 20d z z 2
dv
4
Ano: Lim dw“(v) div&) :
z fie 7
dv
rd
Lin dz"lvy) dz
: fone ERY BG), we)
The asterisk indicates the complex conjugate, and Ce) ana Peo) represent the
energy density of the spectrum functions of W(t) and u(t), respectively (see
Batchelor, 1953).
) Substituting equations (A=22) and (A=23) into (A-21), and remembering that
dw (w) andd2() are independent of t, the result is:
Ax)
or simply
(A=28)
Dividing (A-28) by dv and multiplying both sides of the equation by the respec=
tive complex conjugates gives:
fife Ts") Dre nelies
me mee ey * eo
Taking the limit of (A=29) as dv90, we have from equations (A=25) and (A-26):
) (iz pL) PA), (A-30)
Equation (A=-30) gives the relation between the spectra of quasi-random function
u(t) and the spectrum of impeller rotational response W& (t).
The next relationship to be examined is between the auto-covariance functions
of both the turbulent velocity fluctuations u(t) and the impeller response
function W (t). In order to compare the response of each function at an instant
T and at a later time 7 , we must determine the relation between the auto-
covariance functions given by:
duit) = ult)ul(ery) (a=31)
and b, (1) = wlt) wl é+7) rs (A-32)
These functions are defined in chapter III.
It is relation (A-32) that is actually measured. From this, (A-31) is inter-
preted and the spectrum function @(~) inferred. From equations (A=15) and
(A-16), and the properties (A+18) and (A=-19): a
ON
fe
T™ NO. 377
oS UJ
U(t) ulcer) = { Ei) "dv, (A-33)
fF
and
68 Dt a
Wd Ce) wlttT) = if Py a im du, (A-3})
-Co
Thus, the auto-covariance, as shown in chapter III, is the sae beens tort
of the spectrum function. Substituting equation (A=23) into (A-26
—————— 29 IVT
(7) = Wet) w(t*7) = ae e (A=35)
Letting a=) ei
“oir > (1-36)
and since
—,=sl-
ve eye Urdy2 °
equation (A-35) may be written in the form:
Ke x vy oe
PulT) = Fas fay € \l- Fara] dy 5
or (9 = Fh B,(1)- ("ws dene! Bo) el” (A317)
w =i) 7 sr dv.
Now: : 2 tur
iow cyte s, ec
a Vay T
Ka Kid? O(we
° S ee T —= = —————— dv
aa Pu) = igs aa were
(A=38)
5 bins Said + pid .
As‘
TM NO. 3/‘/
This may be written:
ae iid
halt) = ie } duc) 2.8, $.,(7)| (4-39)
This equation provides a simple relationship of the auto-covariance of the
driving motion u(t) with that of the instrument response function &(t).
Since T, = K, (I)=1 and, from (A-12), equals (T,)=1, the limit may be
written:
af
bi ain = bute).
Of course, this limiting condition (T,%0) is not very realistic, since, for
any instrument, T, is finite.
Examining the relation (A=-39) further =- the formal equation for A) may
be written, from (III=-24):
Wa
b(n) = LIM + ( wie) Beenie. fees
tT
Lee (1960) shows that the second derivative of P (Dis given as:
T
2 r
d*Puld — LIM I ( “gue du(ete) |
nS ye a (G —— eS —EEEEEE € e (A=42)
dee Uo d¢ dt
=Tiy
The second derivative of the auto-covariance function is another auto-covari=
ance function of the derivative of @jt) except for the negative sign. ‘Thus,
in (A=39) the correction term 2
=, £, Pus)
is a positive bias in relation to the estimate of di (0- The probable magnitudes
of the derivative term with respect to the auto=covariance in equation (A=-39) can
now be examined. Assume that the driving function Wis represented simply as:
W= SINE 4) (a-43)
where 2 is the frequency of the oscillation. The auto-covariance function is
Pu(T) 9 Which is approximated by:
’ Ta
(0) =4 SIN DE SINR(EtT)d 7, (a-lt)
he
A=-8
T™ NO. 377
Integration gives:
(7) = 7 cos QT ° (A=45)
The second derivative of b (0) is given by:
. T.
d* ult) _ — Vs 27, (a=l6)
any
The derivative term in (A-39) may be neglected if:
= 2
L 3? oe a> =e (A-l7)
2ae Ve
Since -f2 = 21T (7)! (where 1T,, is the period of the oscillation), and -% =
Ki(@)=2 = (t,)-15 then from (A=47
> ane Ae
miu Th ®
As shown in chapter IV, Ty for the wave meters was roughly 50 milliseconds.
If the dominant period of driving oscillations of wind waves is about 4000
milliseconds (4 sec), then:
wa 0°04.
Thus, if the auto-covariance function is of the form given by (A=43), then the
error in the estimate of ©(0) in equation (A=39) will be about 4 percent too
small.
This simple example is given only to demonstrate that the relative magni-
tudes of the instrument frequency response and the dominant frequencies of the
driving motions must be considered in providing an accurate statistical analy=-
sis of the motions. Thus, both the spectrum function and auto-covariance of
the driving functions can be evaluated to an accuracy which is unavoidably
dependent upon the amount by which the instrument response exceed the ambient
driving frequencies.
Amplitude Probability Distribution of Sinusoidal Waves
Consider a wavy ocean surface made up of an ensemble of Fourier components
of equal amplitude and frequency, but of random phase. Two of the waves are
pictured in figure A-1, The random parameter in the waves is the phase angle
with respect to time t = 0. Iettingo¢ be the random phase angle of the wave
with an angular frequency (2; , and having an amplitude A, the random amplitude
/] of the wave at t = t, is expressed by:
A=9
T™ NO. 377
at) = A sin (2,0, +), (A-48)
Given the probability density of of , the probability density of the random
variable @ can be estimated. ‘In other words, the aim is to estimate the
instantaneous amplitude of the wave at t = t,, using the knowledge of the pro-
Gee density of the phase angle. The method used here is discussed by Lee
1960)»
The phase angle & need only be specified between 0 and 27%. Iet the
probability density of x be Fy (y); and that of y be Pa(x). For every
value of 4 in its range (-A,A), there are two possible values of oY in its
range (0,21), except when Gy) oH
Letting ig eat x (A=49)
equation (A=-48) becomes;
a: ASIN Se (A=50)
where the range of C¢ is (2,5,2%% +21 ). The relation between the range
of variables of X and 4 of the random variables % and § is thus:
x = A SIN Zz > (A=51)
where
2= 2, tty - (A=52)
Assuming that 2, and 4, are two solutions of (A=51) for 2 in the interval
(W2,t,,2.t) + 217 ); then:
Pixon éx-+dx) -?@¢ 6 <2td2)4P(2.¢Sde+da) (A=53)
This equation states that an event of y occurring in (x, x+dx) is dependent
upor the event of § occurring in (2 2,tdt) and (2,22+d%) and nowhere else.
If there were only one solution of (A=51), only one term would appear on the
right side of (A=53). Equation (A-53) leads to:
A=10
)
TM No. 377
Py ix)dx = Fe (2i)de + Pele)de . (Aq5h)
Here, Pe(®) is the probability density of § . It can be shown (Lee, 1960,
pe 192) that:
Pe @) = R (e-272) . (4-55)
Equation (A=54) may be written:
P,, (x) rv Pox (%)--2,4) ~~ Px (2-216)
where, for = A€x ZA,
(A=56)
E
dz
G4 = |AcosalstVaext , — (a-57)
The absolute value of the slope a A is used, since in (A=56) the probability
distributions must be positive.
The complete expression for P, (x) is given by:
Pa (2-24) + Px (Qe--2t,)
Py (x) S =O at Eyiabane i ere FoR -Adx dp _(As58)
© ELSEWHERE
The term (4) is, generally, a function of t; thus, according to the definition
in chapter III, it is nonstationary. Poy (=-~@.6) ) may be taken as a rectane
gular density function (i.e., constant probability over a specified interval)
and defined as:
i FoR 2, <add 2,t, +27F
Peete) 4) fe rccumcre > (A=99)
This makes P(x) independent of ty (i.e., become stationary), and reduces it to:
P(x) =2 TVA FOS TL . (A-60)
° € LSEWHERIE
Ae-11
T™ NO. 377
Since 2=0,t,+7 , condition (A-59) is equivalent to
L
FoR O<y < 27
R.(y) = ae , (A621)
os ° Eusew Here
Therefore, if the probability density of the phase angle given by equation (A=59),
depicted by figure V-13 (upper plot), is uniform, the ensemble of sine waves is ~
stationary and the probability density of the amplitude is given by equation
(A-60), This density distribution is plotted in figure V-13 (lower plot).
Relationships for Motions Associated with a Turbulent Velocity Field
Reynolds Stresses == To examine the concept of the Reynolds stress existing
in the surface ocean layer, one must consider the time variable motions of the
water particles at a point immediately beneath wind-driven ocean waves that
are being subjected to a surface shear stress by the wind.
eee Ubteu=zn4+ry! -
wit) = we a+’. (a-62)
The terms u and w are the time-varying horizontal and vertical velocity components
at a point in the water column of uniform density. The U and w are time mean
values given by the following integrals:
at == Udt, (A=63)
and all
he
The terms u’ and w' are the instantaneous deviations from the time mean
velocities. Thus:
Seaman alee .
U' =W'=0,
Consider a small area dA in a horizontal plane between two layers of water
which are being subjected to a horizontal shear. The mass of water dm crossing
this area vertically during the time dt is given by:
dm=edAudt = pda(Ftw)dts (x61)
where f is the density = constant.
A=12
IM NO. 377
The momentum of the water is dm (U + u') in the horizontal, and dm (W + w') in
the vertical. Thus, the time rate of total horizontal and vertical transport
across this area is:
ele +w')* dAdt Awe ¢ (at) Ga+u'\dade.(4-65)
Dividing through by dAdt, one obtains the time rate of vertical transfer of
horizontal and vertical momentum per unit area,which is given by:
pUG* + 2Gu' +wl2) (a-66)
and
(wie Bul + ur! & +uire" ) : (en
Taking averages over the period T, and utilizing equations similar to (A-63),
produces:
fr + pus't = pp* + Puyid } (a-68)
Torre ult = hur wal Q
faa tfuy =pur + f ne
=
The turbulent transfer quantities are defined as Pipl and Pu'w
Consider the turbulent term pul’. This term represents a net transport of
horizontal momentum in the vertical by means of a correlation of u' with w'.
Correlation exists when
fe. p Te
ides ff. TES SO cee)
(2
Note that in the case of ocean waves the time varying quantities oscillate
and change sign. Thus, there must be an internal systematic relation; e.ge,
u' is large and negative when wis large and negative; and u' is large and posi-
itive when w' is large and positive.
If u and w are measured at a fixed point beneath the surface of the ocean,
and for a given time interval equation (A-75) holds true, one can then conclude
that: (1) a much larger or much smaller eddy motion is instrumental in propa-=
gating momentum downward which the instruments did not detect; or (2) a mecha=
nism of stress transfer exists which is unrelated to the Reynolds stress concept.
A=13
TM NO. 377
Both Pw” ana pus in (A=68) and (A-69) have units of dynes per square
centimeter or force per unit area. The former term is identified as a dyanmic
or turbulent pressure, and the latter as a turbulent (or shear) stress.
Momentum Equations for Turbulent Velocities == To appreciate how the eddy
stresses can be interpreted as real physical quantities, let us consider the
Navier-Stokes equations for an incompressible fluid in two dimensions in the
vertical X4 plane. These equations are:
du ee l CP pay Vu (A-71)
anal o 5 “12 -GtvV* ur 5 (A-72)
where p = pressure (dyne cm@¢)
VY = kinematic viscosity (cm* sec“t)
G = gravitational acceleration (980) cm sec=2
W?= laplaciap operator (2 exile
ii
i
oe)
2542 Es
4 = measured positively ee
Note that:
bfsies 2
Ge fe set oe Bie
The two-dimensional continuity equation for an incompressible fluid can also
be used:
4 Ow
=o. (A=73)
seo oe
Substituting the Reynolds formulations (A=62) and also the pressure relation
P =b+p’/ (A-74)
into equations (A=71) and (A-72), and taking time averages in accordance with
equation (A-63), gives:
he oe py! Qu ¢u Fru au! 1aP , 2 a+ Ze (A-75)
ot On o% Pax ox
O01 200 14) du' 47 dg 4),'0,1 ~ 1OP au 2a) :
and teh Ly'IW Lip dw Ow! = 1 OP _ OW dW) (A-76)
TM NO. 377
All terms involving time average products of mean values and fluctuations
vanish, simplifying the equations considerably. By regrouping terms:
—= \ ana ERG
diz 2 12 tof 22 4 2 bf ay’ ole wy ue ie (A=77)
oP a, ott) _y' du! ae 18
-G +u ae ese oe a ies 2 (K-78)
and ———
Using the equation of continuity for turbulent velocity components obtained
with equations (A=62) and (A=73), the result is:
Ou du (A-79)
ox ta 2 =@®e
Equations (A-77) and (A=78) may be put in the following form, with the assump=
tion of no mean motion in the vertical (G=0):
Ae 1a od 2 Jog Sa
ot 45 +$ pews gs at (a-80)
DOP eae
and o=-55, 7G +2 | [wa] + a) wr} “ — (A-82)
Consider the relative magnitudes of the viscous and dynamic pressure terms in
equation (A-80). Realistic values for the terms OW/zy and u? could be 5 cm sec
per 10 evens and 50 cm secol, respectively, for a wind wave regime. For
VJ = 10°2 om cm! sec=l, the ratio
ve Gn ~ 2Xio°@ }
This small ratio indicates that the mele cular viscosity term in equation (A-80)
may be neglected. Also, assuming that the term is vanishingly small, we obtain
the simplified momentum equations:
rH. 5 ae “pa 4 2 pull (a-82)
=1
Lene = —
3 0 2E- gong heteg caf. aw
TM NO. 377
Equation (A-82) is a mathematical statement that the mean horizontal
inertial acceleration of a water element is balanced by the mean horizontal
pressure gradient, horizontal gradients of the mean horizontal dynamic
pressure, and the vertical gradient of the mean eddy stress. Equation (A=83)
indicates that the vertical mean pressure gradient is balanced by the gravi-
tational force upon the water element, the horizontal gradient of the eddy
stresses, and the vertical gradient of the vertical dynamic pressure.
Comparing equations (A=82) and (A-83) with equations (A-71) and (A=72),
it is evident that the Reynolds stresses are interpreted as real stresses on
the fluid elements and that they act in addition to the forces imparted by
the pressure and pure viscous stresses.
The Reynolds stresses have normal as well as tractive or tangential com=
ponents. An interpretation of the normal stress can be made in a similar
manner, Consider a horizontal element ds normal to the vertical axis. Further
assume W=0 , allowing only a turbulent component normal to the element. Then
= wa denotes the average flow of momentum through the surface element, namely
—(fw')wlds - This flow of momentum causes a reaction on the surface;and, when
integrated over the time T and avereged; it is sensed as a dynamic pressure.
Thus, the products of time variable advective quantities can be envisaged
as real forces acting upon the particles of water.
The formulation of Reynolds stresses throws considerable light on the
mechanism of turbulence, whereas the mathematical analysis is not readily
soluble. In general, no analytical method is known whereby the Reynolds
stresses can be expressed in terms of the mean velocities and their derivatives;
so, for the most part, equations of the form of (A-82) and (A=83) remain intrac-
table. One can try, however, to solve the equations experimentally; i.e., one
can measure certain quantities in the equations experimentally and conjecture
magnitudes of the unmeasurable quantities, thus providing an estimate of the
validity of the equations themselves and a judgment on the assumptions made to
develop them.
Kinetic Energy Relations -- To derive the equation expressing the flux of
mean energy in the waves, consider the general momentum equations (A-80) and
oe neglecting the term Yx” Gy in equation (A-80). First multiply equations
(A-80) and (A-81) by pi and pw, respectively. Since W is defined as identically
zero, the result is a single equation given by:
de. -G@2P 179 \_ppuz)a 2 au ag(- a e,
ord anc |-eu]+ a2 [y R/rg put] . (a-B4)
By definition the dynamic viscosity 7,= pv. The term
qde a]
P dt fs LAr
is equivalent to the time rate of change of the kinetic energy of the mean
A=16
T™ NO. 377
motion in the X direction. Now integrate (A=84) and examine each term for
its physical significance.
If equation (A-84) is integrated over a vertical strip in the 4 plane of
unit width (in the Y direction) and bounded at the sea bottom, the result
gives the balance of kinetic energy of the mean flow across this section of
the current (see figure A-2), The integration is carried out from the bottom
at 8 = =D to the surface 2 = 4 ( Xayt). The x coordinate of the strip is x);
and the mean value of 7 , over the averaging period T, is zero. If it is
assumed that the time-rate of change of mean kinetic energy is constant, then:
ala sia ge in ob | ie ace
-_ 4 od
=- | 42-dzé- 2 [putas UZy, Chdet \o (--put
os | oR de- | uss grdtder ESCM de, uae)
“D -D -D =D
A B c D
Terms A and B represent contributions to the mean horizontal kinetic energy
due to horizontal flow caused by the fluid response to horizontal gradients
of hydrostatic and dynamic pressure, respectively. Assuming hydrostatic
equilibrium of the mean pressure gradients, term A may be written:
- (a2 Dai 6 Phat i é (a-86)
The term OF x is the slope of the isobars and, in general, may be associated
with semi=diurnal tidal motions or other types of motions having oscillatory
components whose periods are much larger than the period of averaging T. This
term could be evaluated from data obtained from appropriately spaced tide gauges.
Evaluation of term B in equation (A-85) requires measurements of tie
variance of u(t) at two or more positions on the x axis, and also as a function
of depth, From a practical point of view, the term would be most difficult
to determine experimentally. In the region of a uniform wind field the
horizontal gradient of the wind-driven perturbations contributing to the
variance 0j* would surely be small.
Term C in (A-85) represents the contribution of pure frictional stresses
to the mean kinetic energy. The term must, of course, contribute negatively
to the mean kinetic energy, since the viscous forces always act to impede
fluid flow; hence, they tend to decrease kinetic energy cf mean motion. The
frictional stresses occur at the air-sea boundary and at the bottom. They
are brought about by viscous interaction of the wind with the waves and the
free surface, and by water interaction with the bottom roughness elements.
~”
The integral C may be written as:
Cla tin ee (GA Geen
| Bat ba = | Bre giae+ |nosd ge (A-87)
T™ NO. 377
Term E implies Y> as a constant and could be evaluated with knowledge of the
surface and bottom values of the velocity gradient. The value ofypis, however,
probably not a constant; hence, much difficulty arises in evaluating both E
and F.
The integral D in (A=85), which has no dependence upon empirical relations
as does C, may be expressed as:
{iu salt puublde = \ $a edui]ae - oe gade
= ge UE [edi 2 ar es (4-88)
Term G represents the flow of mean mic energy aon boundaries produced
by perturbations at the boundaries. At the sea surface the perturbations are
wind and the associated wind waves. At the bottom, disturbances can be pro=
duced by interaction of the mean motions with the gross bottom roughness elements.
The sign and magnitude of G is dependent upon the direction and magnitudes of the
wind and the mean current WU.
The integral H is the measure of the rate of transfer of mean kinetic energy
into (or out of) the kinetic energy of eddy motions. Evéluatign of this term
requires knowledge of the variation of the Reynolds stress —puld and the mean
flow U with depth.
It should be noted that these equations were generalized in the sense that
no assumptions were made of the causes of the stress terms (with the exception
of fluid viscosity). We only state that, if they exist, they contribute
to the momentum and kinetic energy of the mean flow in the manner shown.
Going back to (A-85), assume that Bo but that the horizontal gradients
of the mean pressure and Reynolds stresses are not zero. Taking the derivative
with respect to X of (A-85):
BH eeu ae Reres ls ets [Reds] - oe 2 eu
By again expanding and rearranging of terms:
oe BTR LF mB ema] » 8)
the kinetic energy being invariant in the X direction. Integrating (A-89) gives:
re) le = o
2) p-eut] -2S fulul = consent (A-90)
Br © Sey il
A=18
T™ NO. 377
This indicates that the horizontal mean and dynamic pressure gradients are
balanced by the vertical gradient of the Reynolds stresses,
In general, the mean horizontal pressure gradients in this simple model
can only be a result of wind set-up along a coast or in a bay. The important
thing is that the depth variation of the observed Reynolds stress is not neces-=
sarily controlled only by the eddy diffusion properties of the waves,but by
fundamental dynamic conditions associated with the horizontal static and dynamic
pressure gradients. More generally, the coriolis force must also be considered
as in the Eulerian theory.
A~19
TM No. 377 ‘
(t) = A SIN (At. %)
t=O t=t, .
Fig. A~ lt
Figure A-1 . An ensemble of sinusoids with random initial phase
angles,
=-D
Fig.A-2 ;
Figure A-2 . Model for vertical integration of Kinetic energy |
relations.
A-20
T™ No. 377
APPENDIX B
STATISTICAL ANALYSIS AND AUTO-SPECTRA PLOTS OF WAVE DATA
Spectral Data
Listings of spectral data are given for series 020 through 124 (BBELS-8
through BBELS-16, using the OMDUM III and LIMDUM I wave meters).
The first line contains the consecutive serial observation (020, etc.).
This is followed by O TTI = OMDUM III measurement producing u and w; or by
LI-u or LI-w = LIMDUM I measurement of u, and Up Or W, and Wo, respectively.
Note that the BBELS-11 series (030-069) was made with LIMDUM I; but only one
channel is operative, thus the statistics of a single w are given.
The second line of the format consists of: the BBELS number, the depth
(in meters) and the nth measurement at that depth (Roman numerals), the date,
and the approximate time interval.
The third line consists of the lag number, the number of data points (N),
and the interval of sampling of interpolated data (DT). The fourth line gives
the mean values of the variables (u and w, uy, and Wy, Or Up and Wo )-
The fifth line lists the following parameters (colum headings ), which
are defined in chapter III. (X = the variable measured. )
K = Frequency and lag index.
ACOV X), = Auto -covariance functions of xX ane X5: (Note , ACOV X at
ACOV X, K = 0 is the variance of X or G,%)
cov IN = In-phase covariance function of X, and X,- (Note, COV IN
at K = 0 is the covariance or bo x,(0) = X1X5,)
COV OUT = Out-of-phase covariance function of X, and Xp.
SP X SP X = Auto-spectra functions of X and X-
CO = Co-spectrum function of X, and X,-
QUA = Quadrature spectrum function of X, and Xd -
PER = Period in seconds.
R = Coherence function of the cross-spectrum with the auto-spectra.
PH! = Phase lag function between X, and Xp.
Baie
TM No. 377
In some cases, some of the data are left out indicating missing or
Note 1.
irretrievable information.
A 'U' following the consecutive serial observation indicates that
Note 2.
the OMDUM data are uncorrected (see chapter IEE ))e
O20 om
BRFIS) 8 1.0M= Oo N7DEC=64 13101315
LAGSs SO N= 1245 NT? 022SF%
MEAN U= 21,46 MF AN We Hed
K aeov t! ACOV w COV IN cOVOUT SP U SP Ww co
CORRFIL“TTON COFFFICIENT ea
0 183,48 348.4 6.4 9 18e2@l 19691 11242
Who Sav5e 9.9 4.5 34.39 42.03 15234
2 1446.1 2A1,9 1963 7eR 31248 60-83 8.53
3 114.8 222,5 32063 Ged 210669 62044 3.70
4 R4.)] 140,9 45.9 9e7 12605 38.89 =-3.99
5 598.8 195,4 53.3 9.0 llell 31.79 =5.55
6 42,5 62,9 56.5 6.7 9e97 26446 =3.26
U 34,8 30,9 53.3 3.9 G99 15.56 @?.53
R 33.8 1G 7/ 45H M167? 19024 12648 =5.09
9 3463 Cy -aa) 3607 =6.3 4e87 12646 =6e18
10 3952 11,9 PRo% @11.5 5e09D 9e07 =4014
1) 39.5 =19,9 2268 215.5 2657 5el4 -1.57
1? 36.7 |=30,9 2004 §1765 16030 2.59 =0.26
13 22,7 239,8 21.3 =17.09 093 1-632 -0.04
14 1965 47,8 2305 71304 ef/3 1203 -0.05
15 7R =52.9 24.6 =7.6 259 2°85 -0.03
16 mrel @=54.6 236) @(),A 045 057 (9)
ard =He4 -51],7 1960) 5.8 034 eS5l 0
1A =2,2? 746.9 12.4 10.7 024 049 0
19 =7.] =42,3 4.5 12.8 el9 039 003
20 =&,f) =78,2 =2.6 12.3 ONT 031 004
2 =3.0 =37.,7 =7.5 961 olT7 228 2°05
22 23.5 =39,3 =9.] 3,9 e1lS 025 003
23 mA 247K 7.5 =2.4% el3 eel n
24 =7,8 246.0 =3.5 29,3 el2 016 0
25 217.9 246.5 2 =16.3 ald el2 =0.01
26 21502 243,4 725 722.7 009 013 0
27 2)/82,5 236,7 12.3 =27.4 5210) 019 202
2A 212.3 =25,9 1568 =31.4 210 020 001
29 =15.8 @11.9 17.29 =33,8 008 016 0
30 11.) 4,2? 19.2 =34,3 007 el3 0
3) =, 3 21.9 19.5 @33.9 208 210 @(.0)
3? Waal 40.9 1926 =29,4 007 009 °,01
33 AAR 56,8 19.8 =23,5 205 209 0
34 WAL as) 70.0 2020 =15.8f 004 010 0
35 WAG 1¢ 7B.R 2024 -7.9 005 010 0
36 17.09 R3.3 2164 =9.9 005 007 ty)
t}7/ J9,09 R4,5 2300) 4.5 004 205 0
3A NOT 83.) 24.7 6.9 004 006 =-0.0)
39 2729 90.3 2607 6.) 004 007 9
49 2'5aT7 tol 29.3 3.8 004 006 0
4) 2909 Ties 32.2 3 003 004 0
42 37.6 59.) 34.8 2,6 003 203 0
43 3644 65,5 36.2 =4.4 203 202 i}
44 47.3 42.9 3769 =5.2 002 002 0
45 44.7 58,7 3704 =4,A 092 003 0
46 42.7 56.1 3Rel 2329 003 204 0
47 51.4 54.46 38.9 72,8 003 014 0
4A 574? 53,8 39,2 =-).5 004 003 0
49 59.7 51.7 38.9 e? 203 e02 0)
50 47.3 47,3 37.5 1.8 o01 001 0
eS}
QUA PER
0 0
-4.23 20.00
e531 10.00
1,11 6266
=2,84 5.00
1.70 4.00
7242 3.33
4.19 2.85
024 2.50
=0,57 2.22
=0.87 2.00
-0.12 1.81
037 1266
e2\ 1.53
019 1242
009 1,33
ot ee
003 «lel?
005) «(1ell
093 #1205
«91 1.200
202 095
004 090
003 0 86
03 83
203 80
202 0/6
202 014
9 onl
0 268
0 066
=0,0) 064
=0.03 062
=0.02 260
=0,02 Pay |
057
255
054
052
05]
e050
048
047
0 46
045
044%
043
042
04)
e 40
40
3o0 9g 929090 099020
o
2920020
T™ No.
0
6.66
5.00
4.00
3.33
2.85
2050
2022
2.00
1.81
1.66
1.53
1.42
1.33
1.25
Merl?
lel)
1.05
1.00
095
090
286
283
80
76
014
ef 1
2 6A
066
064
062
260
5A
057
255
054
052
05]
50
048
047
2 46
045
044
043
42
04)
040
O02) OIL
BRFIS B&B 25Me Oo A7DECS64 132421329
LAGS=a 50 N® i476 DTZ 02eSFC
MEAN tina 16,8 MPAN We {703
CORRFLATION COEFFICIENT ae
0 Sa. 791.9 246.9 9 19071 12243 6.07 (9)
1 325.28 695.9 ©=39,9 1526 46,52 57.88 11.17216.39 20.00
2 264.0) 445.7 21624 23.7 56.50113.28 9.16°24.79 10.00
3 189.4 268,? 1661 2163 45012 99.60 077711,99
4 114.4 123.5 49.2 9.4 726.42 56.96 8.77 049
5 546.0) 39,9 73.4 =7,.8 Piee3 45.89 =-7ell 4.89
6 1402 13.4 B1l.9 -27.) Ale3? 37.18 —=5.44 8,56
7 27.5 27.9 73209 =44.6 29246 29-29 =9.79 9.25
g 325 51.2 51.7 @57.7 33.45 30.92°13,82 5.70
9 19.4 43.3 2729 @65,9 23284 47.34°15,54 3.78
10 38,7 50.4 BoB 268.9% 120637 51.52°10.97 5.17
M1 5124 12.5 =3.3 “64.7 4631 33.68 =4.12 3,32
12 54.4 43,8 =4,4 ~66.9 3e15 18.69 ©).08 1,21
13 4526 o)/14,4 4.4 -61.4 2.60 12.62 013 281
14 2509 =152,7 1626 “57.4% left) 9230 069 034
15 =7.2 =178.,4 26? @53.5 112 6.63 236 eS
146 =37.4 @177.3 3921 =49,3 280 4.50 el 67
1h 7/ @59,0 #157,9 P6o.) 243,82 062 3.58 025 e277
18 Ce ae | «=]?9,9 15.9 #34.5 e70 3.12 e033 =0.13
19 28.24 alI1,9 P29 =28.7 el2 2.26 023 0
20 272.4 =96.,3 21004 =20.4 069 1.71 013 018
21 =58,9 =90.,7 220.9 -14,.2 058 1.54 °20 007
22 941.7 =110,8 =262.R —-12.8 041 1.22 013 -0,.02
23 224.6 =139,9 =2R.1 -15.9 037) =1613 $0204 203
24 @1665 =166.4 =26609 =16.8 035) «61635 0014 017
25 #1322 179.2 23.3 -14,.5 eal 1.20 -0.05 014
26 =|4.2 =-173.1 =)]604 @12.6 025 093 #=(.01 =0,02
a7 227.9 =148,.8 219.3 =-9.7 024 091 =0.06 =-0,04
AR 229.5 @111,3 -7.0 =4.0 020 283 0 002
29 =32.4 =72.9 -6.7 4.9 e1l8 e78 010 003
30 =33.3 @43,) =6.9 15.7 el6 085 e13 =0,03
3) 279.2 @72.3 =5.7 2624 e1l3 08) e007 =0.05
32 21.9 =8,3 -1.7 33.7 eld 065 0 00)
33 =15.7 °2,3 4.7 3504 208 060 0 004
34 ered 3,4 13.2 32.5 Pe a) 063 20.02 0
35 ABs =3.4 22.5 26.8 ell ela =0.05 0
36 14.4 Vol Bow -ailice! el2 e7l 20204 ft)
37 2305 29,8 31-9 19.3 ell 061] 002 001
38 P2607 57.9 3064 2004 208 057 005 Y)
39 31.5 92,4 2426 24,8 Path) 054 001 0
40 Saou Wee 1664 3169 004 059 0 0
4) 3423 151,4 A. 406) 004 062 0 0
4a Too W7O6O 3.9 44.5 204 060 001 =0.02
43 4279 177.4 =0.9 4?.9 04 258 =0.01 7.03
44 Sa SD a = =5.3 35.2 205 054 =1.03 0
45 52.6 177.4 @8.5 2407 e058 053 0 eh Onl
46 6622 147.8 =9.3 12.8 05 055 Pao | 0
47 PVoi WwAO Ga -6.8 1.4 005 053 0 0
48 7306 187.1 =006 =8.4 005 052 =0.02 02
49 eA? 156.9 7007 =15.7 205 052 0 204
50 62.9 155.9 13.2 -29.5 003 025 201 v)
40
2)
~)
(7
T™ No.
O22 Om
RREI SS) A 2.0M= 1 Oo 27DEC=64 133721342
LAGS= SO NB 1359 Ts 0e2SFC
MFAN Us 13.6 MEAN We 09
CORRFLATION COEFFICIENT o 3)
K ACOV U ACOV w COV IN cOVOUT SP U SP Ww co QUA PER
0 239.7 2850,4 76067 9 352.99 25.08 16.08 0 0
1 233.5 7244,) 7761 209 64,57 55.15 28.60 =B,89 20.00
2? 71929 229,A 78.5 4.2? 55266 68.52 25.70 =0.02 10.00
) PMG — AVWNGE 80.2 605 37015 53650 14.80 6.77 6666
4 179.3 18,5 81.9 8o.4 15011 20.72 055 4.24 5.00
5 15R.6 165.) 80.20 9.7 8.219 9.23] —-1.86 1.60 4.00
6 139.7 141.4 T7608 10.3 5,38 5.25 -1.79 086 3.33
7 123.3 118,2 71.5 9.9 3-97 2.85 =1.46 049 2.85
a8 109.1 95.5 64.5 B.46 3.62 2015 -—1213 -0.28 2.50
9 95.8 73.6 56.3 6.3 3041 2004 =1,.36 =0.41 2022
190 B2.7 52.4 47.8 344 2045 1.66 =1203 -0.19 2.00
1) 6924 32.) 39.4 ee 1224 089 20235 -0.14 1.81
1? 55.4 12.9 315 =3.3 059 061 =0.03 =0,02 1.66
13 47.1 @4,7 24.3 =6,8 ea? 043 =(),06 -0,02 1-53
14 291 2©20,3 1727 =9.9 032 032 $0.07 =0,.06 1.242
15 17.4 =33.3 11-6 ©1226 023 025 -0.02 =-0.03 1.33
16 706 243,84 5A -15.0 el? 018 ©-0.01 =0,01 1.225
Wt @1,] =51.9 =().2 =1]7.) eld el? =-9.0) 0 WA
1R =n4 @37.4 “5.8 -19.9 209 016 00) =-0.01 os)
19 22,9 #=6).,3 =10.7 =20.7 ell 012 001 =-0,02 1.205
20 11.3 =463,1 =14.5 =22046 013 ell 0 0 1.00
al =13.3 =463.4 =-17.1 224,58 eld 08 001 0 095
22 @i5.] @63,() =18.2 °-26.3 007 007 0 0 090
23 =16e04 41,3 =17.9 =27.A 007 007 0 -0.01 86
24 1769 =©=58.5 =1666 =28.8 007 007 0 ti) 083
25 21428 954.1 "1467 229.4 007 006 01 0) 80
246 @=15.6 248,4 212.6 229.5 205 005 0 0 0/6
Y/ =13.1 241,? =10.4 =29.3 04 005 0 0) 014
2B 2905 =32.5 =-R.1 228.5 003 005 0 ia) eniall
29 m4,.7 =22.,7 “5.7 -27.1 03 003 0 0 268
30 24 -12.4 =2e6 725.3 003 003 0 9 266
31 bot =-1,7 1e3 °23.3 002 003 0 0 264
32 Wil 7 8.9 6e9 =21.23 001 003 0 0 062
33 17.3 19.3 11.3 219.3 001 003 0 ) 260
34 2729 29.) 1667 17.6 Puta | 202 0 0 058
35 PAS 38.) 220) -16.5 20] e002 0 (9) 65)7/
34 33.8 46.7 2704 #15.9 001 002 0 0 055
37 3409 55.7 3264 15.5 001 001 0 0 054
38 44.1 43.4 3608 -15.1 00] e01 0 ) 0522
39 49.2 PUG 4005 =14.3 0) 002 0 0 °51
4/ 54.2 78.9 43.4 -13.9 0 02 0 0 050
4) 5R.9 RBG 4 45.6 =ll.1 0 e001 0 0 248
42 632.3 a8.) 47.9 =8,8A Q 20] 0 0 047
43 67.2 R99 47.8 "662 0 eO1 0 0 046
44 7920 90,1 48.2 3.5 0 e001 0 0 045
45 T7123 RB,7 47.8 =-0.9 0 001 0 0 044
46 79.9 A5,4 46.8 1.4 0 01 0 0 043
47 6224 20,4 45.) 4.1 0 001 0 0 042
48 644% 74,2 42.9 6.4 0) 01 0 0 41
49 59.3 66.46 40.20 9.3 0 001 A) 0 040
50 5706 57.9 3665 11.9 0 0 0 0) ° 40
O23 U
BRFIS 9
LAGE 8&0
om
25Me
Naw ]44)
MEAN Ue #5,5
CORRELATION
K AFOV
0 %555,9
1 54?P.46
@ 813.5
3 474.7
4 429,9
5 381.2
& 479.1
Dita)
8 214.7
9 155.7
10 92,2?
1) 42,8
12 =4,.46
13 @52.8
14 =95,8
15 137.9
16 e177.0
17 =7)5.7
1R @753.3
19 @785.6
20 2414.6
2) @=332.46
22 @357,3
23 297929
A ne a)
25 =377.6
26 we tTlal
eT 2152.8
2B =339.9
29 =317.R
30 |@28%.48
31 2#243,6
32 2703.0
33 216%.?
34 o)1502
35 =68,.9
36 2227.46
37 27 oh
38 65.9
39 104.8
40 144.61
4) 182.)
4? P17 eA
43 246a,9
44 AT46,.5
45 2399,9
46 319.0
47 333.5
4R 3442,7
49 346.4
50 344.5
ox)
27TJAN=65
114521150
Ta 1,ASFC
MEAN Ws
COFFFICIENT
e3
057
TM No. 377
1) ACAV w COV TN FOVOUT SP U SP WwW co QUA PER R
7329,1 =333.5 9 14623 6228 =-4.06 b) 0
716.5 2331.65 69,1118 e59117000"80012 62.55 202.00
659.9 =325.9 116.8217.06258.56162.9%139,99 10.00
591.1 ©31505 16666124076192.83"92.79 95.14 6466
518.R =799.3 208.4 25200 67.59 =2.67 27.94 5.00
446.9 277709 2426.1 170681 35.50 4.22 17.90 4.00
370.1 224904 267.7 13024 17089 12670 10.92 3-433
288.1 ©2170] 285.5 5e93 8.07 073 4.06 2.85
198.9 @1/81.7 295.6 Peal 4.43 e25 1.27 2.50
195.9 =144.0 298.5 1025 2266 el2 058 2e22
Vis) @114.,) 294,A 91 2036 een 030 2.00
@=61,.6 ©6106 28543 1e24 2.82 255 ee7 128)
@o127.7 170? 27164 1061 4618 049 050 1266
=183.,3 ?Be1l 255.9 11659 4e71 2°36 068 1.93
2231.5 7207 237.9 1019 3-84 035 055 1242
@275.9 11567 229.2 ef? 2.60 028 009 «1233
o314,4 156-0 201.5 058 1.75 007 -0,02 1.25
=349,.4 192.8 180.9 e042 1-08 -0.01 =0.0) 1.617
=@378.,8 225e7 158.9 032 064 =0.05 -0.02 Werle
-400,1 254.1 133.3 e039 048 =-0.05 004 1.08
@o413,4 PTT ol 107.58 022 040 =0.02 207 1.00
=470.7 294.4 8.7 018 30 0 003 095
@471,7 30604 53.” el5 e258 0 0 090
0417.9 312.8 24.5 009 026 0 =0.91 2 86
“409.5 31469 5.3 007 e3l 9 =0,01 083
=397,4 309246 =35.,7 008 eel 202 =0.02 80
@39],9 299.9 =66.4 07 0l6 0 =0,0) 0/6
=358,6 284.9 =96.A 006 013 =0.01 0.01 014
=329,7 764.72125.4 007 013 =0.01 =0,01 el)
=?95,°) 239.9-151.1 007 013 =0.01 0) 068
=256,.4 21164-17322 26 ell -0.201 0 066
@=214,3 1890.3-192.1 006 008 9 0) 2064
@169,.8 147,3=2207.8 005 007 0 0 062
@123,8 112.6=220.2 204 06 0 =0,01 260
275,8 762.9=228.4 A e0T 9 =-0,.01 258
226.1 40.2=-23262 005 208 @1.01 0 e577
P4a&.A 32.9=231.4 203 007 0 0 095
75.5 =34,2=227.7 003 007 0 0 054
124.4 ©7023=219.6 003 006 0 0 052
170,8 @194.82210.2.9 02 006 0 0 05)
214,4 @1372-3-198.,1 00) 206 0 0 050
253.2 7166.9=183.9 00) 007 0 0 048
286.5 =193.5=164.4 002 206 0 0 047
314.5 =216.5°142,7 002 005 0 ) 046
336.8 @735.3°118.4 01 004 0 0 045
352.7 2249.4 292.8 001] 004 0 0 044
362.1 =258.2 =66.46 001 004 0 A) 043
366.3 26105 23904 002 004 0 0 042
365.7 @259.9 11.2 002 206 0 0 4)
359.3 =253.7 1864 202 0096 =-0.01 0 40
346.7 ©243.7 49.9 0 003 0 0 040
‘d
QUA
0
9.72
5.81
1.86
1.14
1.98
4,48
4,61
2.12
266
016
-0,08
=0.01
=0,05
-0,09
=0,04
205
202
0
@0.01
0
=0,01
o
024 U om
BRFEIS 9 o5M= IE Os 27TUAN=65 122421228
LAGS= 50 Ne g18A NT2 0,2SFC
MEAN Us 3,2 MEAN We 297
COR TION COFFFICIENT =—o47
K AFOV U ACOV w COV IN COVOUT S® U SP W co
9 49909 A929 —PHleo? 0 347260 5-91 1289
1 6746.9 854.5 =260e¢7 $925113e73 98.28°47,79 39,92
2 457.8 762.3 225705 11364167016267.77124.8%117,90
3 41601 642.1 225006 157.5195e48252.89"89.0A102,00
6 37705 518.7 =23569 191eM PRe34 960459112672 32.35
S 33761 499.9 =21301 21520 12632 35648 1.68
6 29463 3223 =182.9 233.0 VODY 24.61 =0.49
7 7254.7 250.9 =148.4 248,0 4016 13.70 -0.09
A 212.0 1Al1,1 111066 261.1 34628 12625 035
9 168.3 193.2 #7465 271-63 3208 17236 1.282
10 12347 10,4 =38.6 276.7 3.47 23.62 2046
1] 7Re8 =94,7 @=308 272.6 7026) 20661 1.51
12 3445 =7N2.4 39.5 259.3 1252 10.32 1613
13 -7.2 =300.4 6466 237el 1.02 3,95 097
14 m=44,9 @377,8 9729 208.8 08) 1,84 4h
15 @=78.2 =4327,9 13061 178.0 Olle 023
16 =-197.8 =453,1 16004 147.1 046 097 ell
4? 2137.5 @461.46 187.9 118.4 edl 070 006
YB =15363 —4463,8 211065 91.25 034 059 =0.03
19 2175.2? ~©466,0 7230.8 65.7 032 039 (0)
en =184,6 w47,4 244.6 39.4 226 026 002
21 @©198,.9 23474,9 252.8 19.8 e2l eo23 -0.01
2? e24e2 2473.7 254.6 @20.5 014 024 @1.03
23 =-299,2 =459,5 251.9 =52,.7 ell 025 )
24 2707.7 —=430,.9 242.1 784.0 e10 e25 -0.03
25 2207.0 =384,9 228-.6=112.2 009 020 #7.04
26 219124 @3?77,9 211.21-135.9 el2 016 ©0204
27 e177 e4% 2262.9 191.22°154.6 014 el2 -0,.05
28 216%e2 $197,898 16909-16824 010 elf ©0.03
29 14°29 ©125.6 14522217766 209 ell -0.01
30 #11901 277.7 11961-18361 009 °l2 0
3) =946.1 223.0 90.3-186.5 007 2°10 0
Se Ov} ot 29.7 58.8-188.6 007 209 0
33 245.5 R1.9 2622-188. 208 007 0
34 =19a) 133.9 =5.8-185.5 206 007 0
35 WOT 123.4 @=36.3°1772.6 006 007 0
36 35.4 228.4 @64,82164,4 006 005 0
37 63.7 765,46 =89.9=146.6 205 04 0
38 89.3 291.3 =11907=125e6 205 005 -0.01
39) 11265 394.4 —128.12103.4 006 004 -0,01
40 137.1 396.4 =-1432.4 =82.4 005 004 =0.0)1
41 14768 391.4 =-15764 ©63.A 004 005 0
42 16%6¢1 294.9 -1700e7 =47.5 006 004 0
43 169.1 227.9 =182.6 =32,4 206 002 0
44 175.2 723.) =193.2 -18.4 004 002 0
45 178.3 278.9 ©£199.,.7 =2.26 005 003 0
46 178e9 270.9 =201.90 15.5 e07 094 0
47 178.1 255.1 =1960e6 35.8 008 003 0)
48 175.0 231.7 =187.0 56.4 206 003 e02
49 168.3 200.) 2173.9 75.7 204 004 0
50 158.4 162.8 #15909 91.46 202 092 0
Bali
T™ No.
0/6
262
260
0 4A
046
40
Sy
T™ No. 377
o25 U om
BRE; S 9 220M= 1 Oo ATIAN=65 123521240
LAage= 50 N® 1365 OT2 0.2SFC
MFAN Usa 11.4 MEAN WR 4e6
CORRFL*TION COFFFICIENT @o43
K af OV tt ACOV W COV IN cOVOUT SP U SP W co QUA PER R
9 444,464 493,4 =21204 0 24.23 240.17 =0.40 fy) 0
] 43¢,72 423,88 =200.9 35.9195.59 90.72235.82 48.98 20.00
2 427.8 461.8 ©1960? 7169175036171. 70"91292114012 10.00
3 40061 429 .4 =-187.9 104.9198 .63140.502°68.02 76.35 6266
4 471.8 3R29,3 @175.5 134,2 1560629 39.90210.42 10,81 5.00
5 339,3 343.3 -15Be7 161.2 4094 8.69 0/3 1.26 4.00
46 QA0I.9D 293.9 =138.0 184.4 2278 5.13 ol4 1.7) 3.33
7 7651.3 239.9 -11420 204.3 1041 2014 04? 024 2.85
BR 71701 185.1 28704 21929 1031 2008 051 009 2259
9 171.6 129.1 =59.2? 231.2 1210 2017 1205 203 2.22
19 124.8 VEGA =30.23 234.0 297 1.80 0178 e28 2.00
al 7722 Wier -1.5 240.) 256 97 033 219 1.81
12 C9e7 36.4 P60) 237e4 035 052 003 014 1266
13 =14.8 =87,1 52.3 230.8 026 228 001 «05 leo3
14 61.3 =1433,1 T6088 21929 026 029 002 001 1.42
15 2103.2 #173.5 99.6 205.3 el? °25 004 =0.01 1233
16 141.6 #©297,3 12066 187.4 013 020 e005 Oe lieeS
17 #17509 =234.7 13924 16702 ell e1l4 004 Q rilott
YR @620S.7 =753,R 1552-5 144,3 009 014 001 () 9 WG dA
19 273°%.6 «@766,5 168.2 119.2 207 0l4 0 0 1.05
20 e25%07 @=273.9 %l177el 9203 208 01% 0 -0.01 1.00
2) @765,./7 o774.0 18129 64.0 006 010 0 =0,.01 095
2? @7F7T5e7? =769,5 1B204 34.7 004 007 0 0 090
23 0781.5 ©759,7 17961 5.) 004 005 0 0 86
24 @245e0 0744.4 17109 §=24.3 004 006 0 0 83
25 227401 7274.7 16165 2526.9 003 206 0 0 80
26 =753.1 ©=199,3 14823 =80.9 003 006 0) 0 0/6
27 2746.9 9170.5 132.9=105.2 003 205 0 0 0/4
28 @7?4e3 =)3A,4 11526°127.4 002 005 0 0 el)
29 @2(I1e5 #1N3,4 96e6-147.2 001 004 i) 0 268
3n @)72.48 =67.4 71603216304 e0l 004 0 0 266
31 2142.9 =20,4 54.7-176,2 001 003 0 0 064
3? 211949 6.4 32.24-185.3 001 003 0 9 062
33 =75.9 42.0 92619066 001 002 0 0 260
34 #32,9 75,6 ©1322-°192.3 001 003 0 0 58
35 @=2.5 196.4 @35.32190.4 001 003 0 0 AS7/
36 332.5 134.7 256.7-2185.1 002 093 0 0 055
37 62828 159,4 2£76.62176.3 002 004 0 0 054
3A 1027.4 J80.4 =94.7-164.2 eA] 0G 0 0 052
39 134.4 198.9 -11025=149,.3 001 003 0 0 05)
40 16366 211.9 2£12329-°132.61 001 e002 0 0 50
41 189.8 221.6 =134.62112.9 001 003 0 0 048
42 71763) 277.4 214266 2926.2 M1 003 0 0 047
43 237.4 229.7 -147.28 =70.4 001 002 0 0 0 46
44 242.9 277.9 =15002 =48.3 001 02 0 ty) 045
45 257.4 270.5 -=149.8 =26.3 0 003 0 0 044
46 255.9 210.5 -146.7 =4.7 i) 003 0 0 043
47 254.64 197.6 -141e1 162) 0 02 0 0 042
48 2429.9 182,27 ©13309 3622 00) 002 0 ty) 04]
49 P3722 144.3 212206 55.3 001 003 0 0 040
50 222.2 144.4 =109.8 73e). 0 092 0 0 040
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K ACOVW ACOV Ww COV
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902 11.8 6257 3.37 054
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11.2 11.2 feQl 5.22 -1.97
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11.9 =5.5 1.37 97 =-1.210
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601 lel 00] 008 0
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PER
20.200
10200
6.67
5.00
4.00
3.33
2.86
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1.67
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10
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(0) Ge3
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6 303
7 Pe
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9 Pac)
10 Pi)
11 af
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15 1
16 ret
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18 ceo
19 226
29 Per
21 Pel
22 106
23 1.20
24 «4
25 “tie?
26 e677
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eR 21.3
29 -1e4
30 =)24
31 @lee
32 @e0—e9
33 e066
34 ea
35 2?
36 oe)
37 08
38 leV
39 lel
40) lel
4) lel
42 LeU
43 9
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45 of
46 i)
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COEFFICIENT
ACOV Ww
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49,3
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43.4
39.9
44,9
307
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POMAY 265 12561306
UT= UecSEC
MEAN w= 1¢5
els
IN COVOUT s# U SP Ww co
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eel 46] of3 4.0] #0e2k
1°6 49 053 4.22 046
1.9 523 1lel9 4.30 e87
Pie) eZ ofe ee 30 046
i?) 4.9 026 064 209
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24 =o os
25 =-?.1 =2,2
26 =3,2 2545
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29 “4.7 oH AR
30 =4.2 8.2?
31 =3,3 -6,9
32 =.) a4.
33 -1.0 =-2.9
34 e') ae
35 lel ae)
36 Po!) 5.4
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39 323 Vora
40 302 10.)
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1
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cov
T™ No.
Oe 25MAY=65 1340-1350
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14.4 Pace 11256 1205 2.98 320
14+. +el5 12.52 2095S 5.45 4.00
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T No. 377
030 CI-w
RRFIS 1) %,54@I2 TCe PIMAR@OHS 1630-1634
LAGSs 50 NS 9974 OTS 9,2SFC
MEAN Wh= 1,1 MEAN UAE Ve3
CORREL: TION COFFFICTENT 29?
K ACOV Wy, ACOV Wa COV IN COVOLIT SP Wk SP We co Qua FER R PHI
0 1289.2 674.1 829.2? Oe 2.67 4.93 #045 200 el2 000
1 1195.4 S94,7 784.5 306 15047 11257 2o47 31 20009 222 7026
2 973.3 497,46 65561 72.9 %GYo28B 10295 3056 646 10000 034 71548
3. 6594.8 307.27 462.1 9.7 827034 41281 42.22 25 6266 o9N 034
6 783.6 276.3 22eT 5020277 020162040 208 .2022.34 5000 «.9R 264
G8 «9>.7 33.8 #2066 824437 040220090 30726409 «82 4200 099A 015
6 2437.) #1325,0 =7257.5 4.9281200117230 178.40 5,33 3233 298 1.90
YOUN tah efk83.3 @#459,? 12-8 99.91 28.73 51,90 3.29 2285 097 3.52
R eh®Dh LY ©8396, 3 261404 =?.28 44,52 9.35 18.77 2628 2230 92 2009
9 979.5 3466,9 —483.3 "7.0 75.76 3.69 B.48 65 2c22 087 4641
190 #96°.7 #490,5 =694.5 9,5 14.79 2007 4.43 033 2000 89 4.32
11 ©A5S5.1 =4467,0 —=6£49,.5 =9,8 6,67 087 aes) 03) MeSl 60 “1.24
12 #48 25 @471,3 #537 24 @8,7 3,9) 062 057 -.16 1.66 0 JR {5,59
13 #454,4 393.5 #=382.5 =6,.7 7.85 045 025 207 1693 023716242
14 ©7521 2182.9 —207.6 2328 2018 049 0278 =.10 142 e2€8"19.76
15 497.5 52.5 =2307 «7 1262 046 020 *.03 1633 024 =9,96
16 283.) 75),.0 151.5 4.0 1228 042 ofl 02 1625 2A 6236
17 477.3 }90,7 303.0 TA 1.12 e3l 070 203 1.17 «35 10219
YR 4623.9 783,90 41809 1067? 1236 029 029 «64504 Nell «46 9-65
19 79121 345.4 492.8 13.5 1.38 028 034 .05 1295 54 9,65
20 7186.1 375,3 519e1 14.9 1204 028 e27 690 1200 .50 1.429
21 649.5 3790.3 498.0 13,9 264 026 e010 -,02 095 e27214.79
22 562.3 332.7 433.7 Vikas! 252 230 008 @,04 090 0 24"25.9R
23 411.3 270,9 335.5 724 249 eel 208 @,05 086 e2/730206
24 23 ol 186,28 213-8 1-9 04% e23 095 2,05 083 023°41.19
25 47,4 93.3 BO.7 23.2 245 e23 03 #,04 280 0 lL R-§4,())
26 ©1328.46 2,9 =5.3 9,3 0 44 e22 001 @=,00 0/6 003 ©9219
PT =P9R.5 —s9378 et7Het 213.8 ase att #04 — 106 74 7 26=65.60 —_
28 41807 @=171,9 2268.9 1704 e33 lS #07 094 ell 06 38"%33.45
29 @©497,6 @o731,3 #338. 919.2 e3e ol? @=o16 202 06 0621722097
30 @S?P4,7 =?66.6 @2374,48 =18&.9 030 218 ata =,00 264 004"272.2)
3] -§15.9 2778.5 6379.9 915.9 o33 oil el 200 064 08 6.77
32 ©4632.) @267,7 335402? @lLiel] °29 015 e0l 290 062 005 27247
33 ©379,.0 e736,7 #30128 o3,7 e2l SACHA! ie COI | 200 060 209 12.36
34 @771.5 =©186,4 #728.,3 2eA 025 028 204 »,03 09h o21°43.36
35 9149.3 9175.2 ©1405 9.0 235 eal 004 #99 037 031763,86
36 @=23.4 ~56,4 246.2 15.9 040 e20 205 =,06 055 029"49,31
37 94.7 T2.5 G6.T 19.46 035 ell 003 ©,02 054 621241.99
38 245.3 Wine Woosh 9 Below) 033 18 000 =,05 032 023783274 :
“39 797.5 “133,3 202.2 24.6 «3% &2».25 #.00 *.09 .SI «32 87.52 ~~
60 351.8 175.3 254.3 2363 030 e20 =o =,08 050 038 62295
4] 3B? AR 291.4 2B4e3 19.1 eer ~ elS @,06 =-,04 048 639 33.16
42 38°.7 2N9,6 ?A9.9 14.41 226 015 e114 #03 047 027 37042
43 354.1 201.2 27209 bel ee3 el? #202 ©,03 646 o20 $2.94
44 300.0 MA) 23509 =Pel 023 e15 #04 =,01 045 023 26.35
65 225.7 139.4 U8lel =Il.3 #22 e009 Se0% =,00 244 o31 11.98
46 138.) 92,5 115e2 =17.7 018 ell #00 =-.01 043 209 67.51
a7 43.9 39.4 42.5 =21.5 Py ae ol? = 200 #00 042 o04e7T2.90
GA 969.7 $16.0 93203 =23.4 023 018 9006 102 041 024=23,51
49 2143.4 64,7 610267 $24.8 524 1S —s07 01 040 6 39513297
50 =22504 2119.4 =164.5 =22.8 ell 007 e,03 200 040 039 =,00
B-13
03) [Oe
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e54=21E Co 29YMAR=65
1630-1634
BBEIS }1
LAGS= 50 NS 339 NTS 0.2SEC
MEAN We -1.) MEAN Wit 002
K ACOV Wa ACOY W COV IN COVOUT SP WeSP WM CO
73101 1615.9 193408 0 1667 2683 ©0,34
68764 1496.4 474.2 28.7 6041 12648 4.13
56Re0 1199.1 79703 53.2 Bel? 6074 1222
38Re6 768.9 S3le6 71-8 26025 41.695 31.13
17306 272.9 213060 8367146629272.10196.30
ee
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398.4 =/27,4
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120.0 370,0
269.1 663.3
378.7 8460.3
438.2 944.4
445.6 911.5
4056.3 775.4
327.3 566.2
22504 372.4
113.3 RO, 7
5.5 =-176,1
=88.0 =282,4
=159.4 =3R4.6
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@22544 =439.4
@=222e3 -407,.7
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-169.9 =274,4
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97.5 -1275.1
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19.3 =P3,R
2709 -7,7
49.6 32.7
7606 193.9
197e7 194,46
140.2 292,2
168.2 382.6
186.3 439.7
189.6 444.9
17322 387,09
136204 273,0
80-8 117.4
1226 =54,8
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20503
414.8
561.5
632.9
62724
553.9
478.6
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1264
41.5
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2857
29104
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85.9197251446.02291.2A
7509 73209207.75124.55
6164 10e¢08 42.18 19.22
40.6 087 12.78 3.53
16.2 2e41 16620 5.97
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-69.8 e065 2.285 2°20
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-74.7 042 1.64 e2l
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-46.1 008 054 -0.04
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5.9 26 087 =0.03
34.4 el2 eST -0.l2
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os. oh. oni), OW 40F
89,0 el3 029 03
89.8 005 °38 -0.01
80.3 002. 240 =0.04
60.9 002 047 -0.04
35.7 003 260 0
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19.7 003 003 -0.03
33.2 005 206 =-0.06
40.0 007 el3 =0.09
40,5 005 025 -0.09
37.0 004 039 =0.05
31.6 005 050 70-04
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™ No. 377
QUA PER R PHI
0 0 e1l5 0
3-60 20000 61 4lel2
4,82 10.00 0.99 75.79
3.87 6067 095 7.209
21.28 5090 099 6el9
41.6%] %c00 099 6678
22244 3233 9A 4.240
=2.44 2286 098 -l.12
@-2.25 2.50 094 =6.59
Llell 2e221e1)1 17240
082 22600 037 7.283
035) «612682 0.90 3250
038 1067 e719 5072
027) 1643 025 353267
219 1633 o19-72042
023 1625 038 47264
005 1.18 015-67,03
203 lell 025-35.37
-0,01 1-05 0=72e62U
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=-0.03 091 027 22673
0.0) 087 ell 37¢84
203 083 023 46016
004 030 0632-73-67
204 ol7 061-47.13
005 014 0 18=53.12
006 ell 042-85.90
204 069 6 35-83.74
0 e067 208 11228
01 065 0612-35648
092 063 280-3) .83
201 e6l3ell=-1004%2
=0.01 039 o%7 20007
0 e397 2f9 2e%4
0 056 003 48.33
0 e354 ol? 5290
eOl 053 024 351.78
002.) eS] 0 44-50235
0 050 095) 70225
=0,02 0491.07 19293
=-0.01 0481.02 5200
0 V4 047 e88=22.,02
004 045 0654°39.30
=0.01 044 023 18015
=-0,06 043 o37 78.53
0.05 043 045 82.64
-0,02 042 054 40237
-0,01 a4] ell 18-21
0 040 «48 0
nNOS 2500 CI-w
BRen Ss i Y.5%—8 9 Se 2OMAR=65 1713-1716
LAGS= SU) N= 446 NTS Ve2SFC
Ee MEAN ow hi ou 3 ill ek ee
K FOOV 53P PFRIOD FREQ(MCPS)
0 10522196 ng AS 0) 0
1 989.3350 YeWdD PUD 50.20
2 A8i.338 L4e9l0 L060 L00¢0
3. 557.2635 65.139 Geil, 150.60
4 25162152 224.,95H_ iW) UO Os a
S 932-395 3372/14 4.9 25000
6 =3414.722 227,293 3,3: 300.0
tT =5552785 94.653 2eD $5020
R -709,311 43.947 205 40000
G 27412799 132129 2.2 45020
10 =767,952 1.395 2090 500290
1) 2#A6 24? 7 5e)4? 1.8 550.0
12 =-534.4993 492A 1.7 50020
13 2351.62] Pedi 1.5 650.9
14 #)52.759 2.597 1.4 70000
15 37230] 2 e474 1.3 (5060
1A P36 465 (12543 Lotass 00 6@ 1 wee
17 33%./06 esa 1.2 450 ef)
18 435.2699 0497 1.1 90020
19 415.779 039 lel 95060)
CAN E/E A lash 0466 1,9 1000.0
?) 443502154 0470) 1.9 195020
22__ 367.507 2452 29 110020
23 2672259 034 oY 1150.60
24 167.2708 0254 eX 120060
2S 55.795 o 138 eR 125060
PA 245.388 — e198 eX 130060
27 =1422.113 e270) at NeISWG@
_ 28 =224+430 OCIA ere OUT AU Us ee eee
29 =?89.765 2198 Tor tCawWSw
35 =329,419 2115 e7 «1500.0
31 =-345.597 2019S 05 155000
32-31-2744 2143 26 160060
33 =-254.372 e171 06 165020
BO NOP sees oly 06 1700.0 _ A ee
35 =-95.913 0192 oh 175020
36 4400? 0147 06 140000
37 112346194 156 ©5 185000
38 700.48 ol79_ 05 190060
39 PHALUDT 2199 o> 195009
S022 Mra e745 aie eA U0 ORO Re ee eek!
4] PES ,477 e224 5 255000
42? 242.478 e232 5 210020
43 1552437 0202 05) 21500¢0
44 972195 —elA4 05 220020
45 =4.656 e218 4 2250.20
46 =94.460 Pohl SOC Tr d=IGS) , 24
47 =16%.54] 2243 6mnPSS0.0m) soe
46 =2122705 e lv 04 240020
49 =737.21R8 w Bnei 64 )=— 245060
50 =7227.41]1 e118 04 7500.0
B-15
IM No. 377
Oo3s I-w ee cmt eee i
BREIS 1] oe o1- IE Se 29MAR=65 1715-1720
LAGS= 50 N= 1130 NT= VeeSEC Stic eae
MF AN vs =2,4
K_ ACOV SP =. PERIOD —é“‘éPRREQCMGPPSSYD”~”~”~” pie
0 1934.285 3.276 0 0 ne
1 965.594 7.748 ADS) “A EWGo Pe Gia ae eae
2 PAaBoO UI 19.446 10.0 100-0 rie
2 525.2129 56.973 6.7 150.0
4 222.582 221.882 5.9 20020
6S -8).035 375.243 £4,090 #25060 TET ne oo A SS SRE eG ae
6 =A 1e18P 214,744 3.3 300.20
7 =-56°.167 93.8727 2.9 350.0 .
8 @6A9F.53] 41.597 205 400.0
9 =754.225 18.988 2.2 450.0
10 =734.632 14.3462 20!) 500.0
11 -453.186 B49 9 | leSem SS0n0n j : 7 Sy
1? =-5]2.428 4.243 ot 500.0
13 =344,245 22459 1.5 650.0
14 -167.103 1.580 1.4 700.0
15 27.811 2849 1.3 75000
16 198.440 26R7 1.3 800.0
ihn) SSO CCME so49 08 olism TES 00 Pri Gas Ti a he
1a 435.477 04? Noa th 900.0
19 486.437 6 344 lor 950-0 ares
20 49°.°74 eo74 1.9 4100020
21 46512153 0216. 12-9 1050.0 Pm
22 377.2532 2188 °9 1100-0
2) DIOcEM” obsf “oo WTSWoO malakwa a
24 169.472 0144 08 120060
25 542569 =~ LD. °& 1250.0 <r ae
26 =-49.30) 2183 °8® 1300-0
27 -141.206 ° 2156 6v NIS06O" 7 cette re hay pea
28 =72156455 2153 eo? 140020
i2ome eS OOM a nC Olel0. err
39 =302.,474 e123 ce’ 150020
Si Seis Ssh oGubite oo 06 1550-0 peewee aS ae ae
32 =30).744 alolyy 06 160060
33 =?P6%.40R 8=§©=— 1909 —~S ~e6 165020 Sr a
34 =213.752 aii e6 1700.0 el
35° =147.957 el Ol 06 6175000 i
345 =-546.110 e009) 26 180020 59
37 37.719 2093 5 1850.0 BRET at e
38 117.2620 2090 eS 190020 ee "
39 19).162 0978. eS 1950-0 —
40 ?46,.489 e077 oS 2000-0
41 e Be 6 e 5 e e
42 28?.199 2072 eS 2100.0 haa
43 257,589 _ AOn2 1 6S 2lDb06a Tare gas
44 2052435 0997 05 220020
45 131.909 2990 ~e4 225000
46 45.162 0985 04 230020 ARS
47 =436194 2085 ome Pl)
48 =-122.329 2079 04 240020 4
49 182.376 2082 04 245020
50 -217.443 0044 04 250020
B-16
O34 LI-wW
RRFIS 1] P~.0¥=e'] S
LAGS= 50 Ns 1458
MFAN wit =0,2
K ACOV Se
() AK&aYTO 323348
] 401.933 ee!
2 ASN 6 (OO So SIS
3 247.265 44e154
ES NeWoa (Ney WAG 6 SIS ey oe
5 Cae 4249 152.2497
6 =-101.804 93,994)
7 @=P11.2656 Syalq ei
BH P94, YTS 12,844
9 = 945,953 22919
UO Sree (Es) GeO
J] =335./778 10087
12 =?62.199 0885
13 -2]8.552 0443
14 =) 352989 - e34uU
15 -#48,)52 2259
IS Seo @50) 6 we aa
i Meso ey 6 les
1R 162.419 0194
19 700.829 0176
20 2)%.2RR SMe
Zi" 2a sie 2963
22 202.504 £066
23. 06173448) 0044
24 134.46) 2040
25 BR.A4? 01043
26 39.700 S030
27 172406 0945
28 =58.576 2037
Dey GUUOMS677S OO ne un
30 |-1342664 022
31 21572967 20Al
32 -169.233 0074
33 -167.832 £2023
34 91536813 023
35 -12°.187 eNLY
36 =-927.,.733 0915
37 =3%e 229 eI01A
32 =3.592 e012
39 47.56? 010
40 45.338 e010
AM Ty Aare) ln OM
4? 145.907 e011
43 i>8.578 0009
44 1380465 2099
45 145.711 e019
46 127.159 e012
47 Gh. AT3 2012
42 57.98? e911
49 13.457 2099
59 =24.902 2005
e 2PIMAR=65 1734-1739
OT= 0.2SEC
»PEQTOI FREQ(MCPS)
') 0
20." 5020
10.9 100.9
6.7 15009
5.9 _ 200.0 ieee
4.9 2502.0
Sos) 30020
2.9 350.20
2.5 40000
2e2 45060
a AM SOW ow
1.8 550.0
1.7 60060
oe 650 e0
1.4 0020
ers 750.20
1.3 800.0 i
1.2 5350.0
Vol 2010710
Weil 950.20
TSO NOOO sO.
WG6) 1050e0
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09 =115029
oA 120020 ES
Cie! 1250.0
eR 1300.0
el 135020
el 140020
WS MAS060
oT 1500.0
06 86155020
06 160020
iy 26 1650.00 | -
06 3700-0
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26 «160060
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5 195020
05 200060
05 205020
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05 220020 a
04 2250.0
4 2300.0
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o 7400.20
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04 250060
™ No.
oss recess pSeasigs i Ratu es 2 3TT
BRFEIS )1 3.0%" 1] Se 29MAR@=65 1748-1753
LARGE GO We Maa 9 wye OS2Seer exo ae
MEAN w= #01,9
K ACOV SP. PERIOD FREQ(MCPS) =a ae
0 305.8893 12648 0 0
1 291.943 3,759 20.9 50.0 es 3
2 254.129 R259 10.0 10060
3 1976017 43.663 6.7 150.0
4 126.166 100.103 5.9 20020 :
SAMS UZE EOS Miame Comm CEWoUn. Tes Geer > a
6 =37e535 38.179 eh S) 300.0
7 oOVG@aanLA 2,542 209 35029 =
R =163.97) 2,964 AGS) 400-0
9 =@P)R.91L4 1.182 2e2 450.0
10 =P 3%. 1] 6 ou)! 500.0
il GRAV SIAG 647 a io) SSU6a tia ae ae aoe
12 =228.668 2331 Mot 600.0
12) SIONS IAG oQin 1.5 650.0
14 @156e2704 0190 1.4 70009
15 -104.119_ 1A) Los) 75020
NOU SO Va ae 1.3 BOW 6:0) 4 pezats id Wl dhol belie
7 R.Y1K 016 1.2 850.0
18 67.2186 e085 Nol 900-0
19 104.383 4007 lot OS06@ Wy y
20 134.962 002 10) a) Ol0/O%e10
21 1572995 2047 1.9 1050.20 <a
22 143.898 0044 °9 110060
» PJ HSM aGr. po soee ZO MINISIOVe0 poets casa
24 141.398 | 0049 o® 120060 : ‘
25 1152662 — 5OS)3). 0 08 125020 .
26 432.2463 2033 oA 1300.0
Ay aie 9036 ov) WESO60 7 = ae
28 112469 2035 of 1400.0
ipa 29 a acy) e 6 ° e apa
30 =5?7.115 0022 a’ 150020
ily “SYSoccrn. © HOUR 06 155020
3? =97.787 2019 oS 160060
33° -98.748 = 015t—“‘éza OC HHO ai i z neh
34 =97,R35 eIL2 is) 1700e¢9
~ 35° $96. 314 7 Owe GrmIn DOO
36 =-74.947 0914 -S 180060 Z
37 =-59.352 0014 25 1850.0 i
3A 939.967 ~—_ 013 05 1900-0 A
39 =)7.2769 001? 05 1950.0
40 22436 2011 eS 2000.0
41 2162638 eOll 515121015 Ole
42 374355 2012 2S 210060 _ Jat
43 49-2447 e913 5 2150.0
44 57.58 2012 °S 22000 ede
65 612759 2910 04 «6225000
46 62.018 2010 e4 2300-0
Tena: 52.552 2010 04 2 00
48 52.188 2009 «4 260020
ALY RIS IGE) 2009 04 62450020 = ena
50 37.634 2005 °4 250020
B-18
O36 CI-w ce se -
BHEIS 11 Lob ti >) PIMAR=65 1803-1808 hes
Lags= So N= 1490 T= 02ASEC
DECANE = Be) gees ees eee oe 2 a
K ACY 59 PFRION FREQ (MCPS)
0 5329=<0 3r=/
1 Shi Ga t/ (aos P20 5) ¢0
2 460el_ Aded 19.0 10000
3 37622 62.5 4626 150.0
4 271602 SE Se) e0Me0 _ eae [ce Nap ee SNe AA
5 W727 6.8} 949.5 4) 25009
6 72.4 41.9 33 30000 Be ew,
Y -17.4 25.8 2eh 350e0
R -77.2 11.4 2.5 49020
9 2119.1 os) Pee 450 00
Ho) Noe 258) Pe 50000 (eye eer!
11 2135.6 oS led 55.20
12 -114.3 8 126 60000
13 am44,4 eo LoS 659.0
14 -45e6l mae le4 (0000.
15 -3.3 ae 1.3 15009
WG) A@ane) Niger B00e0_ Papen eee ae
Nez, VN 50 el le] B5 500
1k 4609 el lel GUI eI =
19 112.6 00 160 949.0
25) L'a 20 120 100720 = _
21 Ti o's) 20 09 = =6105060
(A Se\5 (Ll) Cie ee sy LO Oe Se eee ee Ee As ae
23 74,8 A 8 115520
24 Brie A) oS 12000
25 2001 Pa) 8 1250-20
26 -7.8 9) oil el S000 iow _ 4
el =3322 Pa) ef 1359.0
23 =54,6 PaO) of 140000 AS
29 =171 ae Pa) Pils) 145.0
30 =8()e6 5 (0) Pie) 1500e0 =
31 =24.2 aie 0 06 155000
32-2149 -i 06 «160920 a
33 7464 a0 06) =165000
34 =A3.0 50 eS 170020 gd ee
35 H49.2 AVieie — ago. SLSUROA & Manca: on
34 -34.1 oO 05D =6180460
37 “19,3 0 J 95) 1865.0
38 =0.0 = 00 Pie) 190020.
39 4,6 Pa) Ae) 1950.20
4) 12.2 ali) 0D 200020 ne =
4) 1604 50 04 205060
42 Wav ot) 04 2190000 fica
43 1661 6 @ 04 215020
44 12.2 Pa) 04 220060— 2
45 6.25 Pa) 0 225020
46 =e oh) 04 230000 Mince
47 Sia A) 04 73529
43 =-14.1 510) o4 2400¢0
49 =20.5 20 04 = ?.45 60 :
59 276-2 0) 04 259000
T™ No.
O37 €I-w
Bae S ail P.5¥=' 1 Se 2YMAR@=65 1820-1825
LAGS= S) N= 1297 NT= Ve2SEC
M No Ws @ 6
K 5COV sR PERTOD FREQ (MCPS)
335.364 52/98 Sgt Ve eae ne a ee cee |
1 214.439 8.584 20.9 50.0
Pa AUR come BAG Se. 1029 10000 i
3 P48 ,499 34,272 6.7 15020
DEG SE IASI SO Game BSc. Sr Oa seiQ) Ole O 2c eS a ee a
Ss 35.669 195.617 4.0 250-20 i
6 252.359 Arn OAD sas) 300.0 ties
7 =) 39.707 172554 2.9 350.0
Go SioiMeL Sana) 2.5 40020 a a E: sis
9 @—729.2967 2937 Cio 45020
10 =244.A83 2303 2.0 500.20
11 #3735.163 e270 eet} 550.0
12 =2046.493 ats) ait 600.0 : é
13 =-165.379 ail) 7/ 1.5 650.0
2 Ne @1032446 — ol 34 —digiG. 700.0 : aw fle i.
15 #4) .266 0995 1.3 (50.20
NG) 12.48) 09AD 1.3 800.20
7 17 2426 0054 1.2 85020
1A 118.990 | oA Wodl 90020 ¥: ey, ; Rie =
19 146.460 0039 Wet 95020
AO Me2eiGOn eRe 1.9 1000.0_ = 3 = a
21 164.488 2023 1.9 1050.0
22) 154.555 2920 AS) LOO GO
23 131.984 2014 09 §=115060
24 102.2563, eNLS eh 120060 ~ Mead aot 2 ere
25 6% 6442 OES 08 1250.9
26 3°.539 ONS BE 3100/6101 pant wl Eh
eT =?.2319 e013 e7 135020
28 =33.612 eJl4 Ol 140060
29° =50,363 woe +7 =©1450.0
30 =/7.2344 0013 OU 1500e0 _ geen - ee
31 =8R.408 | 0013 y 6oGn VSS060> =
3? 91). 283 0012 76 eO0/.0)
33) =diekG4 = =— 4009 | 2S 165020
Sees ae 69,803 e009 ef 1700.0
35 =40,498 SON e® 175020
36 =25.585 © 2009 06 180020 KR es i ii en
Si 2184 NOT 05 1850.20
38 AROS Po OWG 05 190000 ee a a9
39 47.11] e007 oS 19500
45 640047 0009 05 2000.0
41 742490 20907 eS 2050-0
42 UUG2VS so WOCN 05 210020 pe Wes oo
43 722980 e007 a5) alison
44 612259 0098 - hele 2200.6 0 £ ine =
45 432266 2006 04 2250.0
_ 46 27.683 e005 04 230020
47 =1.017 2095 eo 2350.0
48 =21.838 2004 04 240000 -
49° 247.58] 2005 °4 2450.0
B-20
mOSG UD, 0 ¢-tow i in
BRFIS 11 4,04—- 11 Se awh Cou eSeaesiae
LAGS= 50 N= 1438 NTS 0.A?SEC
Sa Oe i a at eS ti
K .COV SP PERTOL FREQ (MCPS)
er MOG SAGE _{) . 0 eens :
Uo Butosy 4.455 2020 50.0
A NeVelaeie IW ARIN 10.0 100.0 Bee ibe
3° 148,635 39.16 6.7 150.0
_4 109.858 642619 5.9 20020 | wh
5 47,596 59.8358 4.9 250.0
ores Bo oR eae SiS 310/0/610 ; reba
A 100.631 WG Doe eels 4000 x Lisa’ =o
9 133.934 0579 Cel. 450.0
1o--154,998 .259 (Ue OU Ge a ee et
Mi olOaavODn LoS 1.8 550.0
La CUS RGN) Aaa ee a OMG) >
Ns) SUA Gavi lA? o's 650.0
14 =] 14. 343 ~~ ae F< 9A 1.4 70020 beeen
15 =84,582 0049 1.3 750.20
on NMS) OE) BIG A lt)exte} OL SS RIO re ONO cee ENC ee
Nv =14.193 2963 oe 850.0
Wel NBO GS) a OOM AO sae!
19 45.2904 0046 Wend 950.0
an 62.878 = e058 Ome 1000.0 Paes: zk
2) 83,558 0057 Le9% 195020
22 4-798 0950 Se SLE PIEO0I 0 Cem A
23 95.759 0051 °9 1150.20
24 84.61 0956 OG NWO oO. ee Se
25 77.2992 2050 °8 1250.20
26 55.788 ok) 5)) : eA 1300.0
e7 37.811 0962 eo? 135020
228 12,97) N61 et 140020
29 12484 3946 «7? 145020
30 =14.339 0035 y ef 150020 ie ee 3
3) =P2AADDNYOD e031 Phe) 1550. 0
32 235-490 0928 06 160020 is ! os e
33° =41.104 2034 Ge LeS060
en E ORO Os) CX: ec Me A 0 amma
35 #4).145 0148 6 1750.20
36 234.983 0043 66 180060 ss
37 #3°.893 0047 e5 1850.20
38 =23,798 2050 Soe OO GO
39 =-16.235 0943 05 1950.0
40 #92158 0938 oS 2000.0
4) =-7,760 2038 05 2)050e0
(eee cilem 0134 oS ANOO5O |
43 5,857 2039 oS 2150-0
44 e182 2950 eS Ze000n =
45 9,332 2949 04 225020
46 9,661 OSI 04 230020
47 92443 2035 04 2350.0
48 9.108 2045 «4 2400.0
49 9.153 2038 04 2450.20
50 9.680 0014 e4 250020
B-22
10:39" Rata aay i
_ Bela SN alr So. 2OMAROOS Geo My)
LAGS2 50 N= 14600 OTS 0.2SFC
ae ME VAINIES Aare (0) ee sae ee
K 4ACOV se PERTOD FREQ(MCPS)
(oy SOS ZV 2.698 i) Si albu EN
i] 92%.12N ae R45 C0eN 50.0
2 B2.656 1% 2644 1Ue% 10000
3 7423443 22.213 6e7 15020
& _ Beomia Seana | SoG 200s
s 35.844 2 e6AS 409 250.0
6 14.583 1e424 Sos) 300.0
7 m6 APR 12.9456 209 350.0
RB =2%25R3 2 39H 2o3 400.9
9 239.965 0197 O52 . 450.9
Ore SE) OSES se 2141 20M AW 5@ 2
ll 255.2715 eee 1.8 550.0
12 267.484 0 VK 1.7 400.0
130 #52. 386 e055 1.5 650.0
140 #572505 0044 1.4 70020
1S 242.555 2947 1.3 75020)
16 =37,486 a 4A 1.3 33000!) =
17) =2",361 0 44 Le2 350.0
128 =7,149 028 1.1 900.0
19 2,716 2023 Nout 950 ef) oe
Al) Nae 0070 1.9 1000.0:
al 2h ehT] 09?) 1.9 1050.0
GA BA oN GWA 09 1100.0 eee
23 2%.99)1 ail} 7 9 1150.0
e4 29 e2FOR Ons of 1200.29
25 29,175 of) SUS) ok 1250.0
26 BOM) 0 O14 8 130020
27 eo e784 Sai on Wes S0e0
An So 7/@ll 0009 e7 1400.20 = his :
29 17.446 20n9 ce? 1450-0
34 Roses) _ e110 e7 1500-20
31 2739 211 °6 155020
32 232118 0910 06 160020
33 = 01)56 0008 e6 1650.0
34 =7e99R ng. NING ois OG @ ees
35 =2.933 0094 06 175020
36 -2,913, 0007 ef 180020
37 =H4.126 2097 °5 1850-0
3R He 749 AO) 7 Pia) 190020
ag @4.97R 0096 0S 195000
4u =2,998 4004 25 200060 :
4) 21,978 0ING 05 205020
4? 0427 0095 05 210069
43 2 e566 0114 05 2150.20
44 32519 2904 eS 2200.20
4s 42.566 0094 04 7250.0
__ 46 4.429 __oliiey a 04 230000 a ©
47 40615 0005 °4 2350.20
48 32946 00905 04 240020 f
49 2,953 0094 04 2450-0
WW oie O0Me 04 2500.0 ote
BBFI S= 11 Petiie 8B
SL OGS 1LIA!N™nATA POINTS DT® e20SEC 2
TM No. 377
O40 LI-w
Sue, S 14 3,5 — | Ss 29MAR@65 145)]=] 855
| AG@Ss Ah = yop NN Meesiae
MEAN - =), a}
K Cy >? PY TOD FreEGQ(MCRS)
ip) lai.sn]R BRN ) (
| WiahehR 1277 i SAT ran a) 5020
? Meal ren Wis VO.e05R WvenO 1900.0
3 128,232 14.050 (Sic I 150.0
4 387.05R 6 ie a) 20060
KS 412436 45,9355 a) 250.0
4 =1.664 24.424 S53} IN020
7 W477 ,904 1.034 2.9 SD 20)
H e-hQ,7)) Werle 2\5'5) 49000
Geil 2.445 Pletal) Cisie 45060)
1A -127.533 0255 2.9 50020
1) -#-133,°47 elk IPA} 551.0
}?P =-122.14? 6 Lh tn g/ Vo t/ 60060)
13 -1(4,99) ai lalee 1.5 HS) ()
WA SP a A e092 lod 70000
15 =-57.57] eu Nae) 15060
14 @W4 2.715 NIA, 1.3 400460
17 -17.939 43 1,2 A500
)a 12.5274 0043 WAI 4O0ef
19 372.463 eS haat 95000
an 44,646) 249 Loo. MN WOW Ao
Pl 52.0544 eal Noo) {15020
2? 04.196 049 9 110020
73 64.623 41 5S AT SO60
24 61.739 sisi eR 120020
25 55.096 229 28 125020
PA 47.433 0035 Pua! 1400.0
eT 39,004 041 at 1350.0
28 3 25358 2033 at 140060
2 Pasove = -oMsn G7 WESO5O a;
34 l5.9587 atthe) of 150040
31 eon ite edel Pils) 155020
a? 3206) 9926 Pils) 1500.0
33 =2.700 Os! 26 1650.0
34 H2,4500 e3t a) (7/0020
35 =14.752 2028 06) «175060
36 221.959 2077 eA 140020
317, wile 7i77) S/O 25 1850.0
3R =33.42) 20340 25 190040
990 34 54] 2NAR oS 195020
49 2#429,137 2076 °5 7000.20
41) =43.644 ~— 023 7 2> 2050.0 ns
42 =423.656 0OlY 3/3) 2100.20
42 =32.986 2918 °5 215040
44 =-3°2,304 092%) Ae) 220020
CD22 4720) men ORE °4 7250-0
46 -/1.119 20AT 04 2300.0
Ty Voli, su aoOLS sao 25060 icocian a aad a
43 15.6146 2972 04 240020
49 22,780 5OLN 24 245020)
50 49.575 ALi 04 250020
™ No. 377
04! ' C€r-wW She crs
KREIS 11 4.5M= 1 Se 2YMAR=65 1900-1905
LAgS2 30 N= 1320 Din=iOeS ECHL ae %
Mean we [7 a Res oP cae
K GOVE [SPEn (PERO Dslr RREGIUMGES) ima ipa
0 193.479 1.817 0 S eters ain eae ges con roa Mg 8 eet =
1 184.299 2.915 P00! 50.0
2 1A%e716 ~=— 9 L 3.3 IOd6O2 LOWS
3. 13432522 41.2451 6be7 150.0
4 92.492 67,347 a) 20020
5 430464 46,8H2 4.9 SOO) a Freee =
6 2,287 160525 3.3 300.0
7 45.969 4,236 209 350.0
a =H 6 320 R277 205 400-0
Sika! Wessel Wl Ri2ols 202 450eNn
19 =133,467 eu leanl Pel) 500.0
1] =-145,554 Sle its CuSO Geo man mamal Rie re =
12 144.392 2129 fo 50000
13 =-137.212 .98 1.5 650.9
WA Sills 7O0e) 209) 1.4 700.0
15 =95.578 0998 NoS)} 150.0
1A 2672014 0970 hos) 400-0 So, A
17 =34.398 “3055 — L652 SSSU5o Stee
18 =5.927 2050 Lol 20060
19 2223585 = 047 Vall 9500
en 4528846 204) NGI) 1000.0
7) 642420 2047 le? 105029
2? 31244) 2049 569 NOOO eo pape tae. See
ee Ae a7 om owe -9 1150.0
74 516155 0924 oR 1200.40 , a J
25 $2.524 2025 oR 125020
726 412432 0174 oR 1300.0 5 meee a
27 790607 = 025 “ov 125060)
23 54,533 2025 oT) A000
29. 4ieold as. 7? 145060
30 25.479 0044 el 1500.0
3] 9.4525 0046 6 1550.0
ci =-5.350 20037 ef 160020 eee
cs)) ONG SS2 bone eh 165020
34 -39.143 eI eA 1700.0
35° = 39.2740 Winns OG IASWaU)
36 =452731 093) e6 1800.0 See.
37k 072 15] SOLO eS 1850.0 : =
38 951.997 2035 eS 1900-0 Pane Pe a
39 597.035 =e O49——t—“‘ét SOC ean
a0 =45 2258 040) 5 2000.0
7 CaN =4).707 0036 °5 205000
42 =35.164 2036 eS 2100-20 pe ee ewe a
43acieco?, acOS6) Ml meSioceuSOe0) 7 4
44 =12.986 2933 oS e000 |
— 45 19,027 2032 04 2250.0
46 27.295] 0978 04 2300.9
4 7.85) 2024 o% 2 e
4R 14.28? 0077 04 2400.0 is i 7
CC) BAOOMS) 0025 04 2450.0
50 a 37.730 2010 e4 2500-0
B-24
HRE| oS 1]
6.0%—= 1 SS
ae es oT
+ 29MAR@“65 1901-1911
LABS= SO N= LA0N NT= 0.ASEC
_ MEAN We 6 aia a tu Cie sit carabceereaiat am a
K CoV sp » PERIOD FREQ(MCPS)
Ss NM o Dis Bowe! ) 0
elaine. Sar, a.el43 200% 50.0
V2. Min ose! 9,974 10.0 100.0
3 85.957 31.379 eV i 15020
Co VG 4.662 Po), CUO i
5 43.53) 202179 4.9 250.0
6 13.309 4.150 3.3 30000
te -4.9)9 12308 209 35020
QR =27.630 e223 Ans) 40000
y =47,584 ol 4 Cee 450.0
Ot Sera Gey eee lela Ce 500.0 Serine
1] -75,139 0 I9R Tats} 55020
J2 =8!1.665 2057 atl 600.0
13 =49.008 0053 15 650.0
£ 14 -179.40? z oe ola) 1.4 70020
1S @=71.483 04] 1.3 150.20
16 =59.813 eh Nos OOo 2
17 =45,491 228 hae 85060
TR =29.257_ 2028 oll 90060 -
19 =12.286 228 1.1 95020
meee.) 40357 DOS 1.9 1000.0
21 19,922 2925 1.0 1050.0
ae _shslaes1/8) AON oes NOOO)! Aas umes
23 44.619 0915 09 $1150.20
24 52.782 014 eB 120020 7 7
25 57.679 0014 e® 125020
26 59.298 2016 e8® 1300-20 :
27 572646 202% ot LISOoO
28 53.944 2017 -7 1400.0 wf
29 45,797 2013 eo? 145020
_ Sif) 352443 e013 el S000! enon
3) 252475 0014 Pils) 1550.0
32 13.694 2014 «6 1600.0 a
33 1.625 e012 Pio) 1650.29
34 15.112 2910 Bele NTA) 0) NCO) ook tac TF epee
35 =2 2.338 e910 Pa) 1750-0
— 36 237.02) Pate St ae 06 180000
37 #37.145 0020 -5 1850-0
3A =-41.955 OUOnn os) NOOWSON 3
39 -44,328 Hoya at A) 1950.0
40 =44,049 0008 05 2000.0 anes
4] 2#4),269 2099 05 2050-0
42 =36.175 ne AE eNO
43 =29,139 0014 05 2150.0
44 -2".412 OVS °5° 2200.0 7
45 -1°,882 2012 04 2250.20
46 anef7) 2012 ee Ge S000 2 ee
47 9.089 AG ple «4 2350.0
48 12.220 2010 04 240020 ees a
49 252191 0014 °4 2450.20
S90 37.443 2099 04 250000
B-25
yee = eee ee T™ No.
~ OAS GI-w
__BaFISs 1) 7.0M= "1 So 29MAR=65 1928-1933 a
[arse Ss) Ne 1600 OT= 0.62SEC
IN IC) ete
K ACO SP .PERTOD FREQ (MCPS)
2 WGI AR sas ito S| Eee Spee ee a Bis OA ee Ai tel,
1 75.389 5048? 2069 50.0
2. 69 662 nine 10,0 10000 a ce UR NE HO ES
3 61.2160 22.843 606 150.0
ts, Cae 5132644 22.545 5.0 200-0 z i) Se
5 38,354 2,256 4.9 250.0
Cain Wee A/S) 3o3 30060 poet nT aaeereee eee ge,
7 11.754 -7AR 28 350.0
al Gio ses) Aleta) 2.5 40060 z uel s
9 14,497 2146 2072 45020
Ne BORARGEs AW ei a oo) il ai sa Ets
11 =37.45] 9 O'S} 1.8 550.0
le =3%el 29 e 9 36 l ° 6 60020 —_— Habs
13 -41.713 e042 GS) 650.0
2 NG A SOP oN nnd) 164 70000 —_ peuvent ew
J5 =49.730 0100 1.3 750.0
a JA SiGinievers) eas) ie ede Ole SOOO CL ee faite nas ait Sees
We Eh oN S36) oS 1.1 350.0
1R__=23.458 013 1,1 90020 as i saat
19 =1)5 2.49) 0079 1.9 950.0
A) Sano 2045 : 1.9 1000.0 a oe ee =
2] 22526 0075 °9 1950.0
a GAAS a OS ULM A) 1 oe me es
23) 12.4650 0019 eA 115020
Cat eo eA OWAle eA 120020 age | Mego *-
25 370/24 046 o® 125020
AG Svan sos °7 130040 3
eT 400144 0951 e7 135020
AG ea 2036 eT e0101910
29 45.662 e077 of 1450.0
2.80) SS) 2oGV Os Wee «6 1500.0 is x
3) 352/12 0023 e6 1550-20
32 392736 0075 05 1600260 3 Pelok
33 24.450 0929 06 165020
TOPs NAOSG eos SiON so ee A MOOS ke ee eee ae
SiS 11.392 0029 05) Si0fe10
36 z %e4Ba 0077 05 18000 : 2 a!
37 =?.118 0074 5 1850.9
Sle Oboe) 6a eSLT e000 ee Sees Lee!
39 =1 3.847 0026 o5 1950.0
__ 40 _=18.446 2020 25 200020 me
_ 42 242.9908 | 0075 0% 21000 — mn
43 =24 4163 SOA T/ o4 2150.20
1 OG S250 906) 0026 04 220000 E Rp
45 =24,625 0022 04 2250-0
46 ©2729) 2923 04 2300.0 sc
47 =1°.467 0930 04 235020
(48 =13.98N 2036 94 240000 - Ss
49 =8,808 0136 04 2450.0
50 23,270 mens e917 04 2500.0 2. Gries ee ee
B-26
044 LI-w
RHEIS 11 53 .5%— ] Sa
Wages) Sit N= 1417
MPAN We =07,.4
K COV SR
a ET GW NA 2.994
i Bln | Khs Seals
P10 498 Wey
3 O4,/93 27.32)
4 52, 9RR A573
5 Sprenlieal 14.905
46 13.309 Wal )eyicy
7 Ye/15 [e473
ta! =-14.517 Pale)
G 224,409 el?
10 =-34.773 20994
Vy SABzs6577 ~ fic
Ce 22°254)1 045
73 #5924903 04?
14 =42,1893 0940
WS =42,33? a4)
1A =345.465 04?
Ar) ae 036
18 917.534 202?
i9 =>. 322 2077
en 07°63 20727
2} 72/63 6 7/
2? L2e970 2013
23 14.700 ON
24 21.905 2019
25 22654Q 2009
26 234. /53 2098
PT = 27.703, 2H
28 216577 0996
29° 172585 ~——OO HK
40 L42443 0N0T
31 222) 0906
3? 42433 2095
33 1.065 — .0N4
34 =3.16)] 0004
TH 2S "eos ohecr. 004
36 -15.154 2005
37 1A .k95 2005
JR 14.5940 e005
3890 94 4.73R 04
40 #142488 0004
~ 41 =145.292 7 0N4G
4? =-145.122 0003
43 =-13.229 0003
— 6G aim ilz 2004
45 =-7.700 0095
46 =42410 00N4
47 =} 21162 2003
48 2221? 2003
49 5,242 0903
50 7.916 e001
D4 eas
1934-1939
OSA SENG
we fd)
A\e%
10.9
eee e@
>
Kee ee P ee ee NUNN
oo
e e@
COT DK eH NWEYETTXTIONWN XW
ee
FREQ (MCPS)
S060)
19060
L5Uel
LOOM
750.0)
30026
siren)
400 0 ()
+450 ()
S00 a0)
55040)
60029
55U20
10060
15040
Ue 0)
85020
40020
95001
1000¢0
1050-0
110049
1i50.0
120020
1750.0
1300.0
1350.20
140020
145020
15909
1550.0
160Ue0
1650.0
1700.0
1750.20
1300.0
1450.20
190020
1950.20
200020
205000 |
2100.20
2150.20
220020
225020
230060
2350.0
240060
245020
25000
2: ie
T™ No.
ST
045 C-I-w
BBEIDSmNSaelamMe Was sin2 MAR SOOM alo Ves Se eee
LABSS SOG NF 1459 NV Ue2SEC
MEAN We 5) ene
K ACOV so. PERTOD FREQ (MCPS)
Oe Sie 010) 32623 : ce eax. WON Fate
1 16.340 R.A? 2029 50.0
1A (e483 11.974 1009 19000
3 4120596 18.179 6.4 150.20
26) SOg ne WSO MT al e0U sw
5 SVoSSE} 12.143 4.9 25020
4 240475 =PeRTT 323 30020 peor | wees eden
U 96597 0 356 2.8 350.0
A ene. 4200 205 40000
G9 e#145.2134 oleX 2.2. 450.0
oi) Sees eien) AONE eo) Suaty
1] =31.6588 2VA9 1.8 550.0
V2 CBho09O aS 12-6 60009
13 =37.497 2033 Woes) 650.0
14 234243 ae ee 004) 1.4 &: 700.0
Ss =33,(192 0147 Nos) 750.0
16 =-27.2863 213? Nae 430000
17) 271.243 0070 el 450.0
VQ coilovers ole Met] S900) 9:05 pe
19 =52 747 0914 1.9 950.0
20 e946 0913 1.9 1000.0
21 70?9]) 013 09 1950.20
22__ 12439? 01S 9 00,0. a
23 15498) 0012 eA 115029
24 17.989 ° ~«010 8 1200-0 Sa
25 14.404 0008 08 125020
PA 172285 0997 e7 1300.20 1"
27 142899 09083 Gulf 1350.0
2R 114482 “50017 rea G010)610)
29 72.485 2005 06 1450.0
30 i 40304 eNN4 Pie) 1509.20
31 =.2605 e003 Pie) 1550.0
32. 332983) 20 ING Loe NOOW GW
33 =4.573 0014 Pi) 1650.20
34 28.256 0101013 ese Se PALT.O0'6, 0
a5 Hi 2946 e9N2 Pie) 1750e9
36 8.654 2003 5S UEWO5O
37 =-7,499 0903 05 1850.0
38 =3.477 = 0992 eS 1900.0 2
39 So ST 0002 oS 195020
Emo 40 =.»682 0003 05 2000.0
4] 2.001 0903 e& 2050.0
4? 4 e472 aoe 5G BROORO_
43 6 e569 0002 °4 2150-0
44 “xe 40148 ee 0992 o4 2200.0
45 Ge139 2002 04 225020
a 90376 2001 04 230000
47 ReH4&6 0092 04 2350.0
G8 he 6Site 003 e4 240000
4G %29)3 NN 04 2450.0
™ No. 377
046 Lr-w
KRRFIS 1) 4.0M—= | Se 27aMARe HS 195021955
,AGS= Sv NE 1999 Iie DoeSee
MEAN we #0,.1
K CoV SP PES LO FREW) (MCPS)
a) 69,969 he 4
] 622156 ReG5H 704) S50)
? 43.389 Gell 1o.9 i00,0
3 46.109 190348 HA 15049
4 45.744 159644 3.9 20049
5 435,49? 729986 4!) 250 « ()
6 2Zaell] 14/4 Sso.3) 30000
7 12-044 0379 ZeX 45020
R 2329 0294 209 40000
Q =-1°.2465 044 7? 45029
19 #1%,76? Pa ek 2} ra) SO0.!)
11 =?7,173 ie) 1.8 551.0
JPA 237.410 PO Ge 500.40)
eS ~ 35. 76) 9 es0 WAS) 450,01)
14 e45./7?7 ret ech (OU 6?)
Ss =44,4/76 Sti? s) Ltens 75020
1A 5 2 4144 oul tee low Ned
i A ea PaO es hs 4 459.0
1R SNe aa We ails eal 9009!)
19° -11.23419 Aol y ited) 459009
rae) = 7.564 af 4 6/0) iVO006!)
?\ 1.474 O10 Ane) 1050.0
22 Mia s}y 2On7 oY {10020
23 1/6400 20K Ase 1150.9
724 Pen (0) eIN4 Aa 1200-0
25 250415 0094 Cle 1250.9
26 CePA e005 5 il 1300607)
e7 3°.759 edo ol 1 $5UeN
2R 45.146 PaO ef 14006!)
2G C2244 2004 05 145020
30 CN ath 2 0G s 045 19N0e0%
31 23.183 0003 Pr) 15506")
i? [4.718 PaO} oh 1609.20
33 Lira 7G 0003 0A 165000
Qa [ei enlesi2 2ON4 55 1700.0
35 ESAS Nil COnes 25 175020
36 2733 eOUES A) 130000
37 -3.122 OMS 03 145029
In =f, 755 203 25 1900.0
39 21,807 2094 45) 1950.9
at) =i 7.2166 e003 5 200020
4) -14./57 04 4% 215020
4? W14.577 Pa) ied 5 fh P1000eN
43 =14.519 297) 04 215020
44 14,43] 0001 0 220040
45 -17.578 0091 04 225020
ABR =) 52554 0907 eo 230020
47 2.7589 7 401? o4 2350.0 ;
4 =52509 200? 04) 240000
49 -7./52 O01 04 745020
50 al Si, 00900 Gui 250000
RF] &= 44
B-29
OAT rh
cr-w
RRFIS 11 2.0MeIE Se 29MAR=65 8000-2005 ~
LABS= 5) Ns 13460 NT= 0.2SEC
Bet ZANE f= ed Fe]
K ACOV se | PERTOD FREQ(MCPS)
Mh AACS OSsiGiil mC) aero Bree
1 394.907 92598 20.9 50.0
Pe _ 347.514 21.216 = Ole Oe O00 ee
3 27?.a7A 77.559 607 150.0
TSS SVEN TIAN ZG 099 eS OSS ere0l0r08 palnieaseroe ss Ate
5 81.292 97.077 4.0 25020
A 27174334 446,813 303 30060, a
7 =-1046.819 18.546 209 350.0
GSMO oO ove B68 SOM 5
9 =235,019 3.020 2.2 450.60
TNO SBE RA2OG) ACE As Saag)
11 =777.483 0/27 1.8 550.0
12 =767.228 24458 Nei GOO5W)
13 =7345.566 2360 NaS) 650.0
14 =19R.522 23% Ne VOMAD
15 =148.634 el5S4 1.3 750.0
16 =94.479 109) 9 ne eS OlOlei0 Rye ete Oi
17 245.253 oIR1 Nee * 8050
Mey 2 ltioSva 5 OUW) ~ Tel. 910/010 5
19 55.221 0 IAI Noll 950.0
Al) TD AO AMS)s) 429 1000.0 aur
el 118.594 0048 ho 1050.0
SC rene ES I gh SS oem gl (49 SUS 9) NED) ©]. 2 0) Fo () nee EEE
23 142.622 2038 e9 1150.0
C4 1427.87? 0.310 AR 120020 ae:
25) «4134.997 0933 oA 125020
76 121.943 033 eA 130020 ae
PT 199.973 2928 eo? 135020
238 83.647 2023 Toile S000»
29 61.718 0924) eal 1450.0
30 39.089 COND atk RENO SO tie
3) 146,38] e921 Ale) 1550.0
32 =-5,.447 0018 6O WOOOGO ws
33. =27.200 SOUS 0S 165020
34 =46.884 2014 °6 1700.0
35 =+64, 342 0914 Pa) 1750.0
96 =72,984 e012 °6 1800.0 ary
37 =9%*.166 0013 5 1850.0
3R =97.4)]6 2012 05 190020 of
39 =1009.433 2009 5 1950.0
40 -99.169 0909 05 2000.0
4] 92,734 2099 05 2080.0
4? 84.487 | 2009 oS 210020 eek
43 -77.221 eNlN 65) 2150.0
OO SEvoUO No ONO. Che era Ee
45 =42.9018 0009 0&4 225040
46 =75.652 0010 eo 2300.20 yl
47 =9.374 e011 0 235920
48 5447 | 2010 — ote 2S 000) sees
49 21041] e010 0 2450.0
50 35,327_ 2005 4 2500.0
B-30
048 & I-w
RGFIS 1] 948 BY Se Pamar-65 20092013
LARBSs= Si) us S47 ye WeaSae
MPAN We -2.5
K ~ ACOV sp PretTul FREQ(MCPS)
fi UVUUoNzA 19 4AM ) (9)
] TeAaHI4 11.213 PUD 50.0
? 543.755 24,2738 a) 100.0
3 34D. 675 RG.04) Oo 7/ 150.00)
+ 1542537 140.513 tO (0) 29067
Beat RS] 1412653 4.9 250060
A =22(' 244) 144,444 515.5) 30U 60)
7 =34).9352 A1,94] 209 35060
R241) 9453] 41.046 2e5 40060
Q =-4245.573 PO RL Boe 450 0%
10) =401. 323 VOR) 26 (0) 500.69
11 =344.4535 ALARA 1.8 55000
12 =?5".917 5267) ot 500.0
13 =-185.719 32149 1.5 65000
L4 #)i 3. 380 12.549 1.4 70060
15 @771.490 12554 Vas} 75Ue0
16 37.9503 lo @ent es 40000
17 BRe1 30 ~ ane ‘Lee #5000 ;
}R 121.256 04449 Lol 40000
19 136.312 2744 is i 95000
Patt) 133.605 eld) 1.9 100020
2) 117.767 2143 1.0 1050.0
?? 31 eR 34 Al ey o9 1100.20
23 612535 al 7 09 «115020
74 31.1170 als} 28 120020
PS 4454 oe ied 24 125040
PA =} ia 73R alfa 23 130060
7 -19.4]4 2027 onl 1 350¢0
24 -11,459 oO I Ae WEOOAM
29 4.868- 854 Ate AGO) ier
3) $9214 e444 3. 150000
aul (2.304 eS Pa) 1550.20
3? 94.476 Po A 68 1460020
33 113.196 0054 06 =165020
34 119.952 0043 06 170060
35 90923 a Nae 06 175000 d
365 55 e ADS 2034 06 1400-0
37 1504516, 207 05 185060
38 =72.R79 0 0AK 0S 1900060
39 =6,.143 0925 05 195020
4) =89.56) 0975 o> 700020
4) -111.142 | 904 ASE CUSWG Onn a
4? =124239] eOiR 95) 210000
43 =-129.H89 2029 25 2150.0
44 #1272730 0922 05 220009
Cy AlilcsSigy SOO 04 2750.0
45 =-103,430 e014 o4 730060
Ar coilossm o020. oS 2skWom
4x =53.500 0020 04 240040
CO TSA cs Se oOlS” 9.4 74500
Ee Sit 122530 ©0906 «4 2500.0
T™ No. 377
B=!
O04 GB-w Sh aia eae a
RBRFEIS 11 0.5M= TE Se 29MAR@65 2158-2203
LAGBSs= 50 Ne 1007. HlenNseSEC Tease Cee GaP aaa me
MEAN We =3,0
OK ACOV SP PERTOD FREQ(MCPS) ain
0 741.748 20479 On: EON
WV) G27 656) 6.012 2000 50.0 De: Paes Pee Ee
2 514,356 1R 287 10.0 100.0
3. 299.323 849.147 Gate a 150.0 ae
4 T8575 135.646 5.0 20060 ;
5 =1130362 140.94) 6.0 25000 : j ¥
6 =2564.75AR 198.5a7 3.3 300.0
7 =345.417 91.56) 2.9 35040 as
R =-389.931 64.882 205 400.0
9 = 317 e410 35.005 Ace 450-0 af
IQ osicleoeor 21.319 Ao © SOda0
ll =27pe291 Vae6re IA 55000) i < Dees Pia Aerio cy
1? =717.854 9.523 hot 600.0
Le) Sco 57 Ale 70406 1.5 650.0 sa
}4 =/2,589 46479 14 700.0
15 -24.358 7.545 1.3 75020 x
16 112958 2ellt 1.3 80060
17 3Ae664 av Selec 850e0 reat [fe
18 572050 1.218 oi 90060
19 626505 2840 on 950.0 lye
20 146580 0597 eo NOCOSO
1 8Re3)6 50) | hoM NOSNGO ii =
De VOR VEY 2506 °2 1100.0 oo
23. 1lAe??2 2 369 TOO NLS | eet ‘es ae
24 1232466 2251 eA 120020
25 127.2000 6 2ns °8 1250.0 aE
26 1122406 0 1 RO oA 130000 BNE:
oT 95.925 , (ol225 sh SiS DOO
2R 71.762 2990 o7 140060
meg 41.2554 Sih mer o? 145000 i
30 7.13? 2130 e7 150060
3) =#3".303 Silla ~ e6® 1550.0 artes i ial
32 =66.669 6s) °6 1600-0 :
cl) S@ASIee ) aloe OL SSO. oo. | Le; ens
34 =)12,207 2084 °6 1700.0
~ 35 =114.799 iO c 175000 aaa
36 =109,43A 2941 26 1800.20 :
37 =74.838 064 eS 1850.0 poem sh re te
RA =43.714 0041 eS 190020 Z
39° = 17.693 204) 65 1950.0 - %
40) 132944 2960 °5 2000.0 cel
41 330308 0 68 5 205000
eE2s 440609 2054 © 05 2100.0 ai a4 a a pe
43 47.642 0939 eS 215020
45 3R.759 079 4 2250.0
46 31.435 2037 04 2300-0
a7 230520 2060 04 2350-0
48 14.823 2065 °4 2400.0 a E
~ AG) 42451 2054 04 2450.0
50-8469 05 °4 250020
B=32
BRFIS 1] 2.0M= YT Se 29MAR=65 2204=2211
O50 KIF-w
LAGS SQ N= 1938
NES AN ws =-0,]
ACOV Sa
“A 3462576 2 OH)
1 339.744 3.715
Sef) ANB
3. 22724609 Tse Ona
BG Pee Gre 94.2335
5 2480 71.435
6 -19,657 37.559
7 =+9f.774 12,654
8 =1472667 es deli F
9 =137.581 4—e3R4
10 =7]h. 19.023 31,544
i) Gaile 0573
12 =? G4.788 0409
13 2-190. 396 0364
14 |16%.165 eer
15 -132.93R mad
Use 99 i1e1010 2104
17 64.682 Shs
YR eB eRNP Soa
i9 1-2 369 ee)
20 36.594 744
7) 55./709 25s
Ae VAGINA OGY
23 402100 2035
24 98.145 2078
25 1092449 Ace
Aly os) 2932
ill 912466 229
228 ASR
?9 Stee 0020
30 52.R09 oANAl
ej) UeAos00ue HOLS
SA Sse OIG
33 2). 340 Outs
OO oR ale
as =3.214 e OL
36 14.894 .009
37 =252792 0998
3R =350434 ~— 098
39 @=43.336 e009
40 -49.274 2910
4) =532.°10 0010
42 2552140 2009
43, =54.949 e077
2 Roe 2004
45 ©49.5)6 2005
46 44.720 0006
47 937.907 ~006
48 =29.378 2005
49 =146.255 SOO) a
50 7-639
2902
WT= 0.2SEC
PERIOD
=I {0 0
2069 50.0
OA: OA G)
Oel 150.0
5.9 200.0
4.9 250.9
Sfers) 30020
arn) 350.0
2.5 40000
Ciera 450060
eo 50060
1.48 550.9
Went 600.0
Wigs) 650.0
1.4 10060
eS (5060
Weel O05
1.2 450.0
Melt 40020
ial 95020
1.9 1009.0
1.9 1950.20
oF 110060
09 115920
of 120060
of 1250.0
of 1390060
of 1350.9
nef 0)0lei0
Lie SORI0
ef 1500.20
«5 1550.0
06 160029
06 1650.0
6 170020
0S 1750.0
06 1800.0
05 185020
05 190020
25 1950.0
BS ee 0.0008
05 205020
05 210060
5 2150.20
~5 220000
04 225020
04 2300-0
o4 235020
°4 240020
4 2450.0
24 250020
FREQ(MCPS) ~~
B-33
__™ No. 377
O5) rw iio na
BREIS lu 2.0M-TE Se 30MAR=65 001020015
~'TARGS GD NS 1425 [NT=s0NeSECuae se a a. fags
MEAN we -0,8
K COV SPC PERTOD FREQ (MCPS) am
0 286.302 20331 ) 0
1 274.152 6.650 A060 SUSU a Ae aaa aaa
2 24106679 27.195 10,9 100.0
3 194.059 70,AR7 607 150.0
4 134.745 82.425 5.9 200.0
7S 5,427 49.300 ay ecewWoW@ 9) sa nue igo ee splatter acs i
é 152745] Pie 7S0 3.3 300.0
7 239.4518 190576 209 350.0
A 285.999 4.375 2.5 4000
G9 21222453 3.752 202 45000
19 =-144.272 1.729 ee) 500.0
M GYGW4G22 “2 9 oki NA en CUP ce aa 7 e me fe
12 -169.339 see e346 le7 40U.00
13 166.479 =, BHT 16S GS040
14 =154.174 075) 164% 70000
15 =-139.498 eed? le (S0e0
16 =117.763 wl5300 1.3 80020 iva Clie. Reel
17 #972297 0139 1.2 85020
18 264,485 0129 Nai 9000
19 =35.649 0093 oul 95020 5
2n 721182 a IFA 1.0 100020
21 190579 0057 1.9 1050-0
2? 43.270 2959 °9 110020
Bt | GPoava 9 Quean 09 «1150.0 Sea aie eis 4
24 1452599 e051 eR 120000
25 R5.756. 0043 08 1250.0 ; }
26 492300 2030 eA 130020 :
Ay SioSe ona eo? 1350.0 7
eR BP .488 2028 el 1400.20
~~ Be 732.930 SUL Gm ao ih > MCAS)
3h 632189 0921 ot LS0/0%e0
3) Siipats8 Gumi ne Oame 6 1550e0 ice
32 39.39] 0916 Pile) 1600.0
33. 27.549 oO Ww 7/ 06 165020 a aaa ee ats a
34 146234 2016 26 1700.0 oS ae
35 Aa Vere un Oc Cm SOs Om TH i
Bo) AG ORS ON 06 150000 ah, ae
370 =17.918 Heil 25 1850.0
Si ONS os WIS) oie OOM AWS ee settee, Sa 3s = ae
39 =245.338 Orla) 05 1950.0
40 =39./716 e110 Pi) 2000.20
4) =34. 498 e011 5 2050.0
4? =39.468 ie 0909 05 2100-20 S rats o.
43 243,946 e007 05 2150-0
44 45,317 A 2008 05 220060 Se cepa a eles
45 -=46,2762 0909 04 225020
46 245.517 0009 04 230000 tin
47 =49.9(04 0007 4 235060
48 =32.43) 0905 04 2400.0 PE. ee
49 =37.205 °° °&4.096 0% 745000
50 -24.598 2004 04 250000
B-34
omccou.Os: —- wae are
FREW (MCPS)
O52 CIr-w
BRFLS 1) 0.5%=ME Ss 30MAR=65
,AGS= SU N= 17428 T= 0¢2SEC
MFAN we = 3, /
i COW SE PERIOD
0 76 52644 32578 i) 0)
] 7010446 Pov yn 000% 50.9
2 551.142 452754 10.29 100.20
3 394-995 131.159 RC tf 150.0
4 1lo5e1G93 1sPall7 5.20 20000
5 @1l4e5396 117.036 4.0 250.0
6 =1412059 49.912 3.3 30060
7 @22 e416 54.3463 2e9 350.0
8 =7?6).377 51.5090 205 40000
Q @2152454 412143 202 450 60
10 =f75.911 2364/6 arene) 500-0
1) =271.467 }3=15e113 1.8 550.0
12 |©765.433 R359 Le7 600.9
13 =757.2916 72310 eS 650.0)
14 =747.26597 4,(54 14 700e¢9
15 |73) 500 2.4279 1.3 75020
16 —?P0/.1 89 1.72) 1.3 40060
LY Sid o722 “ToS 2 85000
1A #1242196 291k lel 90060
19 =67.8i04 283R lel 95060
20 =o. 44R etl) NG (0) 1000.2
2) aS ki/ey 2616 1.9 =%1050.0
2? 92695 2414 9 1100.0
23) 1252440 2347 09 115000
24 145.6) ooh eX 1200-0
25 154,193 0224 Pie! 1250.0
26 1552693 el KO eX 130020
Aa NSvSovLey e153 ef jJ435020
2a }54.,318 e136 e7 140049
28) Wa oss OWS ay te wa
320 1472981 0 O0N7 ef 150020
31 T13.696 ed9] Pile) 155040
32 B2170 eld? 06 JA0009
3)3) 42,566 eORT Pile) 1650.9
34 102.557 2057 0A 170020
35° -12.949 e040 26 1750.0
36 =22.448 0038 06 180020
37 =33.606 8 2046 5 1350.20
38 =332149 0054 Ais) 1900.20
2Q° =31.318 0 N57) 5S 1950.0
4() = 3) 6440) 0950 o> 7u00e0
ibm iCeaoLZE) ne DOG 6s oS) 2OS0s0
420 $44,302 2037 23) AiO} 0
43 =55.004 00365 0S 2150.9
44 “66.417 09364 o'5) 220020
45. =-72.094~—— 042 04 «725000
46 =-66.762 248 04 230000
(coco nn OU ne
4R #=54.400 2043 0 240020
49 =-=650203 0036 Te 7450.0
50 =47 2.068 OLS 04 29500 «!)
0022-0027
T™ No. 377
O0oS3 UI-w EAN OR eT
RREIS 1) 0.54~ WoL Se sUMAR=65 044020445
Lagbs=s 5) Ne 140) OTS 9,.2SEC ie A
MEAN we W5S
woe 7COV SP PERTON FREQ(MCPS) cate
9 237.292 5,425 9 A 2 # i
1 315.151 11.418 20.9 50.0 roca
A ep oke 96 21.546 10.0 100-0 i a
3 142.996 64.523 607 15000 r
4 99.582 712978 5.0 200.9
5 OP et42 41.436 4,0 250.0 any i ay Wee Soaps eer
6 =32.u52 Aletl 2 S\i55} 30020
7 ©/2,637 24.678 2.9 35060
QR #©597,1139 352660 205 400.0
G ©-99,18&? 21.471 202 «©4506.
ay CASE 2.42 209 500.0
il “oer a Soe VSS 5 0/e/0 cae es Se oa oe
12 =33.44f VeLos NS i/ 600.0
13. =8R e156 o8ll 12-5 650.20
14 =95.j57 04627 1.4 700-0
1s =109e652 Sele WSs} 750.0
16 m~]14.2#08 55h te os} R00e0
UI SAG Aor) 2291, 1e2 }~=©55060 Siar 1a ae Fie ie ee
TR @lO0eK1A 27256 van 9006
19 @ (446384 4236 ven 950.0 fe
20 939.2146 2144 1.9 1000.0 s
2) 20575 ~=— A 1.9 1050.0
22 41, RAR 2155 9 1100.0 eed
aS) (ao ly 0154, 5. JIS06@r 5 i gen oe
24 952403 0125 of 1200.0
Ps 104,440 el 4 08 1250.0 7
26 102.095 00948 °8 1300.20
20y Nolen GOR SV VIHA q
eR 15.494 e0A6 el 1400e¢0
ana) Bu. 98? 2 ORS oe! 1450e0
30 44.39] 2078 of? 1500.0
3) SIGS 7 OWA ~~ 96 155000 i
32 252140 2050 0A 1600.9
33 19.768 0/403 ae °6 1650.0 —s e
34 152796 042 e6 170020
“35 112947 0044, 6 175000
36 7.799 2038 e6& 180000
37 Pouce = 602’ eS 185020 ira
38 =52199 9A 1 5 1900.0 os <2 Soe
39° =14.903 20271 as See 00mm 2
40 @m24 e844 0122 Ps) 2000-0
4) @=352.135 200A4 05 205000
42 =44,.427 0974 5 2100e0 = a ela eS =
43 =51.460 2019 Pe Sees S00
44 =55.#2)] 0015 AL) 2200.0 ay
45 =55.739 0914 04 225000
46 =51.210 00145 04 2300.0
47 “43.2717 0019 04 e35d000
4B @37.294RA 2019 04 240000 bs
~ 69 =212706 NOMI, 04 «245000 ~~ ee
B-36
BESii
T™ No. 377
O54 LI-w
BREIS 11 2o%- TK Se 3NMAR-65 09810-0815
LAGSS 5) N= lary irc MoeSiae
MFAN Ws 24,6
i CoM 33 PE eI) OD FREQ(MCRS)
"y Su7,/32 2.3231 ‘) ()
1 455.477 dad 7 708! 50.0
? 327.0460 23.152 1U0e!) L009
y TS vaiee ah CS 6.7 15060
4 -i5.2819 33,355 ren) 20060)
6 eNO eT 61.464. 40 250 00
RH a2 445,476 94.334 Sloe) 30020
T @P (72776 Qn PKS 2.9 350.0
Re P55.5467 450214 2.5 40000
Qe lGRe 1 4A Garena: 202 4506 ()
LO =lbl>- 376 PP a4 ?S 20!) 51069
lin SA 420D aioe 1. 550.0
12 36,747 6.212 Vet 500.9
ie) 49,383 3.8R5 Led 55060
la Ju2.405 2 e598 le4 70040
i) 99.593 1.979 hos 75069
1s Th .44)] are Sit 1.3 40000)
te" GaGa T Ty hai lee”)0 850-0
]® 11.301 Sie Nell 40001)
19 =21..242 SHS Lleol 45020
Pii 472 742 ad47 1.9 100060
2) 2660935 — oe VLD LAO MHISOG0
a7 2f/%,.414 e218 Bc) OWA)
23 347,554 7146 hy eso) | US ORO
24 =73.8(06 017? oA 1200.0
25 #7 1.585 -142 eR 125060
26 =55.9()8 e133 e383 §' 30020
27? #372735 °»&8201209 a0 LSSOSo
PH -12,013 els G7/ 1400.20
7 2° Politi | olUWre = api) LAE05@ wae
30 2101143 0173 e7 150020
3) 3Re1l55) 0129 26) VSS —0
32 51.2714 elds Ale) 1600e0
33 59.558 .093 26 165020
34 52.98) 29/8 Pas) 1700.20
35 geen sma = 06 175009
345 452178 0049 0A 140020
37 35.90) 0943 °5 145020
3x Chahel 0938 05 190060
39 Shi75 7On 2034) as S060
41) %—.A33 0037 05 700020
~ 4] oP la 204? 05) )6205060 a aaah
4? -7,366 e038 05 210060
43 =1 2.905 032 °5 215020
44 =1R.924 0036 i) 220000
4B 21 015 204i) e4 «6225020
46 =19.524 2033 04 230060
~ 47 ee] 3.418 2075 04 235060 *<
4R =-2,250 0974 o4 240060
— 49 Q.55R 0024 °4& 2450.0 3
50 232203 2012 «4 750020
T™ No. 377
O55 LI- w
RBREIS 1] e.UM=Y Se JUMARe#65 98262043)
LAGSS S30 Ne 1295 HTS 06e2°SkCG
MEAN We les
kK ACOV 5P PEHTOU FREQ (MCPS)
0 30496193 4146 i) 0
1 PRIe72) 100413 20.9 50-0
2 2350957 24eS17 10.9 10000
2 169.064 34 e9h4H 6.7 15020
4 72 —463 230 240) 5.9 200¢0
5 13.165 49.26°0 4.9 250-0
6 @255.2165 64,797 323 30000
T 1350136 572959 (ated 35020
Bol 38n4393 P0459 205 400¢0
9 21952494 6.2273 Coe 45000
190 @13%e773 P—e974 209 50020
11 2AI2655 1¢4)8 128 550-0
12 741.977 eBi/ 1.7 450060
13 22%46N 0 400 JS 65060
14 41a 366 e256 1.4 10060
1S 672389 e237 1.3 75020
146 640196 e2ils 1.3 40000
17 27 ehRe Pe Ras lee 25000
18 33.999 PO he i) ert! 970060
19 0/24 0 IAG atl 45020
ra) @34,x02 e VAD 150) 100020
?\ =6/.:132 e960 19 105020
CO 291 N25 0943 Pie) 110020
23 -10 4.760 0970 9 1150e0
C4 @) UP —e7DR 0056 a NAOORM
eS =BR, 778 0932 ofa} 1250.0
26 265,137 0922 a! NSIOO GO
at a3. 7 87 0023 All (350.9
2A =1.659 0976 AY 1400.0
29 3%. 4158 e077 ol/ 1450.0
30 97245A 0024 ef 150020
3] 1% .P32 e019 ef 1550.0
32 972190 0019 Phe) 160020
33 94.253) 200273 of 195000
34 B2.977 0970 05 1700¢0
a5) 17.661) 00)4 08 175020
36 616413 0913 Pile) 130020
37 43,735 eO11 oe) 145060
38 O%e4T7 V1le as) = NSOM60
39 150627 e015 ed 139500
40 -1.u02 e915 Pin) 200020
4) H4.2715 0913 oS) 25060
42 e11.25) e013 o> 2100.0
43 214.498 2010 je 2 SO50)
44 24,458 0908 05 220000
45 24.393 0919 ee 2250-0
46 =1.489 e910) 04 2730020
47 V56221 eMll 04 7350.0
42 2.493 enOuah 0 7400.0
49 3299 e010 04 245020
50 Jer 3) 006 04 250020
B-38
(OSG + ir Ct-wn. Te
BRFLS 11 2.0@ ME Se WMAR-65 1023-1030
LAGSs 50 N= 1537 OT= 0.2SEC
a MSINN EE OU iah
K ACOV Sp PFERILOUD FREQ (MCPS)
0 4732999 2.136 0 ’ 0
] 457.420 PHe 491 20069 50.0)
? 3HR,ZU9OR 72,579 me) 1002.0
3. AY7.L9R 74.9)A 667 150.20
G4 1992044 43.2) So) B2OORW
5 79,/57 77.997 4." 2750-0
A =21 0159 27 SS Sos) SOVHW
7 2-102.587 44%.94)5 2.9 3500
R @1 5%. 36 14.568 2e5 400¢0
G 1552166 3.954 202 45020
10 =) 84.744 Ae lee al) D0 0g0R
1] =16%7.290 1.074 1.8 550.0
2 ene are SUG: ofS) le? 60069
13. =/5,.549 0AM? 1.5 650.0
14 231.2939 0945 1-4 70020
14 Peil4 0394 Vos) 750.0
16 Bo@AN = 0249 _ as 1.3 300.20 ~ ~
17 P1679) el IH lea 35020
1R He lD5 0290 1.1 900.0
19 a2 4434? e 1 RN lol 950.0
rad) =6) 2933 welesS 1.9 i 1000.9 ie
21 =1046079 0 JHA 1.9 105020
Ce CBO Mesil oOo KOO a0 ot Bs
23 =1/76 4652 e047 e9 1150.0
24 197053 29466 o® 120020 t
25. =207.573 2054 eR 125020
26 =19706585 a O55 6 IAIOOG@
27 =1628.9K3 0073 A taSoog)
28 -1340387 4045 AV 1600007
29 #93449 0951 eo? 145020
30 "48.488 ~ 203 o IEOOSO
SCs Srersilio 2031) 06 160020,
33 662499 0078 06 1650.20
ee oo) AO oT, [\GieantW7(010)e\ 0
35 «vl1ee70 0975 06 175020
362 1236306 - 2025 06 150020
37 129./57 0970 o> 1450-0
3R_ 137.2116 2979 pep HO Sees
39 131.993 0919 eS 195020
40 1352424 201d Pen Neh 05 200060 me
41 1272804 e012 eS 295020
42 123.793 _ e917 05 210000 ~r
44 109.775 011 05 2200.0 —
45 992326 0917 04 225060
46 86.572 CL ee EN
47 (22131 0018 04 735020
aR 56.586 ~ 0014 04 240020
49 40.712 0)? 74 7450.0
50 240490 0 015 4 2500620
B-39
OSTA eC eIa 5. oe SO EE eee
T™ No. 377
_ RREILS 11 _0,5M-J Ss» 30MAR=65 — 1036"104® :
LAGSs 50 N= 1091 DT= 0.2SEC
M wa =5,1 +s
K \COV 5e . PERIOD FREQ (MCPS)
0 1264.869 3026/5 #4 0 oa
1 1162.878 23.598 20.9 50.0
_ 2 894e477 70.054 1069 10060 RD ONE oe is
3 526.24) 74.729 6.7 150-0
4 1302937 81.648 5.0 200.0
5 ©231.703 255.666 4.0 250.0
6 =5i8-107 340.171 303 300.0. wel % i
7 =703-1323 293.721 209 350-0
8 =717.614 6606114 205 40020 fae fe a en
9 =745.592 38.944 202 45020
10 =625.742 — 26,585 220 500.0 hat ea!
11 =432.751 27.275 “1.8 550.0
12 -214.240 ans etite 600-0 , 4
13 17.707 72155 No 650.0
SOE ESN ns ue otro 2m wT Ore ON oe We «eel goa NS URE ee Dd.
15 394.564 3.1457 1.3 750.9
16 495.963 229)4% 1.3 800.0
17 52).243 2e31k 1.2 850-0
JA 463.033 12395 oll 900.0 c Se VE ces
19 333.507 e841 1.1 95020
20 152.144 ot23 1.9 100020 : ats.
21 =532,914 0639 1.0 1050.0
22 @253.959 2446 09 1100.0 =
23 —421.266 03/8 09 $1150.20
2& =534.908 osi/e) oF 120000 ars
25 =589,292 0255 e® 1250.0
26 =-574.61? 0164 e8® 1300.0 ii :
27 =495.604 0154 OU 1350.0
28 367.500 0145 ol 1400.0
29 1930774 e129 e? 145020
30 #112925 wag e7 1500.0 s We f
Ts) MieARaS 098 °6 1550-0
32 317.375 2065 06 160000 :
33 422.093 2058 26 1650.0
34 489.335 2074 06 170060
35 487.79] 0079 06 1750.0
36 431.636 2061 °6 180020 = peas
37 3352389 0036 5 185020
Een BEEZ S See OSB UU se SEO 7610 Ree ae é c
39 62.282 e051 5 1950.0
490 #627.993 0052 eS 2000.0
41 @-]166.1]82 0049 05 20 0.0
¥ 42 =227.857 e046 =) 2100.0 =z i ne es
43 ~©242.150 0043 05 2180.0
44 -219.079 2045 05 220020 a)
45 -140.469 0054 04 2250-20
46 @=49.815 0054 04 2300.0
47 45.188 e051 0 235020
48 1260441 0957 o& 2400.20 é
49 1796915 0953 04 2690.0
50 195.336 0023, wo # —- 250000
B-40
O57 8B
CI-w
BREWS 1) 1,54= TB Se 4OMaR=65 1046-1047
WAGS=S ci) NS) linia HT= 0.2SEC
MEAN we =P,
K COV TS) PER YO) FREQ (MCPS)
0 11332094 Aoewney (= oe 0
1 1944.294 352.40") 2UeN 50 .()
? 923,939 QR/.NH4 10,9 100.0
3. S145.744 Te Tdi) Qo 1/ 150.
4 179.237 74.375 en) 20000
5 =-1 44.39? 274.779 4. 22U eI)
6 =3912/05 294.115 Sirs 400.0
7 @554.516 177.039 2.9 350.0
BR e841 2.4n9)] 694945 205 400.0
9 -672.769 PR 449 eee 45020)
1M #5372278 13.45/71 2.) 5009
Nil os} ase Mig I Ke 1.8 550.0
12 217320123 = 8.749 1.7 ©=—40020
13 312224 7.951 1.5 650 «()
14 21%°.575 4.770 1.4 700.0
5 334.340 2.3871 lies 75020
16 402,108 10945 1.3 40000
17 395.392 1.219 1.2 35020
UG DARGA. saan lel 900.0
19 FUR e394 2508 ol 95020
20 62.909 e444 1e9 10000
2) =39,48R 04h] 1.0 1u50.0
22 233.900 ose «9 1100.0
23 = 39912595 0 347 09 1150.0
24 =43320595 235A 68 LAND
25 2-47232.737 2349 B® 125020
26 =4694450 =) 244 08% 130060
27 =473.!163 2236 Sf 1350.0
2R -332.577 0252 50 NAOM5O
2y =732157 see 5 if 1450.20
39 Slvvyozee ) otro oot oSwWSo
at 142.436 2) 4? 06 155000
2 T2956907 Ss” ols 06 1460060
33 222.1137 0140 06 165020
34 7BR.646 2.1546 06 1700020
35 324.749 0146 08 175060
Siar SMa (Om Oe = gOpl SU Umb an cn a a
37 3252450 2122 eS 145020
3R 285.552 0178 = tec 1900060
39 72245.1)84 0128 °5 195020
40 1532304 Noe T pnOhs 2UWWGo
4) 722474 0 0A) eS 7205060
7 he a Ve. 2 e e e
43, -41,737 e079 05 215020
440 815.665 2052 5 220020
45 #=82,659 0948 04 225020
460 280 — 575 2066 04 2300.0
47 =54.397 2059 04 2350.0
4B =152443 204 04 400.
49 296751 2080 «4 2450.0
50. 76.887 SHU Fe 2SWWSu)
B-41
T™ No. 37
0586 LI-w SiC
HRFEIS It 0eS%° BI Se JUMAR=65 112921131
LAGS=S 30 N= 76e OTS J0ee@Stke
MEAN We -
K \COV SP PERION FREQ (MCPS)
0 W52e3 ATR
1 9307 154.7
2 717922 15407
3 61164 194.2
4 43.445 R505
5 e7iol 197.3
6 l46el1 9B
7 SR ed 65e()
8B 926 4902
9 o4.9 24,8
10 3.7 14.9
11 24.4 8.7
le 4728 6.3
13 sfe3 4e3
14 1922 320
1S 21) 99 1.7
16 7125 120
17 4268 1.0
18 299 1.9
19 1.3 of
20 -)3.2 oe)
2) =21.26 e3
22 243.5 el
23 =65.9 0
24 =5 09 el
25 elokel el
26 @1?PR.2 ol
eT -145el el
28 elS/el e 1)
?9 @=152.6 e()
30 s16Ue3 ol
3) =149.0 ol
320 91 P7122 09
33 297.9 eo!)
34 @=6626 oe!)
35 =3/.6 ra)
36 =(209 Pao)
37 5.7 20
38 1729 Pat)
39 229 of
40 Piel 20
4) 9.8 Pat)
42 =626 0)
43 @=279,.] eae)
44 =55e26 20
45 oH 3,7 PaO)
46 alN9.7 ef
47 =174.8 Pat)
4A #=12/7,0 20
49 131.8 00
50 #1144 ef
B-2
¢
B-43
O59 CT-w
BRE'S )1 27,0%—9W Se 30MAR=65 1134-1137
LAGS= 5) N= 751 T= 02SEC
MEAN w= 2,49
Koren yCOV $e PERIOD FREQ (MCPS)
n 425,6 41.0
) 466.2 7309 Are2U 500
? 4:5,5 7306 L%.0 10000
3 347.9 45.6 4.6 159.0
4 258.1 B14 5,0 20060
5 171.9 4/°,3 4.0 254,0
6 93.1 57.9 303 3060)
if 2R.7 Sloe Pe 359.0
R “1664 13.0 2.5 4) de0
9 m41.6 hed Pee 45320
14 “48,7 joe Po) 509.0
ll -4),1] vers 1.8 55100
12 223.4 at 126 6060
13 -.9 Pie) oS) 657060
14 oe) 25 1.4 T0020
5 qa9.4 3 Was) TH i2eV
146 rand o? lee BO0,0
17 Sear mee Woe SSO:
JA S1.3 ail lel 9020
19 4iel al 1.20 95920
an) 25.4 mall 5.0) 1000.0
aa 5.9 aul oJ 105020
22 =\4,3 oul 9 11060
23 =22.8 50 28 1150.0
24 aA7,T7 Pat) 08 120020
25 =S7.2 50) 28 1251109
26 =59,9 56) a Ue AG)
27 =54.8 eri) ef 135%60
28 -42.7 20 As 140020
PG = 95.7 > 60 anon ICS win
30 24.5 e 06 159020
3) | Hae 50) 06 155.20
32 439.7 A) Pio) 160920
33 AXeT a0 06 165020
34 76.3 Pa) -5 1790.0
~ 36 RAG a 0) 175020
36 96.4 af 2S 189920
3\7, mm lCOmr4 oh) oS) 185.0
3R aval AS) * he) 190020
39 99.9 Ole 05 195.0
40 95.8 Pao) 0S 200020
Til BST ae SO O56.) BUEoth
42 91.9 Pat) 4 2100,0
43, -7?.8 50) 04 215020
44 52.4 Pa) 04 220060
Ay Ray 9) 60) 04 2251620
46 3H.1 Pa) 0&4 230020
47 25.4 A) AU Pana OG nee NT
4R 13.6 Pa) 04 240020
49 és 20 04 2451.0 =
50 =-3.5 PA!) 04 250020
T™ No. 377
OEGO
BBFIS 1]
LAGBS= SO
Me AN w= ~~
K ACuoVv
0) 47505
} 450.8
2 929.9
3 29904
4 149.7
) 73-5
6 =3/.3
7 =13¢.9
Ll e223
9 @243.5
10 225465
1] 22376
12 2194.0
13 214209
14 a2deal
15 -\/o7
164 3626
17 76.0
18 77.5
1A 3/5
19 998
20 43.2
el 50.8
ee 609
23 s42o07
24 22,0
25 @115.4
26 2147.8
CT elrneS
28 @=1#4.5
29 =170.A
30 #l4vel
31 29/5
32 24/23
33 bel
34 SH4
35 195.6
36 144.3
Qi l7eo7
38 129.3
39 14405
40 188.9
41 173.7
42 150.3
43 Letied9
44% a7ol
45 51.5
46 1606
47 215.3
48 242.5
49 253.4
50 @77.0
LI-w
2eoMe TI
N= 1445
Se J0MARe65
UT= Ve2StC
PERTOD
114021144
FREQ (MCPS)
B-4}.
T™ No. 377
I No. 377
OGI ElSGQiiies sea a ed ae al
BRFIS }1 1.0%—=6] Se 3JOMAR=65 1155-11586
LAGBS= 50 N= 733 UTS VePSFC
GLI RUIN es es og
K acoVv SP PFRIOU FREQ (MCPS)
0 W704 35.9
] 924.2 114.2 21.0
2 819.8 NseS MAW
3 640.7 lA reyl! eA
Bae UCI) each Che a ae ey Es
5 22P.7 154.7 4.0
Cn als. en ICAP: Noe)
7 2 75,4 44.4 2.8
Ro =144.9 VRS 2.5 a
G =275.4 RLS 2e2
VQ See Sard ON ee ee eo Se Oe eee
1) =-7°5 4.6 4.4 128
1? 7156.0 lire 126
13 -9?,.3 lal 105
14 223.9 3 1e4
15 qaR,/7 0A le3
Gy £15 ret] Gee Pi) lee 2 ee
17 Waa te 4 lel
]2 191.9 aS del
19 662.5 ) 120
210 ee ot all 1.0
21 =-73.8 oll a)
Ge ON Sho ail CD a Reais oe se, ele See oer a
23 =24%.1 a? 28
24 2#371.6 ail of
25 -373.3 el 08
26H =399,2 all Stl
27 =397.5 eo!) al
28 =370,9 50) el
PQ =-397.9 70 26 ears
30 2549.6 5@ 26
31 -188.0 ef) Pio)
32 -11¢.6 AO 06-
33 =27,.7 G0) a6
34 47.5 20 a)
35 15.3 wh fea one emo 7
36 [48.4 0!) 05
37) 199.5 50) 5
38 2711.2 POE ele KS ‘ a
a9 P2654 Pa) 05
40 236.4 aM Ob) ae m
4] 2>T.l ait) 4
42 214,45 Oy!) 04
43 WSS 5C) 20 04
44 136.9 Ait) 04
45 24.48 20 o4
46 41.4 Ai) 4
47 2924 20 o4 ‘ r
43 20 4
49 =13.0 5m 9 oS core 7
50 _-19.2 20 04
o62 CI-w
RReE!S 01 1.5%= TF Se 39MAR=65 1159-1203
LAGS= 50 N= 1232 OTS 0.2SFC
MEAN w= = 3,
1Kien SuaGGV “SP PERTOD FREQ(MCPS) —
NM A55.276 1.052 9 0
1 8)).507 25.754 20.0 50.9
2? 681,93 7TALLART 10.9 100.9
3. 49%,94) 74.944 6.7 150.0
4 767.468 112,759 5.9 200060
5 hel) 298.341 Coo 9 S060
6 191.192 299.253 Soe) 300.0
T =36%.736 752532 209 350.0
H -482,492 Ae VOT 2.5 40060
9 543.393 A198 Age 450.0
10 =331.4655 4.416 2.9 500.0
li =46.75 9 |) S026 ~ Noe 350.0
12 =347.559 10494 Wot 600-0
13 =77545.928 oRP4 Wo5S} 450.0
}4 =55,469 26455 164 70020
15 45-2529 2605 1.3 75060
16 27%.744 2457 es 800.0
Ne 277o vee 2449 1.2 350-0
1A 357.686 selva lel 900.0
19 29:.989 > 2256 iL ail 950.0
2n 231.981 ol) es 1-9 1000.0
2?) 137.13? le VaOr YHOSOGO
2? 21.448 0 0A? 9 1100.0
De) Stuy oSve oco@vsr © oS) 1iS0oo
24 =217.573 292 o® 1200.0
25 =313.667 216 eR 1250.0
26 @3H° .74R onl oR 130020
27 -417.21732 0998 eles S070)
2R @457.616 208) oe? 140020
“79 =367.18R }38o1 a oth ICAEW GO) ie
30 22946.311 00469 el 1500.0
3) =7127,)9R 0955 06 155020
32 =-9>.618 204) Pls) 1600-20
33 27.302 }&~§>=— 038 06 165020
34 141.921 203) eo 1700.20
35) ce%~e62 aise 06 175000 aaa
36 361.372 047 06 180060
37 348,838 8 8 052 25 185029 a
38 367.985 2048 °5 1900-0
39 359.799 + ~=~=.04H ~65)=— 195020
40 325,663 0 040 25 2000-0
S Sl Divo lis we029 Aan 205M o sane “oy,
42 215.632 224 05 «2100.0
43. 133.R39 #82027 °5 2150.0
44 64.399 09279 5 2200-0
65 ces 476 7 ° 025 one 2250.0
46 44,379 0026 e4 2300.0
47 =/5./738 2032 mare ep 235000
48 927.246 2029 04 240020
49 =91.614 0924 04 245000 i
50 =/77.439 2017 04 2500-0
T™ No. 377
mo] -* Sa = 0
BBEIS 11 3.0%=9F Se 3J0MAR=65 1205-1208
LAGS= 50 N= tOBo YTS 0eA5SES
pee MIEVAINI eet ae a Loree ee
K \COV SP PERTON FREQ(MCPS)
X (i) 23623 249.5
1 2RT9 449.63 Fe O
2 24504 Ba 1000
1%) 233.0 65.9 66
Be 4 igre 2343 2S einen ee
5 143.9 271.6 420
6 Sand! 23.9 2 6e) . a
U QU.4 1 4).5. 2.8
Mel SAO 4,0 7eD
9 W24 2.4 Pee
= 1GaM_ nS. eo) ae
1] (26 5S) 12d
W2e ae Sar as) 126
13 3.2 a3} 105
14 _ 44 2 14
5 6.0 al Wes
14 asses PR sei Be er
17 6.4 aul lel
18 40) | of) lel. a
19 =.4 eV 120
en “7.0 4) 1.9
21 -15.3 oi) a)
22 .. 22608) £1 Oe Cre Py 2
23 -33.2 0 8
24 eh inT Pa) 08
CS). -45.9 et 8
6 -47.7 of ot/ bg
i/ =45.6 et) ef
2R =39.5 Pao) of
~~ 29 =29.9 a0 Aas, OK ee
3n -17.7 20 Pie)
3) -4,.1 — o® 06
3? 9.3 Pas) 06
33 PN Wn nee OL 26
[3 Aenean Cl CR Ci! ae = eee
35 40.2 a0) O'S)
36 45.6 Pe) 05D
37 44.6 20 05
oS 49.5 fies Fy 19) Pie) =
39 48.4 50) Sk ae
_40 45.0 20 05
41 29.6 60 nae
42 32.5 29 04
43 23.7 20 AED :
44 13.8 Pi!) 4
45 3.5 A) of nal
46 -6.1 Pa) 04
47 =14.6 0 34 Sher =
4R -71.3 Pao) e4
49 =75.8 Ohne SCE ae
50 =?8.3 20 04
T™ No.
BiG
™ No. 377
Se JUMAR=65 1244-12 16
OTS )9.2SFC
PFRIOD FREQ(MCPS)
A0e0
of
ol
2?
?
)
1.6
1
1
i
|
|
]
AIO
1
065 ~— bT-w oa oe =) aa
BRFIS 11 2.0%—9- VR Se 39MAR@65 1218-1221
LAGS= 5&0 NE Wi sh T= 0.25EC
_ MEAN w= =3,8 e BE DEY Ay die EE ee
K ACOV SP /PRR TOD FREQ(MCPS)
a GNA 22456 ORE 0
1 396.993 216191 20.9 50.0
2 33% .836 Selousayil 10,0 10060 =
3 754.696 54,30) 6e7 15020
“4 MSS.685 S528, ? ore Ss x
5 53.432. 99.929 4.1 PO0e
6 =40.99)_ 046) 3.3 sade
7 @11%,28) 14. 473 2.9 350.0
B -lf2.287 1).391 205 40020
9D 200219 59 2HG 202 450.0
19 -201.582 24164 2.9 50060
Mimaionmaan 12265 “1.8 550.0
1? 2147.493 2842 how 60009
13 =95,007 Geyaht/ 1.5 650.0
14 =45.74) 04/9 1.4 10020
15 -1.149 oth? 1.3 (5020
BGS 4 ORM ASW lies a S000 :
17 56.119 eon! Woe 45020
Nel eae. 2176 Naik 10060
19° 540.195 al26 eal: 15060
20 3? 296? © o1llé VSO VOOORG
?) 1.354 2123 1.0 1950.0
2B2 OSG oN 09 110020 aa See
23 =f 4,349 eli oY 115000
24 mle HST 2)R6 eB 120060
25 =-134.,.397 065 08 1250.0
E26 eS oNS Oo 8 1300.0
27 =-155.52) 0467 ef 135020
_ 2b) QlOvoO gy SOSUT e7 1400.0 die RD fi
29uallevasee 0044 eo? 145060 en a nen ae
30 =946.-781 e047 ef 1500.60
31 see 2ee 4 045 He yS50e0
33 23. on SOR 26 =©-165020
34 612570 oO oe IN OMoO) : re ea
35 92,3428 O25 eG aL SOR0) ann
__ 36. 114-301 2035 06 180060
SV, 126.463 0037 05 1850.20
38 129.242 SOE 5S OOM ae
39 1232.R64 2026 05 1950.20
CO les 206 Sori 25 200060
4) 94.746 e019 05 205020
42 79.513 A020. ee Se Ve NO0R0L me
43 672405 297) eS 2150.20
44 460494 2020 oS 220000 :
45 33.709 2018 04 225020
46 23.259 2014 SoG 250050 =
47 15.693 0913 04 235020
48 1n.6l6 014 04 240000_
49 7286] 0015 04 2450.0
50 60787 2008 eG 250060)
B-49
a ORNS eR rue T™ No. 377
O66 LI-w
BRFIS 11 2.5.8 TE So 30MaR=65 1226-1229
LARS= 50 Ne logs IT= OeASEC
MEAN WS ome ss
i< ACOV 5b PrRLOD FREQ (MCPS)
0 471.1 alc yie)
1 445.2 aa, Pied
2 32,8 42,7 Lao
3 291.5 AP a7 425
4 (81.6 5464 529
5 45.0 aI os! 4
6 =45.3 96 3 323
7 -139.3 Pae7 Peh
BR =2)0H,3 (53) 2.5
G 747.9 % 4 Pee
19 =255.7 1.3 Jeu
Ji =295.5 1.3 1.8
1A 219.8 eli 126
13 ~1?4.5 eo 'edD
14 =56.9 3 164
1S 1524 os) ie3
14 Hi). ee 1,2 cS of
17 hl oS) 2 tel
1a lAr.5 2? Vogt
19 Piles) 2 ef)
270 1S7.2 ? 1.20
Ai 122.0 oll oe)
22 Tre rail Pa)
23 Rae ol 3
24 a59,-0 a ll od
A5 -1727.2 Atl xe}
P6 175.5 all al
AU aeVsla i/ oul otf
28 =2372.6 an bexeil
29 =231.2 el Po)
BN 2255.9 al Pie)
3) -i1452.8 2! Pie)
32 -#1°79.5 eo) Pike)
33 =2R,7 oll) Pe)
34 244 a) a5
35 o5.3 ot) Pio)
36 iSue0 5M) ed
37 188.8 20 05
32 209.5 450 a)
39 QVNA® 5 25
4n L44—R 20 Pie)
4] 144.1 ef) 34 %
4? 173.0 ef) 4
43 VOGT Pa9) 04
44 PY.9 eo!) aia:
45 “12.9 50} 04
46 “4/5 a) 04
47 -71.0 a) 04 y
49 WA) .7 Pa) 04
49 =79.7 o!) 4
50 =Ahl.2 ALG) 04
B-50
TM No. 377
OG7 CI-w
B8FI1S 11 4.0%2FR Se 30MAR=65 1234-1238
LAGBS= S$) Ne lana NT= 9.2SFC
MEAN We @) 4
“(te “Coy =o PERTOU FREQ (MCPS) ir i
9 475.2663 PTk/ 0 0)
] 493.510 Pe. (4H 206% 5020
BQ SOP GUO BAe dd) 1U.9 iV0.!
3 307.885 62.80) 6e7 15020
4 192,329 64.134 b>) 20000
5 162545 124.49] 4eoM = 5000
6 -47.529 4?,3?794 Sis) S000
7 =) 24.544 366198 2.9 35000
R 219.992 36235 2.5 400.0
G =22%.416 3,39? 2ee 45000
19 #734. 34)] 1.557 26%) 50020
11 =217.914 2816 1.8 35020
12 -178,822 0540 git 600—N
13 =126.735 eels 1.5 55020
14 -7%.219 02118 1.4 100 0!)
YS =17.758 el7d 1.3 75029
16 e5e310 63 Nios} 800.0
17 52.949 4199 1.2 9550.0 a
1a 67.2587 0974 yeu 90060
19 546.) 05 0964 Koa 95020
20 2%. 313 e071 1.69 +Y000-0
21 -7.511 2076 120 105020
22 51.238 0079 09 110060
23 -960l27 = N44 “58 DIS060 a ae ae a
24 =-136 0416 004] oA 1290020
25 =167,397 2027 eA 125020
26 =155,74)1 0746 oA 1300.0
27 -1876761 ~=3=— 32 o7 «135060
2R @-1 74.482 e033 el 1400¢0
~ 29 =146.457 0076))~—té‘<iétSté«i*C KS Meigen oa Sg a
30 =104.339 0070 e7 1500.0
31 -57.978 0915 06 1550.0
32 =-5,793 eI1LY Pie) 160000
330 45.562 =, 0A 1 66) «6165000
34 91.985 0915 6 170060
35 135.19 “2012 26 1750.0 fh Rr ee ae eet a
36 158.237 e011 06 130060
37 175.106 AU a = OS TICLW5U =
38 181.72 eN14 eS 1700-0
39 «#1772955 SO The oS eB06o
40) 167.903 0916 e5 200020
780 70 5 2 ; ae . i
4? 1352604 e013 05 2100-0
Oy MN Pots) a GOO: mS 2150.0 ~ eae
44 92,739 e019 05 220020
45 ENB C0) NOM © 064 = =©225020 : e aN
46 64.196 2016 0 230020
47 47e4e] sO bY 04 235000
4B 39.2603 2015 04 2400-0
~ 49 13.460 | ~ 2013 04 245020 en ane
50 4.147 2006, 04 250060
B-51
068 Cr -w
—RREIS 11 4,5=GE Se 30MAR=65 1241-1244 co et ee
LAGS= Sv ARS NT= 0.ASEC
MEAN Ws =<
K ACOV sP PERTOD FREQ(MCPS)
ea ORSON 2 ee Ge iT. Sa = a
] 297.8 Witiere 20
A/a nf ALN) Jee ino
3 275.0 449 526
2 Meio 54.2 SeV &
5S 43.8 R14 4e0
(ye -/o7 53.46. Ae3 Goes = ™
U =/1.0 13.2 P28
Ah ON AWA TL 306 Pie! oe z eee
9 =153.4 LoS Pee
2 hy ONE TAG) 8 260 x eee 5 ae
il =-1463.8 0S) 128
We neon eine \ieiO7 sia: eee UE ee 3
13 @112.0 of 105
14. #7244 ae Yo% 4 ep eee soul Spee Ls,
15 =3().3 oil 1oé)
16 9) ai 12 in Bie Tt Osean) eee
a7, 42% 20 lel
Seer 1G ene (719 0 Tg) pu) ey eer le ak en ele ee
19 7602 20 120
0) ARE) nt) oO 3
el “1.22 00 09
2 Din 0 Ae it.
23 7.23 20 8
24 =?6.l1 Ras Ee Pa) 28 ee AE le as
25 =55.8 ra) of
Aa OSS) 00 EC Gener zn i noel
PT = @1 Re? 00 of
32 2a =119.5 Oa!) ef
29 =] 20-8 ef Pa)
30 =110.8 of 06 3 see 2.
3) — 290—5 Pad) i 06
32 -41,.5 os, od) 2;
33 =?6.1 rae) 06
aS 1202 Pn!) i) os BOERS LES SOE Pe
35 5064 of 5
SAD 850 Pa) oS : eerie Py Ge
37 11364 00 05
3R_ ~ Neots) a ow) 5 = en!
39 144,1 20 i)
_ 490 144.4 Pa) 25 a at bas
41 134.7 00 4
4e 116.4 rad) . 4 F
43 41.2 00 04
44 4124 re) 04, i eee epee 2. + ee
45 2922 00 04
46 =2.5 a) 04
47 =—3104 20 64
SUS 8 5S 20 04 : . d
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56 H91e7 ra) 4
T™ No. 377
O69 LI-w
KREIS 1d 3.0MeTE Se 30MAR=65 1245-1251
LAGS2 }CQ N= 1059 OT= 0.2SFC
MEAN w= 0,5
K acuVv SP PERTOUD FREQ (MCPS)
0 ePre4 1e4 0 0
1 22004 209 4020 2900
2 19A.3 06 2920 520
3 14561 19.2 13.3 T00
4 124.0 3404S 10-0 19020
5 7961 43.3 420 12500
6 3404 172.6 Sef 15900
1 =hel 702 S.7 L75eVU
8 “39.7 92 520 20000
9 =64e3 1520 404 22500
10 -719el 2509 4e0 2]>te0
ll M2403 DAG 306 = 27500
l2 ]N21.3 19.3 3.3 30000
13 =7e el) 4a 3el 37520
14 259.0 PF 209 35:00
1S 2456] 126 Pel 37520
16 =3209 eT 2e5D 40000
17 74064 04 P04 47500
18 =71.0 3 eee 4500
19 27302 02 Pel 47500
20 =3lel 02 220 5000
2) 4304 2 109 57520
22 -54.6 ef 123 55720
23 =74,5 el lel 57'5.0
24 =89,] el lel 600e0
25 =l00el el 1.6 62560
260 elibhel Aa) 125 6560
27 21662 A) 1e> 61500
28 99.7 el 104 790.0
29 246.7 20 104 (7? 2-0
30 @f/.9 0) le3 T5060
31 744.7 00 163 77500
32 =143.6 Pa) )e3 B00e0
$)5} 4.5 00 led 62520
34 34.8 Pa?) led 85720
35 5B44 Pa) lel 87520
36 77.9 ef lel 90020
37 9ePe2 00 1.)] 9P5 20
38 19069 ae) lel 9560
39 1°3.8 Pa) 1-0 97520
40 191.6 Pa!) 1.0 1000.0
4) 95.2 Pa) 100 1025.20
4? a5.7 Pat) 120 105020
43 7426 00 oJ 10/520
44 6302 ef) Pe) LlvveI
45 52.8 00 0oF 112500
46 4464 20 oe) 1150.0
47 38.4 Pao) 09 = 117520
48 35.0 Pa) 08 1200.20
49 33.9 Pa) 08 1225-20
50 344.2 20 28 125920
51 35.2 00 28 12/7320
52 35.8 Pao) 28 1300¢0
53 34.9 Pa) 08 137520
. A 13}5)8}
069
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3JM-
50OLAGS 1O59DATA POINTS
MEAN U # =0e46275
K ACOV SIP PERIOD
2282405 16275
Bo
22069) i 182609 2000
2 PUI Bie 3)3'6 502206 10¢0
BNE 5i10/510 450304 606
4 1232975 282/740 500
5 792066 392606 4-0
6 340432 312340 303
0 6 IAS = 90205 208
8 =-39-/07 16/53 205
9 =-644300 0/48 202
10 =<$792101 0 384 200
11 =840325 0317 1¢5
WZ OST o2IS e160 166
We oniloy73 e107 Low
4 = 518703993 0089 1e4
tS) -452088 0083 le 3
16 326874 0052 le2
17 =24.287 0032 lel
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WO HPA B6 PAI 0042 1¢0
20 R= ilfesOiD)3 0939 1.0
Al -43 2400 0028 09
22 58 e582 0023 eJ
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24 -892057 0019 08
2) QNIOoVI2 e015 Ox)
26) = O06 ie 109 0018 o/
2 -ilOGoL 7S e017 e/
28 =990678 SOLO oF
29 =86e664 2007 ie)
30 672897 e008 ef
sal -44.680 0009 06
B72 -18.2603 20007 06
313 8B e524 e006 06
34 342795 e007 )
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41 O15 ie) 18516 0003 04
42 852695 0003 04
43 740558 0004 04
44 6306211 0004 04
45 520846 0004 04
46 44.361 0004 04
47 382379 0003 04
48 352002 e003 04
49 332851 e003 04
30 #4, 221 . 60! |
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DT# «20SEC
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5000
100e0
150¢0
20000
25000
200e0
25020
400¢0
45020
500e0
550eU
6000
650¢0
7T000e0
75000
80009
85040
900e0
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1350¢U
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2st.
T™ No. 377
O71, om ae T™ No. 377
BBELS 12 O.eM-GE Oe O7APR=65 1235-1238
LAGS# 50 N= 5A5 DT= 022SEC
MEAN Us 4,5 MFAN W= Ool
K aAcCOV_U ACOV_ w_COV_IN COVOUT SP U SP Ww co QUA PER R PHI
0 32.9 74.5 .27e0 0 5Se02 5218 =-1.39 0 0 e27 0
1 meses TOA. =626 Co% 9049 9.42 =1.23 3204 20200 0 35-67.97
2 3129 62.1) =60() 4.6 8095 6674 =0.20 4,03 10600 052-8702)
3 2923 49,3 =5.2 6e4 5.73 6.49 -0.78 2.26 6667 0639-70099
4 2703 34,5 =4.3 7.8 1257 12-43 -1.13 099 5.00 0 34241.02
GS Colello ee =3.3 8.6 of4 15.94 =1.38 1,07 4.00 051-37.9)
6 2208 Soe =2e4 9.1 ool 10.07 =0.63 el 3.33 0 49=55.45
; Ue ene3 ’ @6,8 -1.5 9.2 e018 3.80 006 049 2286 el 82.54
8 17e7 =15,8. -0.7 9.0 ell 1.78 003 016 2e50 035 80.87
Oi 15.2 -21.2 0 B.A 007 082 -0-01 002 2022 0102-61-51
10 126 223.0 06 8.0 007 040 =0.03 0 2200 20 1.20
ll 10-2 21.4 08 —Te4 eld 025 -0.06 oO] 1682 641°13614
12 728 =16,9 08 609 008 024 =0.05 205 1e67 052740276
13 57 10,4 04 6.6 e003 e21 -0.02 003) «1654 647252.07
14 3e7 =2,8 =(e2 6.4 V2 014 -0.01 0 1643 021 =-2046
15 220 S10 -1.0 604 e003 2°08 =0.02 0 1.33 032 =9 24)
16 05 12.2 =-129 6.5 003 007 =-0.01 001 1e25 e2€8=52.06
17 uO 822 )8i,) =2.9 606 _ 902 006 | be 0 001 1.18 0 19-63.90
18 =2el 22.1) =3.6 6.6 001 006 =0.01 0 lell e23 8.48
NO hin Bh eA GAG G0 405 COGN CuSO T60B GED GESv6
20 4,1 24,8 =4.6 602 e001 003 0 -0.01 1.290 e3] 61.27
2) =4.9 23.4% 4.7 5.7 01 002 - 0 0 095 2 09"-11.2/78
22 25.5 20.4 -4e6 5.0 001 002 0 0 091 018 -62.80
ps IE BANE SA IAC Ie MC i dee ee er I EAL oie MA}
24 =5,8 10.5 23.9 3.6 e001 e002 0 0 083 040 2el7
5) =Sieo 4,6 =304 2.8 0) 202 0 0) e380 046 10239
26 -5.)] =1,2 =209 2e0 0 e001] 0 0 0/7 041 18216
27 24.5 -6.4 =204 lel rae 0 00] 0 0 0/4 0645=17,30
28 =3.8 -10.7 =200 °3 0 01 0 0 ef e602%22.04
(Aah SGC) SAO A Ce) Ol rei) 0 0 269 654 =4.11_
30 -le7 -15.2 -1.7 =1.2 0 001 0 0 067 049 14484
31 £2063) =15.3 “200 mle? 0 01 0 0 065 055 =-0079
32 Jo) =14,) =206 =26)] 0 0 0 0 063 080 -7./73
oom 2@e7 "11.8 2303 7204 0 00] 0 0 06] 80 007
34 402 8,7 =4.,) -2.7 0 001] 0 0 059 06 f/9-14.84
De GA Ce Gn ean Me sO Om 4B Berceosse
36 Tol -1.3 “506 -3el 0 0 0 0 056 0/6 =5-87
eee Ree nice =6e)] =3.3 0 00) SCO 289
38 Gel 4.9 “625 363 0 e01 0 0 053 068 =3.72
39 929 6,4 : =6e06_ =3.2 (0) 0 _0 0 eS] 0 /9_ 1.76
40 1064 7.4 =6e5 =3.0 id) 001 0 0 050 e/7 008
ei ie] Us ES OC DE SO) ONS.
42 109 5.46 =-5.5 =2.3 0 0 0 0 0481203 2eb6]
43-10 ef Se ober ao 0) O= =O __() 047 095 2034
44 104 =0.2 =-3.8 -1.4 0) 0 0 0 045 e88=-120e26
_45 909 SOn sors) Ola@ 0 0 =30 0441 000°-14285
46 902 -8.3 =202 =0.6 0 0 0 0 0431-08-10.17
Si. 8.3 12 = =0.3 0 (0 0 (SOR AEH AT
48 704 15.7 -1.3 0 0 0 0 0 042 092 -2200
49 a (605 -18,.1 S -1.3 = 04 OO 0 = Op. 3 e411 296 3289. pa
50 5.5 =19.2 -104 ov 0 0 0 0 0401207 0
B-5)
O72
or
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LAGS® 50 N= 1551 UT* Oc2SEC_
MEAN Us 9,4 MEAN Wa ol
_K_ACOV U ACOV Ww COV IN COVOUT SP U SP WwW CO
0 19.9 B7.5 . 7303 0 4640 5234 e1l5
iE aOR VASHON... $3.0 09 6027 13659 =0014
2 14.9 73.9 =2e2 1.8 2.85 15.66 =0.67
3 15-0 60,8 =le2 208 1¢50 13e01 =-0.56
4 1364 46,7 =0.3 3.5 280 11.64 =0.25
Seles mes Sac e3 a. 264 10.37 =-(0-.24
6 lle? 21.5 e4 3.5 067 62.61 =-0.33
: 7 1lle2 11,8 2 209 048 3.6] =-0.22
8 1007 4,0 el 2el o32 2027 70.15
9 1020 22,3 ol veiS eel 1.45 =0.18
10 9e3 =-6.8 3 lel ee7 088 =0.20
De 808 -9,5 06 lel e25 e72 “00e2)
12 A.3 =-)0.4 9 1.3 023 of4 -0.18
13 R.0 9,9 120 126 eee 057 =0.11
14 708 8,3 1.0 1.8 016 029 -0.04
15 1a-) 6,4 9 2el ell el6 =0-01
16 7e2 @4,7 08 2e3 007 ell 001
17 6eT. #3.9 e8 204 205 006 0
18 602 =2,8 9 206 205 004 0
19 5.8 @2.6 lel Cel 004 004 0
20 503 =2.6 1.3 209 003 003 00)
2) 4.9 ae =2,7 1.5 3.0 002 °03 00)
22 405 =3.1 1.6 3.0 002 2°03 0
23. 402 938 166 320 _ 02 °02 0
24 309 =5,0 Woy 209 002 e003 0
25 Bev 26,8 126 eel 002 e02 0
(26. 3.6 =8,8 125 204 002 002 0
e7 3e6 10,8 1.4 201 001 202 0
28 3e7 712.4 1.2 1.7 eA] e001 0
29 309 13,2 1.0 1.2 00) ¥ 001 0
30 4.0 -13.3 ef 08 001] el 0
31 bol -12.7 05 04 00] Q 0
32 402 -11,8 2 el 0 01 0
33 402 -10.6 : 0 =0.02 0 oO] 0
34 4ol 9.3 “0el 0.5 0 0 0
35 GhweA 0) = Oely L009) On mretO 0
36 38 =6,6 0 ©=1.2 0 0 0
37 Bef 24,2 = ol -1.6 0 0 0
38 326 =3,1 e3 -1.9 0 e01 0
39 305 -1.4 e3 7203 0. 0 0
40 3.2 of 04 =2.7 0 0 0
oil ae Ol) 1,2 04 230) {Mes sow 0
42 205 2.1 04 3.5 0 0 0
43 Ao3 2.9. a 25 3,8 - 0 00] 0
44 204 Sor 05 =4.,] 0 0 0
45 206 4,8 ed 7404 0 0 0
46 208 6.2 0 4.5 0 001 0
47 300 Tel 2004 =4.5 0 0 reno)
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50 301 12.1 "1.3 =226 0 0 0
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36 oo @273.U 1205 -11.5 eU3 el6 =0202
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14 3.8 -79R,/ 5.1) -35.1 e28 03% |=12.))
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17 LleeS =35,% Mass) SB25° el? 019 -0.02
18 Gel 47,4 Clee =15./ ell el2 -7202
19 VOU 119,58 2605 =8.4 29 ell 29.202
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30 -1.0 SHA 1944 4.6 02 206 0
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44 102 244.94 Voce abvoe eV) 005 0
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18 45 ei) 133.9 -~3.7/-123.9 elo 04/7 e202 2U2 Wold
19 5P.5 2?7.:) Be4-JULe4 014 07h eC] -0.01 eS
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2) 54.22 955,49 13./ -47,0 008 018 =-0.0) n) 09S
22 49.1 SRR 14.7 -154.5 004 e22 -9203 eV) 7)
23 41.4 $95.5 L269 9.25 014 ofl “0203 -0.03 oh7
24 37.4 37K? Had 35.4 Abe) 015 “0201 =-U0.,04 e32
25 230 332K, 2ed 54.) Pane) 0 l4 0 =O.01 SC:
24 l3e3 e77.9 ~4e.P ilo ll eid el6 -020) 003 alt
eT 32.9 MN oi -llel eau) 006 ol4% “0202 02 ential
28 -4,4 eS youl Ps are eee ee U7 el3 =-0.02 =-U.01 efl
29 -11.4 19.1 =71le5 105.61 e)5 el3 =9.01 =0.02 Paoke)
390 |=17?e6 73.5 2-24.66 104.3 004 014 -0.01 =0.01 067
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32 |=2626 @=7279.9 =74.1 HPA 03 009 () eVl 262
33. =28 eh HF21.R |-2029 63.23 003 08 ) 0 06]
34 #29.) =310.% =-lb6el 3925 0 (3 008 $0201 1) 05e
35 -PRee H-31/.3 ele 12.9 03 008 =-N.0)] ell Of
36 22548 =3N92,2 =P el] “1504 04 010 -0.0) 2) 0 DA
37 =2?.3 =PAR.Y Ret —“47,.9 004% eld 0 ip) 054
BR 170? =219.4 lhe -67,.8 03 008 () 0) 08
39 =17.4 #15945 P4eF -88.3 e003 eU7 i) oU} el
40 =Fee $94.0 3064-107. 3 003 eS =$)9.01 202 55)(0)
4) Pie) 78.) 3300-1 URS elle 009 $020) eV) 049
42 Tek 35,27 3) 027-1060. 202 eB ia} el otk
43 1561 92.4 P6aP 79723 202 Pa) 0 0 (0) jh 04]
44 2763 [41.9 1723 “61.) 2? el2 0 el 045
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46 Sok iio iol, SSeS) 202 009 00] ) 043
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CORRELATION COEFFICIENT -O-1NS
B-65
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17 41.6
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a
B-66
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10.4 03 39763 66609353-36-11414141.69
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C3/.> -e%et 39,5 0 4 e23 -0.00 =0,02
C0960 =2).3 54.1 003 028 e001 =0.00
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1 RRR NBL) 207 §=2269 19032 14674 @3,62 -2.18 20200 025 30.99
2 79,8 366.72 19.9 42.3 110909 27646 =3,8R 1,37 10200 024-19.43
Se Wile sh. Soil 3 “18.3 5904 12067 92.06 5.39 18,96 6667 658=74.13
rs 50.6 219, =1509) 7109 14019139664 =3.99 32.94 5.00 o75°83.10
5 a nch NAG “12.8 790) 9e24 94.65 =0.86 22.45 4.00 »/6=87.79
- 6 37.6 a "SeSat ease Se 03 32014 =-lell 7207 3033 063-81.,09
7 27.6 e60.4 "40% 7549 073) 8639 -1004 1440 2286 »46=53.50
ae R Tica ue ay =-?.9 6604 oe 2015 01 007 2250 0604 79.06
9 11.5 2299,8 “9.4 524 099 076 022 =0.01 2022 026 =3.52
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14 ») @744,4 4.3 =37.8 015 o2l 60 eOV° 1643 2.39 7,84
15 0) 2)9R,3 4,3 -50.7 013 013 004 =0,01 1033 034-19.08
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19 1464.4 aS .4 4.8 61.7 205 2°05 001 =0.01 1605 017=38.49
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21 Ao Nero) 4.3 =46.3 293 095 =-0.00 =0,.01 .9S' of3) 73.11
22 25.9 15.4 325 -35.5 2603 #4603 =0.0N 200 091 004 1,22
23 C4? WI a 7 2.) =-23.7 002 002 pee 010 200 Pek 087 2003— 41. 35
24 Cheah 125,1 a? $11.4 e002 203 200 200 283 olf 62.39
28 26.6 181.5 =?,.9 =9.2 002 2°04 -0.00 201 030 033-77.98
26 2402 168.4 =4.3 19.61 002 SOC OWAOO Aol oTT 036773015
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ae Aree 121.2 -A,3 25.8 el 002 =0. 00. aQ, 00 aif 220 32. 32
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31 1326 26.4 =-9.6 33-7 sil 203 200 =0.00 065 018 ies 76
‘ 32 lte2 =. =a 3205 SO GOs) 00 =0.00 363 «15"18.128
33 2.B 31.5 =-74. 29,8 00] 003 200 =-7,00 06) o©18-10.28
ma a Bed =54.4 =4.7 2507 e01 203 ~=— 00 =0,00 3259 0 26°18.,02
35 4.5 =72, =-1.9 20.5 001] 093 000 =0,00 057 e327l7.72
een ch ae a CE COLI Tome) 200 =0,09 256 0 3AR-13096
37 oat 220, 4. 5 B. 3 001 003 200 =0. 00 ie seenss =6., 33
3A =Ve1 at Toes 1.8 01 003 L 290 =0,00 093 eel =6.99
391.90 RB, GeOh a 46) Ol 0S. e010 OOO eS ha=cOle)
40 =1.6 =77.5 Wal G77 =10.7 20) 202 200 200 050 014 094
41 -1.8 =466,9 125 -16.2 e Ol 003 200 200 049 020 50.87
42 =1,.8 52,27 1263 “20.7 201 203 200 209 048 el] 62.59
43 =1.6 37,3 11.9 =24.9 201 203 200 200 047 006 59.55
44 =“1e2 =72.0 ReD -2661 200 003 200 200 045 25 21.86
45 =7e5 =-7,9 6.2 ~2709 200 003 200 200 044 634 11.67
46 06 7.3 3.6? 26.8 200 203 200 =-0,00 043 015=13.46
47 108 20.4 o3 =25.,3 200 203 -(9,00 @0,00 043 209 26. 6m
> =0.00 200 242
49 4o6 41,6 2463 “1908 090 2.02 =0,00 .00 041 010-27.56
50 &.8 49.7 -5.9 =-1601 200 201 =0.00 200 040 008 -0.00
CORPFLATION COFFFICIENT 20.0117
B-67
084
BBELS 13
LAGS= 5U
MEAN U # ©]0.8
CORRELATION COFFFICIENT
OBNTONEWNYK SO
13362
12669
11205
92el
6504
4405
2lel
@()09
1908
2340
496]
@5Hee
@67 4
267.8
@-5Ked
a5} 94
@G'), ()
@27.8
e1Se3
= 4.4
Tel
15.8
220%
ef e4
216
Che)
2205
1R.0
12k
703
led
=5el1
=11.5
=1704
@2?P ef
He 04
eee?
@aeneh
m2 r0()
@270%
=17.4
=1567
=]1.4
eM_.5
=| et)
4e7
Qe
1308
160%
Wirow
om
4.0M=° JF Ue NSMAY=65 203422037
Ne2 723 OTS e20S&C
MEAN W & =7e2
=02120
K ACOV U ACUV w COV IN COVOUT SP U SP Ww (x0)
468,9 22969 0 3e5/ 6.33 e32
448.0 22706 4007 1Lie67 9257 064
403.% @=72303 7808 16070 25.58 el7
335.5 @1]6.9 Tlie! 26677117253 =3246
249.2 =9e9 13565 33053) 75054"10019
150.5 @J00e6 15004 22049 97003 =928R
44,9 709 19469 Bel4% 21-77 =5-01
259.9 15068 149.7 2088 6233 =-1.5F
@155.46 2106 134e6 10e6) 1086 ©0230
237.0 2501 Illlel 1.52 081 =0226
=299.3 2606 Ble3 1e3/ 045 -002)
2340, Pbe) 47.4 095 e33 “1.212
=360.4% 240) lees oJ) 2 30 02
=355,.8 19e7 "2202 260 029 e13
2379.46 1446 =54.2 030 el9 005
@7R84,9 8.7 =81.5 el3 015 =0.04
@275.5 225210225 eld e20 1.204
-156.1 =3,8°115.5 e013 028 =-0.03
PRY) % @9 6912000 008 e330 $0202
3.9 -132.8-llle2 205 e033 7-02-04
69.) 1626-10763 oO? 034 ©$(1,07
135.4 “1766 =91.4 208 ec9 =()}.08
190,46 =l7e2d 27009 eV6 el9 =()e06
233.3 w1hell “4702 003 el2 #0203
260.3 =-14.1 "22.7 002 09 0-01
272.26 “1le6 1e3 002 08 =0.201
268.5 -B.7 2307 03 209 =0.00
CAN) Gi) 2509 43.5 eI3 el2 =-0.00
27U.6 =2e9 60.0 ee 014 =02-02
179.9 020 Té2e3 204 el3 1.03
131.4 206 B029 eU3 009 #1202
TB.4 4ed 8329 ele elU #=0.01
23.3 6el B14 eVe ell =0.202
-30.3 ie US6 U/ e002 008 #170207
-/9.,) Bes 662.0 ele 0oV7T 20.02
e]?1./7 9e3 53.46 e002 ele 20201
=155.45 1061] 38.9 oe. 014 20201
=179,() 102.9 22.29 002 014 =6201
e191.7 lle? 625 ole elS “0.02
@193.4 1067 #106) eV2 015 29.02
2184.5 Ge4 22527 e0¢ ell =U e200
=166,%5 Ted 23904 ee 007 e 01
@1460,8 523 -51).5 ele eUT 00)
@1N9.4 3e) #5624 002 ell 000
@/3.9 09 “6307 eVe ell e0e02
=37,0 -le7 64.4 003 el0 =0.03
-0.4 @30)) 262.4 03 009 =02.02
34,2 @4_,./ -§/.9 eI2 el2 20202
65.3 @6e3 251.7 eI2 el2 =0-02
OPlWate eled =4].,3 e02 e009 =0.02
WIM ae @=7eH 231A eVl 004 =0.01
14a3
B-68
QUA
0
208
5.99
38.61
64.269
39.90)
9.56
1.45
=0.U01
023
PY 4-4
209
=0.07
=0.05
=0.U2
-0.01
003
07
eS
=0.02
U4
=0.06
0,02
=0.00
=U.)
=0.01
=0.U)
200
eo U0
Ul
21
eo V0
-0,U0
=-0.01
eV)
eV)
=U0.UU0
“0.02
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=0.Ue2
eV
200
@0.U))
oUl
eV)
oe)
Pa
oe]
eV0)
200
00
T No.
PER
0
2UeV00
10200
6,67
5-00
4.00
3033
2286
2090
2022
2200
1.82
1.67
1.54
1.643
1.33
1625
1.18
1e1ll
1.05
1.200
095
09]
087
083
280)
ef7
0 f4
ofl
069
ef/7
065
063
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099
ea/
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004
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e251
oD)
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0 4R
o4/
045
044
e%3
043
e+e
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SUT
K PHI
007 0
009 46.82
029 82.66
069=84,87
085=-81.05
8876.09
0$1°62.32
030°42.49
el7 1.46
032-41.70
0 38-46.02
026736211
el6<75.11
e34=22.12
020°18.81
ee? 8.53
031-34,/4
041°63.90
032762236
039 28.95
068 49.56
063 37.74
063 15.77
048 2245
020 48.05
e22 57.57
ell 68.74
e05=20.94
SU) Se Si)
04R-13.25
041-13 .44
e33 -1.99
042 136/74
049 21-26
e3/ #8229
0 2h-44.9)
els 30684
095 63.66
0/49 59.27
052 S3ell
eVl=-36.3/
02) 33ee0
035 29,5/
014 62265
04#3°31279
056-25.12
09 3225-.5H
o%6-13.U02
046 =4,/7
054 ©5295
063 -0.U0U
085 omr
RAFI S= 13 4e°M%@= WE 26 MAY- 65
LAGS= 50 N= 719 OT= .P0SFC
MEAN U = @S.2 MEAN W 29
K acoV U ACOV Ww COV IN COVOUT Sm U SP W
9 728.3 341.9 =4129 ® aes 626
1 219.9 248,959 240.7 60.4 096 oJ)
2 194.3 Anl6yven 37.1 1146.9 14233 24.61
3 16365 765.3 £3124 165.8 4674649110.06-
4 12766 199,59 224.27? 204.9 AKe27140.71—
5 THe5S 174.7 |=)60)1 229.3 49039 63263
6 Ce> 44.2 =7,7 24.3 72.38 11.88
7 #2107 -36.4 Le? 237.09 2.52 4.53
a =62,9 ol Wea 7 10.9 219.4 OS) i/ 1.16
Sei) az) Seay 18.) 190.0 052 269
19 #144.) =734,4 24.9 159.0 e035 023
11 =171.2 =-773.7 390.9 102.5 064 ele
1P wlhS.3 =7296,8 33.9 59.4 266 016
13 =188.6 -392,.0 34.7 |=1.,7 47 e23
14 2181.3 =790.9 35.1 =51.7 032 2]
15 #163208 =765,) 34.) =97.3 034 016
16 #13263 =776,% 31.242135.8 OG ll 008
17 =194.8 =178,) 2726-16524 017 06
YR =716) =172,0 2225-)84.9 013 006
19 =33.1 =62.) 16.9=194.9 eal 208
20 nef -1,.4 R~92197.6 007 01d
21 47.4 56,7 1264-180, 006 210
22 73.) 199.3 =6.2-160.0 006 06
23 109.9 183.9 =-13.3-131.7 006 0G
24 12226 189,90 =19.7 =97,8 007 03
25 13722 212,28 =25.9 -69.1 eld 002
26 1443.9 275.) @?9.0 =21.0 009 003
2 NOP5S Bes5S = Oslo Wary 005 005
7B 134.3 214.46 =@32.3 54,) 03 0S
29 119.4 193.4 <#31.3 86.2 203 295
30 99.7 143.7 =-79."1 112,A e039 004
31 14.3 125.9 @?5.3 133.1 004 003
3A- 49,9 93.8 =7207.4 145.8 0 NG 003
33 2129 39.) =14.4 150.5 204 003
34 M605 =5.64 =7.8 147,3 202 004
35 =-332.8 @48,45 -1.9 136.4 002 004
36 =59,5 “87,2? 5.8 118.8 093 204
37 @/9.4 =-170.,9 12.2 95.6 003 005
3R =95.6 145,27 1707 68.2 202 04
39 -1N4A,?7 =142,? 226) 38.5 003 203
40 @111.9 2149.2 2505 Yow 003 002
41) #199264 =148,) PTe25 72204 004% 003
42 2197.2 -157.9 2Rel -50,4 003 003
43, =89.5 -139,5 270? =7560 202 002
44 =77.6 -114.9 72529 -94.9 001 203
45 =5?.5 =85,4 2129-10828 01 014
46 239.7 =-53,? 17.9=116.4 0] 04
47 HRS -19.6 13-5117.) 001 2004
48 17.1 WIGS) ReA=-111.4 201 002
49 37.9 43,7 328 =99.8 00] 001
50 57.0 649,A =-1.0 -83.3 001 Ml
CORRFELATTON COFFFICIENT =-1.146
0008-O0OFs/
co QUA
0.14 y
009 =0.43
=3.62 12.79
15.08 74,88
16.21102.67
=4,.93 48.05
=) OOM Ames
-0.87 2,467
=0.34 29
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e007 -0,09
06 =0.03
-0.0) =-0.01
=1,08 5 Ain)
=-O.11 04
=0.1? 294
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-0.02 =-0.02
°01 =0.03
003 =0,02
093 =-0.03
003 =0.01
002 OWN
201 203
01 20)
=9.0)] =0.01
=1.09 =0,02
001 =0,02
01 =0.01
01 el
200
=-0.01
=01.02
=N.01
=-.01 -0,01
=-0.90
=0.00
200
iO) line
001
200 =-0,00
=7200 =-0.01
=0.00 =0.01
000 -0.00
091 e090
001 201
000 201
000 201
200 099
000 090
000 090
DER
0
R PHI
ell 0)
20eON1 01-8327)
19.200
62657
5.00
4.00
3.33
2864
2.50
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1-82
1.67
1.254
1643
1.33
ite)
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1200
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eh9=78.6)1
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0 3555.87
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0594-19228
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097-39.57
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0507-64.28
0 38=-36.93
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0 44-19.45
e31-20.%2)
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Aes VIG OY
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023-69 .4)
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e2h 22.34
018-75.18
e3) 562-90)
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NO eso
620) SoqoS
23? 67.49
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e3) 54,74
e3e 41.98
e035 000
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Lags= Sv)
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n Rags
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3 6604
4 2463
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6 Sie!
7 Leol
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hal @N2Psil
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13 -28.4
14 #2+.5
15. =245.1
16 =2)24
V7. oll boe
1a -2,/
19 -1.2
2n 4e3
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22 1G.9
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24 2901)
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rad Ji ei
PR oe _
29 Coie
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s\2) O,!)
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35 =7.n
36 -1].9
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40 19.3
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420 1664
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44 e2l]6%.e
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CORRELATION
T/9 ERR
opi
4e%i— VL 26 MAY-CGS 0§52-
Nie SA iil OTS .20SEC
=5,4 ur AN w =604
Aci Ivy COVOUT SY U SP w
WSO) 53 3.7 U /e36) 4%eRl1
Vey 6a Je io? 22620 Dori
Lay.) Pet 33¢6 Liel2 17644
pe 7 Pet 4744 theld 41-61
MSs oF D902 2128 50207
SON, aD) led 0609 eI 24-71
1605) 14 aa) 7204 4eh4
Dg) 3) 3 6922 ef0 1.43
a SY 5 CS es 6562 e3! 0D0
Onde wl) oe Silo e2u 25
=7U.t “Jel 4622 ol2 ell
eWH5. 3 -l./ SS} 11 el2 ell
=45.4 =? .7 LaeR eld el2
-99,.) =o 4.0 05 ele
Sub, =2.5 710.3 005 208
Sw ae =? et 77304 004 205
|/4 4 =Pa7 23425 004 003
HSE -je!7 4361 003 003
249,/ mle -48.48 003 03
OVO at =').2 =51.4 v2 0 I4
-/ af Chloe 092 0 V4
W533 163 -4461 eV2 004
46,1 Pod 74265 ee 03
49.2% Goi) 734,99 002 e003
Su,%0) Sei) 22904 e091 V2
56.1 Ho olSo o01 02
ear 5h 5.3 eul eve
66.3 wl 4.8 eJ1 02
CE) (A 14.9 eV) 002
4? 24 eG 2200 001] etl
ayaa obe> 2te2 el el
29,1 Sav S25) Ol ofl
id ,2 4H 34.8 el e Ol]
2 Gs 325 Shey oth) Pat el
“19,2 Pe& 33503 000 eUl
ae ES lel 2909 eo] V2
]4y 5s ~)64 25-20 el 02
=3/7.,% ~1.4 192) el 002
WH4e,1 =?.A 1ee5 91 eI]
W45.45 =-4.9 Dov GOO) » Goi
=4°.% =4./ -l.l e V0 eo]
]\ak ly =H504 164 200 el]
=-43.,7 =5e54 “e128 000 oO}
=25./ =5e% ~17.2 200 el
14,7 Hen T2004 200 ol
-/7.) “S07 =22e7 Puen) evl
Ce -4./ =22.5 200 eV)
aa s ~-3.7 =21e5 aV0 el
OG Sic | “19.1 000 el
Bit asl =eeoi 71565 000 el
47.4% -le)] 210.2% 000 eVl
POTFETOCTE NI ei7B
Pos Lil
B-70
O55 7
co
0 dk
och
H0043
1.27
eewral
a7
=(1026
=0.2.02
-7.02
-0.uU2
-0.01
eV02
2?
02
oI2
207
00)
=0.00
-0.00
=1),Q0
=-(),00
000
000
200
=0.00
=0.00
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0 00
=.00
-0.U0
-0.00
=).00
000
000
000
200
000
000
090
200
000
200)
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000
000
000
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000
200
200
200
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19
5.90)
21,9
23.256
13.43
2.ce
eo]
212
0G
=),U1
-0.01
-0.04
=U,04
=-9.uU3
=!(),02
=-U0.U1
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-0.U0
200
PaO)
oUt)
=),V0
=)0.00
eU0
eVvU
=0,uU0
=0.U0
-0.U00
=0,00
2 V0
=0,00
-).UU
=), 01)
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-9.U00
=-0.00
=“)0.00
=J.00
=U.09
=7.UU
=)0.00)
240
eW0
200
2 U0
=-0.00
-0,00
=) ,U")
=0,0()
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T™ No.
PER
0
2UeI0
10200
6.97
De U0
4200
3233
2236
2eD0
Cole
2090
1.82
1.07
1.43
1.33
1-25
1.18
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1.95
095
91
037
e033
Pe 0)
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265
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020
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elf 0
eV8 13,e7
043-85,87
23) 26,68
039 86.60
08 89,70
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02)-388.c9
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02 ()=68,35
013 45.01
021-3074
043=-57.,68
0 #5-60.94
064-60.2.3R
051"42,.88
027°5/.96
elo 20.34
013 35.88
el2 -0.97
eVl-32016
eV/ 30619
el7-62.14
099"63,07
el -4,98
ee4 -6.92
014 87.41
023-80./e2
024 85.96
004 54.28
009 -8.,.79
019 53.89
el7=62.11
ol (247.98
024-75.98
el2-/8.69
ell=10.7/
024% -9.68
023-°24.54
022-2542
02(224.50
008 =4.42
eVJ“15ee3
218 22.54
034 19.47
e3l 16213
o23-15.93
022-26.40
01 8=28.23
eel -7,97
oc/ =-0.00
O87 LI-w T No. 377
RRFI S= 14 0-2.14%= TF 7 SJUNE-G5 1403-14o0sg
LAGS= 50 N= 1498 OTS .20SFC
MEAN Wy= =3.2 MEAN Wy= 1.6
K ACOV Wa Acov Wy COV TN COVOUT So Wa SP We, CO QUA PER R PHI
09 397,4 870,28 434,44 1. 13092 11649 7,47 0 0 259 a)
1 344,44 734,828 493.9 Te 21094 17042 9,86 =0.99 20.00 051 -5.7)
A BONq) Svan BO? Paas Psyoese Wove WisSe “WeSe VOoOO) oS3 7569
s) (2sob ase PGNoNe Zook) Stoo SoS sOe@ O69) Goor ai7/ Weos)5
Oo NOvoM Wisse Wear B2YoGr FBGEIZISIGS Glare Wels 0) ~ S500) GOS 407
5 62.) 99,9 5o9 37.8 R3e084186016116.99 5.49 4.00 094 2.69
6 915.5 259,28 |@119.1 32.7? 49.92149.76 A1.51 2.00 3.33 -94 1,4)
T 2816? = 375.4 $199.26 29.5 22002 93643 39.84 3,06 2.86 828 4,39
Roel 390? =451.3 2795708 2365 17039 55093 18640 2,39 2050 o/8 7.42
9 @164e4 $438.19 =77529 16.9 402? 29.64% 7.06 Beles Bose ome) i/o is
10 =-182.9 2419.5 @274,9 19.9 2.25 18.62 3.02 -0.20 2200 e47 =3,/78
11 @18I60 £397,989 =743,.3 963 1695 13640 12630 =0,05 14682 225 -2.34
12 2159.7 =278,9 -199.6 Ao? 1094 9.67 0 4G 03? «61267 213 35.80
13 -129,.1) =132.4 =-129.4) =?.4 1284 6el1 o0R -90.24 i AS 0MG273,69
14 =AB.S =25.5 =5Ro4 =3.0 1244 4.60 0 34 =0,.55 1243 025758. 15
15 #49,.4 BRA =Pel =9el o88 4.57 064 =0.08 1233 037 -7.14
16 “5e9 131.5 56.9 -13,7 069 4.22 043 ov Woes 525 9572
17 37.1 182.5 96.3 -16.1 058 3.17 -0.02 004 14618 213-63.54
18 69,0 216.3 13? .1 15.7 064 2243 =0,13 014 own 015-47.19
19 7909 215.2? 1477 2239.5 282 2204 =0,05 13 1606 01}=68,91
20 95.5 296.9 151.25 2722.5 0/9 1.709 014 093 We OGr tenlsh Noles
21 199.3 1R81,8 149.3 -27.9 676 1644 1.35 4.2) 09 649 30.26
22 100.0 140.9 12122 =28.5 067 1.23 025 Heli 09) e443 50,93
23 95.72 111.4 109.9 -26.6 053 1.05 -9,00 01? 087 01 6-87.79
24 R>.A 72,7 72.4 =-?21.1 049 1.07 =-07,09 =0,04 83 o13 26.80
25 67.4 40,1 43.3 715.5 036 1.92 =1.19 =0.,08 COC) eile Sere les
246 49.8 tj} 15.3 =8.4 eel 93 -0.0?7 -0,04 6 U7 0D 64,05
e7 37.2 227,4 =7.7 0.9 030 1.229 203 -0,18 0 (4 o629=79,78
28 15.3 240.5 2279.8 8.3 034 1.64 e0R =0.230 ol) 042°75,37
29 21.3 =79.9 =48,(0) 19.8 043 1.81 aisle) =0,06 269 0 38-11,11
3n =9,27 ~203,4 55.5 1124 a eos 2003 039 =-0.03 067 2 3R =4.,37
31 -19,7 =97.5 =60.5 14.7 Asi 1.92 elf =-0.,35 065 o40-62,.39
32 ©21.5 *A9,7? =56.8 17.4 060 2.11 013 -0.55 063 65=76.2)
330 -21.6 273.6 4601) 1901 092 82,84 e23 -0,80 06] 651273278
34 ©1723 2-54,9 £32.3 21.24 096 2.98 e013 =-0,84 099 25N=—80.95
35 211269 £32,.R £17265 22,4) ef4 2031 =-9.07 =0.55 057 042 83213
36 107 4,4 Sti 9 wsoe) 053) 1252 -0.07 -0.34 056 638 7TR,7S
37 906 21.9 2425 114 236 094 =9,05 =0,24 094 0642 77,33
38 1669 60,9 42.2 7,8 047 091 203 =0.27 053 0 41-84,506
39 27.3 R95 58.45 1.4 Sl 1.05 214 -0.23 pe )1l 029259.12
4n 27.1 197.3 464.7 -7.? 1207 1.09 214 =0.11 250 e0l17=39.29
41 2529 120,88 7406 =6.8 1620 1246 038 -0.03 049 629 -3.94
42 23.5 19,4 69.2 =12.8 lel7 2.209 e7A =0,01 04h 250 =0.38
43 17.5 114.5 62.3 =14.5 1.18 2286 1216 -0.04 47 263 =2.05
44 Fel 93.4 500A $1524 1.09 3.25 1210 ONG 045 258 3.59
45 =2.5 45.5 30.9 =22.3 0/6 2256 0 4A ofail 044 638 23,86
66 13.5 27.9 13.2 -21.) 069 1.2.75 =0.01 2 36 043 0 33-88.53
47 =26.7 =5.3 -12.3 -21.2 069 1.61 =0.33 acho) 043 6 42-42642
4R S3R.G -47,G -=37.7 =14.1 = 59-1663 =0.39 = 02 Po 83 = 3229
49 @-43.5 =23,1 =5?.2 -10.2 e41 1.43 =.23 -0,07 4) vst] 16.423
50 =446,8 2190.5 =62.1 =4.4 Aisi 062 =-0.,0R =-0.00 040 222 200
CORPFLATION COFFFICIFNT 0738
088
LI-w
BRFIS 14 0n=0eMeTL Co
LAGS= 50
l=
MEAN We -3.4
K ACOV Wy ACOV wWaCOyv IN COVvOUT
0 549.6
} 497,8
? 989.9
3 743.5
4 BT ed
5 =55.]
6 -166.7
7 =740.3
B =7P714.4
9 =P/4,9
10 ©24he9
1] =203.6¢
12 =146.6
13° -83.9
14 =2).4
15 35.6!)
16 83.7
NY MDa
NE) W/o 7
19 147.1)
20 137.24
Qi, Wises
22 BR.
23 6%—08
24 319
25 43
26 =19.3
27 =36426
2B 446.5
29 =49,4
30 =47,')
3) =41.3
32 34.7
33. =34.2
34 =228,.3
28 oRe6®
36 29.4
37 =24.6
3A 9] 36.5
39 5X
4() Liga c}
41 52.4
42 T2262
43 8F_3
44 42.3
45 72.0
46 55.7
47 33-2
48 Q.4
49 =1525
50 =35.2
CORRELATION COEFFICIENT
146.2
Girl Il
Sig t
194.6
74.7
38.1
3.h
=7P6.h
OE.
-65.3
“72.4
-7U,6
=51.9
-47.4
=29.7
Oo ll
10,9
28.9
42.9
5 ®)
aye)
93.9
44,0
IB LR
2744
1269)
4.7
NFN Ce WWNC NW
NY de DN ee
2 28
]
=
°
2p)
S2\A5
1618
N6IUL 2645 1412-1417
NT= N.A5FC
Mr aly va =4.()
se WisP W2 CO
203% a? Q 82/3 e444 1647
197045 4.7 16624 14.72 4.25
16760 SoS vole Wao@e) %o23)
120064 lle4 47624 18.95 14.78
630% 12269 RSe7) 33.842 46.51
4eo7 1302118073 38-29 60.82
50.5 lee? Yse/8 23225 41.256
“9600) 1165 60088 72696 17626
l27e? 905 3206/ 2.246 5.8A
L43e/ 667 21049 14640 2.8)
1436 Po 14edi) 1.16 1-5
13005 =1le4 Hel e773 233
10605 =5.R 6023 039 =-0.19
=15046 =-9.9 3248 e26 =0.08
-41.3 ~-12.9 le/4% 020 -).0)
6209 -1444 1e27 elf 0
C406 -1407 09! 218 205
50-7 -12.4 0/9 e016 201
ADeph R904 0348 ell -0.01
SMa Cs)ots) oShi/ 209 202
Blac -1.9 236 e007 oO]
T66") 1.246 ashi 207 =) 2.02
A3ei 4a 028 007 20202
45H 60!) eel 006 0202
C603 1.9 02l) 004 $020]
fot 1.2? el/7 003 -0.0)
=-10e4 426 014 eVe -0.0)
=7?4.3 5.5 erie e02 =0.01
=-34.) 3.7 Ph] Sus} 0
= 39.6 1.0 o4 003 0)
“4iee =2 24 008 e003 0)
-3929 6.4 208 003 0
3665 -1L0.5 209 003 0
“31le6 “14.7 eB 203 0
=252e4 -l6. 007 002 (0)
~1A8.(!) -18.4 007 eV2 =0.01
ONModh OMteios 007 e001 -0.01
SA0e Slheioul el e Ol] Q
5.2 716.3 ell el 1)
lee! ~13.6 eG5 eUl 0)
186A? 1.4 004 el 0
2303 =6.8 004 eUl 0
2609 -3.3 04 eV] 0
2B ab 0 04 eM] 0
AT ak Zo) 004 e Ol 0
2405 3.9 204 el 0
19. 4.2 004 eU1l 0
12.) 3.5 005 001 0
49 2.4 206 eO1 0
“1-6 “0.7 05 e 0) 0
-6./7 =4% or 002 (¢) 0
0-695
B-72
QUA
0
-1.14
eal!
3,84
664%)
2.90
=.)
=0.31
-().33
el3
043
029
ell
208
6 WS)
eV)
eVUl
Po)
0)
')
()
0
=-),U1
T No.
PER
0
10-00
6257
Seoul)
4.00
3.233
2046
2e>0
202c2
2000
1.82
1.57
1234
1243
oss}
1.25
1.12
lel)
1.05
1270
075
09)
037
033
280
e/7
0 (4
ofl
059
257
005
053
05)
e009
ea/
e DA
024
093
22]
e020
+9
2+
o+/
045
044
o+3
043
e+e
e+]
o +0)
377
R PHI
oll i 0
elk=-1o.)1
e4R Sed]
ef) 3e)7
586 S72
09) Ae?
oA/ 4.00
ofR =-02.03
066 =—32.01
0D? =he/
e339 4e4A
02e 52041
e20=71292
01l4=-53200
el seR1L eld
el leRY.45
el?2 leei3
05 37044
eV5—=t 304k
oli Lowi
004-19. 34
eld =8202
eol7 110649
elk C4Hecil
el 7.49
el3-lone%5
e2li=38e.e)
e2@)-l/o.ol
099 =-4e47
ol)=56.51
0l5-6/.93
e003 5Bec4
20 )62RB7.95
ell 89.397
0 2(!=82 2 5()
e23-o1 2/5
025-4661)
024-68 2.20
024 996 4()
028 Slech&
elf 55245
0 05=86.92
00% 16236
0 2A-64e54
eo 38-6/7.4/
el7=41.46
oll stow
0146-41-41
el(=61655
eUY [1243
o13 0
082 LI-w
BBEI S= 14 |~30e9M= 1 7 SUNE-G5 1433-43e
LAGS= SO N= 14R2 DT= «20SEC
MEAN We= -2.9 MEAN Wh = 03
K ACOV Wr ACOV Ww, COV IN COVOUT SP W2SP Wy CO
0) RQO3o5) e055, “eiltsoS 0 194239 22-10 11.43
1 196.4 374.4 20923 328 30263 32264 16.30
QO ivvoe S20q0 > MIso@ 700 20208 192-00 10.13
3 14963 242.9 14362 925 22078 31287 21249
GQ WG SS lia 94066 1L1le0 38066 77256 50.64
5 7729 57.4 4204 1105 39efe 97071 58633
6 41.4 =-?8,.3 =Bo() 10.9 19-85 61-27 32-27
7 ReG6 98.1 5169 9.6 6065 25.56 11.28
8 =1R.2 =147.2 =85.8 8.2 2044 11.61 3,65
9 =37.3 173.4 10724 6.8 1210 6.03 1.24
10 =49,() =-177,.3 -115.7 5,8 265 3.39 etl
11 =5064 =-161.4 -111l.3 503 e033 «61295 040
12 24562 =129.3 =95e7 5el e2l1 123 025
ec) =-33.8 =85,8 7104 5.0 013 06] 009
14 218e1 2-35.68 4104 4o7 el2 035 005
15 el 16,0 -8.9 4e2 ell 030 005
16 19.0 64.5 2209 304 008 023 205
W7/ 3626 195.8 91.3 206 e05 015 003
18 Eno. Mela 74.20 1e7 005 014 002
19 622.9 155.8 89.6 9 004 e13 201
20 69.6 162,3 9704 02 003 010 201
21 VNAS UOtioul 97Te7 =0.1 202 007 00]
2e 68.7 141.4 9le3 =020 002 °07 001
23 622.0 117.8 7925 04 002 006 2001
24 52.1 88.9 63.8 1.0 202 006 001
25 4001 57.2 4567 200 002 005 000
26 27el 25.6 2608 302 002 005 000
atl 13.9 -4,0 Be5 4.6 00) 005 000
28 1.26 =29.2 -8.0 620 001 005 000
29 -9.l =48.,3 =2106 7.5 001] 005 200
30 "1764 60,1 3105 Bed 001 005 000
31 =23.0 =64,.5 =37.5 10.0 001 004 000
32 =25.8 =61.9 =39.5 10.8 e01] 004 000
33. #25468 "53.8 =3fef 1009 001 004% 000
34 2-23.22 2-41,3 23265 1002 001 004 000
35 =18.2 "25.5 24064 9.9 001 004 000
36 -11.2 “7.8 14.6) 72 00] 004 000
37 =226 10,4 =202 5el e001 004 =-0.00
38 720 28.6 10.4 2.8 201] e003 -0.00
39 1722 45.1] 22.9 el 001 °03 200
40 2703 59.3 34e9 =-2.8 001 003 200
41 3668 70.2 45.5 =-5./7 00) 003 000
42 45.0 VUoe 53.8 -8e4 001 004 000
43 Siler 80.5 59.5 -10.7 001 694 =0.00
44 56.6 Tent 6204 122-5 001 003 -0.00
45 59.4 75.6 6206 71366 001] e002 -0.00
46 Onee 68,8 6003 ©1328 e001 °03 =0.00
47 59.1 60,3 55.9 -13.0 001 002 =-0.00
48 5602 50.4 49.9 =11.2 001 002 -0.00
49 Eyit.O 7 39,4 42.6 =8.5 001 003 000
50 45.9 27.5 3467 =-5.2 200 e02 200
CORRELATION COFFFICIENT e77l
T No.
QUA PER
0 0
2092 20200
2035 10-00
2045 6267
3.22 5.00
1.31 4.00
at? sods)
1.26 2.86
086 20590
024 20e22
e025 2200
204 1.82
-0.06 1.67
-0.04 1.54
-0.03 1443
=0,02 1.33
000 1025
000 1.218
001 Ilell
e01 1205
e000 1.200
#@0.00 095
000 091
001 087
e Jl 083
00) °80
000 el/7
6 (0) ah e/4
000 ef]
200 269
200 067
200 065
200 063
=-0.00 06)
000 059
2°90 07
200 056
200 054
000 093
200 051
200 0°20
00 049
000 048
290 047
200 045
-0.00 044
=0.00 043
-0.00 043
=0.00 042
000 4)
290 040
SUT
R PHI
095 0
052 10.14%
053 13.04
e080 6651
093 3264
094 1.29
093 «61238
087 6.237
ef] 13219
053 23.61
051 19.39
eo] 5.98
051°13.05
033=22.70
029°35209
e31-23.81
038 e/l
038 7,38
e27 19218
o27 48.05
022 12624
029-16.07
e32 15.77
033 55.48
035 55.63
025 54e72
020 46.57
024 66224
e20 89.97
el2 75249
014 47613
el? 61.30
015 29.75
208=39,56
004 16.51
el8 67.273
023 717049
024-77.80
023771644
219 81.90
026 31.93
e27 25.57
ell 82.75
019=25.84
el2-17292
009 63.79
029 72213
e030 70223
002 3229
el7 39011
026 200
090 uI-w T™ No. 377
BBFILS- 14 2=4.9M=- 1 7 JUNE-65 1454-(459
LAGS= 50 N= 1395 DT »20SEC
MEAN We= -3.1 MEAN WW, = 1-8
K ACOV W24COV Wh COV IN COVOUT SP WrSP Wy CO QUA PER R PHI
9 %145.2 253.0 15004 0 14e25 8.10 4.59 0 0 043 0
1 141-0 242,) 145.1 209 21203 15-76 7.59 1.97 20000 043 14.57
2 12927 213.5 12966 505 140290 20-02 11-0R 1.24 10600 065 624)
3 IIeae NPOoK 105.9 ToT? 25047 40.06 28,89 005 6667 290 elf
4 OVos | M68 1661 9e3 320693 60011 42.19 2240 5200 695 3425
5 67.5 60,3 4209 1001 22e/7 56657 336.73 3697 4200 095 6071
6 4229 4.4 9.0) 1061 9228 33.44 16.19 2.07 3.33 93 7.28
7 1922 245.5 =2206 9ol 2042 1ll.11 4.29 036 2286 083 4.83
8 =128 =RA5.9 -49.7 704 064 2298 82 @0.U05 2.50 e060 -3,39
9 =19e¢ -1)4,4 =7().6 5.) 042 1-66 046 =-0.10 2022 0©56-12.,60
10 =31.9 =-130.9 “44.2 205 020 088 elf =-0.06 2.00 045-16.91
11 232.6 -132.5 =F(ol =0e20 216 260 el2 =-0.03 1.82 040-15645
l2 -47.2 -123.3 =86.4 =2e2 eld 040 a(R =-0,04 1.67 03/=24,37
13° 40,0 2194.3 =B8U0el 307 all 024 007 0.03 1254 046°24,53
14 =-33./7 @=/B.5 6604 =4,.6 206 014 202 -V.U1 1.43 o2/-19.27
15 =24.79 48,4 "45.1 =4el e05 ell 201 eVl 1633 e23 48.93
16 =12.7 =18,/ =2929 -4.] e003 07 200 Vl 1.25 ec3 68.30
17 =e) oe -10.6 =2o7 003 006 oO] 000 1618 e25 19646
1a 12.0 32.6 722 008 003 004 e01 eV0 lell e24 3.88
19 2354 49.9 22.25 1.5 03 005 201 000 12605 036 3.89
20 33.1 60.6 3404 3.9 003 205 2001 009 1.00 32 5.42
21 4047 64.5 4204 6.3 292 204 20) 200 0°95 e32 18.66
22 45.8 42,4 4626 Bee 002 03 01 eV) 091 o37 37el?7
23 4R.5 Soma 47.3 97 00] 003 001 oVUl 087 940 38.87
24 42.8 45,8 45.0) 10.5 00] 003 001 e V0 e083 239 33.31
25 476) 94,3 4044 10.8 01] e2 e 01 V0 280 e+} 34.33
26 43.7 DE a t/ 3405 19.46 001] e02 000 000 of7 e29 41.32
27 39.2 12,2 2709 9A o01 e002 200 eV0 0/4 e2]1 66.04
28 34.0) 3.9 Cled 8.5 e001 e002 -0.00 eVU 6 til e26°/6.98
29 28S -l1,7 VSg7/ 6.9 eA] 202 200 200 069 ol9 35285
30 2322 =4,7 1929 49 00) 202 200 =(),V0Q 067 e28=32.27
31 1a&el -5,3 Tot) 209 00] eV1 -00 =-0,00 065 o010-56.62
32 13.5 -4.,3 3.9 09 e 0] 001 =().00 200 263 el7-11.98
33 903 =2,5 1e4% =lel 000 201 =-0.00 =0,u0 06] 18 18.66
34 504 =0,.9 =“026 72e7 00 e001 =0.00 000 059 0621°23253
35 19 20,2 =226 =4 4 () 200 e002 -0.00 200 057 038-83. /4%
36 =1.2 =U0,.4 =4.6 =5.0 200 002 200 200 056 e32 87.02
xl7/ =4,) =3.2 =6.8 =-5.6 200 02 =0.00 200 054 218=-38.2)]
38 =605 -7.% “902 75.8 000 002 -0.00 00 053 0623°"25.25
39 mn, 3 -]1.8 =i11.8 =5.7 200 002 -0.00 eV0 05) 017#=55.14
40 =-9.26 =-)7,1 14.3 =-5.3 200 00] =(0.00 200 050 el7 -8./73
4) malne 222.6 =lhe% -4e7 eV0 e001 20.00 =-0.00 049 e&% 22494
42 =19.5 =?21.5 -18.? =-4,) 000 02 =0.0() 200 048 e246 -1.95
43 100) =31.4% =“195) =3e5 200 e002 -0.-00 =-0.00 047 elS 16210
44 -9.0) =33,A =19.t) -3.) 200 202 =(),.00 200 045 009-68,69
45 -7e3 =34.2 =-17.26 =2.9 200 202 200 200 044 2618 68.88
46 @=4.5 =32.3 =-15e0 =2.9 000 02 000 -0.00 043 010°24.36
47 “1.8 27,8 e-llel =3el 000 e002 -0.00 -0.00 043 oll 3876
48 1.7 20,9 =6.9 2325 e00 202 -0.00 00 042 023°22.68
49 5.6 =12.,2 =00l =4,1 000 202 -0.00 290 041 o©30°16.91
50 926 -1.9 5e2 =-4,/ 000 e001 -0.00 000 047 «38 -0.00
CORRELATION COFFFICIENT 0785
B-74
O09) LI-w T™ No. 377
BRE} S 14 03=05M=01 Cs 96JUL=65 1502-1508
LAGS= 50 N= 1413 DT= O2e2SFEC
MEAN Wr -1,4 aS -? 06
K ACOV Wy 4C0VWe COV TN COVOUT SP Wy SPW, Co QUA PER R PHI
194.7 1PR,4 112.7 0 Aoa Reeoa) 1.64 fH) On OSI) i)
18R eb AeA al L0%e) =-7.3 5230 19.82 2099 -V.l7 20200 228 -3.219
168.3 Ieee 7 9Read =4,5 15e-l2 17.228 Bel9 =-1,7) 10200 0595-11-00
WAIUGe) HME GY Be) 60h 440696 27014 29012 =2.45 G6e67 054 -5e6)
99ee R6,7 61.1 =/.8 61256 29228 38.235 =-2.387 5.U00 09] mM4ec9
56.3 5.) 3703 =“BeR 44026 14675 21269 =1e82 4000 0D m4 ed()
1? 3 48.7 le a4 =9.3 16e/4% 4.18 6294 =I).05 3e33 0633 -“D5e42
29.5 9,4 1109 902 Fed? 1652 2612 -0.08 2686 0/3 -20i3
=6624 Neliver3 =-34,] =53.6 howe) 058 040 0 (3 2050 #5) 4,37
=96e1 =-4,/ =52.9 =-/7,4 266 eo 38 eel -(0,03 2e2e oe “9.52
VOD ell7e 718.9 tHle2 602 e+] 024 007 =0204 2290 e2f-312-63
11 =12R2e8 =P.) =TA 6.4 =4.56 o30) Pan | eli) =-0.0) 1-382 044 —-4.2}
12 -13).2 -34.5 “Ades =-3.0 oe) 016 209 aVv2 WAH, O2)s) 15600
13 =l24eR -3/.4 -79.? =1.5 eS el2 205 o U4 12654 049 39,79
ODNOVWNFWNY’ SO
37 =-37./7 -12,28 =725 04
38 44.6 16,6 2-305
39 =49.2 19,1 =3348
20) =-%.01 0 V4 0541 632=-7166 39
01 =-0.04 eUl 03360/3-11297
0
0
001 0 -0.03 =0.03 eD160eDd2? 49294
0
0
(
40 #5125 =7(.4 =3525 ry el eVl -0.04 e207 e03"72e22
4) =51.0) =70,2 -35e.1 e 002 004 =0.0) 0496 etem-lev/
42 =47,R =-18.R =320x ° 201 ) 003 03 0 4R 1944 48o1R
43 -41.9 16.2 <-28-7 001 0 -0201 0 04 0 +7 le l#-69-40
44 -33.8 =12.4 -2307 e Vl 0-02-04 eUl 0453e/% -7.17
14 elll.l 3-36.88 3-73.64 0) 008 28 0 U4 Let3 043-45.98
15 @91.8 -33.3 =636R 1e3 0 0/ oUT =().01 20202 1e33 235 S)) 0 6)5)
16 =6R eA =-?/.2 =5163 Co4 2046 205 0 =0.,06 Le25le1l4% 49239
17) 44.1 719.3 73523 4.7 016 004 004 =0,04 1elRle] 8-46.31
18 =19.7 -l1U.] =2104 3.7 e005 e003 004 el WeLUNGAL tl foeQ
19 Bec -0,4 “Gel 3.8 005 003 201 pes RoWSioeo (Vos
20 23.3 9.2 45 3.8 2 04 002 -)203 203 1.001.39-37.13
21 39.7 Iie! 5 8 21.4 3.26 004 eV2 “0203 =-0.02 0751630 2led4
22 5?.] 26.3 37 2 3.2 Ors 02 9) =-9,04 orl le f4+=-R9. 36
23 60.5 32,9 40045 2eR 203 e2 0U4 =),03 oS71e8/-31015
24 65.1 37,4 460e eed 2V3 002 04 eZ 0332013 72Red4
25 6662 41.0 49.3 1.9 202 002 0 005 0802061 86265
26 6402 42,1 49.4 Ware 202 e0l =)0e04 6 (0) 5) 0 (713094732219
eT 5928 41.5 4BeI) 14 202 001 =0204 =0.02 0/43089 30615
28 53.3 oh | 44,() ie3 002 el 0 =-0.04 0 (13089-24234
29 45.3 3512 38.3 Os} e02 e Ol 004 “0.02 09930e82=24,77
30 34! 30.) 31.2 12 002 el 004 U3 0973090 35434
3) 2567 24,2 2302 1.2 002 091 0 204 055 3696-86640)
32 14.3 Nilo’ 1426 1.1 eUl eVL =9.04 eV2 09340 (9-24.90
33 325 10,9 Lora! lee l oJ) 0 -=0.93 =-0.03 0415230 40el2
34 Fe, 4.2 =36)) lee eQl 0 e001 =0,04 eD9G6elT-7742R
35 =18.9 -2.7 w=lle4 eens 001 001 204 =0,U1 0575 otk 166./9
36 =29.i) =-/.9 =-19.60) Bes) el 0 2003 6 0).8) 02660148 43220
Le?
2ef
202
Co4
204
2eR
3.4?
326
45 =P3.7 =-48.3 -16.5 3.9 eUl 0 =()2.02 =-0,04 0442634 55.03
46 =1?Pe.e2 =-3.4 =-8.9 4,2 e01 0 002 =-0,04 0 439205853436
47 ea 2.9 let 4e3 202 0 205 0 043/613 -4,9H
48 131 7.4 Te! 404 201 0 003 004 0426015 54039
49 2504 1255 14.6 4.3 201 0 -0.02 204 04162./9-54./1
4.2 0
50 3606 thal 2103 0 -0-02 0 408034 0
TM No.
O92 LI-w
BREILS 14 4@6.0M=()1 Co "6JULe65 1511°1517
LAGS= 5U) N® 1299 OTS 0e2Skc
MEAN WF °3,93 MEAN WE =3257
CORRELATION COEFFICIENT of)
K ACOV Wh ACOV W2COV IN COVOUT SP Whi SP Wea CO QUA PER
0 125066 79.1 6907 09 =909D 9096 3043 0 0
1 léelel UU ol 672 03) «64048 15021 4652 =0.05 20.00
2 NOBa) — Viok Ghai 07 %e63 10017 4-87 =0.02 10-00
3 Vee 63.9 Slee Le) 22048 12699 14236 1.2U 6-67
4 6760 54.2 38 eb 1eo3 34060 15621 21-02 1.23 5-00
5) 4)e2 43.59 2405 126 2/.53 9.93 14.81 (0.211 4.00)
6 1469 42.4 928 1.8 11e33 3.27 5.05 -0.46 3233
7 elite) P16 =4,3 arn) 2244 0/5 084 @(f,U7 286
8 =3)67 llef "1609 208 068 050 029 V5 22590
Q 4.9 3.0 272703 203 04/4 034 eet) 65), 1 Roe
10 @60e4 =-3.4 3469 203 030 el8 el3 eU3 2200
ll =64e4 =A.1 =3904 2o2 el? ell 20k eM) 1-82
12 =64e3 =10.7 @4(0e5 1.9 ell 009 004 eV) 1.67
13 261)e% =ll.e =38 06 lot 09 008 002 -0.01 1254
14 a5te/ -9.4 =3369 of 07 eUT 002 =0.U01 1.43
15 237.3 «/,.1 =76.9 =0).0 06 e005 eV2 #0209 1.33
16 @=2)ey =3.20 -14.3 =0.9 04 003 e001 #0200) 1.25
17 Cisyot/ 1.5 -8.9 =|. e003 ee 200 =U,U0 1-18
18 Vel (6 f/ 06 e226 03 eN2 000 =0.U0 ay
19 2324 Wis} 926 =3.2 e002 e0)] 000 #0.U00) 1205
20 34.3 16.4% 17064 23.7 02 el 000 ©0.00 1200
fs GP) 20.4 C306 2420 V2 el 000 #0200 095
22 4602 ASaN 27.9 4.0 02 el 20200 2 0U 09)
23 47 oW 24.6 3003 e308 201 oV1 20.00 000 287
24 G44af 79.) 3Ue7 =3.3 ol eML 202.00 =0.00 083
25 Sel 24,2 290% 2225 000 eV0 20-00 =0.00) 80
26 33.26 22.3 C6OeK% 106 eV] el #0200 eV 0/7
27 aol 4 19,7 2307 =()26 el ell 00 e000 0/4
2A LR ed Gren? 146.9 ee) el eV] 000 000 e/l
29 llel 13.4 1404 1.5 00) 000 000 #0,.00 069
30 4.5 10.2 10.0 Ce% eOl 0)0 000 -0,00 ef/
3) 2=),4 (ad) 6et) 3.1 el el 000 =0.00 065
32 =5.6() 4, 2eb 3.7 e000 el 000 #=0.00 063
33 =7.9 2.” 2=()eol) 4.) 201] 000 000 #0200 26)
34 @49—.6 1.4 =2o() 4.3 001 000 e000 ©0200 059
35 elie o> =3.3 4.3 000 eV0 000 =0.00 eoT
36 10.20 (I, () =3.9 4.) e000 e000 o Ot) eVU hela!
37 2Je2 =(),] =4,.1 SOs 200 “e000 21200 =0.00 054
38 =3ee -(0.1 23.9 3.3 000 0V0 “0200 =0,00) 093
39 @=?el aul =30% Co8 000 e000 =0200 V0 05]
40 =5_,3 a3 =3.0) 204 000 000 =0e00 0.00) 050
4) ='569 a) @2e6 2o2 e000 000 e000 a, U() 049
42 =6.1) Am 2225 20) 000 000 200 200 0 4R
43 =A ais) =2oe4 2el 200 eV0 ©1200 200 e047
44 =7,34 o% @=2.5 203 200 000 #-1200 000 045
45 @H.3 e3 =2o7 205 00 eV) 20.00 eV0 044%
46 =4,] ae =7 28 208 eo V0 e000 #1200 ev0 043
47 =9—5 ail =2.8 302 eJ0 000 20.00 eV0 043
48 =9—4 Pat) =2.5 325 e 00 00 -0.00 eV0 042
49 @eHee ol 109 3.8 000 000 #0200 e V0 e4]
50 Shee e% =e 3. 200 V0 20200 V0 e 40
B-76
377
K PHI
045 0)
038 -0.5/7
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084 4,79
092 3235
090) =0.4)]
083 =-5616
e063 =4,64
eD0 8.46
054 9.2/0
e060 1l2eck
e396 10252
044 15.29
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el9 =9.95
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el3210.69
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093 LI-w TM No.
BBFIS 14 05=974=#01 Ce N6JUL=65 V520=1525
LABS= SO N= 1330 OT= 02SEC
MEAN We -2,0 MEAN WE =201
K ACOV Wy ACOY WeCov IN COVOUT SP Wp SP We CO QUA PER
0 7225 65,28 375 9 4.223 14.63 1.32 () 2e 09
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2 T%e61 62.4 33-6 20.7 1%e33 8.31 4.23 af) 0
3 60.24 54.5 P90!) SU0e9 Joedl 1658 9046 -0.18 0
4 49.2] 53.7 2307 =-1.9 24269 8.78 11.79 =().57 (5)
be) 3529 48, 1601 -l1.1 Lle45 4.80) 6944 -0,61 0
6 21.9 42.° 8.7 -l1e0 327 092) =1e31 -0.le 0
7 Rel 26.1 }.3 =i). 090) e2l 022 206 0
8 =-4.7 30.3 “527 =U.A 036 el2 206 oI] 0)
9 =15.9 25,9 -11.9 -9.1 025 09 20S () QO
10 =25.1) PO. -“16e048 4 ol6 005 003 0) 0
1] #3165 17,9 2944 9 09 003 eV) ) 0)
12 =35.4 14.5 =??.5 1.5 05 002 9 -0.01 0
13. =3A.6 13.0 23.) 20% 2004 202 fy) 0 0)
14 2#35.4 12.4% 226? 209 04 02 0 9 0
15 =3>.0) Leon =19.4 2.9 0 4% 012 09] #=),01 ()
16 26.7 Worosy © DCG) 3.2 003 002 0 -0.01 ip)
17 =Cee 16.5 =12.3 3.3 e003 ell 0 Uv 0
18 =12.x 14,8 “726 302 02 091 201 ) 0
19 =“S.2 21.4 =?Pe7 3.0 0 Ol eJl 0 0 0
20 Pel 23.8 eel A2oT/ eV1 el 0 (0) 6
21 Q,7 26,1 603 2e3 oO1 Ul 0) () 0
22 14,3 27.48 909 le? 0M] e01 0 ) 9
23 18.6 AR 1206 1.2 o0l eM] 0 0 0
24 2104 PO. 1404 26 er OD) 01 0 0 0
25 23.) 2B.45 15.2 e] 201 0 0 0) 0
26 23.3 PT.4 L5el! Vat Ol 0 0 9 0
Cal, 2?.3 25.45 14.9 -0.8 9) 0 0 0 Q
28 20.3 Dahc S| 12e3 lal 0 0 0 0 0
29 17.4 P0245 9e9 =123 0 0 0 0) 0)
30 1l4e0) UA Tt To2 led 0 ) ) i) 0
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32 55 WG 164 |-1.5 ) 0 0 0 0
33 PA 8.9 og) Silas 0) 0 a) 0) 0
34 =1,7 6.5 “3.7 “1.5 0 0 ) 9) i)
35 -3.7 4.5 =Sie = ed 0 0 0 i) 0
36 -6e01 Sian -Tei -1.5 0 0 0 if) 9
37 “Rel) 2.7 “7.9 3-145 0) 0 0. 0 0
38 -9.1 1.9 =8.1) =-1.5 0 0 () 0 0
39 “944 Ooi =7e5 =125 0) 0 0 ) 0)
40 -9.1 2.3 jo) Sil5G) 0 0 0 0) 0
4) =A, 3.9 =5.) -1,.7 0 0 0 ) 0
42 “4.7 5.4 =-3.1 <-1.R 0 U 0) 0 0
43 “4.8 aeil “1.9 2.0 0 0 0 0) 0
44 =-2.5 BAA 1.3 =2.0 0 0 0) 0 0
45 -Oel VOeS 365 =2.1 0 0 0 (9) 9)
46 Pe 12.1 5.6 =-2.1 0 0 Q) 0 0
47 4.9 es5 8} 725 =2.1 0 0 0 v0 0)
4B 7.2 14.3 9.29 1.9 0 0 0 0 0
49 Gee 14,3 16-1 1.7 0) 0 0 0) ()
50 19.8 1S yen! 10.9 1.5 0 0 0) 0 0
Bilin
R PHI
all 0
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045 9.243
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230 Ll.460
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236 Bel/
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al 5220.90
el5 A5e23
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043 49455
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074 LI-w
BBFELS 14 624,.0M"0] Co O6JUL=65% 193921545
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MEAN Whe 2 08 MEAN WS 2e95
CORRELATION COFFFICIENT e454
377
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062-1322)
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047
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0 B4e7 56.46 40.2 09 §=—e83 12035 204s ) 0
} 3? 06 55.8 39e2 0D 12082 16640 3697 2.92 20200
2 TTel S3./ 3605 09 Lliveld3 7.43 5.18 Le20 10200
3 6867 50.4 320? 104 18017 8e31 19.68 040 6267
4 S54 » () 46.5 2606 1.8 24948 7.78 11244 04} 5.00
5 4507 41.7 2001 2eo2 1039 3026 5-08 0U9 400
6 37 eo 36,46 13e2 206 2043 055 087 ©0203 3633
7 1904 lvers 60] 3.9 099 019 023 “0.05 2e86
8 hed 26.1 =()eH 303 eee 010 00h #0.03 2050
9 @=%el] 21.3 -7e.0 3.5 eld 006 006 =0,0)] 25.22
10 =13.3 Volt) =l2e2 3e7 eUK oU3 202 20 V0 2200
Wy @2'\e3 13.4 =l16.3 3.8 o VT 03 202 e000 1.82
12 24/7 L064 =19.l1 3.8 eV5D eld 001 eV) 1.67
13 =2504% BR =2005 3.8 004 el 00] -0.00 1.94
14 ee red oan @2()e6 3.8 003 eUl 00] eV0 1643
15 22209 7T.6& 1903 Sa7/ 203 el 201 000 1633
16 =lHel 4.2 21669 3.7 eV3 eV] 001 20.00 1e25
17) =]1e8 Mae ONO T/ 3.6 ele e01 000 -0.00 1.18
18 @4eh6 eas =9.7 36 eV) eVl 2000 =0,00 lel)
19 Ad 13.4 =5.3 3246 e01 000 200 290 1.05
20 Loe MS youe, 21/08 sel el 0 V0 0 V0 eV0 1.00
21 17.3 18.0 306 329 eM] 000 200 200 095
22 2304 P0.e Tel 4oN) eOl] 000 00 000 09)
23 e4e3 22.0 llel 4.) e0)] 000 000) 200 087
24 3104 23.% 130% 4.3 001 000 200 20 083
25 3366 24.4% 15e8 4.5 001 000 200 2 U1 280
26 3403 24,4 1609 4.7 001 00 200 000 ofl
27 3304 24.7 17.0 4A 001 200 000 —0.00 0 f/4%
28 Sled 24.1) 1663 5.9 el °)0 e000 =0,00) efl
29 25el 22.9 15¢0 5.2 201 000 000 0 U0 069
30 Chee ANG) L300 is) g) 01 200 200 000 267
31 19,7 Loos) 10e6 5.4 el 000 000 20 065
32 l>el WY ote) 729 929 000 000 000 000 063
33 19.23 Sod 5el 5.4 000 200 200 200 °6l
34 309 13.2 203 5.4 000 000 000 =0,00 099
35 1.8 11.2 003 506 200 000 2000 -0.00 eal
36 =1.25 9,4 =2el 506 200 00 000 =0,00 056
37 m4e3 7.9 =4,5 a) 000 090 200 =0,00 054
38 @he4% 6.7 =60() 5.5 000 200 200 =0.00 053
39 =7e9 5.9 =609 5.3 200 090 200 200 051
40 #4, 5.4 @Te2 502 200 000 000 000 030
4) =7o7 Siere 7.0 5.0 000 000 e00 200 249
42 6./ 544 “602 4.8 e 00 200 200 200 0 4B
43 24,9 Sr) =4.9 426 200 200 e000 V0 047
44 @Pol Moe) =3.3 4o% 000 000 000 =0.00 045
45 =2)e0) 7.4 =1.3 4.3 200 000 e000 20,00 04%
46 298 8,4 09 4.) 000 000 000 =-0,00 043
47 hel 9.4 3e] 4.0 000 000 000 000 043
48 Gel 10.4 504 309 eU0 200 000 200 042
49 leel elven: 725 309 200 200 000 200 04)
50 14.8 Vou 904 329 0 I0 000 000 200 240
B-78
041-16.14
033253215
019-64.9H
029 17.80
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ocidh, ogi
e016 1leo7l
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019 R7295
elf 78.66
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1 4901 68,1) 240.0 7006 15eeB 1203? 0 (4
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3 4540) 58.3 18.29 1.6 LOWS) NS GSS) ict
4 4108 50.7 150) =2el 5096 15238 B8.74
5 3AM 42.9 19603 2204 Ce2@3 60222 3224
6 3421 32,5 5.3 =2.6 045 1.19 046
7 CF Peal el -2.7 oulul 034 5 tS)
a C508 lesrees ~4.9 -2./ e009 el!) 004
9 2109 4.6 =YSeb =-2.5 o0/ 10 005
10 18.4 -2.9 l3eh -223 eU3 05 02
11 155 “8,9 1608 2.1 202 005 002
l2 13.1 -13.3 1961 -1.8 V2 eo 3 002
13 1104 -15,.8 C004 -1.5 201 002 eo 0)
14 19.3 -16.4 C0eb -1.3 ef] 002 0
15 9eY -15,4h 19.4 -|.1 eV) 202 el
16 19-0 13,1 Nisan miko) 201 001] 0]
17 loe? -9,3 1526 -1.0 eOl ol i)
18a 11e8 =-4.,4 led -1.0 0 eOl 0
19 13.3 e? =3.9 -1.1 a0l e01 ()
20 14.9 6.4 Coil Dod 0 001 0)
21 lAo6 12.2 =l.3 <-1le4 0 eD1 )
22 12.3 Wiad 204 le? 0 eOl 0
23 19.8 22.3 5.2m 2.9 ) 0) 0)
24 21lel 76.2 BeR 207 0 ) 0
25 2201 29.2 llee 2.5 0) el 0)
26 22.7 Syrail 12.9 -2.7 0 el 0
27 236%) 32.9 14.0 =-3.0 0 eoV1 0
28 2208 31.# 14.3 -3.1] () eoUl )
29 2204 30,46 14.1] =-3.1 0 el 0)
30 2106 2B.A Weos}) Ssaul () 0 0
31 20046 25,8 12 ef 2.9 0 0) 0
32 1923 22.9 1004 =-266 0) U 0
33 1729 Usa Be4 223 0) ) 0)
34 1623 Wot 6.3 “129 0) 0 0
35 14.7 10.7 Gel 21-25 9) Q) 0
36 13.4% 6.8 1.9 =-1.0 0 Q 0)
37 lled seul -0e2 =Ueh5 0 0 0
38 inel -0.1 -2.) “0.2 0 0 0)
39 R.A =2,% =365 oc 0 0 0
40 7.8 =4,9 ~406 4 0) 0 )
4) 700 “6.2 504 Pia) 0 0 ny)
42 Bet =6,/7 -5.7 51 @) 0 0
43 6.0) =6,.5 =5 06 28 0 0 0
a4 5.9 =5.45 =5e7 Piel 0 0 0}
45 5.4 =-4,) =4.4 e/ 0) 0 0
46 620 -2.0 -3.3 aA 0) 0 0
47 Ae3 Fis) =26() a5 Q 0 0
48 626 £65) =026 3 0 0 0
49 700 6.1 08 02 0 0 0
50 704 BR ee? al 0 0 0
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PERK K PHI
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10eJO0 e40-14.97
60457 284 =20%35
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4.01) etR ~-8241]
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1.54 44 oe43
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096 LI-w T™ No. 377
RBFIS 14 O08=1U0M=Nf Co %6JUL=65 1604-1609
LAGS= SQ N= 1778 OTS 02SEC
MEANWe 0.0 MEAN Wg =126
K ACOV Wh ACOV Wea Cv TN COVOUT SPWySP Wa co QUA PER rR PHI
0 49.3 36.4 1004 0 l?efl 62096 1235 ) 2e90 el2 0
} 4927 36,1) 10.2 =()o4 22097 11.58 2097 =0.,695 0 el¥=12.345
2 42,4 a4.9 9e9 F007 Sell 7269 Gell -0.82 0 290-16.93
3 48.3 e}5\q 5} 904 -l.1 1236 5e22 1.79 =-(),67 0 e/2=20. 99
4 47.7 31.2 Re/ -1].4 Pols 3ell 09I9 =(,.30 0 © f2—\1b6e45
5 46.9 Pa./ 7028 =1.4 025 1.21 ‘a37 ©0206 0 069 -9.44
6 46,1 25.9 6.9 -1.9 ell 035 elf -0.U02 0 2093-11239
7 45.42 A3.') 5.9 =2.0 205 ell 093 =-0.01 0 e4/=20e13
8 44.7 20, | S oi) =?7.) e003 004 eV2A 0 0 .5942-13,84
9 43.23 i foe 40% =2or eVl eo Il () 0 0 e377 30030
10 47.4 T55 Sienl =202 e 01 001 0 0 0) ofA 36.35
Wit 41,4 Wren) 20? =2.) el ol () () 0 064) 49607
le 4%.5 5) oS =2.0 e0l] 201 q 0 0 048 12.37
13 39.6 8.) eo -1.9 0) e0l () 0) 0 «46 |L3eu3
14 3A 6.4 ed 1.8 0) e01 0) 0 0 e48=20ec0)
WS) yal oll 5.4 oe Pio® 0 0 0 0) 0 044 =5e 4
16 Sos! 4A =e5 =-1.4 Q 0 0 0 0) 0%2=-14.22
17 3627 4.') =H -1.2 0) 0 0 i) 0 2250-10056
18 360!) 3.4 “009 e-1.0 0 0 ) 9 0 eBI9-1lbe a0)
19 3504 355) -1e) =-0.9 0 ) () 0 0 e384 6639
?0 34ey 35 -lel =()e/7 9 0 0) 0 0 «fA edi)
2) 34.3 S55) “lel “0.5 0 0) 0 ) 9 of/9 4628
22 33.4 De t/ H)e0 044 0 0 fy) () 0 085 4&.U7
23 33-3 3,8 =1.0 0.2 0) 0) a) 0 0 40 192/71
24 3228 4." “069 Vel 0 0 0 0 0 5aS Wise
25 37 4 4.1 =1) 09 =.) 0 0 0 QO ON eee V7 9
26 31.9 4.2 =009 ) Q 0 0 0) O oS Boll
Cal Silo 4? = eR 0 0 0 0 0 91699 11.614
28 31el} 4.1 =009 0 0 (0) 0 9 01044 =3079
29 Beh 41) =0e9 0 0 0 0 0 Ole46 2699
30 3061 3.8 “009 Oe) 0) 0 0 a) Goss) ood
31 2926 355 =1e0 Vel 0 0 0 A) O1e22 Re4d
32 CD02 S52 =lel =')—2 ) 0 0) Q O1el) Srevlel!
33 ARH 2. Soe oWoe 0) 0 0 ) Olell 14220
34 2Re3 2.4 “1e3 2023 ) 0 0) ) Nle35 42590
35 27.9 2.) -1e3 =) .4 0 0 (@) ry] 02e/8 2ST
36 C74 WS) ~1e4 “0.4 0) 0 0 9) 0 0 0/9
37 e7e() 1.3 =led =) 25 0 0 0 0 0 19) 1.63
38 2b a -1.46 =()26 0 0) 0) 0 03250 -7.538
39 Chae 24 =-le7 0e46 0 0 0 0 02020) =8e5®
40 2807 ot -1.H =i)o7 a 0 0 0 02200 =-5e24
4) 2503 He -1].9 =(),8 0 0 0 ) 03235 -3035
42 C409 =07,9 =2.% = 29 0 0 9 a 00-9#=-11.13
43 2405 =-0.2 =2e1 <-0.9 0 0 0 D) ) Q 23003
OG eho =0.3 Sao Silo 0 0 0 0 0 0 =1led1
45 2307 =U .4 ~Ae3 w~lel 0 ) 0 i) ) U 250631)
46 2303 -U.5 “Ped w=l1ee 0 0 0 ) 0 0 =3eU01
47 2209 (1,45 =2.6 -1.3 0 0) 0 0 0 ) 4e54
48 27 05 =0,8 =Peh -1.4 0 0 0 0 0 0) 5.41)
49 2261 “0,9 -3.) 1.5 0 0 0) 0) 0 0) 060
50 2168 -1.1 “3.2 -1.5 ) 0 ) a 0 0) 0
B-80
097
BRFI S
LAGSsa
MEAN
K ACV Wie ACY Wy COV
=
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2348
2302
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2105
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2200
226.0
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2125
2104
2103
2102
21.29
2009
20,8
2006
2025
29.3
2002
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19.9
19.7
19.6
1964
19.3
19.2
196‘
18.9
1422
47.2
46.4
40.0
45.P
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42,7
40.79
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33.4
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26,8
26,7
25.5
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23.9
23.3
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NPFEPNUTOONE NH DNLET DH
FRRFP PFE MNFUUTTAINNTO
Ce "OIL ens 16413-1618
OFS UerSkES
MEAN WE 4e9
Tu COVOUT SP WeSk Vy [oma
5.7 0 Lle44 15017 1264
5.7 =)e2 1eeld 20.34 1.78
Sed =) .3 1e09 6626 025
Sie =)—4 otis) 2eel 263
Gal =005 082 1.8e ok
4e2 =A 045 238A 045
Slot/ =')245 elY 62'S) 009
3.2 025 004 oii oO]
Aol =J24A el2 005 0
Ped 20065 201 e2 0
109 25 o01 el2 0
le? =064 el oO] 0
125 2023 () el 0
Nosy Oia {) 0 a)
loa OWog 0 0 0
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Ae 20.2 Q) () 0
2.3 =1).7 0 0 0
2ef 223 0 0 0
349 =0.23 {) 0 ()
344 =Ue4% 0) 0) ()
3.7 =0.5 () 0 0
4 oi) H0.5 ) 0 0
4eF =e A 0) 0 0
4o03 -).7 0) 0 0
404 =1,9 0) 0 0
4,3 =-1.0 (0) 0 0
4.3 1.1] 0 0 0
4.1 1.2 0 0 ()
329 Clas) 0) 0 (0)
3.6 led 0 0 0
3.3 =1.5 ) 0 0
3e1 -1.46 () VU 9)
208 =-l./ Q 0 0
205 wle? i) 0) 0
203 -].8 0) 0 0
Pei -1.8 0 0 0
169 169 0 0 0
1e7 -1.8 0) 0 0
16 =-1.3 0 0 0
oS Choy 0 0 0
104 =-).7 10} 10) 0
1.3 =-1.6 0 0) 0
1.3 =-1.4 0 0 0
1.2 -1.3 0 0 0
le2 wle2 0 0 0
lee -l1.l (9) 0 ()
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lel e028 0 0 0
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B-81
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TM No.
PER R
70209
10.2uU0
3TT
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elt) =8.6/7
043 =6ecl
aflu-)3ac9
CUS SG PE
e277 34.9/
0345-60645
elf-2letc
0342-52037
0347590 cH
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1.2d4 061-24, 0)R
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1.32 U 760564
1e25 0-69.64 4
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1.05 G-14echA
1e00166)-750e54
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0911 025-27 669
0871699 co 34
093 i) Mose)
0 80) 9 73-60
onli Q-202u1
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of/lle4s =60c3
059 N=202Ue
0671 e66=4206/
065 oD) =5.93
OSes) S2eos
e6lla4/7 49.02
0295015 2eel4
heO7
5209
4,00
3.233
2ok6
225d
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ee U0
1.232
587 040077
0 DA O=42 e008
054 0=-260/1
0036054 $9265
0511269 16685
eD030e22 24653
049 0 206c2
0 +R 0 R./e
047 0 -7.12
045 fe45d=-196F6
0443033-20044
0431 af R-102K9
0431233 10.44
0421094 32.236
e441 ) 39424
0 40) 0) 0
fah—F-} LI~ w
RBEIS= 14 2-4.9M= WI 7 JUNE-G5 2228-2234
LAGS# 50 Ne 1706 DT2 .20SFC
MEAN Was 4.2 MEAN Why 2 3.1
K ACOV We ACOV W, COV IN COVOUT SP W2SP Ww, CO
Q WHEY WIE eo WiSoS 0 1le31 9286 4.09
1 #115¢0 292.4 11164 206 145068 17669 5647
@ 105-67 180.4 99.6 Se llell 16-673 5.58
3 91.8 146,9 B14 608 1%9e21 31.35 20.09
4 TAe2 195,9 5B.4 Bel 29.60 53.56 37.23
5 54.3 61.2 3226 8e5 21658 46.98 29.83
GQ) eado7 9G.5 6el 8e2 4208 2lell 9.89
7 137 =23.4 -19e.1 Vol 1010 7.29 129A
R @=4e4 =56.,8 41.2 Soo) Os) 751/00) 061
9 919.5 =Al1,5 58.7 34 024 1.25 018
10 =30¢R 96,3 =7006 1.2 023 081 ec2
110 =3767 =191.3 -7604 =1.49 015 40 el2
12 #4923 =97,9 275.8 =2.9 eld 023 e008
13 232.24 @A4.7 =69.5 =4.4 005 013 03
14 ©37.7 =66.4 ©5829 =5,.5 0 012 003
1H e23.7 -43,8 =<+42,7 =-6.0 004 009 001
16 @-1>,.3 @19,3 =74.9 =6.0 204 007 202
MY oJ3 Sy 60? =5.5 003 007 201
18 13.2 27.5 1261 =4,.5 003 206 001
19 C504 46.43 2825 -3.3 002 095 001
20 35.9 60.4 42.1 =1.A 002 004 e01
21 44.1 59.2? 52.1 =0.3 202 003 00
22 49.5 72,4 58.) 1.2 e001 003 000
23 57.1 V5 0) 602.0 2.5 001 003 200
24 mi of) 44,2 58.0 304 202 003 000
25 42.7 55.? 52.6 4.4 002 e02 200
726 42.46 43,2 44,5 4.9 202 002 200
27 35.0 29.4 34.3 501 20) 202 200
28 24oA VO5e 2329 52] 001 002 000
29 1409 1,8 11.3 4,f 201 00) 000
30 7eo? 10,9 0? 4.3 e001] e001 2°00
31 =1ef 21,7 -9.7 3,8 00) e01 000
32 =7.A 227.2? =17.8 3.2 001 001] e00
33 @13.) =36,] 22325 206 20] 00] 200
34 @=1663 =39.1 =2647 26? 001 201] 200
35 -17.3 239.2 -27e1 1.8 e0] 00] 200
36 -14.2 =326,4 =25.0 W6G) 091 e01 200
37 =12.) =31.1 =2026 Go) e01 e001 Pac)
38 HQ,4 =23,.5 =14.4 1.2 e01 Pate | 000
39 =?7.7 =14.4 -7.0 1.2 000 el =0.00
40 2.7 4.) lel 1.) 000 001 =01.00
41 1%.2 6.3 9.1 1.0 000 001 200
42 1403 16.3 16.5 oA 200 001 =0.00
43 21046 25,1 22e7 05 000 0A) =-0.00
44 25—R 92.9 270? of 000 001 =(1),00
45 28.5 36.6 2909 =-),l 000 00] =0.00
46 29.7 38.5 3006 0.4 000 001 200
47 2922 37,4 2922 =004 000 001 200
48 VOM T) 5) 7/ 266) -0.7 200 e001 200
49 23.7 PT.4 21-6 007 200 e01 000
59 1944 19,8 1609 =0.5 000 001 000
CORRPFLATION COFFFICIENT e731]
B-82
QUA
0
043
=0.13
82
2.8)
2.98
1,56
44
el?
004
00
00
=0.01
-0.01
-0.01
200
-0.,00
200
=0.00
=0,00
=-0.00
-0.00
-0,00
=0.00
209
200
200
000
000
200
=0,00
-0,00
-0.00
-0.00
-0.00
T™ No.
PER
0
20200
10-00
6267
5.00
4.00
3.33
2.86
2030
2022
2-00
1.82
1.67
1.54
1.43
1.33
1-25
1.18
1ell
1.05
1.00
095
09]
287
083
80
e/7
014
ef)
SM
R PHI
039 0
032 «44.53
04) =1.35
082 2.34
094 4,32
094 5.71
088 8.98
e72 12.58
05) 11230
034 12.30
051 029
030 208
052 =5,50
042-17.98
037-17.86
025 28)
e036) 64.90
032 «44419
034 1.65
032 -4,68
e30°10216
022°37.59
029-35.81
el6 9.85
ol7 54.17
021 66.89
029 57.73
eol7 48.16
017"24.03
020 6.85
035 31.17
038 40.86
028 50.35
ell 38.07
013720.94
022748 ,43
021"52.73
°09=30.50
005=66.63
el3 9.21
012=39.94
el4 78,83
025-86.56
039-52.83
e37-31.69
e20-11.37
019-63.48
037-7041
0 39=-84.69
e22-72.82
e015 =-0.00
099 LI
BBFIS 14 }.0%=- TW 8s BIUNE54 2357-000
LAGS= 50 j= A PYA OT= O0e25FC
MEAN U=-18,h5 MEAN We oe
K ACOV U ACOM ww COv TN COvVOUT =P U SP ow
iy) 89.0 5PR.2 71.4 ) 2o@o Sori
1 T4604 492.5 ~P105 43.6 4264 1047
2 60001 496,56 “200% Ble6 4e4/ 9266
3 39.2 Slats) “18.0 108.7 4eB8/ 46.56
4 ene 140.7 “14.7? 122.0 l5el2128e2e4e
5 Pol -2,9 “Be? 121.2? 150648145.92=
6 e104 -131,1 HPet LOK. Lie0S 84,73
7 92047 =731,94 BAY tido® fone so
8 =27.3 =79B,9 eto 5K.8 4e6U eee /0
9 239.3 -331.4 Wan eae 3206 13,82
10 =29.9 -=331.,3 Ane | ali eel Beu2
)) =P7Te7 #31444 CASO) ASG) 10/4 3246
12 2£23.6 =757.3 P4e? -“43.9 1219 1.449
130 =-)7.5 =195,7 Al.? 255.0) o/¥ 090
14 =-17.5 =-175.% PP el) -6623 030) Pole)
15 =Fo4 =-53,? l4en =69.4 eles ool
16 =7.8 17.8 5.4 =0/.4 °26 039
17 4.7 Q3.4 =-3.3 “64.25 238 e32
18 Gel 13AR eo 1265 752." eos o33
19 13-5 81.4 =27005 =-39.5 ul e33
20 W508 2NB.9 =260h -25.7 a26 eel
al 17.3 Cla. =3).2 -11.8 5s) 18
22 17.2 Avent -41.4 Lot 02) e1l7
23 16.6 {R74 H=PI.G 1364 ely e1l9
24 15.3 152,56 =P efi 23.7 218 2)
25 14.3 110,3 =19.? 31.) eld 18
26 12.) 64.4 =l1le7 36.4 eli3 014
e7 RAs 14,4 =3.9 34.9 el3 oS
28 5.0) 74,4 3.3 34.4 eld elT7
29 ef “51,7 9.3 3604 216 ol/7
30 =3.4 “92,0 13.9 31.9 ela 016
31 =6e4 =114,0 LAepR 25024 ec) ell
32 =7.9 =176,7 L4eg 1H. elf 208
33 HRS = 139003 18.3 12,9 eld 0 08
34 HRef = 174,49 16/7 566 SO 7 009
35 =3e) -=1ll,Y L3e? 20.3 PRON el2
36 =7.2 -91.,4 106] =5./7 009 el3
37 “626 -66,7 509 =10.44 eld ell
38 Fe =3R.6 Le* 15.5 eld ell
39 =“5—.6 =.) -3.5 -19,7 oo) eo k0
40 =4.6 21.97 “R.i) -23.) 009 e010
4) O's) 48,8 11.25 -25.1 oT ele
42 09 70.4% -14.0 =205 06 009
43 47 R5,5 ~1504 =23.5 007 06
44 8.3 OS55, GCINSGY SND5S 007 005
45 15.45 93,8 $15.0 “13-3 009 205
46 12.3 R64 -13.5 =-6.01) ol4 008
47 12 64 V7 Sei) -l1l.7 165 218 ell
48 11.0 54.45 “9.8 8.7 016 009
49 2.6 33.1 -7.7 14.46 ell eT
59 6e2 10,4 -5.1 19.9 004 e)3
B-83
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=0.256
ol7
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11.36
11.39
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209
204
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-V.203
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=0.02
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Poa
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5.00
4.00
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Cole
ee UU}
1.82
1.67
1254
1243
1.233
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But
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043
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els
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elf
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76.52
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44.435
44.84
435261
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eV9=R23217
ee)
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ele
60204
46.44
89.53
ol 4-51. 4
ely-
oly-
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el?
21 os
elR=-226.91
el425R.1 4)
ell
el2
eR
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elf
02h
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eUR
eol4
09
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47.54
BY.UR
16.75
64,04
Ree lb
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42.93
28.99
72022
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10.37
Wad etCall
C4022
60046
34.84
19.U4
38.60
loe3l
0
100 LIT-w T™ No. 377
BRFIS= 14 2-4o9M= WH 8 SUNE- G5
LAGS= 50 N= 1346 NTS .ANSEC
MFani U & o3,4 MFAN W = -l.1
K AFOV tt ACOV Ww COV IN COVOUT 58 U SP W co QUA PER R PHI
0 1152-4 143.9 74.5 9 16294 15619 7.263 9 0 48 0
} 112.8 157,3 7204 2e8 29095 25651 12.09 =0.66 20000 044 -3.13
2 10402 142,7 660? 5.2 27027 18.00 6259 1.04 10.00 «35 8.97
3 96.6 120.9 56.6 To9 13047 170696 7ol19 1.57 6e67 047 12234
4 84,7 94,2 4404 Be2 13073 29-28 15638 14698 5e0 o/7 7032
5 T1eA 65.9 3007 Be? 11¢68 320613 16.32 2.83 4600 -85 9.83
6 52.3 36,1 16.8 Bo4 5049 16665 7.35 1.66 3633 079 12671
7, 45.7 9,7 3.8 724 1280 4.59 1.74 049 2286 063 15-56
RB 34,5 -12,2 =7,) 5A e/l 1.36 030 eee 2250 0 3A 36.46
9 POre2 =78.% =-15.2 3.9 038 060 =1.06 092 2022 014=20.28
10 18el 237.9 19.9 1.8 229 041 -07.00 -0.01 2.00 2.03 75.64
11 13.3 =39,3 =-21lel -0.A ol2 eel -0.01 2000 1.82 007 =0.79
12 19.8 =35.3 =19.0 =2.0 207 OS) e000 290 VAY GOC EzI6 746)
13 Linen! =26.? -14.9 -3.3 007 el2 =0.09 202 1254 el7=-74,82
14 19.9 “13,3 =6.9 =-4,? 2007 eld 200 02 1.43 026 86,84
15 17.8 WAT 1.5 =-4.6 04 096 -0.00 201 1633 ©10-87.15
16 1564 What 11,2 =4,5 003 006 =-0.01 e 00 1-25 0146-12645
NY 1Q.0 Blige) 18e3 24.0 e003 097 -0.01 0090 1618 «28-14.08
18 2723 42.9 25.2 3.4 003 007 =0.00 ©01 1lell e28-82.92
19 219 50,9 39-4 2.4 002 0 04 000 eo 01 1.05 .38 77.00
29 2704 54.9 33.4 =-1.8 002 e003 000 6 (0))) 1-00 24 89.29
21 2723 54,2 34.2 -1.9 002 003 =-0.00 200 095 020-54,60
2? 2°08 50.46 32.28 “0.2 002 003 =0.00 e090 091 014-58.73
23 12,42 43.1 2925 03 002 e02 -0.00 200 087 ~12-74.82
24 14.8 33,1 2406 04 002 02 200 200 083 22 67.219
25 19.8 On (/ 18.8 a3 eM] e002 200 200 280 013 85.47
26 Ael 9,9 12.3 =-0.2 0) 002 -0.00 000 077 012-14.89
PT 2o7 -1.1 5.7 <-1.9 00) 002 200 200 0/4 610 72645
2An -),) 210.5 =-.7 -1.,9 e Ol 002 200 290 el) 026 28.21
29 m4—5 -17.9 =6.3 =3,0 e0)] 02 290 =-0,00 069 e27-17.53
39 =7.4 |=22,9 =10083 =4.2 01 201 000 =0,00 067 o33°45.90
31 =9,7 =?5,3 =-14,) =5.5 001 001] 200 -0,00 265 el 7-74.52
32 =11.3 @25,1 =1649 -46.7 Pae 01 -0.00 200 263 019=-39.02
330 #17.) =72.4 21605 7.7 001 001 =0.00 200 061 0 08=46,68
34 @1?.1 =)7,2 =15.6 -B.4 01 e0l -0.00 =0,00 e059 2003 74.40
35 911.3 =31,5 213-5 8,6 00] 001 20.00 =-0,00 057 008 49.91
3. 2-10.63 8.4 01 e001 -0.00 =-0.00 056 007 61619
3 =6.2 7,7 200 e001 ©0.00 =0,00 054 03 26.39
() -1.6 -6,.5 200 001 200 =0.,00 053 004=-86.46
9 3.29 =5.1 290 091] 200 =-0.00 051 e21-63,83
7
1
40 e3 eh 725 -3.4 e000 el 200 =-(0.00 050 0 18=-68.73
4\ Pol Pa, 11.4 -1.7 200 001 =0.00 -0.00 049 014 30.93
42 406 20,8 14.5 =%el 200 091 =-0.00 200 048 2.12°12.25
43 So7 31.9 1606 1.5 000 e001 =-0.00 200 047 o11-68.77
44 5ee 31.2 17.4 3.9 090 e001 -0.00 =-0.00 045 2.06 29.17
45 5.9 28,9 17.3 402 200 e001 -0.00 =-0.00 044 613 41212
46 Rel) 25,2 16.9 5el 00 e01 =-0,00 200 043 11-45.86
47 1,7 20,5 1347 524 000 e01 =0.00 00 043 o13°71219
48 Po! 14,8 19.7 5-7 000 e001 =0.00 000 042 oll =6.88
49 25 Phe i Tee 5.5 200 e001 =0.00 =-0,00 04] el? 2.22
50 =1.) 2.4 3.5 eyryal 000 000 =0.00 200 040 el2 =0.00
CORPFLATTION COFFFICIEN 0543
B-8h
Ke) | om
BRFEIS 14 DeOM='TE Oe N6JUL=65 1411-1415
LAGS= Su N= 1262 UT= O0e?Srt
MEAN US 30,0 MEAN We led
CORRFLATION COEFFICIENT -1e3
K acCOV UW AGOV w COV IN COVOUT »r U SP W co
257024 953.2 @162.3 0} 4050 60652 =l1./74
P2602 865,59 21520? 11064
1/4e) 662.0 21236! CU4%eh
10509 393.9 "8009 267.20
38el LPU.3 73209 290Nel
2 ser -1165.8% 1306 2142.4
=71e0 #29544 D302 23004
@“lU01le7 411.2 B0el 16%.7
ellSee =4467.9 9502 10103
11207 =476.1 9706 36026
10 99.5 =441,.4 YV0e2 @2004h
1) 287.5 #37/9.4 162.7 6602
12 96343 2797,9 59.8% 98.2
13) 244.5 =206,6 4320-11626
14 225021 =116.R 2Heimleee9
1§ HRe4 =36,1 16063-120.3
16 oe Be) 30.8 7eS-l1l13.1
17 1925 42.2 =Jeol=lU3e/
18 3006 117.2 =B.4 =91.2
19 3926 139.3 -17eA6 =-/6.1
20 4606 15164 72706 $3409
21 57 el) 157.4 =38.7 =3)le2
22 SP e9 157.4 249.4 o/,7
23 4929 153.5 @58.5 11.9
24 44.9 144.1 763.9 27.3
25 37069 133.9 #6500 37ec
26 2909 122.2 620K 4463
27 2400 111.2 =56.3 48.3
28 1920 97.6 4764 5129
29 14.5 76,6 =35e1 53.
30 4.0 44,0 =2003 53.5
31 le3 2,5 “4.0 6109
32 =7e4 45.7 1306 6209
33 @)4.4% @94,) 3066 58.9
34 22502 =] 36,7 44e1 4104
35 ©3729 =166.4H $306 3023
36 =37el =]82,.1 59a] 9e2
37 =37.4 -179.,2 60el 13.1
38 =3?./ =-158,.2 56.29 =33.9
39 92566 2122.7 4726 25028
40 217.3 76,0 3343 762.4
4) =-7.7 =?5,/7 1503 "6802
42 eo!) 22.6 =2e7 76500)
43 bel 60.9 1869 #5467
44 lle6 R4.4 #3106 736.3
4&5 1563 92.5 73826 ©1923
46 174 R7.) =4().1] =2.9
47 17.23 Talveny =37.4 8.3
48 1509 54,1 =3008 10.8
49 1425 39.5 £2369 B.6
50 1204 31.0 =16e1 4.0
omrratMNFWwNneoO
7004 13027 =1e0e26
be35
21.238
009
Cee3e 810967) 7e9R
472604181 e20"41e-20
41640185 e68734.2.16
3620514308122) 2-54
PHeOK1LOIBle2ie2l)
65e2l1"13662
17238
1226]
4e3f
sels
2294
2 eV4
1.36
otk
0/5
085
088
e/6
eff
056
042
035
e32
ec3
226
32
e3]
ee
024
02h
eel
ee3
o2l
e22
ef)
ect)
019
019
225
028
226
226
222
oll
218
°22
023
ell
B-85
39.12
28.78
18.46
13.14
10.15
7206
4.16
209]
2039
1.67
1.06
084
0/6
e 6]
048
e411
236
033
034
238
0 34
028
eel
e2l
el6
019
023
024
024
026
eet
225
019
018
ol?
° 16
016
ol7
024
230
025
010
=6.7)
@2056
=(10649
=0235
@()e42
=0.35
#0.03
= e204
=(205
007
005
0
=0 202
-(1.04
003
007
003
0
20202
=0.201
02
205
203
002
004
004
003
004
004
0
=0202
=)e02
#0205
=0.206
0.204
©0201)
=the. U2
20.203
=0.201
e202
002
e0l
T™ No.
045
o42
40
Swi
R PHI
e32 ()
ONS Does)
025 88.216
080°59.69
091760226
0 88=65266
037-68.6\)
e80262013
0 /6258.595
0 /127642.9R
ed8-/3.5/7
031"#1/9.53
e20e772el2
e3l-/ee 74
e38=12,.33
o2)eh4.,./3
e038 84,67
236280.67
016-70.17
008-89 .84
018 82.56
026 12220
016-62.92
02) 762.97
el2-18.71
006 80.83
e007? 42,80
e008 714222
01 3-54.86
e20=20.10
el16=37.205
029-7722)
029=52.58
020 326/71
e018 49,01
el9 15614
018 10204
00) 8.38
007 =3.20
014"40.33
e23=-20.20
e026 13250
02) 34643
el9 75.48
eel 67e11
e220) e2l
005-14.73
020768.10
027274.38
006 =0.02
102 om TM No. 377
RBFIS= 14 eSt= 4] 8 SUNE-G5 1420-1424
LAGS= 50 N= 1136 NT= e20SFC
MEAN U = 31,4 MEAN w = 1.3
K acOV U ACOV WwW COV IN CUVOUT SP U SP Ww co QUa PER R PHI
0 158.3 6RB.9 -117.2 0 1267 3.96 092 (9) 0 0 36 0
] 138.1 6329.1 -)11.5 U2)0 tf 2298 9.68 1.46 eS) 20-90 ero QQoht
2 llie&® 570.4 =-=94.6 141.0 4efl 14228 062 2502 0000 c8G GS502
3 14.9 351.4 =68e5 187.2 14028 47.42 =9 244 17.84 6.67 0 1/8=62.13
4 3409 158.0 3602 21969 316301452.10"=33.04 51.93 Se00 091°5/7.53
S = 461) =33,8 =(05 20925 39-VU82052.20-44.27 71.65 4.200 094-58.29
6 =35.3 -2'12.4 3367 186.1 26697135010"925.96 48.09 3.33 «92-61.64
VU SO%>os) GINeo il 6405 14665 e500 51220 =-5.92 18.10 2636 o82-71.88
B ef/7.1 =418,2 4B8eK G60e5 SefB 25032 =Neb6] 80284 2650 0 /3°86.05
9 =#=85,4H -456.9 10309 4423 40593 18223 -0.50) 6.31 2022 0 f/ 0-85.48
lo @BH.K =451,9 LOG eA =5.2 3093 12624 =1e13 3.75 2001) e62-88,01
Tl 28.4 ~-408.5 10365 -“49.7 2605 6611 elS 1.69 1482 004A 84.98
12 =69.6i) =-334,2? 48.7 =85.2 1265 2.98 01? moll 1.57 eck 78.80
130 =5?7.e =-237.7 67e.9"113.2 1e23 1.499 =-0.02 GaN hobs ois G Eo)
14 =37.7 =179,9 41e4-128.0 ole Wef0 S07 =n 07) 1e4+3 cll 22.68
WES -Olioe Silla 13265-13126 054) «81232 20.213 -0019 1233 e27 55.93
16 9.0 ROY -13.4-124.3 a4/ e067 -0203 =-).13 1225 024 VG WS)
17 2505 174.9 =-37.2=-106.1 OSs i/ e37 “0200 =0,06 1.212 016 88./4
18 3903 CEl1L? £5623 “84004 034 0 34 002 -0.02 tlell 209°51,63
19 4Ree 97,0) =6923 =4962 236 032 Pace 207 1295 220 85.66
20 SP el eS aluacs (4.7 -1509 e32 030 004 5077 1.090 e246 59.63
21 Sigs) 296.44 =/?2.8 lboe2 eee 0 34 096 26 095 032 44.8]
22 4509 252,65 7634.9 44.4 02) 035 004 006 ee SOC
23 3669 NE ia) “49.83 66.2 a2e o2T 202 U7 bi) ars! Weo0RAt
24 25el 199,3 =31.08 1309 020 e 18 000 200 083 202 15.56
25 12.6 PBY -1361 82.9 024 °18 =0.02 =-0,03 280 e1l9 57.41
26 iio) -45./7 4.5 18.1 025 024 =-0.06 =-0.U2 onlin) 025 22.65
27 =-ll.7 =118,2 19.7 66.0 e22 ee7 =0204 -0.01 014 219 14.32
28 =2%.)] -155,0 Sigh 49.0 022 225 002 6.00)! afi 008 28.56
29 =74.3 =183.,5 39.0 28.8 020 e22 203 004 069 23 Get
30 -24.7 =192,/ 41.9 929 el9 aly 01 004 Ol e25) (06
31 =21.1 -183,.4 40e1 =de6 023 016 02 004 005 2022 63.16
3? -14.9 =159,.5 SEG 1) Sr2ore} 024 el8 - 200 02 063 ell 82.84
33 -11.2 =124.5 C726 73323 ele el7-=0203 V0 05) elY =8.11
34 “406 82.46 MOon GIOoo el7 el5 -02.04 =-0.,00 039 e2/ 6204
35 lee =-38.3 Gey =39.26 e138 el2 =0 2.02 V1 OP) i eo 1 B8=-24.46
36 Aol 5.4 1e9 -35.2 022 ell 20201 eV3 0345 019=-62.23
37 Ye 45,10 “509 -2/24 ee3 el2 elie e001 094 209 28.15
38 12066 (AdiGis) =9.5 -16.8 we 014 006 =-).U4 cies) 0 39=-35.51
39 lisieS haa Nt =12e/ =5.8 ec3 ae Ge) 006 =-0.06 0D] 04/=44.42
40 ioe) ) Wiese 9 olbae2 Sel elf e1l3 004 =-0.,04 030 © 38=46.53
4] B62 Sal Geet) tos) el6 014 004 =0.03 049 032-41.40
42 44 Noe rent =15e6 226) 019 015 000 =0.02 048 o12-86.40
43 =Ner 79.1 1360 Coe? eel e0l6 -0.204 200 e4/ ech -1.60
44 =4.6 49.') =~1004 elel 024 oll i =()2.02 eo Ol 045 0l2-29.214
45 =i7 5 165) =7,) 23-6 024 014 200 200 044 202 61.215
46 =9.9 =16,.2 =4.9 Wor e1l9 ell -0.00 =0.U02 043 el2 78.25
47 e10e1 42.4 -3.3 ToT eel 010 -0201 =U.01 043 ell 62.37
48 -2.8 =61.4 =-1.8 =2.) e22 e009 =-0.00 V0 42 eV2“51.21
49 =6.2 =71.,4 =0.5 -11.9 eel) 008 200 =-0.00 eo] 203-48.13
50 22.5 71,8 3 -19,3 eld 004 =9.00 =0.00 0+) 02 001
CORRELATION COFFFICIENT =02 34155
B-86
103 om
BBFLS= 14 Letem | 8 JUNE -GS 1428-1432
LAGS= SU) N= Lisy NT= e20SEC
MEAN U = 36eec MEAN Ww = @=]02
K acQV U ACOY w COV IN COVOUT SP U SP Ww CO
0) Wives GheaA SRG ) lo@s) Bae) 019
1 Oral sleet S265 S301 1695 5.88 020)
2 78.4 300046 =-5H.6 Ye? eel 9287 22
3 490.43 195.0 38.2 130.6 7438 25-33 =3.40
4 1R.9 74.5 =1502? 14d02 204d 67097-16296
5S 89 944.2 Be4 14165 28032105296-26.61
6 2#37./ -)45.5 2965 L2l)ed 2099 85257-17251)
7 ao 725 =-219,)) 4504 89.8 Led3 Gyre fall -6.25
a Nblef a25h,/ ST e% 52.0 6.2/6 BU GMS -3.74
9 =605,9 @P64,7 62.2] 13.3 3024 13.59 =-1.94
19 =64.1 =240,3 6967 =21064 Le3l 4.252 =().2R
ll 940% =13,4% D304 —49—4 hows 1.91 =0.24
12 #4109 =133,9 41.9 -68.2.3 12619 1.00 =0.39
13 =25e! S7/ Wa Il Plee -llee Lee? 0/6 =0042
la =8.6 e)]0.5 t1e4 -77.5 1206 060 =02.24
15 5.4 a0.4 “4el -69.8 e770 044 =()206
16 17e! RO.9 \21le? =“D5leh 050 035 -0.05
NG 24026 to7,* “2709 ~4eol Jenn e29 -0,04
18 39.6 1?2.% =34.9 =-27.0 Oeil e222 -0-04
19 33.6 1276.5 “39-7 -12.3 oc e16 =0.05
20 daah 1P0.5 -“41.] Pas) e3) el2 -0.05
21 33.45 196.) 9-39.41 11.9 028 009 =-0205
22 396 M525 =35.] 22.0) 024 ell -0.06
23 2408 Baba 2) -?Taf 30.0 Py-a0 | e1l3 -0.03
24 i we) Pa? -1/.8 3602 020 ell -0.01
25 17.1) =-3,) Se | 334.9 22 ell =-0.05
26 le/ IG }) A II 5.7 38.9 02) e010 -0,04
27 =6.5 =58.9 Oven 7: 340.9 ec2 009 200
28 -13.4 =i 2504 28.0 023 006 e202
29 -19.9 HRS Shiligs} 17.9 019 U5 202
30 =2?.7 ~-8KL4 3364 bed el6 009 -0.01
3] =23.2 OIE) Be 31.2 -6.4 eld ell =-0.02
32 =2767 “60.9 2625 -1lbe2 025 009 -0.01
33 217.2 =36.1 19.3 -27.3 024 007 01
34 -1) 24 -4.1 10.5 23726 019 206 001
35 plat a! 19,4 le? $32.9 023 e07 =-0-01
36 5.5 47.8 ~704 =296)) e3) ell =-0-01
37 WoS 59.0) =-13-61 -21e4 e026 ell 202
38 15.4 60,4 “16el “11.5 e2e 007 202
B9 L761 A9.5 “1604 ).7 °30 005 200
40 1404 56.2 “1465 9.0 030) 006 =-0.01
41 l4a.i 41.9 =112¢0 1629 2] 007 =“0-04
42 166 22.4 =“628 2125 ec3 206 =-0.03
43 7el rr) “3.6 23.1 e030 006 001]
44 2.5 =-13.9 -0.3 226.4% 035 e 08 eUl
45 =1el =?5,9 ]e9 19.9 ess ell -6.0}
46 m30H = 3600) 4.1 14.7 29 ell =-0.03
47 =A.:) -41,4 4.5 10.9 228 e010 =-0.03
48 724 43,45 4.6 525 029 °©08 -0.02
49 =4e4 =-4¢e./ 3.8 tel 025 208 =-0.02
50 =Hel rie) oie Lee -2.4 e10 004 -0.00
CORRELATION COFFFICIENT
=e 359
B-87
OV SIT
R PHI
5240) {)
020 732.02
e62 85,51
083-72.50
092-60.27
094=58.81
092-62./8
09071054
288-71.76
oe /6=67225
04]=-73,33
0 38-65,57
050"44,33
091-°32.30
032-21.42
018 50,06
e3]l 65.09
e222 53.269
015 14.82
026 6293
024 4.50
029 =6.04
0 36-11.88
020723641
009-18.02
e367°13.62
o32-24.02
003 81.74
0 18=23.94
019=29,70
e008 43.3)
e016 -6.55
013-55.29
01M 50.54
009 6.05
ell 12.642
009 49,73
014=37.36
014=26.03
0001-36240
og ease
32 =6,59
0390-39611
023 64.80
008-17.22
023 77.80
019 40.57
0 18=-24.91
e16°23.26
el2 3222
003 000
104 Om T™ No.
BBE Se WA 766Me 7 8 JuNE-65 1435-1439
LAGS= SV N= 1022 OT= e29SEC
MEAN U = 7,2 MEAN W = 2764
K ACOV UW ACOV w COV IN COVOUT SY U SP Ww co QUA PER
i) 120) 743.5 4967 0 060 6618 =0-19 a) 0
] 542.3 230.6 =45.29 23.5 1034 12.57 004 1.00 20.00
2 45-5 197,7 =39,4 44—4% 2218 12.52 256 2e'5 10.00
3 3104 149,11 =290.1 6107 62059 24676 -3.86 922] 6267
4 No Ol.i =loel 7ied 15059 55695=-15.56 21.57 5.00
5 4,V 3U.3 =2 04 74.6 170438 65.73-18.96 25.02 4.00
6 =9,°) =76,8 19,9 UN od 8.4/0 37.66 -8.67 13.65 3233
y Dy ed Ao ey 2305 6l1e0 2051 13646 -1.36 4.22 2.86
RB =28,1 -l1lll.»d 3423 46524 1219 6-62 =0.39 1.4/5 2.50
9 =34.4 -133,.1 4025 2992 2/6 3.38 =(.07 2(4 2eee
10 = 39.5 =-140,.) 44,1 lies 1205 12643 -0.02 eo) 2.00
11 #4943 -133.° SBgr .S568) hoee 0/5 =0.24 9G5 Nose
12 =3704 o-114,8 3905 =20.6 1.09 243 =(0.28 =-0.18 No @t/
Us) Ooh oO OB/ Ae) Silos) Cs§ie6e2 098 030 -0-21 =-U.2e3 1.254
14 =27?.> =55,38 Plel =4I 248 0/4 025 “1.12 =-0.U09 1.243
is) =lle2 Ih GT 942 "4502 e42 e20 -0.01 =-U.U1 1.33
16 N09 UNoS 229 =45.8 233 e015 =09.00 AOm hoes
ht wal 41,4 -14.60 =42el eJ5 ell “0.03 =<U.0) 1-18
1R 15.9 65.9 -23.27 -35-.2 e2y 009 -0.05 =U.0) Wott
19 2104 R4.]1 =-292.8 =25.5 ecg e007 1.03 e91 1205
20 2505 92.7 =34e1) -1422 e3)] 005 -6.01 02 1200
21 Chee 94,0 =-=35.4 2.7 226 005 =-0.01 200 095
22 25.7 RT R =34.2 704 0k4 007 -02-01 -0.00 Il
23 2 el U57 CS8M62 N5%) ec/ 006 -0-00 240 05/7
24 LHel 56,3 =7?4.1 Cece) eJ3l 004 =0.01 01 eo3
25 LP eo!) 34,4 -“l65e2 2506 036 003 =0200 Vl 80
26 5246 12,0 “7.8 2/24 230) e003 -0.00 -0.9) SU
eT cNGe Aili asl 29 2604 ec] eVU3 -0.01 =-0.02 0/4
28 =5.3 -?9,7 Boy Gee 024 003 -0.00 =-0.00 o/)
29 =929 =-45,1 1505 19e4% eel 003 =0.U00 =().U0 069
30 =-14.26 =-55.2 20.3 13.4 ec3 0 UG =-).00 -0,UQ0 067
31 "1547 959,5 23a) Qo. Aes 004 =0-09 eV) 265
32 =18,5 458.2 2302 -e4 226 204 =0-01 eUl 063
33 =17.6 =S2,() 21.2 =-720 oY) 004 =(1)202 olo}il 26]
Bs SVB6G Sapel roe SlasG 6A5 604 S0405 400 486
a5 -10.0 =?29.4 1204 -16e1 023 003 =0.03 eU) eO7
36 = 5,1) -16.2 bel -1/.5 ec2 202 =0e02 A O)il 256
Si7, Nod m3.5 Waal -16.5 018 002 0202 =-0.U0 e4
38 2.66 1.2 -3./ -14.0 e23 e002 =-0.01 200 093
39 7.8 1517 Sas Chis2 029 003 =-0.01 el 2D]
40 9.4 P0O.5 -10.3 =52Ah 029 e003 =-().00 a (il e2O0
4) Wika AAA =1?.3 =-1.5 e033 002 01 eV) 049
42 Laren? 22.5 ~l3e0 ee3 034 002 e01 Ul 048
43 10.6 AVa tk -12.9 505 «28 002 001] 200 047
44 Ge4 Wee2 ~1Pel '.5 e3] 203 200 =)0.292 045
45 729 Nea ONO GS) 8.5 039 e003 -0.00 =-0.03 044
46 4el yes =7e6 8.2 035 203 =0.00 =0.0) 043
47 Pet a4 -4—.7 Tel 028 V2 200 6 Oil 043
48 =0.26 =4.4 =1.25 5.1 226 e002 200 eUl 42
49 =P =8,7 Dive? 2e3 e23 e003 -().01 aWal 41
50 “4,8 =12. 1 4e5 ge4 209 202 =-0.01 200 240
CORRELATION CUFFFICIENT = e376
Sit
R PHI
elt) 0
024 87.87
094 78,53
e/8=67.23
09=54,19
093=52,84
089=57.58
e/6=72.09
064=77.40
0 4+6=84.,46
o41-87,39
°36°45,33
049 32620)
094 47.63
035 36,25
006 33243
2©05-84.30
ote Wags)
e339 1335
e25=20614
e18-57.11
ell-l1l7.47
ON WOGrIE)
eV3 =-5,04
ell-61.04
ell-67.51
lo 7865 Su
224% 66.37
005 69.22
000 41,86
eV2 24.83
olv-70.56
019=48,.62
0252713299
e035 -0219
0 39-18.67
0 35=24,82
92s). Bots
e19-13.66
021-50.97
015=78.13
oll S393
el? 35.20
014 202/1
el/=(5264
024 86.75
e100 63.38
el2 84.00
016 83.01
020739.34
025 -0.00
RRFIS= 14 PeSM= 1 8 JUNE- GS
2 a Gi ANG ee aah RUT. _ =
MEAN U 3 35,2 MFAN W 8 23,3
SE SAC OVE RA CONAWECONASINES UiTaeSP. PERS eRe PH ae a
ia) 52.7 189,4 #=36.6 t) e050 7.80 e37 0 0 19 9
Be SSCA IVA Sc NAL AES SAI Ei IAL SA) 280 20.00 2.23 70,18
2 34e3 136.3 =29.7 25.0 7e58 13242 =1.09 3.63 10000 16473229
224.6 111,64 22.3 35.4 8,10 25,63 =6,13 11.12 6.67 .88961,13
4 1403) 91,5) 91307 42 0R 12049 39017-11686 16.572 5200 .92°54,33
S 4A os aoa. 9946 = ; 4.0 -
6 =1,4 1S67 5.2? 47.9 4621 16013 =4.69 5.26 3233 086748,29
78? 914.7 187 44 7M = 67 1,90 1,82 2c86 2 78=463,80
A #14,.2 =39,) 202.6 39,49 e777 22-00 -0.,62 027) «62650 654"23,97
oO ON AG) SL) 25.7 39,5 74 068 -0.13 -0.03 2622 419 14,15
10 =P.) @=48._1 PR4 29.A 1014 036 =0.10 ©=0,05 2000 elf 24,36
(WL OAAAE OA. ROAM WAC sidnt AAA on Ai SOANG AG Ag) A AMY
12 927.5 =68,46 2704 o® 1200 . 019 $7.12 =0.12 1667 039 45.52
1S) 2S gS) A P40 @7e9 075 015 =0,07 -0,09 14654 232 51,63
14 =227,3 =46,7 19.4 -15.3 255 12 =0.04 =0.,02 1643 016 25.42
18 914,46 =2)2,3 1305 §2006 2038 £4498 -0.03 =-0.02 1.233 222 28.74
16 #11.% +=15,1 705 72407 024 095 =9.03 ©=0,02 1.625 o32 35,94
NE ONAL AG SASS 2 EA AGI ON AO OAM SAU Acre ic
1A 05 14.5 -3.1 =-25.5 222 095 -0.02 090 = Lell e290 =-2,67
2G BAe 26,2 7,5 29,8 25 504 = 0502 el 1205 .16"21,.26
en Cie) 24,9 =19,.4 ©2004 023 0M™S 20,07 002 12600 ~28A=45.,14
2 GE OR Sele MN 66 el TOS =e 2002 =n D5 9 29-4) ,83
22 12.5 £3.46 =13.9 -12.5 elS 295 =(1),01 290 09) 014 @4,50
8 43, 214 =A 9 04 =0,0}) =—0,0 8 Pte
24 12.9 42.9 =1329 ©=3.A 01d 093 000 =0,0) 083 .17-88.59
n25 13.3 2A,3 12.46 =0.0 e177 #202 ,00 =0.01 480 .09=56.69
24 1? et 33.3 =19,8 3.3 015 e002 -7.0) =0.00 e/7 e115 14.08
pee a2 14.7 27,5 eRe 6.1 eo1AR 4.02 ©0.0] =0,0) 0/74 o22 46,02 |
2A a.9 20,8 =5.4 BT 20 002 1.01 =0.00 ofl oll 32,07
29 625 14.0 =2e7 1925 ol? 003 -01,02 ON) 069 0627734,95
3n ae) Uo 4 11.9 o1l4 e003 21.01 el 067 0 32=44,89
31 ‘Lal Wee loi oIReSh aia AU GUAGE AWM. hcGS ANMet Ne
32 =1.6 =6,1 Bok Wea 22 092 =0.01 =0,01 °63 019 66,02
330 @3.5 sei Yow Wavoals 226 002 =@,00 =0,01 | 061 020 82.21
34 eh ,4 8-17.27 9an 9.46 026 092 000 =0,01 059 o614°83,58
oe ORT Oa Aa MAGN ae ear AGRE AOh) COAWM coz 6Oe) COAG
36 @=4,.9 234,43 1963 5.5 e2l 02 =0.,01 =0,00 056 ell 6,58
oh AoE eb A 9.9 2.8 e118 492 -0.01 .00 054 .09=16,32
38 @=4.1 =275,4 8.9 af 016 002 =-0,00 001 053 216-67.,08
39 “8.5 =23,9 Tho) ORale 019 202 201 .92 +&265)1 229 70,00
4n =2.9 =20,2 5.8 5.1 023 003 201 203 050 e37 65.35
4 24,59 = 5 CAT Orta. 2 ° 2 04 32=78.9
42 2?.-6 31.4 1.7 78.2 022 003 -0,02 091 048 230°32.14
43 eMieih 25/4 0467 #85 025 5 6020/01 2. 59100 047 o11°23,28
44 el AG 27.4 -A8,1 023 002 001 =0,90 045 2.09 =4.04
45 1,2 SeSau =4.4 — =6,8 223 02 201] =-0,00 044 e010"42,03
46 2,8 9,9 =606 Sel 023 _ 202 =-0.01 =0.00 °43 e11 38.23
47 6.1 Desire. “8.4 =3.7 023 03 -0.02 291 243 e23227,79
4A 7.4 14,7 9.5 =-1.9 023 e003 =-0.02 001 042 033730.76
49 2.3 14,4 =10." heal 0l9 203 -0.02 e001 4:1 033 23.70
50 Q,) 12.3 =9.4 3.2 208 001 =(0.01 =0,00 040 elz2 200
CORRELATION COFFFICIFNT =12296 ~'& —
B-89
106 om
BBELS 14 3.0M=
LAGS= 50 NB 1143
MEAN U= 18,9
CORRELATION
K ACOV U ACUV
OUNTVWFWNY dS
L508
Sel
Hed
Be
hed
bee
322
Pel
lel
eA
Ww NN
oes e Poe we eo eo Bw oO
Ne wet wrnnOuny &
—- NNN VN DN
COEFFICIENT
186.2
178.9
156.8
125.2
86.6
45,2
4.9
=30,5
@5B8. i)
@76,(0)
-R3.R
=-31,6
-/)0,.9
=53,8
=32.7
=9.9
Wo)
30.9
45.5
55.0
59.3
58.3
53.2
44,23
34.45
BOGS
12.9
Seo
=4.5
= 1(0K.8
=15,1
=17.5
=18,0)
-16,8
-14,1
-10.1
=5.1
o%
6,4
12.3
tote!
22.4
26,3
QE 1/
29.5
28,A
76,6
BEe\5'5)
19.9
16.2
12.8
1457-1501
B-90
9.246
16-25
13.99
22.37
39.229
42.76
25.76
9.92
2089
089
058
e331
°16
el2
013
009
oU7
006
0 (6
005
004
003
0 U4
003
003
0 04
e(3
092
002
e 0]
ell
001]
001
002
eV2
002
eV2
002
002
002
e02
002
e001]
e 0]
001
202
e002
eV2
001
201
e01
0s N6JULe65
OTS OeA@SeC
MFAN WS =762
=el7
w COV IN COVOUT sre U SP Ww
=609 0 02cl
-6e7 o4 1043
=“6e01) 2A 3200
=5.] ote 238
3.9 oA: 084
=?o05 oR 064
=-lel of oft
04 4 Phele)
1.6 =(el 034
206 =().R 026
3e0 -1.4 eel
301 =204% el7
Sia) =2.8 216
206 -3.1 014
1e9 =-3.) eld
oF =2.7 009
el =2.1 eld
=(e/ -1,5 014
-1.3 =(o7 el4
-le7 0 ell
=2e() eA Pula)
=2.)] Fay) el)
mled lee ol4
=) Vers 1.3 el3
=006 1.9 ele
el ed ell
08 Fe2 ell)
1e5 = eA ell
ee!) =-1.4 eld
2e4 —=125 ell
206 =1.5 eld
Cot lel 014
200 =Ve3 ell
126 2A eld
°8 1.4 el)
o4% eet ell
=()e3 Col o10
=008 2eA 009
-1.3 2eR ell
~104 204 el2
=1.5 128 ele
=106 lel el2
-le7 ee ele
=-1.9 = 06 el6
=168 =1.2 eel
=1.8 -1.4 el7
=10e9 les 016
-1e8 =1.1 eee
-106 =(.25 023
-1.4 a3 ela
-1.3 1.0 208
co
=()e02e%
“0272
=0.9)]
=1,93
-1.43
-l1.72
=(0.46
=0.2109
0
=-0.01
003
20)
01
00)
0
0
00)
0
=Ue01
=0.201
(0)
0]
001
(a)
()
0
QUA
)
0.236
=0.6()
=).25
T™ No.
PER
0
20200
10.00
6.67
9eV0
4.00
3233
2.86
20590)
2022
2290
1.82
1.67
1254
1.243
1.33
1e25
1.18
lell
1205
1200
095
oJ)
087
053
280
ef7
0/4
ef]
059
057
065
063
e6]
099
037
elo)
054
e23
eo)
e270
049
04k
047
045
04%
043
043
e4e
04]
040
SUT
R PHI
eel 0
el? 26.19
oly Si3o022
el3 15.21
025 =-4,5/
0 34°18.04
02 1/-44.64
01N=65./76
e220) 88.59
e1l3 83./5
014-58.14
02/-716.84
0 14-62-94
elAé 65.50)
el/ 84.22
el6 73.79
023 71.48
02] 85240
0 19=43.08
022225085
eld 84.86
02] 44.04
e20 37-01
009 39.85
eU/ 81.85
e221 71.91
ely B4&,/7
el2-73.19
006948 .4/
el8 82.20
025766025
020224209
013256049
009 46.99
021-49.4/7
019"60.00
ol)=16.230
014251.49
el3 49.65
e0R 32.83
06232294
0072#26.93
elS5 12262
0 29=15.69
el7-28.34
e009 37266
004 59.57
020 46230)
eld 54.03
006 50-98
ell )
107 foe's
BRELS 14 3.§- Ce NAS 265 1508151?
LAGS= 4) N= |?67 nora 0.ASF¢
MEAN \i= 30.45 MEAN We -4e73
CORRFLOTTON COFFPFICTENT wes
K ACOV UW AGOY ow COV IN COVOUT Se U SP w cn
0 aA 7/ Wc VR) -34.] ia) 044 4.43 =Q.27
1 365 1P7T.9 «63627 hed ef6 112665 =9.51
? Ce 4 114.4 =31ei1 12.3 1046 13-98 ©1236
3 17.4 S26, P5266 170.6 7004 24.70 =8.03
4 11.) 72.2% 21,3 Cee)” i e346 35048") 4,.15
5 SoH 46.9 10? 2564 4033 25296 =9,04
6 iat POS Soy ilar .e14% Ge7] 22.15
7 cI Pi) 4,4 46.8 27.2? 034 3.32 #.35
a “7,8 =276,3 1465 29.4 064 1229 007
9 217.9 243.7 P\ed eead ala 24 0 M4
16 =17.3 =55,9 Che? 17,A 265 e1l9 -(1,07
ll =?'.7 =427.5 29,3 l2.? e785 014 = 205
12 of 3.4 =44 . 1) 30-0? Aar tell 009 NOK
13 e73.3 2A) 4 Pe" = ),) 1.03 e0B @=9.2.046
14 271.3 #53,? Che} 60) 0D4 096 -0,0)
15 21766 a42,% 2127 2114 30 05 0
16 =#14.3 230.4 1564 #15.7 e31 096 #0207
17 =.) -|/7,) Bak 14.8 eJ32 e005 =(.02
18 2469 23.4 Pal F25.7 023 2004 0.01
19 =25 B,* =4.3 22.3 019 004 i)
20 4a? 19,5 29.9 19.1 el e13 el
21 1.27 2B.) @14.9 =]4.48 elf e003 eo)
22 14el 84,0 =18.7 «13.4 el2 03 0
23 17.8 37,2 =2le2 o19.9 ele 093 ()
24 Leh 27.7 =??? 2A,1 el2 03 (a)
25 Pret 35.5 =AleR 2129 212 eN2 9
26 17.9 Abo ll aPNel 24 012 22 0
27 1504 24.9 =17.5 had ke 202 9
28 12.9 17.5 =13.9 19.9 014 002 0
29 Dg 9.4 a9. 13.2 oly ene (a)
30 4e9 hat -5,3 15.4 01h ee i)
cel 46] =@-6.,R =),7 17.1 el7 00] n
32 e%e3 -14,27 3. 17.6 el9 e02 @().01
33 25,4 =-?(0.7 Rei) 14.9 eld e02 =0.01
34 =o/e 225.4 1125 15.3 el2 oUl 20.01
35 =-11.4 =20,1 146? Neat el2 ef) =().0)]
36 91365 =33.9 1569 9—4 el2 of] #0.01
37 214,6 = 34,7 1665 5.4 014 091 #9.01
38 ew) igh = 35,3 1661 1.23 elf eM) @().01
39 =1464 2 3G,H 1561 -3.9 e164 el @(),01]
40 wlPo.3 92,2 1361 =7el elk ef) -0,0)1
4) =]°.) 229.5 10.4 -10.7 el9 01 =0.01
42? @/,3 =24.9 726 -13.,8 016 Pat | =0.0)
43 27,49 =/8,2 4e4 =146el 218 eM) 0
44 Ce ted “1.5 le! -17.4 el9 e001 20)
45 i eA o3,4 =?.25 #18.1 215 21 201
46 &eb Sal =5,7 el]/7,7 eld el 0
47 5.7 131.4 =B.6 =16.6 020 001 29.0)
4B Yel Pl.) m11.9 #1424 018 001 #020)
49 12.2!) PT .4 @17-6 #1124 019 091 0
50 13.9 31.9 213.7 ©7.9 ell 01 0)
B-91
QUA
ef
2.19
@(),4:)
9,19
=(,.()1
=0,0)
@).,05
29,14
)
00?
Pati
el
{)
00)
ei)
el
=0.1)
@=(.0)
=0,()]
a)
(0)
0
{)
{)
f)
0
0)
0
-().0)
0
(0)
TM No.
PER
Siti
R PHI
elk 0
0 3N"55,00
050953212
08 3"=42.99
0917 3962N
084233643
206G=19,RR
ott Weyq 3)
045-R6.4H
0292719414
el4 10,54
025 41.97
023 33243
016 1602)
015=88.18
0 19248.19
ol 7-30.70
019219.64
ell 62-97
0lB 42.02
ON 05S)
o11=83,38
elf 81.255
elf 60299
e0012°13.53
295216,0)1
0212°79,6)
024285.,74
009"67.24
ell 89.94
022 713241
020) 39.62
el7 19243
0227-12656
019"12.03
029 54,57
039 45,34
e2T 256eR
°216219.60
21926282
019226.05
014=25.74
09122920)
014 11.80
ef) 22062
el6 66670
°16212.01
023 36670
0l10*77256
20 IR 0
los om T™ No
HBFIS= 14 4eS5m= 1 SIUNE-G5 1524-1526
LAGS= 50 N= 1938 DT= ».29SEC
MFAN U = 73.3 MEAN WS |444
K ACOV UW ACOV « COV IN COVOUT SP U SP Ww CO QUA PER
) 2Oe4 112,R =1961 0 048 5.82 269 0 0
] 14.7 TOR, -18.3 20h 2/6 NG 7/0) e081 e34 20-00
2 12.5 Q9B,7 =-16e1 5.) 1097 P15 =)0.31 Neel} 10-00
3 Ref 23,4 =1P.H To4% 3040 18217 -4.16 3.54 6267
4 4,4 44.4 =505 Se? Gell 29.81 -8.47 4.63 5.00
5 Ped 42.8 404% 1005 2052 24640 -6.10. 2.18 4.00
6 160 20.9 109 Ile3 eof3 8236 —-1.244 006 3233
U =“ lee -1.,0 Tel) Nos = 258 1.43 =(.08 =0.15 2.86
8 -1.9 =7?9.0 ll.7 No tl 05/7 046 002 -0,09 2.50
9 =4, 3) =35.5 Sie) WOye 056 020 203 e000 2eee
10 @=he5 246.5 1564 Bef 255 014 000 e V6 2200
Vy Oo “52.46 2000 606 oOT ell =-0.02 oS 1.82
12 =9,9 =53,4 2904 4.3 059 010 =0,04 =-0.03 1.67
13 -R.7 @49.5 19.3 1.9 e065 008 -0.03 =-0.04 1-54
]4 =-7./7 =-4),4 169 =0.5 055 208 02 =0,00 1.43
HS =the l = 3(1),4 13-6 -3.0 e32 206 202 V2 1.33
16 ISS Cy Oya Ge6 502 018 004 01 a2 oes
N1/ =4.5 =3./ Sal =6.9 el2 203 001 e001 1.18
18 =3.() OG 28 -7/.9 eld 003 =0.0] =0,00 Voth
19 -).) 21.4 =-3.22 -8e2 008 °03 -0.01 =-0.01 1.05
20 lel gi oe 62.8 —8.e() 209 004 =-0.00 -0.01 1200
2 Bee 378 “Jal =/.3 007 004 -0.01 =-0.U00 095
22 5.0 41,2 -11.8 =6.3 205 203 -0.01 eV oI)
23 6ol 41.3 712.9 4.9 005 092 =-0.00 200 087
24 Te!) 38,2 -13.0 =3.4 095 eUl =().00 =) .UU 253
25 7.3 329) Nel 18 005 eV2 -0.00 -0.01 280
26 Te) 24,48 =-19684 =(e2 205 202 =0.00 =-0.00 ell
27 Ce 135°) -Awt) 1.5 eUS e091 -0.00 =-0.00 0/4
ea ed 6,3 -5.l 3.0 206 00) =().01 =0.00 ental
29 S26 -3.1 -2.) 4.3 005 e001 -0,01 =-0.00 069
30 403 =11.8 28 So 004 e001 -0.01 =-0.00 067
31 Pal =19,9 3.5 524A 204 o0)] 200 000 065
32 eY =74,4 5.9 526 004 el] 001 U0 263
33 =7245 =?P/.? Bel) 5.2 0 U4 Puen 00 200 e6]
34 OH) oS) SAB 69) 926 4.5 203 e01 =-0.00 200 059
35 =P 2.8 =-?8.) LOGS 35 003 201 =-0.00 =(),00 eDT
36 =-3./ =75./7 1926 ee3 05 001] 000 =-0.00 056
37 =404 =-71,7 309 lel 006 001 =0.00 =-U.00 094
38 -4./ =16,8 Bet =0e3 04 e001 =-0.00 7600 233
39 “4.9 <-l11l.e2 Te3 #125 204 e001 =-0.00 eVl 25]
40 =4,.9 -5,3 526 =2.9 04 eV1 -0.00 2 V0 050
4) whet a4 3eH =4.2 0 I4 001 =0.00 200 0 49
42 =2.9 SG 1le7 25.3 004 001 200 =-0.00 248
43 2.8 VOa rt =1.3 -6.1 als e 01 200 U0 047
44 =1.-5 ISoS) =2 24 =6.5 204 001 000 eV0 045
45 =)ec Sez, -4.3 -625 004 e001 -0.00 200 044
46 lel 16,8 =5.8 -6.1 003 e001 -0.00 =-0,00 043
47 2.3 WES 7 —60 =Sied 003 00) =-0.00 =-0.,.00 043
48 300 L653 =7.25 7-464 003 e001 -0.00 =-0.00 042
49 Vel 13.4 “7.5 3.3 203 e001 200 eV0 41
50 309 ORS =Te2 =1.9 e02 001 200 200 240
CORRFLATION CUFRFFICIENT -02398
B-92
R PHI
o4] 0
030 25014
0 39=76,99
0 /0-40.3/
081-28.69
083-19.71
058 =2.53
elS 61.57
2 lR=-78.05
008 9.37
e222 86-17
019=69.,56
e2c 37446
eel 50.89
010 =4,35
020 37659
el5 36237
el3 11.18
ec? 37.80
e2c 66.10
onl iaeelesteio.9
030-30.22
010 76.76
e21 78.23
el8 64,88
e23 39.88
e33 13.95
e3/ 4.18
024 4.51
eld 31.50
eff 2646
e019 9.03
0l10=76225
e006 4.61
°06-77.01
005 63-42
019=36.46
0 36255,53
020°42.03
00/ =2.07
'207-29.77
009 15.62
016 84,34
ell-71.58
009 19.75
e21 49.205
013 50.20
ell 45.97
e014 2000
109 orm
BBFIS= 14 5.25Me ) 8 JUNE 1539-1542
LAGS2 50 N= 918 NT= 20SEC
MFAN U = 1803 MFAN W = #408
K ACOV U ACOV w COV IN COVOUT SP U SP Ww
0 14.4 68.3 =-3.0 ia) 1299 3.58
1 1? 4 465.5 =-3.%) -0.3 1258 7201
2 7ab BB.5 =229 -0,7 1209 6.7)
3 4a6 48.4 =2.3 -l.1 1042 8.36
4 3.4 35.8 -1.3 =-1.1 lef2 14.86
5 2,9 21.9 -0Nel 21.9 1240 17.219
6 Tov 7.9 1M 2025 093 «6821
v 25 -5,) ol 0? 255 089
8 =1.9 =16,2 31 1.3 053 019
9 of =P4 4 4.0 Ae 267 etl
10 eS 2799,8 404 3,3 266 220
1) ol =31,4 409 4.9 051) e1l5
1? =)e7 =?9,7 4.8 4.7 04] ell
13 =1.2 275.9 4.6 5.) 32 206
14 -1.27 @17.,8 44? 5.9 e2d 005
15 =765 -9.0 328 4.6 226 205
16 04 5S) 36) 3.9 025 004
17 a 9.5 Pod 3.9 023 003
18 lel Vos 1.5 2.” 035 e093
19 104 23.) o7 0A 044 003
20 Pad 26,3 ef) =0.5 229 093
21 32.) 26,8 H0eS -1.7 e1l5 02
22 Ao 24,7 -1.) =2,.8 5b) 02
23 1.f 20.4 -1.4 =3.4 el5 092
24 125 14,3 —-1e7 4.6) 013 02
25 128 Wieie -1.8 -4.) 016 002
26 22 @-07,? -1.9 3,8 005 002
eT 103 «7,2 =?.( =-3.7 0S 092
2A oR 13,1 =2.0 244 097 002
29 Pie! =-17,? =1.8 =1,5 006 e011
30 1? =19.4 -1.4 =(),4 2004 eOl
3) 109 =19,5 =l.1 Pia) 005 001
32 a) Caine =-)e7 Wer AWS) 001
33 te? 14,1 H004 20? 004 001
34 122 @9.4 =()e2 2.9 04 001]
35 09 =4,9 Ont) 3.3 003 e001
36 9 1.4 el 3.3 03 091
37 1.2 6.4 ee 3.0 004 Pa
38 1.2 10,7 e3 204 006 e001
39 1.0 1das} 03 1.7 005 00)
40 o7 14.3 04 0B 203 001
4) 29 estes 0S 280el 003 001
42 12 Via 05 =-l1.) 203 a0)
43 oJ 7,2 e3 =2.0 003 001
44 a4 2.4 Pa) =-2.7 003 001
45 27,2 -2.9 =103 -3.2 02 001]
46 =r.) 28,9 “9.5 3.5 202 201
47 04 12.4 =)e7 3-325 002 000
48 24 =15,7 =109 2324 ee 090
49 25 =17.4 1.29 =3.,3 202 2000
59 25 -17.4 =0.8 =2.9 01 200
CORRELATION COFFFICIENT =02020
TM No.
044
043
0 40
Sila
R PHI
220 0
o25) 35013
o37788.7)]
049=42.70
035) 64,54
037 54,85
034 68.50
e20 48.92
206-85.11
01M 11.54
°09 26.33
022 53.85
°©35 41.50
02) 23-85
205 30.85
el7 76.72
el7 60.77
018 42.87
023 15.00
e3] =9,53
2 34-14,.82
0630-18209
0302710014
036 20.57
039 45.58
535} OSGes)
028 59.16
023 16.29
0 08R=59.46
013 44.72
el10=23.00
005 89,77
219=89,82
205=-34,.4)]
014 86.15
0 16-34.,69
026°16.79
020 =-6.19
021=42.90
025"43,30
010°34.02
f ell -8.35
anlar, 35.62
010 43.46
2 08-86.63
005=62.50
209 75.85
012-88.93
el2-57.02
027748.99
026 -0200
{lo om
BRF| S= 14 6e5Me LT 8 JUNE - GS I553- $557
LARS= SN N= 1583 NTS .20Skc
MEAN ji] = 15.6 MEAN Wis =2.25
K ArOV U AROV w COV IN cOVOUT $2? U SP Ww co
A 17.8 Teo) “wl 165 ia) 048 5241 -1.19
] 1a an aos) Cilloe cl>3 1204 9.03 =-9.03
2 Laat 69,2 e-1N.3 6.7 ie28 70939 -7.235
ic} Ane 59.7 HR.Y =i) .f 12.98 14,02 =3.17
4 Aes 47,6 =h.A =-(),.9 Ae4? 21263 =5.23
5 -1.7 33.4 “4.2 1.8 12.99 15.90 -7.87
4 =-).4 19,4 =1.3 =1.4 1954 3.2/5 =9.24
7 =1,8 B52 124 ad 1099 047 0 lS
8 =>.) =-7,8 4.4 1,.? 283 028 28
9 =2,4 1A. 4.9 2a ol el4é an
19 =?,/ -97,3 9.9 3.5 284 als 014
al =2,.) 222.45 19.64 4,4 269 06 03
12 =2.59 2334.9 lle2 Bos) Piola) 004 003
13 =2.,1 = 34,0 11.1 5.4 o41 03 0 NN
14 22.9 2230,? 19.3 5.4 228 04 001
1S -P—43 =24,) 8.9 4,7 eel 04 207
146 =165 -16,1 629 3.25 elS5 03 0?
17 =)e25 =6,9 4.7 Cel el2 093 02
18 of) I eel 25 009 M3 01
19 a6 11,9 =0e25 =1.9 0064 092 =-9.00
20 Pie) 20.1 =3e9 264 04 oO] 200
21 on) Nore I =5.3 =344 005 092 -0.00
22 1.2 IL 4 =7.7? 34.5 05S 0% =0.09
23 lot 33,7 =Roa4 =-4,R 005 el =-0.00
24 Tol 33.A -9.2 =-4,7 005 002 -0.00
25 74 31,8 “9.3 4,3 05 001 -0.00
26 aU PALO “Ke9 =3,8 004 ail 000
eT Fite ICI =W2.)) |=3,) 093 oNl =9.09
28 a fh 14,4 ~Ae7 =-?,3 04 01 =1.00
29 Pa) 9.5 =5,] -1,.3 04 el 00
30 ho 2.4 =3.2 1.3 004 e001 000
3 Wold =-3,2 -1.2 Pa.) 03 eo M1 200
32 Voo 39,3 0A 1.4 093 091 -9,00
33 aR =13,4 Pod 2.0 e003 00 Pan)
34 03 71464,5 3.9 Ped 292 00 Patho)
35 2794 =+18,9 4.9 2.5 09) Pao | 200
36 OiNog 8 OYoe) 5.5 724 02 e691] =0.00
Sht/ -1p,R #16,5 5.7 2.) a2 090 -92,00
38 2P?,f2 13,8 5.4 Le? 002 e090 =0.09
39 =?,4 19,3 5.3 1.) 202 00 Pano)
40 =7,4 -6,) 4,R a4 202 099 200
41 ->,1 “1,7 4.9 =1,.4 202 00 200
4? =1.9 Ant See 6 lel 002 090 -0.00
43 =1.5 6.45 Pam —1246 eM) 000 =0.00
44 @-),0 0) (0) ol =-1.9 91 200 200
45 =n—25 12.5 e) =?.) Puen 09D 200
46 =-1,0% 14.5) = .8 =?,.1 202 090 200
47 eh 14,5 -1.6 22.0 002 000 209
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49 149 12.46 =-3.2 =-)1.7 20] 09 =0.00
50 1.7 10,5 =3,7 0.4 090 290 200
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BOvom | Waleam areikogy OG UO V6 3A = 1.1/3
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19464 174,3 (4069 -42.7 Tie4B 25021 36612-
8104 193.9 104.60 -44,.6 45623 9207 15.24
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~-145.2 =60,/ =90.3 C7 4 el? 03 eo (hl
@)04.2 H49,0 -71e.? Cee 3 oul) eV2 eV)
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37.9 =]0,4 =-Te 14e7 ell 002 0M]
717.3 2.8 aoe Wisal 208 002 0
105.5 WAS) 2929 7.26 28 V2 00)
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65,9 50.0 49.7 =4.,.5 08 el oa
66.5 ela) 59729 =-4.8 0048 00] 01
5P ed 56.) N36 7/ =-4,] 093 01 Oloah
44,5 58). 3 54.7 =3.() Oil el eV
43.5 50,9 54.09 e-l.7 07 o V1 eo 01
4729 61.6 55.3 =(e/7 U7 el e Ol
55.2 62.9% Oat =0.7 e046 etl 0
6665 A3.7 60046 =Vel 095 e001 0
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9261 60,4 64.9 =-=1.9 206 e Ol 20)
93.2 56.4 6229 -3.2 206 el ()
88.3 St GS 5R.6 =-4,56 205 eV) 0
1609 44,9 5Sl.e9 =6.9 e005 e0l 0
59.3 Vial 42.4 -7.1 06 e001 0
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LAGS= 50 N= 2013 DT= 0-ASEC
MEAN Whe 1.7 MEANUP=z Jae
kK Neocon AewY Uy Cev IN call SP UgSP Wy, C9
0 209.7 488,4 =-123.6 0 60632 Se78B -0.20
1 204.3 456.8 =12%64 Co! 24036 42678 -9204
2 192.2 495.9 =111.9 600 %3072116037-32064
3 174.2 337,8 =9H.45 925 646491236247 39254
4 157el 260.5 eHled 1304 27009 62636521.98
5 12608 184.8 =6leH LleH Te4e 35029 -9,50
6 99.9 114./ =4)].%6 21.5 Bs iS) Ni 30.78 =5.50
Vs 1109 55.4 =P ied 24—H 72094 C2092 -3.12
8 44.0 5,4 “1.9 27.7 WerSitamelySiers 4a alveoli)
9 17.2 -46,#8 14.7 eBe/ 282 6.25 =-9.44
109 -2,3 =A,» CFel 249.5 eD6 5.99 =0e24
1] =-3).9 -93.,3 aed 2926 236 3.50 =-0.03
12 =532.2 -115.1 MGS) 28.9 Set Ce2l 004
13) ofA5H SNS 57 Seti Ata 0!6 1.60 207
14 =8R8-) =152,5 6301 2b60eN ots hoey7/ 005
15 210165 =-166.9 6605 7405 Otley. Wo lwkN 003
16 -lll.7 =-|80,27 63.34 2363 ol4 1210 ()
17 -118.6 -190." Mio Cane oUTl 0975 =0201
1B =122.e -14%6.3 Tad 2028 06 260 0)
19 #122706 =2%1.0 Amal jae) 06 e 33 01
20 ellFek @7N2.7 Hles 16.4 207 028 0)
21 -114.4 =-200.4 S724 12.2 0015 27 001
22 -196el =-192.7/ 51.29 Ree 095 024 e001
Ae OOS56) oll vels 0 45.5 209 2 (4 024 eI)
24 2-87.) =-142.3 3Ref 2.9 0 (4 e3l Ol
25 “67.2 -140.1 302? =Yeal 0 (4 046 0)
26 |5] 60) -114.5 AN otf CilSio3) 03 059 0
27 = 34,2 =R6,5) L3el “2:29 ele oSit/ 0
28 "“17.6.i)) “54.8 4-7 -26.1 ele 046 ofl
29 a! -2?5.2 -3.5 -30.4 e002 033 ele
30 1409 Sai ONWG7 O8slG0) 002 23 001
31 33.1 PR. 4 ~-169 -37.9 eN2 elute e (1
32 49.) PSY -22 6? ©3925 elle el4 01
33 6109 Blo PBAoe -Sloe ele 01S a
34 14." SINGS) eas) OOo 292 0l9 0
35 B44 94.9 23165 —42.21 02 026 20)
36 92.9 196.1 -33.3 ~41.4 elle e3U 002
37 9945 UU Dia t/ =34.5 =39.5 202 HShit 0 Ol
38 104.) 175.8 235.4 -36.4 e()l o 37 0
39 108.9 45 =-364.5 -32.7 oO1 047 0M)
40 WOT U7 Ware) -37.8 -25.1 e02 0 +0 20)
CM NOGGY WAV 5 Cs ow S2e5 ele 025 -0-01
42 163.8 149,) =-39.9 =-16.% ef) e20 -0-01
43 99.) 14R.1 2400.9 -10.3 oe) 18 0
44 92.7 WAZAn “4leh =-307 elle eld 0
45 84.5 133.5 741.22 Sot/ ele °l2 0
46 14.7 Wea os) =~4() 6.) 19,8 2 lS 0
47 63.3 86,8 =<38.5 17,6 oI2 022 e001
48 59.38 AY. = 352.5 24.7 003 026 e2
49 3764 Ome OOslilas sod 003 226 e002
50 232.2 46.) Se sq sigs 202 e1l3 eo]
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ol l-64ee4
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BBE! S= 15 OK ?.5¥%- IT \9 TUY-EG5 2003-2002
LAGS= S50) Ne 1705 nrs .20SFe
MFAN UW, = «3.5 * MFAN M3 = 669
K ACOV Uy ACOV Wa COV TN COVOIIT S? a SP We CO QUA PER
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1 455.0 210.9 =237.4 Pod 35090 32,23"71.70 =1,.37 ANNN
e@ 497.3 198.5 =221.6 4.9 9Re87 58.52-68.82 -5.33 10290
3 326.3 180.3 =-196.4 4.9115093 6120377259 =-1,3!) 6e57
4 ?P38e4% 157,68 =-)64.8 4.5 AGel? 27265=36.84 2.19 SeUD
§ 149.9 132.0 =128.5 3.1 41031 9.88=-15.27, 1.80 4.00
6 69.7? 195.9 =90.? 09 44.72 5,86-11.86 1.88 3.33
7 129 77.6 $52.3 =2,1:°33.59 2.96 =-6§.45 1.56 2.836
BR -49,) 50.9 #1666 #523 140el7 12654 =1,.8R7 1.4.07 2650
Q 884.7 25.45 1525 =8.5 7258 °Al =0,57 eo3R 222?
10 =-105,] 2.4 43,2 “10.9 4oVR 055 =N.20 ale, 2090
11 -115.4 “18.5 64a" =12.3 221? 0 35 20046 294K 1.87
12 =119.7 =26,8 AB4.3 =12.2 1,50 025 500 BOSOS il6@7
13 #12124 =52.3 9RH 217.7 099 015 =N,07? =0.7 1254
14 £123.9 =45.9 11%.) =1?.1 «56 014 =0.07 -0.93 1.642
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16 ©) 34.2 =22.3 12526 219.4 033 e908 =—N,0) al& J2c5
17 =146.7 =86.9 139,3 =9.3 229 0S 20? e4- lee lA
18 ~-158.8A =-29,1 137.9 =2,7 Al 016 20? eU3 owl)
19 =17%9,2 =88.2 133.3 =7.41 el? 295 09? 20? 1,205
20 =178,.3 226.3 131.3 =6,.0 209 004 ao) al 5 Wal 1.00
21 | AR 281.6% 12628 4.9 oT 093 eo!) PO) 09S
22 @1746.1 275.9 11966 3.8 007 203 001 290 09)
23 -16%.1 66.7 1099.6 =2,.5 006 003 000 =-0.09 e877
24 =-144.9 -56_7 9646 -1.9 045 ef2 -0.00 =-0.,00 083
25 #11925 2453 80.9 aA 005 00? $0.0) =0.209 Prog)
26 -B8R8.R =37.,8A 6361 39 205 02 =0,00 =-6,09 Ot
OT #54.8 19,7 43.25 5.4 004 002 =0.00 200 5k
PAR 19,2 =6.5 230? Wal 004 001 =9,.00 200 ental
29 15.5 is te 2.9 +1029 203 oA) 000 200 269
30 46,8 19.45 -16.3 12.9 004 oA] 209 009 267
31 7729 aa 1 = 33.8 les your, 004 So) 200 009 0 AS
3? 93,8 42,9 68.2 15,2 093 001 =1.00 200 063
33 195.9 52.9 =40.9 16.5 04 e0] =-0.09 =0,09 Puen!
34 117.5 41.5 =70.2.1 17.46 014 eM) “0.00 =-0.09 059
35 114.3 68.7 =76065 18.7 0 IS 91 20.09 =0.00 057
36 117.3 74,2 =R0 4 19.9 0 M4 oO] =0,00 =0,00 056
37. 107.9 7B.0 =-82,2 2).9 094 001 =0.00 =-0,09 254
38 102.6 R02 -A2.4 27.) 004 e001 =0.01 200 033
39 97.4 i =31.4 C251 0 M4 00] #=0,00 209 58) il
40 929 R0O,3 =80.9 23,9 204 e001 -9,00 20% Pol)
4) 8920 | USS) =77.8 2224 004 09) -0.00 209 049
42 AR 3 75.2 =75.0 21.4 094 29) 200 ma) 048
43 R1.2 V5) Ovilsae) WS57/ 003 600 200 099 047
44 75.7 65.3 =66.5 14.9 293 eO1 209 0UG 045
45 62.5 5A.R =60.2 13.3 203 201 200 -0.,09 044
46 59,9 51,6 =52.4 8,9 203 oO) 000 #-0,00 043
47 47.3 43.2 =43,3 4.2 093 e001 2000 -0,09 043
48 3420 35.4 «33.2 =9.A 203 01 =-0.00 =0.09 042
49 P70 26.R 922.4 =5.5 Os e001 -0,.09 =0.,00 +]
50 4.1 18.) 11.4 =9.5 092 000 ©0200 =-0,00 P20)
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MEAN We 76.4 MEAN We ?4el
CORRELATION COEFFICIENTS e/l
K ACOV UW ACOV WeCOV IN CUVOUT SY USP Wa CO QUA PER
0 L3beu Red 1504 0 Co4f 2299 069 ) 0
] 1266] 77.8 7308 e168 1Lired/ 9.8) 6287 =0.U7 2Ue00
4 Lleel) PAW) 64%el =3.3 2Hell C1leYT 22.64% e226 10200
3 9P 65 61.4 6lef e467 34018 22664 25014 =00/9 6067
4 69e! SN aw) SAel M503 14e32 Ge26 10063 =1e4% 5-00
5 46e7 40,6 4lel =5.4 Yelb6 3e07 30223 -1246 4200
6 ene 90.5 29046 =5.0 392 2053 eeo37 =-0.241 3.233
Ul 7e3 Zalve 1806 S409 Yel6 2049 2e33 =0291 2086
B =5_4 Wav Be4 =2e6H Delt 2051 1046 =9044 2050
9 =14526 5.9 ZU0e9 =1.3 lel% lee? 019 #0.c3 Cole
10 @23.3 =(),3 =9e.1 0 1e00 e062 =()203 -).U0] 2eV0
11 =77.5 =6,() =lb5e4 oY 266 o37 0 04 oy (9}'5) 1.82
12 =J0e3 “11.4 =23.0 ent e4e 230 06 05 1.6/7
is @3?,9 -17.6 =2Kab Cot ecl el9 ef) eVl 1294
14 -3509 =73.4% =3306 209 024 e013 21205 of) 1643
15 2439.6 @=?B,4 =38,.7 at 024 014 2=( 207 23 1-33
16 =44,3 =33.,6 =42.e61 eek 02) el? 02-04 eVl 1e25
WIA =449,!) = 37.5 =4503 29 Pe ee) el6 =Ue02 -0.U1 1.18
PR #5301 940.1 =4le6 3.0) ol4 el2 =0201 OP Weylal
WO #5603 941.5 “4804 2e% el4 ell 702-01 0 1405
20 257.5 41,1 =44.e5 col el3 009 |=020)] =0.U1 1.2090
21 25604 =39.0 =4604 203 ele 006 0 ©0201 095
22 29705 =35.7 @4e5 1246 eld 005 eUl 1] owt
23 -45.9 =31.9 3762 ie 009 005 00) eVl 087
24 = 3H =-?5,.7 =-jl.] =)02 el9 e005 0 eV 083
25 @25e6l) =?7?0,2 =24,3 =1.2 008 004 -0201 0 280
26 e150!) -)4,+4 -1744 =1.28 el 04 0 0 lat
27 =4e7 «9,/ =“10.9 =2.? e008 004 01 eVUl of4
2a See =5,.1) @~4e4 =2.245 209 005 e0)] 0 ental
29 1360 =0,3 hal =7.9 009 206 0 0 069
30 L867 4.1 5.5 =3.1 208 006 0 0 067
3) eee! 8.2 1002 23.2 209 206 0 ) 065
32 C5 es 12.3 14e3 =3.1 elV 006 (201 0 063
33 26049 16.2 18e0N 22.3 eld 207 @=0202 =U.0) 06]
34 C729 20.0 2169 2e7 eld 007 20201 ) 099
35 2902 23,4 2505 9265 Pe ee) 206 oO 1) 097
36 36 Pl.2 2901 2.7 009 205 0 -0.01 e546
37 3726 30,2 3203 =2.9 008 PaO he) 0 #@f.01 e724
38 3500) 42,8 34e8 22.9 eO7 006 00) -=0.U1 093
39 37. 34.8 3606 22.9 207 e006 201 @0,U} oh?
40 3902 36.0 3725 =2.25 004 006 0 19) 050
4\ 40.2 36,4 3703 =2.) oll 005 0 0 049
42 390¥ 35.5 35e7 =1.5 016 005 0 =-07.U1 0 4R
43 384 33,7 3325 Vel? 006 005 “0201 0 047
44 3504 30,8 30¢3 e2 207 006 0 0 045
45 310 27.% 2605 lel e07 005 0 0 044%
46 Zhe ZS) 55) 2204 NAW e07 004 0 0 043
47 205 19.3 1B 62 2ol 207 005 0.01 0 043
48 1409 Sie th 14.2 202 eo OT 004 0 i) 042
49 9e5 11.0 104 17 2 V6 004 0 Q) e411
S50 369 Uae Tel 1e4 e203 e002 0 {) 040
B-98
ST
R
025
258
090
090
033
e6/=
PHI
0)
-0.59
265
=1.81
-9.81
24.35
©51-18.82
e#6-"12.2c4
e422
16.88
02)°50.2.33
04
el3
o23
eU/
e3f
16.70
51.34
44.96
64.02
=9.62
041223.68
023-14,07
e1lS
009
33266
=4.67
eld=21.93
Pe a)
el2
elle
el?
34.04
70.56
lee6/
55.16
ry 1 V@=89.,94
e009
092
025
elk
005
004
003
ele
eed
007
el7
eles
el/
-6./9
71.235
36.68
20.40
10.29
52.20)
87.03
25205
2lel7
6254
1.13
57.69
B4./1
025"51.20
019=35.13
02
04
elf
ele
eVie
19.87
75245
54.64
34.59
37,01
004"29.53
009
el2
208
=8.89
19.81
58.77
004218,44
004
0
1S A LI-u T™ No.
BAFIS= 15 @?.5M= 2O SULY- 65 2400 -0908
LAGS® S50 Ne 24622 NT= .20SFC
MEAN Uae «9,1 MEAN W2 ©1207
K ACOV Wa ACOV wm, COV IN COVOUT SP UZSP WM, CO QUA PER
0 41.2 121.1 =8.3 0 5.34 16.90 @0.21 9 0
1 49.2 118.3 “Boe “004 11638 35.37 =0.99 =2.04 20.00
ia 3A.) 112.1 =7.9 =A 947 30.66 =-3.35 =1.,26 10.00
3 35.5 LOS 7. =704 "1.3 7000 16099 =3.27 =0.14 6267
4 32.5 94.3 =6.8A =1.6 3029 7019 =0,35 =0,07 5.00
5 2904 84.5 25.9 =2.0 1298 4,33 020 =0,13 4.00
6 24e) 74.8 =5 oN =263 061 2096 =-0.23 20,23 3.33
7 2709 65,8 =4,1) =225 049 1.96 ©0.12 =0.19 2.86
8 19.7 57,4 =7 69 =?.6 236 1.45 0,02 07 2250
Q 1407 49,7 =1,.8 =2.6 023 284 5 (ual 205 2022
10 13.7 42,4 =0 28 =267 019 057 002 001 2.00
11 19.9 35,8 3 =2.7 014 045 003 -0.,00 1.82
1? A3 29.4 163 =2.A 009 029 200 091 1267
13 4.0 23.4 2o2 =2oA 08 016 =0,01 000 1254
14 a.A 17.7 3.2 3.0 007 ol2 00 090 1043
15 129 12.4 4.1 =3.2 005 ell 001 200 1.33
16 04 7.25 8.0 =3,4 005 010 -(1.00 =0.00 1225
17 =-7,8 3.) 569 =-3.7 04 098 000 =-0,90 1218
18 =la7 1,9 607 =4,0 203 007 000 =0,00 verlell
19 =2e2 @4,7 703 @4,3 002 005 290 =-0,00 1205
20 =?,5 8.) Te7 =4,4 002 0G =(9,00 200 1.00
21 265 =11,0 7.8 =4,5 092 0 5 =,00 290 095
22 27.3 -13,2 Tel =4_4 02 004 200 =0,00 09)
23 =120R ©14,9 704 4,3 002 003 000 290 287
24 =102 16,1 6eR 4,9 201 e002 -0.00 200 083
25 “025 =+16.9 509 “307 00) 002 -0.00 200 80
26 03 717,43 4.9 3.5 0] 002 200 200 of7
27 Yee 17,5 Be? 7302 00] 002 000 =0.00 0 (4
28 2eA -17,5 203 -3.1 00] 002 000 =0,00 ef)
29 Pe7 17,4 eal =3.0 eM) 00] =(1,00 =0,00 2069
30 2.2 =)6.9 =0.9 =3.0 001 e901 =0.00 200 067
Sil 34.6 =16,9 =2.5 3.0 001 012 -0,.00 =0,00 065
32 3.9 =14,7 =309 -3.1 01 eV1 -0.00 -0.00 063
33 4ol =13,9 =5,2 =3,1 009 200) 200 -0,00 26]
34 4e?2 11,9 "602 =3.0 000 e001 =0.00 =-0,00 059
35 43 =9.0 =-7.l =2,.8 090 001 =0,00 =-0.00 057
36 403 @7.0 =-729 =2.6 200 oO) 200 =0,00 056
37 4e? @5,? =Ae4 =204 200 eA] 200 =0,00 054
38 hal @-3,7 =8.8 =2e1 290 00] 200 =0.00 053
39 308 8992.5 "9.0 167 000 00) 000 -0.00 051
40 3.4 1.9 =8e9 =1.7 000 e001 000 =0,00 °50
4) 29 -1.8 =Be7T =006 000 00] 000 =0,00 049
42 Ped =2,3 =8.2 =-0.1 090 Pat | 200 -0.00 048
43 liten i: =3.,2 @7.5 05 200 oO] =(9.00 200 047
44 le] =4.6 =-6.5 lel 200 e971 =0,.00 200 045
45 06 =6,4 =5.5 1,8 000 00) 200 200 044
46 =1.9 =8.4 =4,4 204 200 00] 200 -0,00 043
47 =0e6 =-10,.5 =3.2 36] 000 e001 =0.00 -0,.00 043
4A =1.2 =12.4 =2.6) 3.9 200 091 =0.00 200 042
49 =108 14,5 =-1.0 4.7 000 e01 =0.00 200 041
50 p =7e3 =16,3 el 5.3 200 290 200 200 040
CORRELATION COFFFICIENT =0e117
3TT
R PHI
002 0
ell 64.16
e2) 20,55
OO. Bao!
007 10.66
011-32,09
024 45,09
016 39,94
010°72.05
obs) 755s)
2006 24,28
013 -5.12
003 71.93
009 -2,65
004 53,52
009 37.31
001 62.71
007-61.49
011=33.61
209=74,60
007=296.17
001-81,88
0095 =-0.58
006 66,8)
e14-50.90
009-88,.5]
ol5 26,26
014=°12.47
009-86,.97
ell 38.29
015 =6.27
e20 12,85
017 44.49
el7-77209
015 89,33
019 86,35
019=62.56
014=30,58
006-18.,46
008=50.44
013=36.40
024-4910
015=-88.62
0l9 -8.93
018=-31.03
004 18,28
007247249
009 22,82
017-18.56
010"48.54
005 2001
158 x brt-u TM No. 377
BBEI S= 15 0-2.S5M= YW 20 JULY-5SG@ 02930-0934
LAGSS 50 N= A006 NTS .2nsecr
MEAN U 2 =21.00274
K ACOV SP PERIOD F (MC)
0 98.3 5.2 i) 0
1 88.9 14,3 20.29 50.0 % 25M CHANNEL OUT
2 7302 16.4 10-9 100.9
3 52.5 11,6 460.7 159.0
4 341 7.0 5.0 200.9
SB HRGO 4.1 400 250.0
6 Tel 5.9 303 300.9
1 124 yO 2.9 350.0"
A 09 9.4 2-8 400.9
9 403 3.9 2.2 450.0
10 9.7 1,9 2.9 500.9
11 15.3 1.46 1.8 550.9
12 18.) 1.9 1.7 600.9
13 1704 of 125 650.0
14 13.5 24 164 700.9
15 Tal ad 1.2 759.9
16 =A A 4 1.3 800.9
17 2904 a4 lee 850.9
18 =1828 od) 1.1 900.9
19 @=P75.5 Ke lel 950.9
20 =2907 ol 1201900,9
21 29%) qi 1201059.9
2e =25.,7 al o91100.9
23 =)8a? Al 091159.0
24 =19.3 oil 081200.9
25 =2.] ot 081250,9
26 lov ai 081300.9
27 3-7 oll 071350.9
28 36) 31 07140029
29 =V.4 Aa 071450,9
30 @6.2 mal o7)500.9
31 217.9 al 061550.9
32 19.9 ant 06160020
33 =-27.7 eal 061650.0
34 223.7 ea 04)700.9
35 @21062 al 061750en
36 e=LAaT al 061800.9
37 211.2 aa 051850.9
38 =6.0 Aa 051900.9
39 1.47 mn 0519504
40 oA A °52000.9
4) Yo an 05705029
42 - Pid Bal 052100.9
43 =2.5 ail 057150.0
44 =5.26 ail 05220029
45 =9.2 ad 04225029
46 =1Me4 al 042300.9
47 11.3 al 042350.9
48 19.9 Ait 042400.
49 =9.) nal 047450.0
50 =5,4 50) 042500.0
% 25™ CHANNEL OUT
B-100
6 LT-u
OBFILS 15 1=3.5M—: Cs AIQJUL=65 1234-1237
LAGS= S50 6e0 OT= 0e2See
MEAN =28.3 MEAN Wp==?2 05
K ACOV Uy ACOV UWeCOv IN cOVOUT Se UySP Ue CO
0) 712.4 49,3 60 ) tosis) Tel0 ~4.27
l 69.7 4/.3 5.9 =7.6 13094 12-00 =4,.46
2 6567 45,4 See =Del [3019 10041 3-67
3 60el] 42.5 4!) -7,5 11035 10642 7216
& 5364 34.9 204 =FeT 4036 5SeI2 3694
5 4604 35.2 04 -11.3 2233 099 o TF
6 40.1 30.9 2201 12.4 1-6) 050 =-9.04
7 34,1 26,4 -4.9 Sra es 2el9 a4) =-1.38
8 249.3 22,9 “8.0 “13.3 1.88 eo2f =0.28
9 2527 Wer =A 13,0 063 016 -0.207
10 2P at 13.4 ~1463 lee4 e1l3 013 201
il 19.2.5 Gah -17el GS) old e009 202
l2 16429 B60) Sils5a) Sod 009 008 01
13 14,4 Bal =21.5 =9.1 209 UT =().0]
14 WAG a) =22el -7.,46 009 096 0)
15 AH -2,0 -23.3 =6,() 007 005 aU)
16 509 =3,/ 723.2 4,3 006 005 002
17 322 949 =22e5 -2./ eU6 0 V4 202
18 1.2 25.46 =Pl.3 -1.1 205 oU4 0
19 oe) =5.5 "19.8 04 005 005 -0.201
20 «2 =-4,2 -18.2 eet 05 0 4 0
el 103 =3,4 =-1664 3.4 204 e002 0
22 3.3 =-2.1 -14,.5 4.7 003 e002 -0.01
23 Sev -0,4 =1?.5 5.8 003 003 -().01
24 Ro7 1.7 “19.5 606 003 013 -0201
25 11-4 4.9 ~R.4 (ann) 003 203 -0.01
26 13.5 (2) 5.8} —-605 vor e003 202 0
27 149 (3) 5 '5) =4,5 Vol e003 el 0
2a 15.64 10.4 =226 6246 003 091 0
29 15648 12.5 =e8 649 02 01 0)
30 15.3 14.1 ot 5.2 002 °02 0
31 14.6 Soe) 202 4.3 092 003 ()
32 13.9 16.2 304 3.5 002 002 0
33 1324 16.6 4.3 205 002 Par 0
34 13.6 Loss 4.9 ho) 202 003 0
35 MIG Wee S} Seti 05 204 003 0
36 144 15.9 4.9 =(1e4 005 004 0
37 14.7 ore 4.3 -1.0 204 004 0
38 14.8 14.2 3265 =-1.6 004 002 0
39 14.4 12.9 eel =2e2 004 002 0
40 1344 11,6 1e6 =2.7 003 0V3 -0.01
41 12.20 Oat 06 -3.3 003 003 0
42° 1n.el Brene. =02¢6 =-3.9 202 003 0
43 7.9 6,8 -l.7 =4.7 002 203 0
44 5.7 eigil “209 4.5 002 004 -0.01
45 3244 3.2 -4.] =4.6 ele 004 =-0.01
46 lien ail =525 =4,3 002 0U3 =0.-01
47 “5 -0,6 “603d -3.9 002 e002 -9.01
48 =? =2.46 -/.9 -3.2 202 002 0
49 m4,4 -4,2 -9.1 =2.4 002 002 0
50 =-S.7 =5.5 -10el1 -1.6 ofl el 0
B-101
QUA
0)
-1,49
-4,35
=5.34
=2.2609
=0,90H
~0e29
-0,21
=0.05
o U4
02
Ve
20)
03
TM No.
PER
9
20200
10200
6.67
5.00
4.00
3.33
2036
2250
2222
2200
1.82
N6@7
1.654
1643
1.33
1625
1.18
lell
1.U5
1.00
03S
09)
ST
033
280
0/7
0/4
eo!)
269
067
065
063
Pion |
059
057
056
034
e233
el
230
049.
048
047
045
eo+4
e+3
043
042
04]
040
SAL
R PHI
044 0
Be Rol hen
0 49=49.83
082-36./3
044-34.26
2064-36290
aclel iba 7/3
04h 29459
040 10.37
0265-26045
el8® 72049
e2f 36.294
25; 4503/2
042-80 e4R
037 88.38
e333 48.50
042 20094
e3] =()e63
005-49.92
019-53e94
097 Sleld
004 79279
023-266/74
0 39 1.24
036 1le3?
e31 38626
03) S7e02
233788. 3H
0 46=80.295
038 73618
013 80-82
0259-50022
0 32-53040
014-5464)
0 U4"H1.31
006 2450
009-16.48
001748. 36
el4-72.55
el0-11.39
elk =-3.253
026-12, /4
025767094
e2)—142.05
023 =9.33
238 -8./70
04] 3.201
034 35042
224 61235
e0R=88.88
eV] =0.0)]
17 LI-u
BBFILS= 15 3-5e5M= 1 20 JULY—65 1252-1255
L4ess 50 449 NT= ,ANSEC
MFAN llg= =24,5 MEAN & = =2720
K ACOV Ug ACOV Ww, COV TN COVOUT Si USP & Co
n 41.7 59.7 19.9 0 4065 13.79 ?,09
] 39.3 57.4 1941 1.9 11¢89 19.85 4.81
? 32,3 56.0 1B 04 32.9 %e91 10620 5.87
3 3606 53,8 Wrov 5e7 87029 «74690 4.83
4 33.9 50.7 1606 Yo} 2002 GoSsd = ioe
5 37.8 47.5 15.2 la i/ 059 095 =0.00-
6 ?f.4 43.9 13.6 929 041 237 205
7 2567 40.9 1le7 10.8 i ec) e028 -01,04
8 2129 36.) 9.7 11.4 e1l3 015 -0.05
9 18.4 32,3 Toe tiael 099 009 -0.92
10 18,3 28.4 Bo@ . leo 0046 008 =-0.00
ll 13.3 24.9 3.3 Nilo 205 OK -0.0)
12 963 21,9 tos} Wilod 205 097 =1.00
13 4e6 19.9 =-(),4 Oran: 204 2006 201
14 4_4 16.4 =-2.1 9.7 004A 004 =(.00
15 Pee 14,8 =3.5 ot 204 204 =-0.00
16 o4 Wo2 -4,7 7.4 003 094 =9,00
17 =1,.0 eee “5.7 6.5 093 094 =1.0)
18 27.7 11.46 =6.3 5.5 04 004 -9,.01
19 =709 ele =6.7 4.5 004 03 000
20 =3.3 eae =5.29 3.7 003 003 090
2) =2,4 We®) =-6.4 3.9 03 203 00)
22 =3.1 Wat “5.5 204 003 203 00)
23 7.4 13.46 =5,9 204 202 ©93 -0.00
24 =2.,1] WO5% 54 Pee 002 003 =-0.01
25 =1.3 1Sq v =4,5 206 03 204 =-0,01
26 anad Grew =3.5 208K 003 004 -0.00
27 of Vov =?.5 3.5 003 293 200
28 109 1A? 1.4 3.9 04 202 200
29 2.9 18.45 = .3 4.7 03 e002 200
30 209 18,A of G5) e093 003 2000
3) 49D 18.4 129 6.3 203 093 201
320 5.6 17,8 204 Vos} 004 06 oO1
33 4e3 16.9 3.7 B.? 004 007 =.00
34 6.5 V5 7 3.4 9.2 004 095 =1.01
35 4.7 14.9 3.8 9.9 e005 04 =-9.01
34 “604 Waa) fay lOrenre 206 003 =-0.01
37 Ao 10,5 Bos Wilee2 206 094 =0.01
38 5.3 6} 5) 3.? 11.4 004 005 =0,00
39 4e3 6,4 Ags ilar) 005 0 04 20)
40 267 4. 1-6 11.7 205 004 200
4} 129 2.? oA 11.6 205 04 =-0.01
42° 05 .? =) .6 Whol 205 003 =0,.01
43 =7.8 e1.5 “1.9 109.8 005 203 -0.01
44 27.23 =3,? -3.3 19.2 004 e004 -0.0]
4S 22.9 24,5 @=4.46 9.4 005 004 -1,02
46 =&,() =5.7 =6.9 aR 004 004 =-0,02
47 @24—3 =6,9 =-7.4 8? 002 e003 -0.0)
4, -7.5 ~7,7 =-B.6 Wield 002 093 =-0.00
49 HQ. 3 =8.5 =9.8 Ton 002 e003 -0.00
50 =2,9 =8,9 -10.9 6.5 eA] 001 =,00
CORRFLATION COFFFICTIENT e381
B-102
T™ No.
1643
1.33
1225
1.218
lel)
1.05
1.00
095
09)
087
233
281
ovY
0/4
e771
269
267
065
263
06]
059
057
056
034
053
05)
Poy)
049
0 4A
047
045
044
043
043
42
04)
040
ST
R PHI
Ware i)
079 320k6
2 f/R 35.68
efi) 51.5]
0 26=-89,846
01 /=45,68
oft 44,34
0 33-102.83
041 -48.62
0!11=59.2)
022-2254
2 24=-86.30
ell 26.29
02) R947
el? 48.764
0I99=66, 36
e164 11209
016 31.9%
0) 3-75.29
027-52. /)
023-76.)
eel 8.10
9 )}8=67.4?
0 34-16.5)
OS Clove
6S)3} 795314
0 33-63.11
027-41 ,94
021-/6,48
o24-6R.4R
025 10.88
018 21.42
01% 85.97
oli6) 3883
019 314,59
o2) 16.12
123) 836
018 &5,34
03)=35.)]8
JWG) Wile /S
0 34=43,64
“9 39=34,44
04h 44,47
047 38.47
5S) i =-1,4()
042 3.205
044 33.83
elf 16212
023-77.76
el2 -0.0])
us _tI-u TM No. 377
RREIS= 15 deaeSt= 1 20 Jury- GS 1241-1244
LAgss 59 v= 652 OTS .29SEC
MEAN Wa= -2%.2 MEAN Wy = -2561
—__K_ACOV Wy ACov M,COv TN COVOUT SP ty SP yy 09 QUAD PER ERE PAT
0 45,7 76.2 30.7 9 &.B3 8.79 3,24 a) 9 ~42 0
NE OAL) AT,9 344 169 12012 18040 6,18 3248 29200 0648 29.35
2 402% 54,8 2929 304 9.04 16.653 5.57 3.48 10200 06] 27.87
= TSAI! BULA 27/50) Sale ome eee ies i ee9) Gaon 634 20.05
4 346.3 54,a 230% Ale AO 7083 Sa lid Le9 “Selo «92 N93
Neher SNiLatd Use. JAMas) 8 waa Wasi Bol. Woe 045 4.00 o80 14,99
6 27.4 4).3 154 SA OR) Tl els 2041 =0,08 3633 0498=11,34
s 7 2325 aa_.? Wea 9.37 04? 1.18 ool 20? 2236 039 4,72
8 ann are R49 FQ 292A 2A8 01? 004 2250 229 17,39
_) 15.9 O20) 5e24 19.9 212 042 004 =7,01 2022 «18-15,99
1” Valea Whey 5) eee Lidell eld 014 #=f.0] 093 2200 »625°62.,22
i nee eae ey O47 6 Si Shai 203 1582 e26-72,16
1? Tel 7,4 -3,) 9.4 09 el2 200 091 157 214 73.82
13 5.7 4.43 4.9 8.4 007 el4 =(),01 007F 14654 o617=70.44
14 3.5 ot -“4.°? 7.9 PRO 0°14 #9,02 092 «1643 227750211
15 PaaS #1] ,2 Tif 429 oDA 212 =-(.0) 200 1.33 016216.145
14 10? <4, OU Ge 6.) 097 ell =6.02 =0.00 14225 219 13.18
Sen ee Sans) Sins), BN 0 M7 el? =1,0?2 09) 1618 .25°27,26
18 o% “6.5 -6.9 4.5 PON) el3 @1,0? PaO ) Woven 031-52.62
49 eee ah =/,9 me. =5.7 3.7 05 ols =1,00 6) 1205 018-70,83
eo 05 =f lf e4ns 29 Pals) 09 090 =f),00 12.00 204=#30.,98
2) Ve] 9728 s343 2.3 26 097 200 =0,01 ©95 619"77,.80
22 1.) =4.4 =1.7 Pad 005 el2@ =-1.9) 001 09] 2162#24.23
= 2X5) Ai) OS AG ye 2ef 005 el8 =9,02 292 087 023°39.22
24 2.9 =, 1.7 2." 006 018 =9.00 eV) 083 021°42,10
(le) IAS 204% 229 Pel 06 013 =9,00 200 280 005=29,.5)
26. 4.) a 407 24 204 e015 200 =-0,0) Ov 0 0R=57.55
27 ~ Pages = RWS 5.2 248 0A7 el9 0,02 090 0 f4 e20°12.04
28 aa au 5.5 3.3 09 eet =-7.,04 «0? Ai) 0 32226,09
A) Gnesi oO ec i oe al) 001 =469 205 63,23
39 42.46 =)./7 5.9 4,23 eld 019 004 =0,01 267 O27 -8,90
ae 31 SeioalD =2,4 5 eR = 4.5 07 Sallt/ 203 =0,00 065 eel =7,04
32 2.7 23.8 5.9 4.6 005 020 202 001 063 021 26,99
33 Aen =5.90 4.4 © 4,7 SAWTE 023 202 201 06] e1R 31,87
34 2.7 =6.5 alll) } 4.3 008 e22 002 001 059 015 18.14
5S Sears Rn Sea YAU OMICS ni Le AGiberaet, oii. Bale
36 el =9,4 1.4 3.9 209 el2 e001 =-0,01 256 0615#19.,36
37 =1e8 9,4 a4 3.8 el? 016 Ol 00] 054 207 42,50
38 -?.3 -10.3 =104 326 015 e1l4 01 20) 053 206 52.42
SS) Se Ootlod sone! -1.3 3.3 014 £4414 =9.0)] =-9.01 051 507 48,79
40 H4.5 =—11.4 =-1.9 3.3 014 el7 =0,02 -0.91 250 e014 23.12
power | -5.4 -j1,) =2.2 3.5 007 014 =0.01 -0,00 049 2606 5.65 —
42° “6.1 11.1 -2.5 3.3 06 el -1.00 0949 04k 207731,68
4&3 = Teil @9.9 =Pel Sov 207 See leH 0.02 eA] 047 0621°23.03
44 -7.3 -9,? =2.5 4.) 006 e015 =9.01 200 0 45 013=-22,68
Oe) S/n) AG Sail Oo 007 218 =9.01 -00 044 609°28,58
46 -200 =5,1 -1.8 4.3 el2 ICON 40n 20] 043 619=35,63
47 =8.] =-3,7 =149 5.0 013 299 9,01 rake 043 ell =4,.55
4A =-7.9 =2,? =Nel 5.5 orl gl Pathe) 200 =-07,03 042 2025-88.42
BO) On} -1,) 4 6.2 08 e100 =0,.01 =0,02 04] 225 75.51
50 -46,3 all 1.2 7.4% 003 °©05 =-0.01 =0,00 040 el7 200
CORRFLATTON COFFFICIFENT e571
e4
0200 - O20 7
0 972 12202
co
1.227
25078 40.08-10.43
78.31 53.08-23.86
509 14.09 31.73-14.18
4.20
2014
1.28
1.06
087
056
030
020
e015
010
2007
007
005
004
004
004
093
003
002
002
002
202
002
002
002
002
092
e001
001
e01
002
e001
001
001
201]
e011
e0l
00)
0 Al
Pap
091
M1
00)
00)
e001)
000
WK) CYr-w
BBFI S= 16 {-0-305M-W » 6 SEP-G5
LAaGSs= 50 Nez 1R49 DTZ .2enSFe
MEAN Woe= =0.9 # MEAN Wy =
K APOV WeACOV w,COV IN COVOUT S® USP Wy
tt) 82.6 158,09 =52.8
j B?P.8 155.0 =52.1 209
2 Rone? 148,27? =50.) 4.9
3 14,8 138.4 246.9
4 7320.4 126.6 =4?e7 7.7 2078
Byoe WidoG oda 9e4 e231
6 61.44 99,5 =32.0 19.9 250
Vo Soll Q5.3 925.9 12.2 .23
a 4Qgh 71.1 1906 1323 019
9 41,5 56.9 213.9 14,2 o1l4
10 34.5 42,8 “6.5 14.9 208
ll A274 79.0 of) = S53} 007
12 20.5 15.5 663 154 206
13 132.8 2.4 ary ae) 005
14 704 =9.6 17-8 14.9 093
15 1403 =?0.7 27 28 14.23 002
16 ehed =30.,7 e723 13.4 02
17 =206 @=39.3 Shilo) 12.3 20]
18 #14.4 46,7 3428 11.1 201
19 #198.5 252.7 37.8 9.8 001
20 =2?7.? 57,4 40.2 8.3 002
21 =25.3 @=41.1 4202 6.7 20]
22 27.9 43.7 43.7 5.0 001
23 ©2929 =65,.4 44.6 Siers 001
24 —31.4 =f6,7 4529 eS} Pat |
25 «37.3 =66.2 44.9 =-0.7 001
26 237.7 @65.,2 44,2 -1.9 e0]
eT #37,.6 =63,2 43.1 37364 201
28 =37.9 =460,3 41.64 24,9 001
29 =3n,7 =56,5 39.23 -6.?7 000
30 272.9 =51.9 346.7 =7.5 200
31 =25e7 =46.46 33045 =B8.4 el
32 =23.9 40,8 3029 -9,5 00
33 =20e7 =34.2 2509 -10.3 201
34 217.2 =38,4 2126 “10.9 000
35 -)3.3 =21.7 17-9 -11.4 200
36 =9.3 =15,0 12-3 -ll.7 200
Zt/ =5.2 @8.4 725 ©1129 090
38 =) .() 21,9 206 =-11.9 200
39 3.1 4.8 =.) =11.7 200
40 7.2 10.5 =-6.8 =-11.04 200
4] liel VO41 =11.2 210.8 000
42 14.9 21.2 =15.5 -10.1 e000
43 18.5 25.9 @1925 -9.3 009
44 2198 01 =7?3.1 =8,3 200
45 24.6 33.6 =2?602 =-7e4 000
46 270) 36.4 =?8.8 =6.4 Pane)
47 2901 98.5 =<30.8 5.3 200
48 39.6 39.2 =3?7?.2 =4.2 000
49 31.26 40,3 =33.20 -3.0 200
50 37.1 40.1 233.2 =1.8A 200
CORPFLATION COFFFICIENT = .459
* SIGN REVERSED
ON ONE CHANNEL,
B-104
=-3.14
=-1.5]
=0.,50
=0.15
=0.10
-.07
=0.05
=0.05
QUA
9
3.98
7241
4,05
235
=0.02
-0,02
20)
=0.01
=0.01
001
001
=0.00
-0,.02
-0.01
=-0,00
200
-0,00
=-0.00
=0,00
-0.00
T No.
PER
0
20.00
10-00
6.67
5.00
4.00
3.33
2.86
2.50
2022
2.00
1.82
1.67
1.54
1.43
1.33
1.25
1.18
lell
1.05
1.90
095
09)
287
283
280
el7
0/4
ofl
069
067
065
063
06)
059
057
056
054
053
05]
e50
049
248
047
045
044
243
043
042
241
240
co
SMT
R PHI
el2 0
e35=20.90
064217.25
0 /0=-15.93
06) =6.44
064 19
048 2.18
eeT =2.20
022 «426.97
e21 4.10
025-12.40
0 38-10.81
e28 4,00
e20 76.76
023°82.03
ell=-13.26
ol Nov
007-69.213
019 47,54
014 62.59
e005 86.65
°09=87.62
012=-89.25
016 86.55
e23 85.86
015-69 .44
209=-13,53
004=-50.16
009=64.14
020742241
e25°57.,01
0 16=68.26
o2 O6d2
e020 38.16
ell =9.95
e06-15.81
017=56.74
007239271
018-73.2)
el2 83.19
e32 72.06
.el7 55.38
015°87.37
019 85.57
004 =4,96
004=65.40
007-50.62
010 36.67
015-19.83
020 70.14
028 200
120 om (@=5°) TM No. 377
RBFIS 16 Je dMe'] QO» OBSEP=65 1340-1346
LAGS= 50 N= 702 WT= Ve2SkC
MEAN U="l9,/ MEAN WS 04
K ACOV W ACOV w COV IN COVOUT SRP U SP Ww Cy) QUA PER K PHI
0 5629 56,2 =7T.6 0) le3/ 5288 0/8 is) i) Gi 0
) 4902 241,95 “7.5 16.8 3.30 26200 =0240 1ed1 20.00 elf-75.946
2 Sloe ileal “60! 2901 4el8 S2ell -1.94 2.11 10600 0619-47.35
3 14.6 158.2 “504 3306 32635 45675 =0.82 1.55 6067 014=62.25
4 mP.2 196.9 -3.4 2965 3ol7 24.95 =9.98 1.43 5090 0619-55.46
5 -13.9 40./ =P el 1922 = 5eI6 24.95 -262k 2.50 4200 230-4726]
6 =-1Re4 24,7 1) 6.8 40383 19642 $2.38 2.10 3633 1033-41 04/
7 1529 23 Pel =4e8 5093 14082 -1-31 Sel? 2086 0D7-752/5
RB 11-6 13.0 4.3 “lee 3631 14209 065 9,94 2051) 0/9 KR6e25
9 =4eh =18.2 64 =15.5 het Tle? i 1.3) 6.35 2ele oe M1) Mee
10 Pee 218.7 706 “1303 2079 4200 014 2628 2610 268 36247
d) 705 =18.2 Tol =71e4 Jel? 2e02 =A) Le22 14682 0665=-80.39
12 19-6) =18.R bot 0S 1e43 1.55 00) Os) Noel SoG S694
13 Loe7 =?e.7 Gel 43 1216 1.39 =-9.18 269 10634 0696-75260)
14 Qe] =30.5 lel 14.25 of4 099 -0219 er)): 1043 044-540)
15 342 ]N4) 4,5 “1.3 17.6 o4/ 044 203 Gill's) 1-33 e33 79.64
16 Pe 254,59 -3.26 16.7 035 eel 004 0US5 Le2S 024 48656
17 =6.6 =A5.3 =4e62 le.) eel eel) 0) 5 OS) LelR 023 H4_.56
18 -co,1 -7ce.3 —-3.4 504 ell ol7 e0l V3 lall 92s) HOG HO
19 H8.9 =74,49 = Neo = 2ie4 0 (38 el7 0 =0.01 1605 eli=87.64
2n =Fo4 sayfa) aes lel =-8.8 09 013 0 =-0.203 LeV0 024-81) .R#
21 =P a4 =AG.4 3eR -12.5 208 009 V2 0) 095 e2l) =1ed]
22 Pes Ke) i/ 665 -11.9 007 209 202 9) eF1 02h 25611
23 S.A -5],4 Rede =165 007 009 0 -0,03 037 639-33.04
24 Heh 749.4 909 005 U7 007 0 =0.9% 033 2061-89.66
25 Sea) = Sl so 9.7 Tel 2045 005 ) -0,03 080 0649=86.16
26 09 957-0 8.3 13.0 095 005 0 -0.03 of7 049=87.60
e7 “4.7 =Ae,8 4.2 lboel 006 0 04 0 =0.01 0/4 630 71010
28 e\1nel 4/43 4ei) 1506 005 004 =0201 0 ofl «13 254A
29 =13.6 “47,9 eel 1124 0 U4 06 001 9) 069 e016 10283
39 15.2 -62.3 301) 4o3 eU5 007 002 =0.01 e007 e¢0"250e95
31 =14.1 -Su,/7 4e6b =4,() 07 05 002 =-0,07 045 043-46217
32 |1%0e4 32,5 6.9 -11.2 04 205 09 =0.0)1 093 024-57.92
33 =5. -8 8 4.4 -16,.2 202 V6 () 9 06] 209 =3.2H
34 1.4 Who d 9.1 -18.9 003 004 201 D) 039 624 26616
35 Rei) 43,7 7209 ~1604 004 003 eI] 0 027 026 14604
36 13.20 65,/ 5 eh -11.4 eU3 004 e001 e001 256 e3/7 22098
37. 15.4 B10 3 =4.6 02 004 e001. ol 094 6%] 34,34
38 15.5 R7.9 foil S65) ele e002 0 0 053 e2() 22.91
39 12.8 RT.) “009 1025 002 003 0 D) 051 el2 66426
40 Uo 80.9 -l./ 16.) 002 004 0 eV] 050 ee 29=-64.19
4) 1.9 6B.5 ~1.8 138.9 003 003 -0.0) Ol 049 0 2-4025R
42 =3.4 54,9 =1.5 17.8 003 002 =0.01 ) 048 226 4.246
43 =625 41.46 Nef 1226 0% e002 0 =-0,U01 047 6 44-6924)
44 =—Tel 79.9 Pir! 4.5 0J5 e0l eVl =-0.0) 045 06 48-50-49)
45 24.5 21.9 Ze! =4.4 003 002 0 ) 044 e618 10205
46 e3 WG 504 -12.6 e003 e003 e Ol 0 043 e25 31-06
47 5.8 eae Te!) “1861 093 002 e0l 0} 043 e3] -8.38
48 1005 19.3 708 2004 005 002 e001 =0.01 042 043-48 647
49 13.0 21,0 Ted 71926 e005 203 e001 =0,.01 ot] 0644-502 /2
50 1361 21.4 528 -16.8 2 002 001 0) 040 032 0
B-105
20
BRFI S= 16
LABS= 50
Ne
om
eSMo
1227
MEAN U = =19,8
K ARFOV I! ACOY w COV IN Ove sP U SP w
49 6461
1 52.8
2 35.9
3 13.2
4 29.2
1) =P74.AR
6 =33,4
7 2327.5
8 =24oR
9 =9.7
19 5e9
de} 19.4
12 27k
14 2705
15 11.5
16 =109
17 =#13.3
18a 219.5
19 =@2A,N
20 =19.6
21 21?,8
22 -3./
23 59
24 14.9
25 12.4
26 19,3
27 14.2
28 44
29 =2.2
30 29.9
3] =15,5
32 =)17.6
33 =14.6
34 217.9
35 =-7,0
36 =9.5
37 AR
38 14.6
39 13.7
40 12.8
4) 11.7
42 Wow
43 32.3
44 -1.,.3
45 r7hegS
46 eh
47 443
48 24.5
49 22.9
59 =9.5
CORRFLATION COFFFICI
266.1
246,46
291.46
j41,8
R0,1
PAS)
@B.4
294.4
@24,1
-12.4
2.7
14.9
18.7
11.4
26.4
-32,?
-41,?
@=RB LS
198,45
118.3
WSs
190.5
-78.1
=53.8
=32.9
-18.9
-13.9
-17,4
277.4
=40.)
=50,2
=56,4
=55,9
=46,3
=31,4
Cigale)
B,8
30.0
47.9
40,3
66,2
45.4
59.4
50,3
40,9
33,3
29.7
sileaes
V6),
44 .R
53.4
, (@+20°)
NTs .ANSFC
MFAN W s 0A
o19.3 1233 3.70
8B 1D Pell? 24017
=3.5 30.0 Pall 49071
4.5 35.9 2032 43.07
1264 32.3 Ae80 23.27
19e6 20.3 3207 15.17
2009 2e9 4269 14.20
1808 ©1509 11095 2709
1369 =31.4 14-87 31.58
A4e? 40.7 9643 16.90
5.2? -39.9 7.92 5-81
=-130)] “3007 1lef6 3ell
=18.6 =15.90 e70 2.35
=29.5 2.9 043 1.49
=19.9 19.21 039 266
-14.2 28.9 050 042
=-7.2 39.4 044 030
1.9 2329 230 030
He4 11.5 221 030
1269 2-302 eld 020
14069 21606 olA ell
alc =26,3 018 014
be e304 018 o1l7
=-1.) =28.6 019 016
=7.6 =21.9 018 oles
=12.5 =9.5 ol7 el2
-14.44 305 o1l4 -l2
-13.7 15.4 0l2 el2
=109.4 24.9 el2 009
=H5.4 27.5 ell 007
03 25646 ell 006
Se ly 19 ell 006
7.8 9.5 ell 206
BoA =0.1 ol2 007
704% 8.5 eld 206
4.7 21307 007 005
209 -14.6) 009 005
=022 “10.8 oil 006
=-105 24,5 010 » ¢06
=1.6 3.5 009 206
21.9 11.9 elf 005
4 16.9 old 004
2e4 2029 eld 004
403 1904 ell 005
6o9 1520 012 005
Tot 8.3 ell 005
Bo? 2 09 004
Rod =7,8 010 005
7.28 =-14.9 ol2 005
665 =17.0 a abak 005
405 -16.3 005 003
ENT -02978
B-106
co
209
fe
1.97
2.14
1.70
1.53
-1.32
-6,61
=7.40
=2.93
=0.25
-0.27
=0.2A
(1,09
004
014
013
204
20)
001
001
202
004
205
202
=0.00
202
003
202
20)
0)
-0.00
=0.00
001
00?
202
202
002
003
20}
000
201
200
=0.01
=-0.00
01
201
=0,00
=0.01
-0.01
=0,00
QUA
9,98
@2.22
=0.99
ol4
=0,87
1.3?
11.57
16.11
8.07
1.69
20]
=0.47
=0.30
=0.00
212
007?
=0.05
-0,07
=0,04
=0.02
-0.00
0.03
=0,04
=0,02
=0,01
=0.01
90
01
0M)
-00
-0,01
=0.00
01
291
290
29)
. 202
202
e001
201
200
200
201
M1
200
01
=0.01
=-0.03
=0.01
=0.00
TM No.
PER
20200
10.00
6.67
5.00
4.00
3.233
2256
2050
2022
2200
1.82
1.67
1.54
1.43
1.33
1.25
1.18
lell
1205
1.00
“095
091
083
80
out
el)
269
067
065
063
06)
057
056
054
05)
050
049
048
045
044
043
043
42
04)
040
e009
SM
R PHI
004 0
015=53,73
025-48,54
024=24,85
02) 4.8)
026°29.71
0 23°44,.95
0 14-60225
082-6532
of2-70207
0 39-81.10
013 =1.74
043 59.2)
039 73.81
e007 =1,68
049 40.21
036 10.08
022748.71
027780.5i
021°75015
013=66.29
e11°13.53
0272°34.59
0 342°39.28
018=46.43
096 88.09
0 14-15-4)
026 4.24
018 26.02
el'5) S759
ell 7.20
e007 81.213
006 63047
014 29.83
024 31.95
e32 8.57
035 20.93
038 39,75
037 31.69
024 38,89
ol4 66,09
17.37
004 64.16
020°49,78
009=50.70
el7 6074
024 38,83
e190 53.50
035 64,86
elf 57.29
004 000
TM No.
22 our (@=#S0°)
BBELS 16 e5M= 4 Us O8SEP=65 14201425
LAGS® 50 N= 1374 OTS Ve2SeCc
MEAN Us-18.4 MEAN WE =(009
CORRELATION COEFFICIENT =(el
K ACOV U ACOV w COV IN COVOUT SP U SP Ww co QUA PER
0 3767 278.0 ellee 0 068 6078 =(267 0) 0
1 3220 240.2 21000 665 2e3)1 31635 90.92 =3,64 20200
2 2201 205.7 -6./7 109 3018 54623 (259 =5.69 10200
3 19e3 159, =2e5 1109 2098 43-690 -1617 ©3299 6267
4 @0e0 110.7 164 Be6 ede 25.85 —0283 =1.02 5200
5 =-7.0 66.9 326 1.8 Pele 21.10 025 035 4.00
6 #1023 32.8 36 =6.9 2089 16.28 eel 171i 3-33
7 #1)65 11.3 le? =15e7 4e62 16674 -0-79 4.56 2.86
8 “Ree =0.4 =009 ©2323 Qe41 182-01 =2224 6.11 2050
9 =4.] @4,3 -3.7 -27.9 3269 11249 =2ell 3,83 2022
10 05 @4.46 —S5e2 =26e4 1246 4.90 -1,07 1.13 2000
11 408 @4.5 =506 =24.7 094 2092 =0-69 =0.0U2 1282
12 Tee 8.3 =4,.7 -16.5 263 2047 |0e4] #0219 1.67
13 702 -15.1 =2e7 =llel 053 1.59 ©0213 003 1.54
14 5.0 =76,() =e) @4.5 04/ 1.01 70.09 ele 1.43
15 Jed 238.4 205 0 045 e080 -0.07 e003 1233
16 2Pe6 "52,0 4a4 1.5 039 ef2 70202 =0.0) 125
17 “5e7 =64,4 502 e3 eal e/3 °03 004 1218
18 =7.3 =73,3 Se) =3.0 el7 014 e003 206 lell
19 =704 -77.7 4e) =7.1 el2 068 001 205 1.05
20 @Ahet =76,9 Ae 1002 009 056 e02 0 1.00
2) =4.4 71,0 0 “11.7 208 054 003 -0.04 095
22 7.0 =62.4 -1.9 -10-3 008 057 0 #=0.03 09]
23 3 =54,3 =-3.9 =-7.2 006 054 0 @0.02 087
24 le? =48.4 =4.8 =3.8 004 052 0 0.01 083
25 202 =46,4 =5 04 o3 e095 054 =0.01 =0.03 280
26 1e5 =47.,2 =5e] 328 205 059 0 ©0.03 el/7
27 0 J =51.2 =-4.0 6.5 095 059 002 eVl 0 (4
28 =?el 256.5 =2 04 728 004 054 001 ede ef)
29 m=4el -60,4 =028 7.9 004 054 -(0201 Q 069
30 =5.7 =60.2 =0.) Te3 003 e052 =0-01] eVl 067
31 *6e6 55.4 “002 502 004 050 =02-01 V2 065
32 "609 =46,9 -1.0 2.8 004% 05] 0 eA) 063
33 "606 34,3 -128 06 093 e051 0 0 06]
34 =5,7 =20.6 -3e1 -1.3 004 050 70001 =0.U) 099
35 =4.1 =6,.4 3304 -1.9 004 048 -0.0)] 0 057
36 2.0 6.4 #306 =1.9 004 050 0 201 056
37 706!) 17.8 =2.0 -0.3 004 e052 003 202 054
38 128 e7.o =Oel 1.2 204 052 e02 0 e393
39 209 32.7 1.9 208 004% 052 0 =0,01 05]
40 305 37.3 3e7 404 003 050 0 eUl e50
41 306 40.7 5-0 5.5 003 049 0 eV2 049
42 3el 40.9 504 6.3 003 050 001 0 048
43 P04 38.6 5.5 604% e003 049 —0.01 =-0.01 047
44 le4% 34,9 409 5.1 004 049 #0202 0 045
45 ea 30,0 4e4 4.2 004 052 -0.01 0 044
46 2009 25.0 4e3 367 003 052 001 el 043
47 =-1.8 71.1 4.0 3.3 003 049 0 el 043
48 =Pel 18.5 325 205 004% 046 001 0 042
49 -1.6 16,8 363 129 003 044 001 201 e 41
50 =e4 16.3 2e7 1.8 00] e22 0 0 ° 40
B-107
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092"46.54
042 1e25d
037 24,43
014"11.97
022°54.06
013°-23.98
004 29.40
e100 53.33
018 64.66
016 B2.98
008 7.96
020°53,89
e013-83.61
elf 82.85
eld 84.10
e21 72.86
0 16782.10
ell 27.97
ell 64242
004 21.38
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el7=+72.36
009 16644
001-14.91
e008 28.17
e009 -4,93
007 78,34
020 30.84
el2 14.03
el0-86. 79
0 06-80.41
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016 0/3
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009 49.40
009=75.29
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001] 004
{23
BBFI S= 16
LAGS® =0
MEAN U = =©12.9
0 39.4
1 35.4
2 28.3
3 19.2
4 19.4
5 208
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8 =5 46
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10 =2.f)
al 04
Wee 2.3
13 304
14 304
15 23
16 06
Ait, =102
18 =7.9
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20 =4.6
2l m4
22 =3,8
23 @2e7
24 =1.6
25 =Nel
26 =Ne2
e7 =0.3
28 =7.9
29 =1,9
30 23.1]
31 =4,0
32 =4.6
33 =446
34 =2,.8
35 =2el
36 =.)
37 Ve?
38 301
39 404
40 52
41 Sel
4? 403
43 302
44 2M
45 104
46 150
47 100
48 Ye3
49 1e8
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MEAN W 2 1.2
K acoVv U ACOV w COV IN CoN sp U SP Ww co
250.8 1521 le72 4.80 -0.01
235.6 2132.3 =6. ; 4.05 26.71 ell
200.5 “8.3 -12¢1 4.76 53.28 215
153,090 =1.6 16.8 4.07 47.98 026
103.5 5.2 220.7 3,55 26.39 =(,35
60.3 104 =23,7 3.75 16.13 -1.70
28.5 1209 =26.7? 3e72 122083 2.05
9.4 1204 =28.4 414 16.59 =3.11
1,2 9.3 =29,R 3261 17.86 =3.93
=0,5 606 “3002 12694 11.52 =2.51
=-0,8 =) e4 =28.9 120) 6.55 =1.2)
=-3,7 4,3 =25.5 265 4.16 20,55
11,4 =625 =20.5 039 «61672 -0211
24,3 =6.8 =14.6 028 066 =0.06
=40,7 -5.8 =8.5 ec2 055 -0,01
@37.7 =3.6 =3.9 eile 040 003
“72,9 =1,.3 09 el2 e3l 200
284.9 06 3.) elf 026 =0.02
=90,.5 108 3.5 208 020 =0.02
92.3 2ef 2e7 209 el7 =0,01
=R9.7 1.5 12 08 e1l3 @f',01
-A3.) e3 7025 206 ell -0.01
274.5 lel -1.9 206 ell #0,0)
=64.4 =202 =204 005 e010 200
253.8 =2e7 =2.0 004 208 001
=44,5 =225 0.4 004 006 001
=37,3 -)].7 1.2 093 004 200
=33.1 =004 3.5 003 005 =0.01
@=32.9 lel 6.0 004 006 -0.01
@33,) 206 8.5 203 206 =0,0)
=34.6 4.1 10.8 003 004 =0,00
@35.9 5.0 1246 202 004 -0.00
=9],A 5.2 13.7 202 004 200
24,8 4.3 13.8 002 005 090
13,8 2e3 13.3 003 005 290
-0.1 =005 119 203 004 090
Vs =3.46 10.9 202 004 =0.00
25.5 =6.2 8.9 202 005 200
34,0 -7.8 601 002 205 000
38,8 =8e0 4.8 292 004 200
41,3 @7.N 4.2 202 004 200
41.4 5.0 4.2 202 093 -0.00
41,9 =204 4.7 002 004 -0.01
40.5 el 5.6 003 004 =0.00
40,6 203 602 003 004 001
41,4 307 6.6 003 04 201
42,4 426 6.4 093 005 00)
43.4 4o7 5.3 203 006 201
43.9 4.5 3.0 203 005 001
43,6 309 =0.4 003 003 000
41,3 209 4,8 002 Pao | 200
00151
CORRFLATION COEFFICIENT
QUA
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23.66
9.04
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-1,39
1.61
1,36
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=0.08
-0.03
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001
200
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001
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290
200
290
200
200
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T No.
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20-00
10.00
6.67
5.00
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3.33
2.86
2.50
2022
2.00
1.82
1.67
1.54
1.43
1.33
1.25
1.18
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1.00
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083
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066 86,92
064 70.16
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e51 21.26
049 47,02
046 72.30
040 70.47
025 B0.46
018=47,.92
001°71.65
014-15,.55
e013 -5.57
008-17,84
013#49,20
014 1.73
e019 66.63
022-72,38
028=52.06
025-°51.43
005"39.25
021°46.15
017=26.50
016 38.25
elS 62.15
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008 -1,76
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el7 60.90
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031=85.49
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8 a8 37.8 5.1 Pa) 1064 10.69 -1.39
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10 3.9 7,4 206 "22042 046 2045 -0.20
ll 4.5 -6,3 1.3 “20.9 e038 1270 -0.08
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16 324 @A5.5 104 =8,A el2 e33 200
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27 105 =44,) =5.5 8.0 002 006 000
28 105 41,8 4.5 9e4 092 005 000
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31 9 @49.8 -1.3 Pa) 002 003 000
32 Pie) @41,.2 -1.0 15.3 00] e003 200
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34 o7 =14,8 =1.5 16.1 001 003 000
35 05 5S) -1.7 e3 001 093 200
36 04 18.5 -1.3 13.9 001 093 000
37 02 34,7 =1.5 12.3 001 003 000
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43 43 62.3 361 664 201 003 2001
44 4eoT 59,2 304 5.8 001 003 200
45 4e7 56,7 326 5.2 001 003 -0.00
46 43 54,8 3.9 4,5 201 003 -(,00
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CORPFLATION COFFFICIENT =00961
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290
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T™ No.
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TM No. 377
Auto-Spectra of Wave Meter Data
Following are plots of the auto-covariance spectra of the wave velocity
components measured with the wave meter systems. Curves are presented for
series 001-124 - BBELS-5 through BBELS-16. (Series 017 and 070 are not listed.)
On each plot the pertinent information is given for the particular measurement.
The statistical nomenclature is defined as follows:
N = The number of interpolated data points.
OT = The time interval spacing (sec) of the interpolated data;
NAT = the length of the record.
m = Number of time lags for computation of auto-covariance
(and covariance function) and hence the divisions on the
frequency scale. The frequency resolution is 100 (2 mAT
in millicycles per second.
y-1
DF = The degrees of freedom calculated by the equation approx-
imately equal to =. By use of curves in figure III-3,
m
the given value can be determined for an 80% confidence
limit band (assuming the spectral data are approximately
Gaussian distributed).
oe = The variance of the velocity component X (cme sec--).
X = The mean value of the quantity X (cm sec7t) over the
sampling period N.
u'w! = The covariance of u' and w' at zero lag in em’ sec (given
for measurements of u and w only).
Cg | The correlation coefficient in the case of OMDUM measure -
ments of u and w.
v(u,w) = -
Une
Be //G; 26 2
uow
In the case of LIMDUM measurements giving pairs of u, and up (or W ] and
wo)?
and similarly for w, and Wo-
r (uj, U,)
ALM)
TM No. 377
V = ‘The estimated wind speed (m sec!) at the time of measure-
ment.
R = The vertical extension of the 80% confidence range when
the middle cross bar is centered on the spectrum point.
Note: In series 120 through 124 the angle 6 appears, indicating the azimuth
of the u meter with respect to the direction of propagation of the
wind waves.
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T™ No. 377
Auto-Spectra_of Wave Staff Data
Following are plots of waves staff data obtained on BBELS using the CERC
wave staff system (see chapter IV). Plots WS-1 through WS-14 are spectral
data obtained from the CERC analog auto-spectrum analyzer. The curves have
been translated to the Tukey spectrum equivalents using the method noted in
chapter IV. The ordinate values, however, are to be considered relative
magnitudes of ecm“ per cycle per second (cm sec).
Plots WS-15 and WS-16 are also auto-spectra of CERC wave staff data.
However, the data were read off the CERC paper tape record aboard BBELS and
processed at the NUWS computer laboratory. The interpolated data were then
analyzed with the NUWS Tukey spectrum analysis program.
B-236
Ws-l
BGELS
25 MAY 1965
1409-1410
300 McPeS
seers WSS
25 MAY 1965
1600-1610
10>
B-237
TM No.
WS-2
BBELS
25 MAY \965
(300- 1510
3oo MCF.
WS-4
BBELS
25 MAY \965
\200- (710
ST
wS-5
BEELS
25 MAY 1965
1800- 180
ie
0 Te)
300 Mcrs
WS-7
GBBELS
26 MAY 1965
2000- 20\(96
B-238
TM No. 377
WS-6
BGELS
25 MAY 1965
1900-1910
25 MAY 1965
2300-2310
wS-9
BGELS
rm 25 MAY B65
2400- 0010
Fy Io
id \0
1 | |
10 Ss 4 8EC
300 MceS
WS-\I
BBELS.
26 MAY 1965
0300-0310
100 200 300 Meeps
B-239
oo
T™ No. 377
WS-lO
QBBELS
26 MAY \965
0206-9210
SEC
300 ?
WS-|2
BBELS
26 MAY 1965
0400-0410
280 300 Mees
TM No. 377
b VY ONDOW
B-2h0
T™ No. 377
‘Si msec! SSW
1500 2000 2500
FREQUENCY MCPS
1000
B-241
T™ No.
BBELS
WS-I6 FREE SURFACE ELEVATION
OS JUNE 1965
0009-0010
N= (805
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=70™ sect® SSw
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FREQUENCY MCPS
B-242
ST
TM No. 377
APPENDIX C
MISCELLANEOUS TABULATED DATA
Wave Meter Calibration Data
Rotating Boom Calibration of OMDUM II - The OMDUM II wave meter
system was calibrated using the rotating boom tow system of the Depart-
ment of Civil Engineering, Worcester Polytechnical Institute, Worcester,
Mass., on 11 and 15 June 196}.
The calibration equipment details and procedures are discussed in
chapter II. The following two series (1 and 2) contain tabulations of
the calibration data used for preparing the calibration curves of figures
TI-9 and II-12.
Series 1. Data were tabulated from OMDUM II towed at steady speed
with the w cylinder axis parallel to the tangential velocity vector Vp
(figure II-10). The water temperature was 20.6°C. These data include
run number, Vp (cm sec7l), pulses per cycle per see (peps), and time
spacing between voltage pulses (milliseconds per cycle).
Run Ver cm sec”! pceps msec cycle :
1 +u 23.7 4.76 210.0
2 u 38.4 7.94 126.0
3 MS 90.9 10.99 91.0
4 ui 59.4 12.35 81.0
5 74.1 14.71 68 .0
6 Wy 82.6 17.39 57.5
7 101.5 21,51 46.5
8 Wy PAS 24.10 41.5
9 u 132.0 27.78 36.0
10 uy 147 .2 30.77 32.5
11 162.8 33.22 30.1
12 u 172.2 35.97 27.8
13 -u 24.1 5.03 TOGO
14 y 36.0 8.93 112.0
15 us 49.1 10.64 94.0
16 -u 67.1 14.81 67.5
17 “ Sa 17.39 57.5
18 iN 100.0 PAL wt 46.5
19 . 112.2 23 .53 42.5
20 iy 125.3 26.32 38.0
21 iY 142.7 29.41 34.0
22 158 .2 33 .44 29.9
23 ut 178 .6 36.50 27.4
T No. 377
Run Vr em sec: pcps msec cycle :
24 -W 22.0 4.50 222.0
25 a 37.8 8.33 120.0
26 ut 49.7 10.87 92.0
27 u 65.5 14.18 70.5
28 uw 79 .6 16.26 61.5
29 i 99.4 21.05 47.5
30 " 111.0 23 .81 42.0
31 w 126 .2 27.03 37.0
32 rf 143 .0 29.85 33.5
33 My 157.6 33.78 29.6
34 m 186.5 41.32 24.2
35 +W 21.9 4.13 242.0
36 u 35.4 7.29 138 .0
37 tt 50.0 10.58 94.5
38 nt 64.0 13.79 72.5
39 MY 81.4 18.69 : 53.5
40 " 96.0 21.28 47.0
41 tf 110.4 24 .10 41.5
42 ib? 127.4 27.78 36.0
43 ut 140.2 30.49 32.8
44 u 160.0 35.21 28 .4
45 uf 175.0 38 .02 26.3
Series 2. The w meter of OMDUM II was towed at steady speeds for
various values of Q, the angle subtending the w meter axis and the tan-
gential velocity Vp- The water temperature was PP AsyCs
-1
Run Vr msec cycle
cm sec
46 9.45 592.0
AT 37.79 122.0
48 17.07 302 .0
49 77.13 180.0
= 20° 50 AT.24 99.5
(2 ) ol 53.95 82.5
52 67.06 71.5
53 75.90 61.5
54 112.17 42.5
55 18 .90 30.4
56 37.49 132.0
57 54.25 86.0
( @ = -40°) 58 75.89 70.5
59 98 .76 52.0
60 118 .26 43.5
61 146.61 35.5
( @ = -60°)
( 6 = -80°)
(@ = +20)
( @ = +40)
( 6 = +60°)
( @ = +80)
Ver
cm sec.
17.98
37.80
47.24
66.14
98.15
98.15
129.5
19,51
37.49
51.951
66.72
98.15
130.76
157.58
12.59
34.14
48 .16
74.67
107 .90
135.33
157.89
22.86
43 .89
60 .66
71.63
103 .94
133 .81
157 .28
188 .67
28 .96
46.94
56.08
74.37
104.85
134 .42
160.02
43.59
C-3
TM No. 377
-1
msec cycle
400.0
164.0
120.0
96.5
64.6
61.6
48.5
604 .0
282 .0
208 .0
170.0
119.0
78.5
64.0
480.0
160.0
1038.0
69.5
48 .0
39.5
33 .2
300
148 .0
103.5
92.0
42.5
39.0
40.5
34.4
346 .0
194 .0
158 .0
114.5
83.5
67.5
36.0
256 .0
TM No. 377
Towing Tank Calibrations of OMDUM III and LIMDUM I (individual
meters) - The following are tabulations of the tow tank calibration data
of the OMDUM III and LIMDUM I (individual meters) obtained with the
Capt. Mary P. Converse Tow Tank, in Marion, Mass. Details of the ex-
perimental setup and procedures are given in chapter II. The data pre-
sented were used to prepare calibration curves in figure II-21. An ex-
planation of the table headings follows.
Serial: The numbered sequence of runs of steady velocity response.
N or S indicates the towing direction as north or south.
Vp (em sec7): The average speed of the carriage between two fixed
points on the tank.
V. Vo» and V., (cm sec71); These are carriage velocities calculated
at (hs Taste sramalare, middle, and end of the steady speed towing. They are
derived from measurements of the drive shieve rotation and knowledge of
its circumference.
T., (msec eyele"l): This is the average interval of time between volt-
age pulses from the ducted meter.
The value of angle @ subtended by the cylinder axis and the towing
direction is also given in the tables. It is estimated that the uncer-
tainty in 6 is about +2°.
Series 1. This series comprises calibration data for steady towing
of individual ducted meters.
Serial Vr Vai Vo Ma Z
p
u meter 9 =0°
eS 12.6 12.5 IP) 3) 12.7 288 .7
2N 9.1 9.2 9.1 9.2 430.7
3 8 8.2 8.1 8.3 8.2 509 .0
4 N 7.0 7.0 7.2 7.0 612.7
5 8 9.5 9.6 9.6 9.6 412.3
6 N 12.3 12.3 12.4 12.4 289.7
958 14.6 14.4 14.7 14.7 239 .2
10 N 18.2 18.1 18.2 18.3 183.8
TEES PAU ote) 27.5 28.1 27.9 117.2
12 N 28 .4 28 .2 28 .2 28 .2 115.5
Ls 54.4 3} 6 7/ 55.1 54.4 58 .0
14 N 47.0 47.4 = 47.5 67.9
15 8 71.0 69.8 70.8 710.6 44 .03
16 N 79.0 = 719.4 - 39 .68
17 8 64 .9 67.1 - 65.8 A7 .92
18 N 65.8 65.9 65.7 65.5 47.52
bo
oi
NANANRANAUnRAUNA!AMN
u meter
32 8
33 N
34 58
35 N
u meter
CD
63.7
T No. 377
TM No. 377
Serial Ver Vy Vo V5 Tt
u meter @ = 10°
56 S 39.3 38.8 39.1 39.8 80.84
57 N 54.8 04.7 54.7 04.7 97.15
58 S 136.1 134.7 136.8 136.8 22.73
59 N 50.7 50.7 50.7 50.7 60.35
u meter 9 = 20°
60 S 12.6 12.6 12.6 12.6 281.8
61 N 28.5 28.1 28 .6 28 .6 114.5
62 S 46.0 45.6 45.8 46.0 69.88
63 N 78.0 76.9 77.6 17.4 40.02
64 58 WA oal 169.6 174.2 172.2 18.59
w meter 9 = 0°
65 S 9.6 9.6 9.7 rae 425.1
66 N 7.3 Chee 7.2 7.3 773 .0
67 S 19.6 19.5 19.7 19.6 173.1
68 N 34 .6 34.8 34.8 34.3 93 .6
69 S 26 .6 26.2 26.2 26 .4 126.3
70 N 24.8 PN 674 24 .8 24 .9 135.1
7158S 94.9 55.1 54 .6 54.7 58 .42
72 N 45.2 45.5 44.6 44.8 71.20
73 8S 102.6 99.8 102.8 102.3 30.86
T4 N 76 .1* 75.3 75.5 75.3 42.78
75 58 153 .6 149 .2 L5SROM LOSS 20.65
T6N 140.0 139.4 141.6 141.1 23.00
* Wire lying in front of cylinder.
Series 2. This series comprises calibration data for steady towing
of coupled meters (OMDUM III). ‘The same tabulated variables are given as
in series 1, except that values of both T.(u) and T(w) are given as the
output for each meter. Blank spaces in the T, columns indicate no meter
response. The estimated uncertainty in 6 is about 2°.
Serial Vir Vy Vo V3 wey) (w)
@=0°
1s 6.9 Teal lies ee, = 643 .6
2N 11.6 17 leleeS 11.6 = 269.8
3S 28.5 28.6 28.7 28.4 = 98 .74
4N 18.1 L7ZRS 498 alts} al = 152.9
5s 51.5 Silesia moles 51.6 = 53.41
6N 77.8 ASO) ye 76.8 = 34.3
78 99.2 97.4 99.8 99.3 443 .0 OX Lief
8 N 123.5 1:23),.2) 23758 l22R9 = 21.68
Serial Ver Vol Vo V3
= HOw ie
95S Tel Geni: 7.1 TH al
10 N 10.6 10.4 10.6 10.5
1158S 21.3 PAL 5 21.5 21.3
12 N 35.5 35.1 36.0 35
13 S 64.9 64.5 64.3 64 .4
14 N 144 .2 144.8 143.9 142 .9
= e207 ete2ie
Toes 9.2 9.1 9.1 9.2
16 N 22.0 PP Gal 22.0 21.9
17 8S 34.9 35.1 35.4 35.1
18 N 58 .5 58 .5 58.1 58.1
19 Ss 136.1 133.9 136.8 137.7
SO gb We
21 5S 11.5 ak os} 11.4 11.6
22 N 9.9 9.0 9.7 9.9
23 S 21.5 21.8 21.4 21.2
24 N 51.6 51.9 51.9 51.3
25 8 - 28 .4 28 .6 28 .4
28 N 30.9 30.8 30.9 30.6
29 58 80.0 19 .6 70.8 19 .6
@ = 60° + 2°
30 N 9.9 9.9 9.8 9.6
3158 20.9 20.9 20.8 21.0
32 N 49.1 48 .8 48 .6 48 .9
33 8S 24 .9 25.0 24.8 24 .9
34 N 76.7 75.3 75.3 75.1
35S 142.3 143 .4 142.9 144.8
@ = 80272 2°
3S 8.4 8.5 8.4 8.4
38 N Spo 18.3 18.4 18.3
39 S 32.4 32.6 32.8 32.6
40 N 46.8 46.8 46.9 46.3
41 § 152.9 153 .3 154.9 154.3
Environmental Data for BBELS Current Measurements
T No. 377
T, (u)
Ty (w)
657 .6
302.3
135.6
77.57
42.52
18 .98
409.4
132.8
82.76
48 .18
21.01
386.5
441.6
172.1
68.1
126.7
116.3
43 .33
Two series of horizontal current measurements were made at the BBELS
and are discussed in chapter IV. Figures IV-6 and IV-10 show plots of
the current data and the tidal height associated with the two series.
The raw tide level data are presented here for completeness, along with
the wind and sea conditions for the periods depicted in the plots. For
C-7
TM No. 377
further information regarding the environmental measurements see chapter .
TV.
Series 1 (1964) - The series 1 record (plotted in figure IV-6) covers
29 April (1200 hours) through 11 May (1200 hours ).
Tide Level Data. These data were abstracted from the Coast and
Geodetic Survey raw data tapes and are given at local time (EST). The
wave height N is in centimeters.
t (cm) t ‘ (cm) t n (cm) t 7 (cm)
(29 April) (30 April) o 214 Pe 204
253 238 198 198
12 01
241 223 ae tos
es 226 s 210 15 fee Os ee
210 198
195 183
207 192 16 05
14 a 03 i 195 183
201 186
201 186 17 06
15 oui 04 a 207 195
210 201
201 186 18 07
16 ane 05 i 220 207
226 217
204 195 19 08
17 aa 06 aw 235 226
241 235
220 210 20 09
18 ah 07 a 247 244
250 247
241 232 21 10
19 ae 08 ae 2.62 250
271 253
259 250 22 11
20 ae 09 ae 275 353
21 274 10 259 23 pa 12 es
284 259
290 259 24 271 13 241
22 one 11 pee 265 285
28 3 te 250
4 25
23 281 12 244 01 241
271 235 226
24 253 13 223 02 220
t pte my)
14
15
16
UT
18
19
20
21
22
23
24
(2 May)
Ol
02
03
04
05
06
O07
226
220
210
204
198
195
198
198
204
210
217
223
229
229
241
247
256
265
268
288
271
268
2695
256
241
226
217
210
201
198
195
192
192
192
195
198
t mcm)
038 201
207
09 217
223
10 232
241
11 247
250
12 256
253
13 247
247
14 241
223
15 223
210
16 204
201
17 195
192
18 192
198
19 201
204
20 207
214
21 220
226
22 235
241
23 250
256
24 259
(3 May) 262
O01 262
259
ee)
02
04
05
06
O7
08
09
10
11
12
13
14
15
16
17
18
19
20
t a) ( cm)
214
21 2
Pel
22 223
229
23 232
241
24 247
(4 May) 250
Ol 253
253
02 256
250
03 250
244
04 229
223
05 210
210
06 201
198
07 198
192
08 12
195
09 204
204
10 207
214
iLal 223
229
12 235
288
13 241
244
14 247
t ut (cm)
250
15 244
241
16 235
229
17 223
HALTS
18 210
207
19 201
201
20 198
201
21 204
204
22 207
217
23 223
229
24 207
(5 May) 247
O1 256
256
02 259
256
03 256
256
04 250
254
05 239
229
06 220
214
O07 210
207
ie 4 [OR]
08 201
198
09 198
198
10 201
204
ital 210
214
2 220
229
13 238
244
14 247
250
AL) 253
253
16 250
244
IL7/ 235
229
18 220
210
19 204
201
20 198
195
21 195
198
22 198
204
23 207
210
24 220
(6 May) 226
ol 232
t 4) (cm)
238
02 244
247
03 253
253
04 253
250
05 244
238
06 229
217
O07 207
198
08 192
189
09 186
186
10 183
186
11 189
198
12 201
204
13 223
232
14 241
247
15 250
250
16 253
250
17 244
241
18 235
223
TM No. 377
t @ { cm)
19 214
204
20 198
195
21 192
189
22 186
186
23 189
189
24 195
(7 May) 204
Ol 214
223
02 235
244
03 250
256
04 262
262
05 259
250
06 241
PRO)
07 223
210
08 198
192
09 186
186
10 180
180
11 183
186
12 192
(8
t
13
14
15
16
17
18
19
20
21
22
23
24
May)
01
02
03
04
05
t 1) (em)
06 268
262
O7 253
241
08 229
217
09 207
198
10 192
189
11 186
186
12 189
192
13 201
210
14 220
235
15 247
259
16 271
281
17 290
296
18 296
290
19 284
271
20 259
241
21 226
210
22 201
195
23 189
t (cm)
186
24 186
(9 May) 186
01 192
198
02 207
217
03 229
244
04 259
268
05 278
287
06 290
290
07 284
2795
08 265
247
09 235
223
10 210
201
11 195
195
12 189
189
13 195
204
14 210
223
15 235
250
16 268
284
t
17
18
19
20
21
22
23
24
(10
O01
02
03
04
05
06
O07
08
09
10
T™ No. 377
1 (em)
293
305
311
314
314
308
296
281
265
250
232
217
204
195
189
May) 186
180
180
183
189
201
PANG /
232
250
265
281
290
299
302
299
290
278
265
247
235
TM No. 377
t 7 (cm) t y (cm) & @ [cm )
217 21 287 299
11 201 271 08 299
195 22 353 296
12 189 235 09 284
183 23 214 271
13 180 201 10 353
183 24 192 232
14 189 (11 May) 183 11 214
195 O1 177 195
15 207 174 12 180
223 02 171
16 238 171
256 03 174
17 271 186
287 04 198
18 299 210
311 05 229
19 317 250
317 06 268
20 311 284
302 O7 293
Wind Speed and Direction Data. These data were obtained from the
Coast Guard Log Book at BBELS.
Day Time Wind Speed Wind Direction
(EST) (cm sec -) From °T
29 April 00 7.0 080
04 7.0 080
08 7.0 080
12 10.0 090
16 7.0 090
20 7.0 -
30 April 00 7.0 045
TM No. 377
Wind
Day Time Wind Speed Direction (From)
(EST) (cm sec”) (®T)
04 4.3 045
08 4.3 045
12 4.3 045
16 4.3 045
20 4.3 045
May 00 4.3 045
04 4.3 045
08 4.3 045
12 2.95 045
16 4.3 025
20 4.3 025
May 00 4.3 045
04 4,3 045
08 4.3 045
12 2.7 045
16 5 Uf 045
20 2.7 045
May 00 1.0 025
04 1.0 025
08 1.0 075
12 1.0 045
16 1.0 045
20 1.0 045
May 00 0) =
04 0) -
08 0 -
19} ) -
16 1.0 180
20 1,0 135
May 00 1.0 025
04 2.9 025
08 2.5 025
12 2.9 025
16 2.9 025
20 2.9 090
TM No. 377
Wind
Day Time Wind Speed Direction (From)
(EST) (EN SOGT~)) (an)
May 00 1.0 045
04 2.9 075
08 2.9 045
12 AO 045
16 AO 180
20 it 165
May 00 0 -
04 1.0 225
08 1 6@) 229
2 10 225
16 4.4 225
20 6.9 225
May. 00 2.5 225
04 2.9 250
08 2.9 250
) Pd ot) 225
16 4.4 225
20 4.4 225
May 00 10 225
04 2.6 225
08 2.6 225
12 2.6 225
16 4.4 225
20 6.9 225
May 00 1.0 225
04 1.0 250
08 10 225
V2 4.4 225
16 4.4 225
20 6.9 280
May 00 2.6 270
04 4.4 280
08 2.6 270
Series 2 (1965) - The series 2 record (plotted in figure IV-10)
TM No.
covers from 24 November (1230 hours) to 25 November (1000 hours ).
Tide Level Data.
These data were abstracted from the Coast and
Geodetic Survey raw data tapes and are given at local time (EST).
t | (cm)
24 November 189
13 189
183
14 180
180
15 183
189
16 198
210
17 223
235
18 244
259
19 268
274
20 274
274
21 268
259
22 244
229
23 216
204
25 November
00 189
192
04
05
06
O07
08
09
10
uh
12
~ (cm)
189
192
195
198
204
210
220
232
241
253
265
277
290
299
305
309
302
298
286
265
250
232
220
STL
TM No. 377
Wind Speed and Direction and Sea State Data. These data were ob-
tained from the Coast Guard Log Book at BBELS.
i Estimated
Wind Sea
Day Time Wind Speed Direction (From) Height
(EST) (m sec ~) (°T) cm)
November 24 12 6.2 315 30
16 5.3 000 30
20 6.2 315 30
November 25 00 3.8 335 30
04 2.6 315 30
08 Ph oP 180 Calm
12 DP) 180 Calm
16 6.2 210 30
20 8.5 210 60
November 26 00 6.7 210 30
04 14.8 210 90
08 11.0 220 60
12 4.4 220 30
16 3.5 210 60
Wave Model Data
The following are the computer listings of the Tukey spectrum analy-
sis and the raw u and w tabulations associated with the wave models dis-
cussed in chapter V. The symbols used on the spectra tables are defined
in the explanation of the plots and listings in appendix B. The defini-
tions are also discussed in chapter III. (Note that the symbols $i4(7)
and US) represent the in-phase and out-of-phase covariance functions,
respectively). In the raw data tabulations the units are cm secn_s and
the consecutive values run from left-to-right.
C-16
RBM TM No. 377
RANDOM DATA
K RO G0 elt) an BO 80 CuO Qu.)
O 14¢922 1606354 -32703 e000 el27 e061 e019 e000
1 -e010 1-008 e486 e888 0226 e114 e013 °050
7 SAU GEMoN0) -e 750 0065 —-22e915 0143 e301 —e023 e050
s) -e102 -1.319 e501 -1.690 oil 72k 0658 e000 -—e035
4 —e 133 —2456 0570 12423 0537 e802 -e001 -2189
BO loa So 239) 1-090 —e841 2885 °900 -2167 —e325
6 -.357 -e170 -2081 0463 e703 °851 -e2l7 -.2290
7 -20134 —-32437 0/45 0 368 0474 0517 -e231 -0143
8 0054 -16109 -10052 0044 0542 0327 4 -0176 0092
9 logs) alo V23i —2.046 0953 0422 °400 bats) —e1l74
10 -—2648 °/18 —-2542 12112 0372 0658 -el72 -.188
ial 0145 e071 e132 e370 0561 01/42 =e 50 -—0126
2. 20926 0424 —2664 -—e024 0430 0598 0058 =levliZo
103 0627 16416 -12-120 e072 e251 0/13 0028 -e100
14 Wo sals) -0090 0924 0243 0575 e751 -.168 e050
15 -—e584 —2549 0811 —e97T e833 e472 —-e209 e150
16 0549 -0263 0684 = 727231 0564 0462 -e141 e118
NY 0440 -lel/7l 0291 20544 0433 0475 -—0032 0118
18 1.284 0548 -—2508 0656 0470 0372 -e027 0147
US) 3) 5 5)725) 220438 e252 0086 0367 0481 -2109 0224
20 -2.676 -2381 1¢219 0929 0510 0565 -e160 0354
21 =010)515 e080 S059 7 Sloe 7/0) e806. e511 —e240 0387
QE 1.783 —0244 0 337 e 183 0194 © 393 -e107 © 320
23 0167 20470 —.2 385 -—e530 0581 0456 -—.050 e271
24 0145 16832 -206228 0659 0378 0631 -e229 e214
25 1.6295 -°963 0/15 —2 1/54 0270 ©5006 -e200 0092
26 —2643 -12248 2864 0494 e272 0289 -e110 -—2003
2 -e072 0484 —2824 SO A2eNe) 0328 0237 —2043 -— 2063
28 eS 41) re HO 1.6315 0045 0438 e214 0031 -—2126
29 0594 —-12532 0327 -.990 0349 0273 -2041 -e039
30 16398 -1e132 -1+166 —2538 0262 0536 -e207 -—e007
3} I NOS Al —e545 e052 0174 0498 e714 -e 300 6 WSs
32 °069 —e446 -—. 860 0375 e338 e358 -e154 -e000
CORRELATION COEFFICIENT -—e23709
T No. 377
A - Ww.
Ranvom- Biasep Data
PSEUDO
RUN 1.
DATA
RBM-|
Sil
60.
0
=U
ul
3
=1 Ayn rye
oS Le ee
oS i
1
“8
Heed as oye, ee Seis
Bea ea N/a ep eT ey
2 =e)
edt
4
-4
-7
5
1
«
ntl eee
-)
oe ee
5)
(a)
Qe
ee
-3
=3
-7
=1
+18.
=1
=
=a
é
alt
1
ely eee Wee ea sc Sc 3 AE es
ue
eee:
-1
-1
=9
-9
-7
2.
-1
ia)
4
=
cea ie Mage oe
T™ No. 377
eae
RANDom- Biaseo Data - &
RBM-2
ouch ANS
=-)>
3
22
mo ae
Fe ee eee Gt
eee ose
=S
2)
=2
2 7 2 Oe)
=3
=6
9
-6
3S)
=4
=200
=4
N0N000
SUM TM No. 377
SINE WAVE
IN ouT
© 8D O20 a.m orm 6H BH GW qld)
0 4926899 50027 e000 e000 e010 °006 -e001 e000
1 292248 292063 -0040 -402226 -e015 e023 e903 °004
2 —-150344 -152338 -elol -472315 OT 0025 -—.003 -2008
3 -476¢282 -470257 e002 -15-268 -e019 -e010 -—e006 °035
4 -400237 -402188 5038 “25239 0058 e057 -e009 —eiOiel
5 -e001 0073 0080 492730 = 010) 2) -— 083 -e005 e077
6 404126 404222 0056 292182 e190 0189 —e900 SO LY)
Y 472256 AYU GNI -0056 —15e357 —0493 -—e495 —-e007 0498
GB IS 54&29 | WB Wise -e087 -47.218 32029 22991 -e028 -3.005
9 -292234 -290e209 -e007 -40e¢160 194609 1946554 -2026 -19.583
10 -492698 -49e/22 -e050 0043 225992 AZ5a90 0013 -22.389
11 -29e264 -294035 0157 402188 50588 5 e622 O02 —DoOOGE
2 UHosxv7@ wWwSoser 0087 476181 -—e651 - e629 e013 0642
13. 476243 4706137 0007 156292 0219 © 233 e007 e226
14 406174 406131 =o097 —29o any -—2094 —e084 e005 0090
ML) e102 -e120 =el32 —-49.718 0055 0051 2006 — e050
16 -40160 -400256 =O S2IGZNA -.2007 —e024 e006 e022
17 -472316 —474185 0047) 152281 0028 °022 0003 —e023
18 -152456 -154204 0052 472333 -—e014 -e007 e001 e013
1G A2QVolaS BWVails 0992 4046223 0108 0018 00909 -—.e007
20 494899 50027 e000 e000 —e007 -— e902 -—e000 e007
21 294250 294060 —2043 -4002226 0004 e012 °003 2004
22 -156342 -150e341] —e103 -472315 -e001 ©030 e012 e005
23 -472281 -470259 e001 -15.268 e005 0036 e012 — 2003
24 -402¢238 -40-187 50387 2902257 e000 °006 e002 °002
25 -—e003 0076 2083 49.730 0018 e013 —-e007 °006
26 4020125 404223 0058 292182 0016 e013 —e099 e012
27 &75256. 7 oNNG —2057 -154358 °004 e010 -.001 e002
28 152430 156184 —e090 -472219 -e001 0026 0002 e008
29 -294234 -292212 -e010 -40.160 0004 0939 0092 e010
30 -49.698 -492722 -2050 0044 —e900 e011 0091 e004
31 -292264 -294032 e160 402189 0905 e012 -—e006 -e001
2 15.2369 1536 S57) 2090 472180 0003 e011 -.2006 e000
CORRELATION COEFFICIENT e00000
C-20
| I | ! 1 i} 1 i] { | | | | | | | |
{ ! i i i I \ ' et } | ! { { 1 1 |
{ { 1 \ ' 1 1 ' | \ \ 1 | t
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T™ No. 377
APPENDIX D
DIGITAL COMPUTER PROGRAMS
The various computer programs discussed in chapter III are presented
here in abbreviated form for the convenience of those wishing to consider
similar analysis of oceanographic data. These programs were used on One or
all of the following digital computers.
(1) An International Business Machine (I.B.M.) 7090 digital computer at
the Massachusetts Institute of Technology Computation Center.
(2) An I.BoM. 1620 and a Control Data Corporation (C.DeC.) 3200 digital
computer at the Naval Underwater Weapons Research and Engineering Station
computer laboratory.
The programs are in standard fortran language. A brief statement of
definitions of non-standard or unigue symbols and other helpful information
are included. :
The programs listed here were designed specifically for the wave studies.
However, they can be made generally applicable to stationary time series data.
Velocity Conversion Program ( VELUTIME
This program (discussed in chapter III) converts the punch card data,
which contains the sign and relative time of voltage pulse occurrence (along
with zero crossover information), into uninterpolated velocity data (cm sec™ Ne
The raw data punch cards contain five sequential pieces of data. A negative
velocity is indicated by the number 2 (two) in the output listing.
Abbreviations used are:
EMSEC = The chart speed of the Sanburn recorder read in mm sec7l,
IND(k) = Indicator of the direction of the positive pulses on the strip
chart (to provide the proper sign for the velocity values )3
i.e., IND = O denotes upward pulses
1 denotes zero crossing
2 denotes downward pulses.
Combination Spectrum Program (Program BBELS )
This flexible program contains three subprograms which include linear in~
terpolation, orthogonal velocity corrections (of OMDUM III data), and spectrum
analysis. The input is the velocity time data_generated in the velocity
1D}=aL
3200 FORTRAN (2.1) T™ No. WT /
PROGRAM VFLTIME
DIMENSION x (4500) » IND (4500)
1 Isa
NN=1
N=]
REAI)(600100)EMSEC
READING 0 NO 2 ACU INOIUVoX Ce) SIND Ce X63) y IND (3) 9 ACG) IND C6) 9K (5)
VIND (5)
RB IF(X(T) el Te 999999)905
9 IF (IND (1) 1) 70016070
70 IFCIND(T) eTND( Le] -1))16971916
ey SSI)
28 IF (I=(5#N41)) 807922
ee NasNn+]
69 TO 28 ?
T RFAN (600107) X(1) os IND(I) 9X (141) oS IND(I#1) oX (142) op IND (142) 9X (143) 9
LIND (143) oX(1*4) ol NO (144)
GO TU 8
71 CONTINUE
14 D=X(T)=X(Tel)
TIMES (X(1)4#X(T=1)) 426
D2((N/1526) /EMSFC) #1000.
TIMESTIME/1506
TIMESTIME/EMSEC
IF(D elEe 206 99) 36037
36 Y=2(0"15.54)/(7410.2907E=05=7837.2527E=N6#D) +210.70000
GO TO 25
a7 IF (D aLEe 33¢48) 38939
38 Y=(0=-23.00)/(5994,0137E=05-8476.9629E=06*D) +14V0.000
GQ TO 25
39 IF(D eLEe 93262) 40941
40 Ys.66680522E=9 7#D##5—,_ 146990) JE-048#D 8844, 7246335 0F aN) 34/483
YaV+.55538870E<01#0*#2=-,69160109F +01 80+. 25032362E+03
GO TO 25
41 IF(D oelEe 23962) 42043
42 Ys(0"11505)/(.20498400=.038643265#D) +28.40
GO TO 25
43 Ys(D=288e7)/(34e199517=.16685755#D) +1260
25 IF (IND (1) =1) 26926027
AT Ys-1e*Y
26 WRITE(100101) YoTIME oe!
WRITE (610191) YoTIMESI
TsI+]
NNSNNeo]
GO TO 28
STEND! BIE jn
REWIND 10
D0 60 K=S19NN
READ (100101) YoTIMEol!
WRITE (620101) Yo TIME GI
60 CONTINUE
REWIND 10
100 FORMAT (F6.0eI3eT3eF4e!))
101 FORMAT (F10.50F 1005015)
1n2 FORMAT (S(F6ce00T298X) )
60 TO al nee
END fa ape ; TD ae ae ee =
T™ No. 377
conversion program. The input can be a single time series (as w(t)), a paired
time series (as ws). w(t)) from the OMDUM system, which may or may not be
corrected$; or a paired time series from the LIMDUM system (as w, and w. 7 Or
Uy and Up ) + The usual auto-spectrum analysis is performed on the single time
series. On all paired time series both the auto-spectrum and cross-spectrum
operations are performed (as discussed in chapter III). The interpolation
program (entitled PROGRAM BBELS ) is discussed in chapter III. The correction
program is entitled SUBROUTINE CORRECT. The third program, the spectrum
analysis, is entitled SUBROUTINE SPECTRA. The following abbreviations are used.
u(I) = Interpolated velocity data from u meter (or upper meter)
w(I) = Interpolated velocity from vertical w (or lower meter )
ML = Number of lags for spectral estimates (limit is set at 100)
CODE O denotes single time series
alt denotes OMDUM data
-l denotes LIMDUM data
IOl = Number of series
YOR = Depth of instrument
103 = The nth measurement at the te caaia depth.
yO} = Time interval (sec )
U(J) = Uninterpolated velocity
T(J) = Time of occurrance of U(J) velocity.
Note: The CDC 3200 program has a capacity to take 32 x 103 Single time series
data pieces or 2400 data pairs.
731
1009
10
1)
600
6n4
65
3200 FORTRAN
PEHGRAM BRELS
DTMENSTON T(2400) 2” (2400)
~———CHMMON VNEW (24007. YNEWC2600) —
REAN (AD e6N0) M1 eCONE
REAN (402694) 101 eYOA9TIN39 YOS
W2TTE (412695) TOL Y)20f03
WQTTE (470695) TOLSYI29TN3
FORMAT (1%e10H OK SO FAR)
FOQMAT (PF IN. SeTY)
FORMAT (1 Xe?F19,5015)
FORMAT (T4eF4eNoTGet4)
FORMAT(SXoT3eF4e.leT2eFSe2)
FORMAT (1H1e54HBKRELS=01359 3X oF 30el92HM—ol 3)
A=.?7
Z267
Ma}
B=.?
Neon
Js!
READ (640014) Vid) oT fd) oe LL
Nanel
J= Je]
IF (LL) A015 02
DO 90 J=A eM
TF (T (J21) #4) 40502)
Asr7
Gy TO 9
TE (TOI) SA) 9009095
TOTFF ST (J) =T (Je1)
VOTFFav(J)-V(J=1)
TNIIMSA2T (Jeol)
IF (T(J=1) 2A) 8020921
FRET LOS TNH TD LE ae =
on
270
DINTPaRATTIO#VDIFF
VNEW(M) SV (Jel) enINntTe
GX TO 220
VAIFW(M) 2V (Jel)
WRTTE(S1le}1) VNEFW(M) oAgM
M=Ve1 :
TESTSTDIFFeTNUM
LTE (TEST=8) 9009025
A=A+Z
GA TO 6
CONTINUE
Sr ee Mesa iaesa ae Se eS Re Soe ep Be hae
732
SIN ee lice See ee Sit Ro Se ee a a ee
6
IF (CONF) 73305550732
AA=.2
WRT TE (41061000)
Z=02
MOzs1
Ji=1
RFAD(6001N) Vid eT(SPoLL
NOSNO#1
JaJe] 7 = Ge a i
IF (LL) 2201402
TM No. 377
(201)
OR If (T(Jel)=AA) 666550210
690 TO 98
=p 4G TE {(TUJV=AA) 9909997055
55 ToHTFF2T (JU) =T (Jel)
VNTFFSV (J) eV (J=1)
66 TNUMSAA=T (Jel) :
7 0. lit CUPweinoneyy loa bbot secur 5) a) ulm
B8 RaATIOSZTNUM/TDIFF
= DINTPSRATIO®VDTIFF | Pua tale Tie at Man aay a
YNEW (MO) ev (Je 1) +DTNTP
GOmlOm2 cen
211 YNEW (MO) =v (J=1)
222 WETTE (61011) YNEW (MO) 9 AAoMO
_ MO=MO41 fbi! Medica Crea,
TES TSTNIFF=TNUM iG ae a
Ie TEAS Ti= B) 99029909250
260 AAzAAeZ ata z
Gn TO 66
999 CANTINUE ~
WRTTE (6191000)
a ~ TE(M=40)B8RR4430777 7
777 J.J=M0=)
B88 JJ=Mel
oe 443 IF (CONDE) 55555559444 pod Pe Pani
444 CALL CORRECT (JJ)
~ 655 CALL SPECTRA (JJeCODEsM1sYO4eT019YO20103)
Ko) ilo
ENN
3200 FORTRAN DIAGNOSTIC RESULTS = FOR’ BBELS
a ae ee Re Gh
(i
Haya
99
?
~ “YR RYTHET=.0014 .0000RS*#THETA) (THETA) #1200
122
131
RY¥TH2(=.00N5* (THETA®THETA) *-071*THETA=1. 34)
T™ No.
(201)
377
3200
SHRROUFTINE CORRECT (JJ) ae
COMMON U(2400) 6 W(2600)
FORTRAN
WQ2TTE (6101000)
DA 999 JalieJJ .
IF (W(J)) 499904
Yah (JVAW()
YYZABSF (Y)
TF (YY-1.5849)
10-lloell ;
K2(( (#271 67P4037#YY= = 325271192) *YY*1e 1616579) #YY #67. 905764) #vy
X2%—-,90N1549985
6N TO 90
IF (YY =29,743803)
X2ATANF (YY)
XEX#5 7.795788 ee eS
6) TO 9N
Ks (LOGE (¥Y=1 22058934) ©9.7816200) 4. 1459879)
THE TA=X
IF (Y) 30e98e2
IF (THETA=45-)
Vllolllollll
18218919
A=90e=THETA
IF (A=70.) 12209122-121
RXTHB=.00009% (AHA) +601238%A4. 758
GY TO 30
RXTHS=, 1005 (AHA) +,071#A@ 1. 34
Gn TO 20 pantie ee = =
IF (THFETA=79.) 11801180119
R¥TH==,000N9* (THETAPTRETA) +,.01238%THETA+.758
Aa gn et THETA
Gn TO 1e0 z
R¥THS(=2001%e0000R5%A) #(A) +1200
IF (U(J)) 799808
THF TQ2270.<=THFETA
69 TO 9
THF TAS9ONe@THETA
Ureerretht ty 7 RX Ter -
W( J) @Ww (J) /RYTH
6A TO 25 =
IF (W(J)) 87988e88
“TSHETARSTO, saan a
W(.J) BewW (J)
= 1 OF EAT
GQ TO 25
AR THETA=90~6
W(J) @W (J)
2A RY TH (=4001+.0000AS®THETA) #THETAS1 600
“A200 e=THETA ;
IF (A702) 2220222.221
zx Sez RXTHS( =. 0O00IF (HOA) Fe Ol 2ISCNS. TSS Sa
GN TO 30
2-§— =
=e e e
69 TO 30
oo TF (THETA=700) 2Ins2ltaeele _
218 RYTH= (=200009# (THETA*THETA) +6 O1238*®THETA+. 758)
FO EMG UEY ;
Sree 4
GN TO 220
219 RYTHE(=.00NS#(THETO*THETA) *oO071*THETA=1.34)
A=90.=THETA
220 RXTH=(=.001%e0000858A) #(A) #1200
39 IF (U(J)) 37998638
37 THFTA=90e+THETA Se Be EAD a Ra ie
Gn TO 40
IGM RTASS TOON Aan co To ae
40 UlJ) SU (J) /RXTH
WC) SW (J) /RYTH i Se oid eae
a a5 PRINT 69U(, DD OND) OUI SUL
GN T9 999 See aie ii
99 IF (U(J)) 10391020101
[ch Ti) MRT CATA = Olen cae ala ia CT gr Sen agr eka eaie gu ee
UJ) SU (J)
W(J) B04 mae vi i eae ‘ a
6D TO 25
T02 THETASI0 ; he
U(J)sU (J)
TICES =
: Co) Oe
77 FORMAT(F10.S) |
6 FORMAT (PF 1% eS 0F 702)
666 FORMAT (15)
1000 FORMAT(1X%s10H OK SO FAR)
~ 999 CONTINUE
RETURN
END
3200 FORTRAN DIAGNOSTIC RESULTS = FOR CORRECT
973
913
TAR
23
™ No. 377 5
3200 FORTRAN (2.1)
SHAROUTINE SPECTRa (Ne CODE Mi c ¥04691f01 + ¥020103)
DIMENSTON 4(109) 081100) 9€(100) 00(100) o£ (100) oF (100)
——_———CAMMON X( 74007 eY (7400) ~— om aoe Pena ae a
P133.214159
WITTE (6194595) 10) e¥N29T03
S'MK20,0
SiMyYs.,0
IF (CONE) 11-1l2e11
DN 5S T=leN aor
SUMKXSSUMK +X (J)
SUMYSSUMY#yY (T)
ENN
SUMYSSUMY ZEN
SUMX=SSUIMX SEN
WRITE (62.406) Mette VYO4 Sher ita
WRITE (610606) MleNoYO4
WATTE (620697) SUIMX
WQTTE(A1leAN7T) SUMX
WOTTE (6204608) SUMY
W2TTE(61°498) SUMY
WATTE (42 04AN9) oie are eat
W2TTE (619499)
DQ 973 T21eN
X(T) =X (T) —SUMX
Y(T)=Y (1) =SUMY
GN TNO 16
DA 4&4 TeleN
SiMKXSSUMK eX (TI)
ENsN
SIIMKSSUMX/EN
WRITE (62¢696) Ml oe YO4
WRTTE (6519606) MleNsYOG
WRTITETAA OATH StteK — ; a
WQ2TTE (6194607) SUMX
WATTE (410693)
WOTTE (629403)
DD 913 THleN
X(T) 2¥ (T) =SUMX
M=z“letl oa aie a ar a eee =
M22sM]¢1
DO 22 L=lem2
Silane
Sime=r.n zs
StimM3sz0.9
Oar sala (Sein cme Siac ae Li ee Tee
L7sIeLe1
SMT SSUM1 4X (LZ) @X(T)
SiIMPSSUMP eK (LZ)
STIMJSSUM3 eK (T)
Z7=N21¢]
iio COME Alle Cea ama ea La
CIEF 2aCOFF #2
A(LY=COFF#SUM] <COFF2*SUMZ2*SUM3 ——————
IF (CONE) 25024025
~ 25S SMae0.0 ce Tart ih Tinh ae oe Ge ae
Sijm52020
: ‘ bas sets —_ ™N. 377
Sum7ean.f
aS aos. 0 SS = ; =
DO 26 ITeleN
EVOL 7
SIIM4=SUM44Y (LZ) #¥ (7)
StUIMBSSUMS4Y (LZ)
SUMBSSUM64Y (IT)
SUM7T=SUM7T*#X (LZ) #Y(T)
26 SLIMRSSIIMASY (LZ) #X(T)
B (I) COEF #SUM4=COFF 2#SUMS5#SUM6 ‘al aa
C (lL) =COEF #SUM7=COFF 2#SUM2#SUM6
: Dt) SCOFFPeSUMR=COFF2#5UMS54SUM3 PP ea aS eae
E(LyS(D(L)4C(L)) 726 AS Mala ee
TMI STON LY Sete N45 ae in eas =
24 CANTINUE ; he Pee. 2 ee Oe , ! a
22 CONTINUE | j
DO 27 K=leM2
eae ia ie IF (K-1) 2Re28929
28 ZM1=M1
~ DELTSle/(2.#ZM1) rea ‘ >
6N TN 32
29 IF (K=MP) 31 eo Ben Sep Ne FONE Tan ey 7c ae a
31 ZM}=M1
PO Pai eMNGien sa a ey
32 Sim129.0
~ SiMP2000 i = =e Sie Rae a aaa an ee 5
S'IIM3=0.0 "
~ SiM6S000 | oer Bin he Gedo Th ae ie)
EmMi=M] ee ee Seer ere ed
~ CAYSKe] a ; :
Do) fe) LOAM He Dr ae a 5 as Pee re
— E_stel
— GUTS (16 *COSF (PI*EL/EM1) ) *COSF (PI®CAY#EL/EM) )
~ SHUML=SSUM]eGUT#A (LY
IF (CONE) 25933035 hee
35 SUM2=SUM24+GUT#R (L)
S'IIM33SUM34GUT#F (L)
~~ SUMGSSUM44 (1 6*COSF (PIPEL/EM1)) SSINF (PY®CAYPEL/ZEM]) ®F(L) 8 = =———
33 CONTINUE ue! oe
Xv SNELT# (SUM14A(1)) . = is ae eee ei
IF (CONE) 37536937
TT AS OLAS PGMA PCR 2 0) J a
Z=aDELT#(SUM34E(1))_
een 10) 0 Oh 2-10 |) = = ea cee
RaSQRT ((Z#e2ewee2)/(X1*Y1))
~— TSATANF (W777 een oe aa ar a ae aT
T3T/00174533
Sr ny SAS OR AURel Welln nicest
Q=W/SORT (X1#Y1)
~—KKak=] = a ee aa a
XLOPSKK Sen Si apr ee pe t-te Gm
BREE Dee CE O* LOS) ACRE
WRITE (62960B)KKoA(K) 6B(K) o£ (K) oF (1) oKD OV oZoUoPRLPRsT
Boon do Ga
T™ No. 377 7)
246 Kako}
Ki Qem) .
Ry QPaKkKk | 5 ah Sneed i
——— FXL Bale #K_Q¥v04) /*LQP fi dE Sa 7 is eta
FRE Q819090./FXLP
WATTE (629602) KKoA(K) oX1 o FXLPoFREQ
WRITE (610692) KKoA(K) 9X) o9FXLPoFREQ
27? CONTINUE
IF (CONE) 39438039
39 Cesk (1) ZSORT(A(1) #R(T)) -
WRITE (620e3)CC
WQTTE(61¢e3)CC
38 CONTINUE
609 FORMAT (4RRK AcCOV U ACOV Ww COV IN COV OUT SP U SP We28H CO
) QUA PER ] PHI)
6NR FOQSMAT(1TXe8HMEAN Ww =oF1025)
6N7 FOARMAT(1Xe8HMEAN |) =9F 1005)
695 FARMAT(1A1 e 6HBRELS=-01393X0F 30) e2HM@oT 9)
6NF FORMAT (13e7F9.302FR elo lF6e2)
606 FORMAT (T3e4ALAGS» 3X eo ISeoLLHDATA POINTS. 5X9 3HDI259F 4.20 3HSEC)
6N3 FORMAT (38H K AcOV SP PERIOD F(MC))
3 FORMAT (23HCORRELATION COEFFICIENT oF 10.8) =e
RETURN
END
3200 FORTRAN DIAGNOSTIC RESULTS = FOR SPECTRA
. ERRORS
YAN e SA
IN» 20 eNM
™ No. 377
Head-to-Tail Vector Plot Program (entitled PROGRAM NUWS
This program (discussed in chapter III) prepares data punch cards from
current meter data (consisting of current vector speed and direction).
These cards are then placed in the Benson-Lehner electro-plotter, which
plots the head-to-tail vector plot.
The abbreviations used are the following:
D = Direction of current (°T)
S = Magnitude of vector (em sec7t)
L =})1 signifies end of data
O continue reading.
1D} ALL
NULL STATEMENT NUMBERS
LOAN +56
11
DMN w
T™ No. 377
3200 FORTRAN
PROGRAM NUS
XxX20
YY=0
Kel
READ 2eDATE9SeDoL
FARMAT (F6.1925X0FH20924X9F 420911)
IF (L) 1005010
FORMAT (3F100e2014)
IF (90.°0D) 49606
THETA&(90,2D) #.01745329
GN TO7
THE TA® (450,20) #01 745329
XaS#COSF (THETA)
YeS#SINF (THETA)
XXSXXeX
YYsYYey
PUNCH 39DATE XX VY oK
PRINT 3eDATEoXXeVVoK
Kak+]
(Ko) 1 @) 1
END
3200 FORTRAN DIAGNOSTIC RESULTS = FOR
(2e))
NUS
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12
UNCLASS IFIED
Security Classification
DOCUMENT CONTROL DATA - R&D
(Security classification of title, body of abstract and indexing annotation must be entered when the overall report is classified)
1. ORIGINATING ACTIVITY (Corporate author) 2a. REPORT SECURITY CLASSIFICATION
UNCLASSIFIED
Naval Underwater Weapons Research and Engineering
26. GROUP
Station, Newport, R. I.
3. REPORT TITLE
OBSERVATIONS OF PARTICLE MOTIONS IN OCEHAN WAVES
4. DESCRIPTIVE NOTES (Type of report and inclusive dates)
(2 Volumes )
5. AUTHOR(S) (Last name, first name, initial)
Shonting, David H.
6. REPORT DATE - a€. TOTAL NO. OF PAGES 7. NO. OF REFS
Suny 20er ee
8a. CONTRACT OR GRANT NO. 9a. ORIGINATOR'S REPORT NUMBER(S)
b. PROJECT NO. T No. 377
ce. Task Ass ignment No. 9b. OTHER Wh FXO NO(S) (Any other numbers that may be assigned
RU22 -2E-000/219 1/R104-03-01 thie report
d.
10. AVAILABILITY/LIMITATION NOTICES
Distribution of this report is unlimited.
11. SUPPLEMENTARY NOTES 12. SPONSORING MILITARY ACTIVITY
NUWS - NOSC
13. ABSTRACT
Ducted impeller wave meters were suspended from the Buzzards Bay Entrance
Light Station to measure particle motions in wind waves at various depths
beneath the free surface. The motions recorded display quasisinusoidal oscil-
lations having an approximate 90° phase shift between the horizontal and vertical
velocity components that lie normal to the wave crests. The wave kinetic energy
associated with the variances in the wave motions shows a strong depth attenu-
ation, but this attenuation is not as great as the exponential energy decrease
exhibited by a classical trochoidal wave. Integrals of the wave kinetic energy
contained in the water column were approximately equal to the estimated potential
energy of the waves.
DD .59%". 1473 UNCLASSIFIED
Security Classification
UNCLASS IF TED
Security Classification
KEY WORDS
Ocean Waves
Oceanographic Research
Sea Surface
Wave Meters (ocean)
Wave Motions
Wind Waves
INSTRUCTIONS
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