SCIENTIFIC ABSTRACT BOLSHAKOV, I.A. - BOLSHAKOV, K.A.

ACCESSION NR: AP4017S69 used for designing a separator of 2-3 statistically close signals; however, witha higher number of signals. the number of alternatives rises so rapidly (as 11) that it would be more reasonable to use, e. g. , a quasi-optivaum method of successive alternativerpair comparisons. Another limitation of the theory is that, in the process of observati?n; the decision as to the number of signals is not reconsideied and the signals are regarded as finally solved. Orig. art. has: Z figures and 40 fornwl&s. ASSOCIATION: none SUBMITTED:. 07M&y6Z DATE ACQ: ISMar64 ENCL: 00 SUB CODE:-,CO-"' NO REF SOV; 004 OTHER: 000  ACCESSION NR: AP4024721 S/0109/64/009/003/0408/0417 AUTHOR: Bolshakov, 1. A.., Laty*sh, V. G. TITLE: is-ola-t-in-g- -an- _u~n_kn'own number of fluctuatin g signals from noise on the basis of the theory of random points SOURCE: Radiotekhnika i elektronika, v. 9. no. 3. 1964, 408-417 TOPIC TAGS: signal, noise, signal noise separation, signal transmission, communication theory ABSTRACT: The fundamentals of the theory of random points are briefly set I forth. A realization y(t) at the receiver output is regarded as an additive mixture of an indefinite number of signals which depends on one type of parameters A and! noise. The parameter values are considered as random points in the space R. A; -definite number of points ii drops out in R, one point per each of the segments 2,1 + d~.,), ..., (%n, %n dXn); this event is denoted by,'AnN, Therefore, with, 'd;.i - 0 , the probability of the above event is .P (A.)* (XI, d,%i dX,; or, using the Bayes formula, the &-posteriori probability is.P(A,) CP(A,,'P(y(t) 1A,') C is the normalizing constant, P(A,,) is the a-priori probability of the event; Card 1/2  :ACCESSION NR: AP4024721 IA~) is a likelihood function. A set of the latter functions is determine d for a various number n of signals in order to find the conditional probability density. A set oi normally fluctuating signals in the white'noise is described, independently fluctuating, statistically identical, nonoverlapping and overlapping signals are analyzed. The a-posteriori distribution of like parameters'of a aet of! fluctuating signals can help in solving the problems of optimum detection measuring, and resolving many signals when their number is not a-prior! known. Orig. art. has: 3 figures and 37 formulas. ASSOCIATION; none SUBMITTED: 303an63 DATE ACQ: 1OApr64 ENCL: 00 SUB CODE: CO No REF SOV: 006 OTHER: 000 Co.rd  ACCESSION-NR: AP4038606 S/0109/64/009/004/0563/0570 AUTHOR: Bol'shakov, I. A.; Vatollo, V. V.; Laty*sh, V. G. TITLE: Methods for detecting and measuring an unknown number of signals based, on the random-point theory SOURCE: Radiotekhnika i elektronika, v. 9, no. 4, 1964, 563-570 TOPIC TAGS: radar, radar signal detection, decision theory, random point .theory FABSTRACT: An attempt is made to unite the decision theory and the thepry of correlated random points for solving the problem of signal observation (detection and measurement). An unknown number of (radar) signals are received mixed with noise. The mean-risk function is set up, and the Bayes decision o erators, p which ensure the highest quality of signal measurement and resolution, are determined. The general structure of a detector -measurer is figured out on the lCard  I ACCESSION NR: AP4038606 !basis of the square-law loss function. It is expected that the same method can be extended over the cases of signals depending on several parameters, signals of several known classes, arbitrarily grouped signals, etc. Orig. art. has: ZZ formulas. ASSOCIATION: none SUBMITTED: 30Jan63 DATE ACQ: 05Jun'64 ENCL: 00 ;'SUB CODE: DC NO REF.SOV: 003 OTHER: 001 ard 2/2      L 65264-6-5 EWT (cl)/EM)-2 A6CESSiON NR: AP5021849~ UP,/0280/65/000/004/003110040, I PUTBOR: Bo I shalwv, 1. A.. (Moscow) I Tl*.rlE:. The detection andmeasuiement of parameters of a random number of signa Is u' lbelongin- to different classes SOURCE: - All SSSR. Izvestiya.. Tekhnicheattayn kibernetika, no. 4, 1965, 31-40 a so si Aite !TOPIC TAGS:, r. ndom. noi inalp, noise 'aignal noise separation IABSTRACT: Earlier papers by: the author dealtvitb the problem of extraction f rom the noise of-a random number of statistically equiv Ialent signals. Rowever, during, -I-applications itican be,rarely assumed that all the signals belong to the, same class. Consequently, using the correlated random points theory, the author establishes, the' la po A. a steriori probability.of tbe'values of the parameters o random number -of si als ~belonging- to different classes and appearing undistin- .gr guls-na-ble. iAthiti t) SCL C 16- otf- Ie'-ba.8"is -of the sol-ution theory - th.e authorL L f ortau a the op~ late -imum operator of the simultaneous detection and measurement of I 'the parameters of signals belongiiigto,several:classes and the signals of a single class over the background:of the others. The results are illustrated by examples -1of regular and fluctuating signals ina white noise. Orig. art. has! 42 formulas and 2 figures.     BOLISHAKOV, I.A. (Moskva) Detection and measurement of the parameters of a random number of signals belonging to different classes. Izv. AN SSSR. Tekh. kib. no.4:31-40 Jl-Ag 165. (MIRA 19;11)  ACC NRi AR6035189 SOURCE CODE: UR/0274/66/000/009/1-005/Aoo5 AUTHOR: Bol'shakov A .- Minin, Yu. N. TITLE: Spatial methods of separating signals from static in a multichannel Wide-scanning-field system SOURCE: Ref. zh. Radiotekhnika i elektrosvyazl, Abs. 9A27 REF SOURCE: Sb. 2-ya Vses. konferentsiya po teorii kodir. i yeye prilozh. Sekts. S. Ch. 1. M., b. g., 46-57 TOPIC TAGS: signal interfere e, signal correlation, reflected signal, signal noise separation ABSTRACT: A synthesis of the best operators for detecting and measurin.'r, signal parameters on a background of spatially concentrated noise interference by the methods of the theory of statistical solution is made. The comparative analysis is carried out for optimum and some nonoptimum processing systems. For the solution of the problem, the amplitude and phase characteristics of individual receiving systems are assumed to be known. In addition, it is assumed that the r 1/2 UD C: 6 21. 3 91. 161:6 21. 3 96. 96 .Ord  jkc' NR:'-'- AR6035189 observation time of the effective signal is much less than its interval of correla- tion, which corresponds to the case of slow fluctuations of the reflected signal on a radar in comparison with the period of observation. Spatial methods of separat ing signals from interference in a multichannel detection system offers a sub- stantial advantage in comparison with methods which do not provide for the com- pensation of interferences. For the measuring stage, the angular sector of significant increase in the noise errors of measurement can be noticeable decreased. The bibliography consists of 3 titles. Yu. Belousov. (Translation of abstract] [NT] SUB CODEE: 171 2/2,  ACC NRI. AP7002245 SOURCE CODE: UR/0280/66/000/006/0134/0144 AUTHOR: Bollshakov, 1. A. i ORG: none TITLE: Some multidimensional filter discrimination problems for processes with stationary derivatives SOURCE: AN SSSR. Izvestiya. Telthnicheskaya kibernetika, no. 6, 1966, 134-144 TOPIC TAGS: filtration, white noise, stationary derivative process ABSTRACT: Multidimensional (matrix) filters are found for the optimal discrimination of the totality of processes with stationary derivatives from their mixtures with white noises. The distinquishable processes are k-integrals from white noise (k = 1, 2, 3), and they are interrelated. In the general case, white noises are also correlated. Changes in filter structure in proportion to the increase in the order of k processes are revealed, and the resulting reproduction accuracy and gains realized by the joint processing of input mixtures are investigated. (Author's abstract] [DWI SUB CODE: 09,12/SUBM DATE: 20Dec65/ORIG REF: 004/OTH REF: 007/ A 1/1   RYAZANOV, A.A.;,BOLISHAKOV,, I.F. Temperatures of flushing fluids when boring frozen ground. Izv.vys. ucheb.zav.; geol.i razv. 4 no.2:133-141 F 161. NM 14:6) 1. Irkutskiy politekhaicheskiy institut. (Frozen ground) (Boring)  BOL'SHAKOY-,-L,F-;--.RYA7,JINOV) A.A. Purpose, design., and operation of an IPI moisture trap. Izv.vys. ucheb.zav.;geol.i razv. 4 no.10:116-UO 0 161. O-aRA 14:12) 1. Irkutskiy politekhnicheskiy institut. (Boring machinery) (Air-drying)  KRIVOSHEM, V.M., insh.; BOLISHAKOV, I.F., Jnzk. &tomatic line for making sand molds, Mashinostroenie no,5& 21-23 S-0 164 (MIRA 18t2)  BOLISHANOV, I.F. M. ".-I-1--, ~ivam.ond-ai-Illing of hard fractured rocks and reasons for the anomalous wear of diamond bits. Izv. vys. ucheb. zav.; geol. i razv. 7 no.7tlll-118 JI 064 (MIRA 18:2) 1. Moskovskiy geologorazvedochnyy institut im. S. Ordzhonikidze.  -- -- -- - --- -- -- -- - -- -- - M BOLISqAKOV, I.F., aspirant Concerning the stability of the bole walls in iderground diamond drilling. Izv. vya. ucheb. zav.1 geol i razv.7.no.loil4l-150 0 ,64. (MIRA 180) 1. Moskovskiy geologorazvedochnyy institut im. S.Ordzhonikidze.  7) 1 k -T S H A 127-58-5-16/30 AUTHORS: Prokopovich, A.A., and Bol'shakov, I.G., Engineers TITLE: Concentration of Ferruginous Quartzites in the Olenegorsk Plant (Obogashcheniye zhelezi3tykh kvartsitov na Olene- gorskoy fabrike) PER10DICAL: Gornyy Zhurnal, 1958, Nr 5, PP 53-55 (USSR) ABSTRACT: The Olenegorskaya obogatitellnaya fabrika (Olenegorsk Con- centration Plant) was constructed according to a design by the Institute "Mekhanobr", and was put into operation in 1955- Its annual rated capacity is 6.6 million tons of ore or 2.8 million tons of concent-rate, of which the first section of the plant should produce 1.6 million tons. The base of raw material for this plant is the Olenegorsk deposit of ferruginous quartzites with an average iron con- tent of 30.4%. The plant has 3 departments: :rusliing, concentration and dehydration. The crushing department consists of the buildings for coarse and fine crushing and 10,000-ton-capacity hoDpers for crushed ore. The con- centration department consists of a main building connec- Card 112 ted by an underground gallery to a concentration building.  127-5a-5-16/30 Concentration of Ferruginous Quartzites in the Olenegorsk Plant The dehydration department consists of a building for dry- ing, a 60,000-ton dehydration store-room and a 50,000-ton dry concentrate store-room. In operation, some defects of the technological procedure were disclosed which have been or will be eliminated in the future. The third crush- ing line with a yearly capacity of 6.6 million tons of ore is to be constructed from 1956 to 1960. Expansion of the concentration building has begun, aiming at a yearly 2.6 million tons of concentrate by 1960. The expansion of the drying building has been completed and 5 additional drying drums have been installed. There is 1 diagram, 1 table, and 4 Soviet references. ASSOCIATION: Olenegorskoye rudoupravleniye (Oienegorsk mine Administration) AVAIL4.BLE: Library of Congress Card 2/2 1. Mines-Development 2. Mines-Operation 3. Mines-Production  , BOLISRAKOV, I.G.; SHLENSKAYA, V.A. , red. iz4-va; KOZIDVA, L.Ye., takhn. rei-d-,- ---- [Before the whole world] Pered litsom vsego mire. Moskvaq Vneshtorgizdat, 1960. 128 p, (KERA 14:9) (Exhibitions)  . . I BOLISHAKOV,J~~Gri~;~'y cqjL RACHININ, G.I., red.; YERKROVA, Ye.A., tekhn. red. [On all contineats of the world) Na vsekh kontinentakh mira. Moskva, Izd-vo IMO 1963. 148 P. (MIRA 16:7) (Exhihtions)  BOLISHAKOV, I.I., red.; POTREBICH, K., takhn.red. [Economy of the Maritime Territory; 9*etatiatical'manual] Narodnoe khoziaistvo Primorskogo kraia; statistichaskii sbornik. Vladivostok. Primorskoe knizhnos, izd-yo, 1958. 189 p. (MIRA 12:2) 1. Primorskiy kray. Statistichaskoye upravlaniye.2. Nachallnik Statistichaskogo upravleniya Primorskogo kraya (for Bollshakov). (Maritime Province--Statistics)  BOLISHAKOV, 1. 1. Formation of the working class in Moldavia and its cultm-al and technical growth between 1945 and 1955. Uch. zap, Tir. gos. ped. inst. no.9:3-23 160. (MIRA 16:1) (Moldavia-Economic conditions)'  BICILISHAKUJI Ivar. 1-11MOVI~,'rl; [To6gy and torxrrov a' r r, 1 " C. f - Id n -la zavtra Frimor"a. V-Iqdivostokt kjjj,~jmce izd- vo, 1c)6-1. 70 p, omlii!  BOLISHAKOV, 1.0. Better organization of roadbed maintenance. Put' i put.khoz. 4 no.6:18 Je 160. ~(MIRA 13:7) 1. Nachallnik distantsii puti, stantsiya Gryazovets, Severnoy dorogi. Milroads-41aintenance and repair)  BOLI SHkKOV, 1.0. Using consolidated brigades in railroad sections. Put' i put.khoz. 5 no.6:13-14 Je '61. (MIRk 14:8) 1. Nachal'nik Gryazovetsko distantsii put*- Severnoy dorogi. Nailroads-Management)  AUTHOR: Bollshakov, I.P., Engineer SOV/133-59-5-28/31 TITLE: Therinal Insulation of Heja:rth Tubcs in Continuous Heating Fur.naces (Teplovaya izollr.itsiya pod&Vykh trub metodichaskikh pechey) PERIODICAL: Stall, 1959, Nr 5, pp 465 - 467 (USSR) ABSTRACT: A study of methods of insulating hearth tubes in continuous heating furnaess in order de::rease heat losses with cooling water carried out by VNIIDIT is outlined. Two methods of insulating: with p:refabricated refractory blocks (Figure 1) and refractu~.-Y s-graeuts (Figure 2) were tested. It was found tllzat the majority of gas-flred h 'eating furnaces0(with -.under the metal not exceeding 1 '1475 C) prefab:r-*'.c:..:*--id blocks are quite suitable. Their life s.:-.ceads 9 months. At temperature up to 1 250 0 C the service life of chamotte blocks in gas-and oil-fired furnaces exceeds one year. For high-temperature oil-fired furnaces (with a temperature under the metal up to 1 475 0C) magnesite and magnesite- chromlite blocks give a good service life. At the end of the furnace campaign, only flalcinn- of t-he insulating blocks Cardl/2 11~  SOV/133-59-5-28/31 Thermal Insulation of Hearth Tubes in Continuous Heating Furnaces was observed. The insulation of the hearth tube with prefabricated blocks can be done in 5-8 hours. A centrallsed production of the insulating blocks, the consumption of which amounts to about 2-5 tons per furnace, is recommended. There are 3 figures. ASSOCIATION: VNIDIT Card 2/2  DIYACHKOV., P.N.; PIJRGfli, A.K.; WLISHAKOV,_I,.P- GUBKO, I.T.; KOSTOMAROV,, Y.I.; SIZOV, I.D. Refractory Diams materi&l. Ogneupory 26 no.9:394-398 161. (MIRA 14:9) 1. Vostochny~ institut on)leuporov (for Dlyachkov, Purgin, Bollshakov). 2. PervoumOskly dinasovyy zavod (for Gubko, Kostomarov, -Azov). (Refraeftry cmcmte)  SMLABVj V.V.; BUMSER, V.Yo.; BORODIN, P.P.; DIYAUKOV, P.N.; AIRGIN, A.K.; LOLISHAKOV,,.I.P.--- Testing dinas concrete blocks in blooming mill soaking pits. Ogneupory 27 no.6:26"69 162. (MIRA 15:5) 1. I-lizhne-Tagillskiy meta-Uurgicheskiy kombinat (for Shalayev, Burkser, Borodin). 2. Vostochnyy institut ogneuporov (for D'yachkov, Purgin, Bol'shak?V). ,, (Firebrick) (Refractory concrete) (Furnaces, Heating)  _w_w_w_w7w_w -47 f a 0 _04 0 It I I It it It I JL _L_A_J_L_ ; P", 00060 "900060 0. ~0.t III11 JP it 12 " .4 x 1_ I -A .4t.- I. *(