SCIENTIFIC ABSTRACT SAPARLIYEV, R. - SAPELKIN, G.
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CIA-RDP86-00513R001447130001-0
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S
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100
Document Creation Date:
November 2, 2016
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July 13, 2001
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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SAPARNIYAZOV, 0.
. ...... ~~ "., - "., ~ - I-
UPAROV,A.
A dream under lock. Vokrug.sveta n0-7:8-11 J'1155. (KLRA 8:10)
(Nubian 29sert--Description and travel) (Sahara Desert-Description
and travel)
(Cast iron-4fetal-IDgraphy)
M.C. MR, IMWIM541 bUUM;X; UUMS UkVV4-LJ/WuuujVV1jvuMjuuM
-AUTHOR: Gulyayevp A.P.; Yukalovp I.N.; Fedorov, Ve .1 T SlEarov, K,j
Landa, A.F.
ORG: none
TITLE: Nonmagnetic iron. Class 40p No 180353
SOURCE: Isobreteniya, prowyehlonnyye obraztey, tovarnyye inaki, no. 70 1966v 61;
TOPIC TAGS: caat iron, nickel contain g alloy
ABSTRAM A now nonmagnetic cast 1ro% a proposed which has a r6duced nickel
content. This iron has the following diemical compoaltion (in % t
n'
Carbon
Silicoh 2.7-3.14
'L4
Manganese 6-a
0.02-0.
03
.03
Phosphona ~0-05_0.C6
.6
C
'*W=iM 0-1-0.2
2
-Nickel 5-6
200-205
&M
SUB CODE: 3.1 SUBM DAM 21Au&"
CWd UDCt 669.131*7
-SAPAROV. 114.A., inzh.
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tc. the phys"t anti chernical basej of pjqNsmtiun of.
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ONY (MIN1110 RWMW fftm Ural dualiti. P. N. 4
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of (1140); CAOOr--Z1xfr-1V9*-rU, 2fril; cf. C. A. 3S.
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which at
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owed that products made 61 raw dunite had stualler vist.
wt.. lower uwch. strength, lower defortnation fet"p.
under.presmaur and hither PINVIlly than those of fired
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OF AMICA AND (IF US %KrAKATK ii~OVIFTCATIONB- Urd-
skaya.Veialfurgi.rt, 19W I tol'-M.-The authors reached the,
following conclu4ions: (1) The refractorinem of silica
depends on the fifing temperature, It reaches 4 maiiamm
at 1210M. and diminishes considerably at t4IO'C- (2t
The parmlonictric amposition of the silica clsarw doeW
not have a decisive influence on the reffactorluen of silica
brick. (3) Of the two raw t rials sell, rts and,
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Pr1
quartzite fired at a low temperature prodaces a Owes
brick with a mme compact and durable stm (4
Silica brick fired at a temperature of 12~D*C, cow
with that fired at normal temperatum bas a higbet spe
cific gravity and density and a lower porosity. The in
crease of the refractorinew of silica brick is due to them.
smaller glasi content and the smaller thermal expansion .
coefficient of quartx in comparison with cristobalite. (5)
Sifi
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AUTHOR: Saparov, V.V.' 131-23-5-11/16
'-'I T LE: Automatic Charging of the Pan Grinder (Avtcmaticheskoye
pitaniye pomol'nykh begunov)
PERIODICAL: Ogneupor7t 1958P Vol- 23, Nr 5, pp. 235-235 (USSR)
ABSTRACT: The above operation was carried out in the department of refrac-
tories of the Nizhnyaya-Salda metallurgical plant. The crushed
material is conveyed from the bunker by mean of a conveyer band
through a funnel which moves together with the'rolls, on which
occasion individual,pieces must not exceed 100 m. The electric
scheme of automatic charging was suggested by the rationalizers
of the plant V.T. Slobtsov, Ye.M. Mokeyev and N.I. Terentlyev.
A relay of the RK type is connected to the electric circuit of
the pan grinder motor over a transfoxmer 380/60; this relay
switches over the motor of the charging device by way of a magnet-
ic starter in dependence on -the load of the pan grinder motor.
When automation was introduced, the old charging device bad to
be replaced by a new one, which was produced by the BelqkbmU-
nitikiy Plant imeni Lenina. In order to warrant undisturbed
Card 1/2 operation. of the pan grinder the moisture content of the material
3/131/6p/000/04/02/015
3015/B008
AUTHORS: Yuzvuk, D.I., Sapar-ov- V..V.
TITLE:- Seuidry Method for the Manufacture of Chamotte Products From Clay
Types of the Troitsko-Baynovokaya Deposit
PERIODICAL. Ogneupory, 1960, No."4,,PP* 153-15T
TEXT: In'the paper'under review theautho.re describe theintroduction. of the
semidry pressing method at the Bog'danovichakiy ogneupornyy zavod (BQgAAno-vj6h.
Works for Refractories) which was started there in 1958. The producti-on-scheme
of the V'esoyuznyy institut ogneuporov (All-Union Institute of RefractorieO
a A V/' ~
(Fig. 1) had to be altered in the course 6f- the erection of the plant and its
starting up. The clay types of the Troitsko-Daynovskaya deposit show'an'
inconstancy of their physico-chemical quality indices (Table 1). Insert bricks
for checker chambers with a porosity of 22% and ladle bricks with a porosity of
21% should be manufactured from these clay types according to the admidry method.
The composition of the charges can be seen from table 2. No dense products,
however, could be obtained when using these charges. The firing temperatures had
Card 1/2
Semidry Method for the Manufacture of Chamotte S/131 60/000/04/02/015
Products From,Clay Types of the Troitsko-Baynovskaya B015XBIO08
Deposit
to be increased and the, inserting of the briquettes into the kiln had to be
altered upon a proposal by I.M. Novikov Fig. 2). Since the required porosity
of the products, however, could not be warranted in.this way, firing was carried
out in an annular kiln, the inserting being done in accordance with the scheme
in Fig- 3. The authors state that the manufacturing technique of ladle- and
insert bricks must be perfected still further for the purpose of increasing
their density. There are 5 figures and 2,tables.,
ASSOCIATION: Bogdanovichskiy ogneupornyy zavod (Bogdanovich Works for
Refractories)
Card 2/2
SHVARTSMANY f.Sh.;'NIKHALEVA, Z.I.; TURCHANINOV, V.S.; PAYAKIN,Kh,.M.;
KOVAIENK07 V.D.; YUZVUK, D.I.; SAPAROV,, V.V.
Stoppers and nozzles from Ural Mountain raw materials.
Ogneupory 28 no.l2s538-543 163. (MIRA 16:12)
1. Vostochnyy institut, ogneuporov (for Shvartaman, Mikhaleva)'.
2. Nizhne-Tagillskijr metallurgicheskiy kombinat im, V.I. Lenina
(for Turchaninov, Papakint Kovalenko). 3. Bogdanovichakiy
ogneupornyy zavod (for Yuzvuk, Saparov).
ACC NR, AP6021570 SOURCE CODE: UR/0131/W0001003/q006/0008
AUTHOR: Yuzvuk, D. L; Saparbv, V. V.;Khomutinina, A. D.; KlYuYeVV V. M,
ORG., Bogdanovich Refractories Plant (Bogdanovichakly ogneupornyy zavod)
TITLE: Device for prolonged measurement of the temperature of molten steel
SOURCE: Ogneupory, no. 3, 1966, 5-8
ticbRAiriee, Mc,,LreAJ /nc TWA-)
TOPIC TAGS: Uiermocouple, temperature measurement, high temperature Instrument,
metallurgic research
ABSTRACT: On the basis of blueprints drafted at the Bogdanovich Refractories Plant a
device for prolonged continuous measurement of the temperature. of moltenIsteel in the
hearth furnace has been constructed (Fig. 1) on using awater-cooled immersion thermocouple
tipped with a specially prepared mixture of ZrO and BiC which does not interact with molten
2
steel at high temperatures and sheathed in protective, refractory liners. The ZrO-sic tip
2
and refractory Pmers assure normal performance of the thermocouple for 2-3 hr. The device-
also included a holder,.a. bushing, and a steel tube protecting the thermocouple against im-
pact on immersion in the molten bath. The thermocouple is inserted into the opea-hearth Am!
Card 1/3 UDC: 666.76:536.532
ACC NR, AP6021570
tationary device for pro--
Fig. 1. S
longed continuous measure-
mwit
of thetemperafare of
molten steel in an o
pen
hearth furnace.
thermocoupl
e; 2 clirecting
A supporting rods;4 - wate -
3 r
zO moving mocha-,
cooled tuyere; 6
WOM
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4
s
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CoM 1 1/3
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A006/,M'02-'~
Translation froms Referatlvnyy zhurnal., )4etallurgiyaj 19661 Sp 5 P. 321
1144o
'AUTHOR-. Saparov., V.je'
. . . ......
Or, the Graphical Calculaticon 'of the Composition of Multi-Componen
t
Systems
PERIODICAL., Tr. Leningr. tekhnol. in-ta. Im., Lensoveta, 1959, No.:50,, pp. 210-226,
The author discusses a graphic method 6f' calculatihg-the 0ompds#1iM
.of
4-, 5-, and 6-component systems. He investigates also-the rules of the can-
necting straight line and the rules of 'Lever. The combined (central and parallel.),
project,ion of any point of the spatial coordinate figure onto its fac4is is used
as the basis of the suggested method of representing a multi-compohent system.
The faces, i.e. the projection.planes are rotated around a common edge until the
coincidenae with the plane of the graph is~.attained. In,such a manner, the point
corresponding to 'the composition of the multi-o6mponent system, is represented by
,".s projections. Project-ions of the same point are connected by the corresponding
connection lines. The location of the connection linet'may be diverseand depends
-Card, 1/2
(Electric cables)
SOV/123-59-20-83549
Translation from: Referativnyy zhurnal. Mashinostroyeniye, 1959, Nr 2o, p 154 (USSR)
1,20oa
AUTHOR: Saparovskiy, S.V.
Sal
TITLE: New Linking Method of Preparatory and Assembly EQuipment for Complex
Spatial Airplane Units
pERIODICAL: Tr. Kuybyshevsk. aviats. in-ti 1958, Nr 7, pp 3 9
ABSTRACT: It is suggested to exclude severallinking points of preparatory and
assembly equipment for units of the exhaust system (exhaust pipe and
jacket) of airplane engines. The suggested construction of a model is
based on the outlines of theoretical loftings, which are reproduced by
steel patterns, to be switched on in th,~ model. The author describes
the technology of manufacturing the model, which represents a rigid
construction of lofting patterns and does not require any intermediate
linking elements, owing to which the dimensional chain from the lofting
to the assembly jig is reduced. The fundamental advantages of the new
method are: High precision in the manufacture of the model shape and a
Card 1/2 long preservation of this shape owing to the application of metallic
a
L 05016-6-
ARG031776 SOURCE: CODE- UR/0276/66/000/006/V017/V01-1
AUTHOR~- Smelyakov, Ye. - P. ; Saparovskiy, S. V. ; Kaluzhskiy, 1. -1
I study of the process of pulsed deep drawing with fold forinai ion
T
T LE: A
SOURCE: Ref. zh. Tekhnologiyamashinostroyeniya, Abs. 6VI15~
REF SOURCE: Tr, Kafedryproiz-va letatelln. apparatov. Kuybyshevsk. aviats.
in-t, vyp. 20, ch, 2, 1965, 19-40
TOPIC TAGS: deep drawing, deformation, pulsed deep drawing
ABSTRACT: A method was developed for pulsed deep drawing withfold forma~-
tion. With this method, the mechanical diagram of the deforming material is
improved considerably by combining the drawing elements (without clamping) and
by the intermittant application of pressure and the sizing of the flange after the
latter loses its stability. It was found that the degree to which the flange is
strengthened during one pulse may serve as a criteron for selection of the
amount of the depth increase in drawing. The magnitude of the increment of the
drawing depth for a single pulse can be calculated either from the derived formu-
Aas or by a graphic method of solving equations with a nomogram. Orig. art.
has: 8 figures. Six references are given. [Translation of abstract]
Car~ 111ZCSUB CODE! 131 jj)DC!_AZj_98_a~ 3 y0ration forming
L 26272-66
ACC NI; `R7004883 DE UR/0276/66/000/009/VO21/VO2
SOURCE CO
AIJTFTbR:' Saparovskiy, S. V. Smelyakov, Ye. P.; Kaluzhskiy, 1. 1.
TITLE: Study,of the stepped cupping of parts using a sheet-stamping harnmer in a
special setup
SOURCE: Ref. zh. Tekhnologiya mashinostroyeniya, Abs. 9VI44
REF SOURCE: Tr. Kaf edry proiz-va letatel"n. apparatov. Kuybyshevsk. aviats.
i in-t, vyp. 20, ch. 2, 1965, 3-18
JOPIC TAGS: steppcd extrusion, extrusion ratio, metal extrusion, buckling,
:bending, cupping
ABSTRACT: The process of cupping of each stage can be.divided into bending and
extrusion of the blank prior to the moment of buckling of the flange; extrusion with
folds on the flange; and straightening of folds- and moderate extrusion. The extrusion
'force is highest at the first stage; it is 30-40% lower than in conventional extrusion.
!Experimental data show that stepped cupping permits the use of an extrusion ratio
:20-251o lower than that for conventional stamping. Intermittent loading also reduces!
1/2 UDC: 621. 983. 3. 001. 1
Card
SO: Sum-No 787, 12 Jan 56
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I*
.
Ji
f
l
l
1j
d L
=
1
orwa
I
.
l
.
.
.
.
J'etill an
_&~.
Wjfnj
.1
Itt-lova. Twootnit. Nowli.- s.1 oir~l. G;Z K.Arimov.4
0
0 Prum., Wpoik Rebut No. So 36 -, (1104),
lly 1,
f,
lmjwth-t in X44*4711. 8-1 CA ly~t in the Kjrl,laI nk-
"I W too,
-00
.
IrAllu'r
all., mIlMeAvItilh- lanal (
"'
'
1
l
I
1 I . .
-
Ittv Ififte toi
AIM
-4-trawil fly [.to
I
Y*4% via% 11
iml the
h"
. -00
I -
ft-Allit were hkittlical with thIrA. f-licahird [or troing thir
would ratalyqN, rlignit I g, of Wither in a Kjrhfahl 1164 I
z
.00
with 11) vc. noned. 11"". + 2-4 C. X.St), U 0A1 K. Sr' A 00
Tram-4cr The fivimis to a 2s)4v. intsunning &A, fill
millsolt-til, 11,01tithemairk,and
with 2 N alkali lit the primenlre o.f "wlhyl mt. T.v a
note
Go -"vnd 2-5-tv. pulltiton add U.2 03 tv. X alkidii and
tirmpIrte the tittalimi with 03 N Alkali too it chanKc ul
ILIM, Culooll', MW 5 cc- t-I a imutrah" 44G (vinsul An..
lvt Stand. add 111-7 dituto of Phemillplithakin, anst titrate
with (1.1 Satinditism pink vokoraiiiitin. Fitanibrainuunt
A 1111:0111111
of 0.1 N AUL" *A. vcquirrd dcdwt the ammint rolittti"
lift 1.4011.whrrva is the no.vicc. 0.1 NalkshatillY -0
the wt. of the leather. The amounit lot N 6 rovAled. for
O*
-~M. homormthides and pill ollins by using the twour &.62, low s
itimitt AhmAtul vik hitiv. hy h.73and Im .1.,I-kino; toy
nee
A. lkx
0 41
AS-SLA JTALLUPCOCAL LIMATLI&I CLAtInIFICATICII
06 t!
U-
a AT -0 Ifl
10 ar 0 it 0 K 9 or It It 19 a te it of
lit III Ia a IF
W a I lie
0 0 000, 0 of 0 st 00 of 00 10 0 0 10 9
0 0 0 0 0 041 00 Oe 00 0 069100 0 A 0 00 0 45 111!, 0see 0 0
41 0 Oile 0 6 0,00 00 9-0:0~11111 0 "-,7
- - - , ^,a a go 0 a ff a a v . . ~ . - - - -
-
11m m A )60 k, a A . f, it t4 0 IR
I P I AA I U W P t
4
00 0
0 ir pftirgaummosts of leather samples
Imades" of Twie
a in NMI
an me p"No of dwom" saw
zT4 4*)v
v
l
au
. 4
N. 'T'What", beviro
'
PsAawm*4 PNO. SWfxib P4604 N"- 41- 144-,M(
A
Otm Ntliples dismi ttt*n it* helml yet cw the drum. Waken
-
1*
4
00 0 4
W
41
Intor 4 felt,
4111 While vwett bh"W R reat" Pit,-, -toold have 11wteftwe
it to hkb whoastre
i
0 t,l
and to sow n I*C1
14 1 twimmod bwo*bs 04 0 li,
*vIlient 04 0.0
twt "upw "I oria ilviril "N"
w. got
cut% its d ritil bettog 111111111110 &W tbv sitali~la O"d 'be 'lly-
Cast be out W out at few lomp. or, it a temit, toll (it
f
In the
ptpw#Awq o
1
00 fisathm with t he ftw, hkl# tit W*- star of the tAnuillit.
0
: Ow "Iber swIT61 Shmul 1w carried tild With. lite In*
i
wtictl by An
W thl
is then
0a i b
j
hble for c punim m
mc
analyols of the treated mul dried Me. r hide ohmm
00 be pr"4. (cw mutalymb in pkcn 0.6-46 mm. thick &W 3
id
hi
O
i
ne
m
ng w4c
mm. mog. The Kocriver k~-cutt
h bftt
h
l
O
.
t
t,( vest km in I
t
ni't lw Used bpmu~. n
'
b
t
t
d
t
l
ot
r
in are
a
l".10wil and the irmi
The vapts. we I
A. A~ thwhtlinikk
40
a . S L A
- 7 -2,
--
-
--
---
-
-
-
-
-
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4 0 0 j 0 ,
i
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I or '14
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0 EF 6 4 AL t 0 PC it 32 " X1xit v is 30
h 4 f k 40 41 a A) w W
V cm AT is n
, 7 ST .*D W, t(ITta J.D AT-"Of6t Qtc 'I 4p
.43 "01IT354IS1113 21MI.Niv i lf~vjmn lilt J. WIS-1v
eon
494
00
evc~
,
,
oz
t r go
!to-
04.
-T,v
.,MIS son" a*-
--,3 *pq Tj -n-"w w Mlwtn p- p,M.
1
M-- Aq paumqa 9 IZ)9.V p aU 00
OW) pbm"W31130 11 P" I(Irpi"P My In OH
911 4 9Kvkm4cI_"UpAp"_%
%9, 00
'I *IV* al WON"
In P"
m
ft
so NuMpffift" a" Poe
vI
K
go
11"M '35 fA 0 t j a 7-1 -r-"- 1 'T
' 1
, I
,
, i
a a 1
v
0
.
Y.- Or f //V
if
.A aged. In cei~l Scil Resc"a
and tes. TU7drMljV4
(19W)~ne relation of visoosity of soln. of atorinaud.
Q(v y! chloride) (1) to solvents used was studied. A P
0 S!L of I in acetone W a viscosity 7 "A Ift., In
RtOAc, 28.8-.18U sm. D.Urcrences of mol: wt. of 1, gaTe
vLwo4ty differences only 3.7-5.1 see. Addn. of 30% of
gasolene to solvents ICSW3 the vixosity of I win.; adda, of
50% raisrs the v6cosity. RtOAc and BuOAc, give hightM
vix-oalties. The viscosity incrca.%-% on aging anti the
vAns. somethnes get. A techn. cement of 2&-29% cotwn.
has a vLseosity (Engler) 2004M w.- CLnnents on acetone
basis contain 29-3270 of dry suirstaucv. The best method
for dem. of viscosity of I soln. is a raotwting bubble in a
glass tube of 7 mm. ditun.
maim,
co=wt for footwasr. F. A. Sa u s s _R~ 103. -
jZ431. ~AuTgt.1.6nlgW. A pcl.~~ f Cement
.~.gWtabje for tae ill ~_Meutfi4 nonpaW r2bbu t, w4de by
t!L-- t-- thet P~Wcbj_ VI
- ptr"Wes 0-f itrd-W-- A-t
or lo
w1j. may bp Wed CHA Tthtt
COMP43,
COUDITTRY : USSR
CATEGORY : Farm Animals.
The Swine
ABS. JOUR. I RZhBiol., No. 3, 1959, No. 12059
AUTHOR : Sapegal L.
INST. : !~Artute of, Agriculture imeni K. A*
T ITLE : Perfecting the Pigs of the Latvian White
I-Iarebred Group.
ORIG. PUB. -kh
sb. stud. naucluio-issled. rabot MOSJc* S
.!*
;,
akad. in.. K, A, Timiryazevaj 19,57 (1958) M
ABSTRACT Tca- c:,'~eumsto_nces rxe ds3-ribcd through which
the latv-~ -~-i ~r*--cd gronp of pigs
n7.iY-.Ar1,7 nore thar. 100g.0%,~_-, heads was
ere r: 1; --, d p!Lc~.3 ti..~- charaete;~'_zce by
b-,tD;iriegS'; a ions torf-'O. high 'Vortility and
artl ma-t-.i::,at_Lon rate,
At '11L; !-_jC- f-f om ii~ont.11- the Weight of piglets
-,0 at ;! months -to -2~-65,, at
o 5, ai; 6 mcnths uo 80-1040 . and if
t! %Y r e fattened, at 9-10 months to.140-
kg. A. D. Masin
Card:
"TD~iryazev.
**7s, 157-161
ACC NR, A J'600557J SOURCE CODF,'. UR/00001165/000 ~000/0070/6TW-7
f
.AUTHOR: Ayj!~~xj!~.qe.,!j .0,; Sape in,
ORG, none
TITLE: Effect of the number of indicants -upon ffi'e. rel iabilit,; of recR&~~itlofl in
determining (with an error) the a-priori probability of classee
SOURCE: AN UkrSSR. C hitaytts h(-- hive avtomaty i (Readitig
devices and Iiatte rit recogniU011) Kiev, Naakova dmaka, 1965, 0-80
TOPIC TAGS: pattern recognition, statistical analysio
ABSTRACT, A cast-, of recognition is considered when irauy Indicarits are common'to
all pichires and 111-Wriber of indicant gradations is the -garne for all pictures. The
illCludes identification of a realization- b. with one of the Pictures,
ai. This identification is based on an analysis of the a-posteriori probabilities witich"
are calc-._ilated from *his formula: (at) P x1blai),I
P (ai)b).
Maximum of P (a/b) may -serve as a
criterion of the identification. The possi-
P (4) P (bla)
-npensating the p (~
bility is considered of cot i1b)
P (a) P Wa)
lack of accurate knowledge of the P
(a
m1b)
distribution p (a) by increasing the number
V mci"PW03
of indicants used; here, p (a) Is the
L
~C_
C NR: AT6005570
F
la-priori distribution of proVabilities that characterizes the set o__- pictures. With
known distribution p (a), a greater number of indicants results in reduction of
a-posteriori entropy. With a sufficiently great number of ind-icants and the error
6 p(a) variation in the entire range of its possible valuefi, the a-;erage probability of
the recognition error can be inade as small an desired. A nume.rical example
illustrated the above cons ide rations. Orig. art. luis: 5figures and 33 formulas.
SUB CODE: 12 STIBMI)ATE: 31Aug65 ORIG REF: 003 OTH RFF:. 00 1
Card 212.
Zr~ .5i
24
I IELVerag:Lng Or conditid6s. - The '161-5
ducting
plaw eds . r Thj,~ 0
taking in consideration, only ~M,:j~cA vav
attenuation
~CQ*- .10 i~
0
P
-7
!Cardp
----------
igth --of'. 6c'ft-
BARYSHEVSKIY, L.M.; DOROSHEITKO, N.l.; DRUYANj R.L.; OSIPOVA, N.A.; SAPELKIN, A.I.-