SCIENTIFIC ABSTRACT MOZES, C. - MOZGLYAKOVA, V. A.

IIIR,L%nj~t/virolo~~j - Viruses if Mall and .li..:als. E Virl-Isjs of Hepatitis. A.)s Jo.;-~* : Ref Zhur Diol., No 6, 19159, 23891 Authir : popper, A., M.Zes,--C. I:-'St : - Tit--e oil t:--e Problem ,)f tie Role of EpideLiic Hepatitis i;_ t:,e EtioloLZ of DiabetG3 Mellitus. Ori~, Pub Viata ned., 1953, 5. No c, 433-438 Xostract No abstract. 1'~1226 FTM Card 1/1 - 34   IJ RUMAM/Chemical Technology. Chemical Products and Their H Application, Part 3- - Treatment of Natural Gases and Mine-ral Oil, Motor and Rocket Fuel, Lubricants. Abs Jour: Beferat. Zhurnal Khimiya, No 21, 1958, 71996- Author Gheorghe Mozes Lidia Cosaceanu. Inst Title Study of Sta:biJAty of Transformer Oil. Orig Pub: Blectrotehnica, 1957, 5, No 9, 299-3o4. Abstract: The results of the study of the anti-oxidizing effect of 2,6-.di-tert-butyl-n-*cresol and n-oxydi- phenylamine an transformer oild (TO) of various brands, as well as technico-economical consider- ations regarding the application of anti-oxidants for rising the TO stability am presented. Card 1/1  85C87 R/003/60/01 i/oo8,/or)-)/c,(_' A I 25/V AUTHORS, Roman, P., M6zes. Gh. TITLE: Research on the Production of HIgh-Purity Silicon for Semiconductors Report I. Production of Boron-ffree -Silicon Rods Fiom Silicon Tetra- chloride and Litbium-Aluminum Hydride V1 Ll PERIODICAL,, Revista de Chimie, 1960, Vol.. 11, No. 8. pp~ 464 - 1168 TEM The production of pure silicon from silane was sludled by Wilson (Ref. 1), Kreshevnikova (Ref, 4) an3 -others (Ref. 5) This method has the advan- tage that only a single gaseous component I e.- silane, is I_n*.roduced., wnich can be easily purified. The most impertart procedure for the preparation of silane can be divided into three cathegories; I ') Decomposition of silicons with- acids (Ref. 6); 2) Disproportioning of the substituted silanes (,Ref 4) and 3) Reduction of silicon components with 111thium-aluminum hydride, (Refs. 7, 8,718) The last prodedure wiwre SiC14 is reduced by Ll [AlH41 proved to be the most advantageous metnod. The application of th_ls method Is only influenced by the production of Li [AlH41, which Is very expensive. Silicon tet.rachlorlde was prepared In a pilot station made by 1.C.E.T_ (Ref 9). Lithium-aluminum hydride was produced starti-ng Card 1/3  85087 R/G0V60/01l/D)8/003/00D_ A125/AO26 Research on the Production of 9igh -Purity Silicon for Semiconductors Report I Production of Boron-Free Sili~on Rods FT~om Silicon Tetrachloride and L,~h.,Am-Alu- ininum Hydride from L-1.2CO in successive phases as follows I Preparation of lith-lum- Accor- ding to Re s. 10 and 12, lithium metal an be prepared by reduction of the li+l-dum salt by vacuum metallurgy and by electrolysis of the LIC1 melting, The second method Is more advantageous. Lithium chloride was obtained by T.reating L12CO with HC1. 2) Preparation of lith~ium 4ydride: A0,ording to Albert (Refs. 11 and M,' ~' LiH can be obtained by direct hydrogenation of molten lithium at temperatures ranging from 450 - 7000C. Novr-,triy (Ref- 13) produced lith-il.Lm by hydrogenating lithium amalgam. Another p-oc-edure (Ref, 1.4.' Ponsists in the reduntion of LIO-;) with Mg. The authors used the hydrogenatlon of lithlum, ~) Preparation of lith- ium-aluminum hydrida: L-1 [AlHO~ stud-Led by Schlesinger a-rid Flnhol~ (Ref 15) can be prepared by reaction of LIH and A1C1_ or. of LIH and AlBr in eth eric solution Although the secon method proved to be more advantageous AIL~ was u--ed for the industrial production of Li LAlH4]. because AlBrq Is less acres-sble Silane was produced by Introducing SiC14 Into an eTherir so~utlor of L' [AlHO having an excess of 10'% against. Si.Clj,. The disengagpd SiH4 is passed *.hrough different de- vices into the decomposing chamber, wilere it Ii deposited or) a 220 ffLM long. 2 mm Card 2/3  85087 R/003/60/011/008/003/0c:l A125/A0?f' Research on the Production of High-Purlt,y Silicon for Sem1condtictors, Report I Production of Boron-Free Silicon Rods from Silicon Tet.-_-rAoride and Uthium- Alum - inum Hydride in diameter, tube-shaped tant-alum wire, having a wall th1rkness of 0 45 mm, and heated to a temperature of 1,0000C Thus, a homogeneous deposition of an 8 mm in diameter and 170 mm long rod-shaped silicon, was obtained Traces of Cn, Mg and Al were detected in the silicon. ait of 145 gr Of SiC14 a total of 22 5 gr of silicon with an efficiency of 94% were obtained. 71his silicon then has to be pro- cessed, lu order to obtain a monocrvstall, There a-re 2 figures and 18 references- 6 Soviet, 1 Rumanian, I Czechoslovak, 7 English, 2 German and 1 French. Subject article is based on a paper presented at the Meeting "Semicondu-toare ~i aplicat- Me lor", (Sernicoyiductors and Their Application) on December 9 to !1- 1959. Card 3/3  85088 6--X4" R1003160101110081001110(j-:, A125/AO26 AUTHORS. Nicolau, Fl.; Engineer, Mozes, Gh.; Grigorovici, E.; Chemists V TITLE: Rio-Purity Silicon lor Semiconductors in Rods and Granular Shape by 5111con Decomposition, Report II, PERTODICAL-. Revista de Chimie, 1960, Vol. '11, No- 8, pp. 468 - 476, TEXT- The article is based on a paper presented at the Meeting "Semicondvc.- toare Ri aplicatiile 12z" (Semiconductors and Their Application , held on December 9 - 11, 1959. 8iliconVs more and more used In the production of semiconductors. Pure silicon can be obtained by different methods, but the most efficient method proved to be the thermal decomposition qf silane, which has a number of advantages (Refs. 1, 2, M. Silane can be obtained either by the reduction method of A. E. Finholt, or by the method of starting from HSiCl (Ref 2). The authors used the second method, studying it in two variations-. aj Pass'ing HSiCl 3 through SIH4, ~X' and b) Direct thermal decomposition of MiCl 3 or reduction with hydrogen (Ref, 3), Trichlorosilane was prepared following the methods by Buff and W8hler; Combes; Gattermann; Kahler; Stock and Zeidler (Ref. 4); Kraus and Nelson; Broth and Still- well; Witmore and Pitsusza-Sommer (Ref. 5), The authors produced trichlorosilane Card 1/3  85088 R/003/60/0 11 /008/004/005 A125/AO26 High-Purity Silicon for Semiconductors in Rods and Granular Shape by Silicon De- composition. Report II by direct synthesis, by passing dry HC1 over SI granules at 2800" in the appara- tus shown in Fig. 1. In contradiction to previous works, the reao-rAon pipe was located vertically. Brief reference is made to the apparatis and the production procedure, The authors then studied the production of granule-shaped silicon by tAiermal decomposition of' HSiCl without H2 addition in the quartz tube, at atmos - pheric pressure. This method Ls the disadvantage of leading to an contamination of the silicon by impurities such as boron. Reference is made to Stock and Zeid- ler (Ref. 4), Wilson (Ref. 1) and Theurer, Figure 3 shows the installation for thermal decomposition of HSICI on quartz tube, Rods or gramule-shaped siliaon can also be obtained by catalytic disproportioning of trietoxyailane to silane and the decomposition of silane. For preparation and purification and trietoxy- silane, the authors adapted the method of Havill, Joffe. and Post (Ref. 9) The catalytic disproportioning of trietoxysilane to s.tlane and tetraetoxysilane was observed by Friedel and Ladenberg for the first. time. Kreshevnikova, Pokr-ovskiy and Rumiantseva (Ref. 2) used this reaction for the prepaxation of silane and its thermal decompositions with the purpose of producing St for semiconductors. They decomposed silane on a tantalum wire, obtatning polycrystalline Si bars,, For the Card 2/3  85088 R/003/60/01 I //(Yj-c A 125/AO26 High-Purity Silicon for Semiconductors in Rods and Granular Shape by Silicon De- compositi:a. Report II production of Si bars, the authors used the installation shown in Figlure 5. Ref- erence is madf! to the installation and the procedure The efficiency of the Si deposed in bavs is 70%, the other Si being deposed on the wills of the installa- tion. Si deposed on the quartz tube contains less than lo- % of B. SI deposed on tantalum w:.re contains the following impurities: Mg, Al, Cu, Fe, and B. The Si rod is treitted for 48 hrs with concentrated HF in order to dissolve the tanta- lum wire and 1.s then pickled with HF+HNO 31 This polycrystalli.ne Si rod is physl- cally purifiec, by a zonal melting and passed over to monoorystil- The resist1v1- ty had a valuo of 50 ohm1cm. The boron impurity In the SI rods is a result of the "diboran" content of the silane, or the influence of the glass of the installation The authors finally mention the elimination of ;'diboran" from the siiane There are 6 figures, I photograph, 2 tableEF and III references 5 Soviet, 2 Rumanian, 5 English and 2 German. Card 3/3  _~41)j (~ R/004/62/000/002/002/002 (16 ; 0/ 116- 31 D014/DIO5 AUTHORS: Lapeda~u, E., Zaharia, C., Friedmann, A., Arabian, f_.,_Radu, 0., 13arto?, V., and Dedulescu, L.,(Bucharest) TITLL: New types of selenium rectifier-cells PLRIODICAL: Electrotehnica, no. 2-3, 1962, 72 - 86 TEXT: The article describes the possibilities of improving the performance of Rumanian selenium rectifiers and presents three new rectifiers developed by IGLT=1nstitutul de cercet~ri electrotelinice (Electrotechnical Research Insti- tute) and the Uzinele "Grigore Preoteasall ("Grigore Preoteasall Plant). The performance of Rumanian selenium rectifiers was improved either by increasing the-inverse-peak voltage as in SV-1 rectifiers, by increasing the current density as in SV-3 rectifiers, or by increasing the inverse-peak voltage aid the current density as in SV-2 rectifiers. The 3SV-1 cell was improved by in- troducing thallium in a concentration of 8.10 % into the SnCd counter-electrode and applying solid sulfur-in-selenium solution on the surface of the selenium layer. This gave the SV-1 cell in norma.1 cooling conditions an inverse-peak Card 13  R//004/62/000/002/002/002 New types of selenium rectifier-cells D014/DI05 voltage of 25 - 40 v P a current density of 25 ma/sq cm, a specific rectifying power of 0.3 - 0.4 w sq cm, an over-all efficiency of 95 - 97%, an operating temperature of 65 - 7500, and a volt-ampere characteristic as shown in Fig-5. The SV-1 cells are produced in series by the "Grigore Preoteasall Piant. kn increase of the current density in SV-3 rectifiers was achieved without re- ducing the inverse-peak voltage by providing the SnCd counter-electrode with adequate thallium. The SV-3 cell has in natural cooling conditions an inverse- peak voltage of 25-30 v f. a current density of 50 ma/sqcm, a specific recti- e fying power of 0.8 w/sq cm, an over-all efficiency of an operating tei-a- perature of approx. 606C, and a volt-ampere characteristic as shown in Fi-.19. 1n forced cooling conditions, the specific rectifying power increases to 2.4 w/sq cm. Serial production of the SV-3 cell is being prepared. In SV-2 rectifiers, the aluminum base was first coated with a 0.5 - 1.5-* -thick cad- mium layer and then with a 60 - 70----thick selenium layer. The non-rectifying junction was obtained by soldering under pressure a 40-A -thick bismuth-coated 0 aluminum sheet on the selenium layer. The SV-2 rectifier has in natural Card 2/ 6  it/004/b2/000/002/002/002 New types of selenium rectifier-celis D014/D105 cooling conditions an inverse-peak voltage of 35 - 50 vef, a current density of C~ 50 ma/sq cm, a specific rectifying power of 0.7 - 0.95 w/sq cm., an over-all m efficiency of 96 - 97~, an operating temperature of 65 - 70*0 and a volt-~wipere characteristic as shown in Fig. 26. There are 31 figures. ASSOCIATION: 'Mozes, L., Lapedatu, k;., Zaharia, 0., and: Friedmann, A.: 1~;-~-'T; Arabian, L., Radu, 0., Bartoq, V., and Dedulescu, L.: Uzinele "Grigore Precteasall ("Grigore Preoteasa!' Plant). Card 3/6  MOZES. GY. 17 . ineM , al '-Iftw.ers 41r. '-.-e -,-4 et - p. l-'-2 (1-',a.-y;;r ~,emJ;-uscIr Lz: -*P.. 'i( I. '1~, n. . /c, -q-'- , .,- - .,.!, - - - -y ~ Nent~ily Index ~ f *-,ist --i.r(i P;~n Acces,-.-( rs ( ) '. . Vr 1. . 3 r, . 1, , Febr.~ery 1918  i7r, -Y 71 f , tlo C mlo ' t 1 17 1~ (7"P I , t no - A BS TIU,'~ T t -1 c I C- 1 ve n -Aeviow c) f r,~sooxcl-l 4' n t Iv, 1~pnl I r-t * - ^ ~ I I . - ~ -1 J, I C ir,- - r r, L"(,, 3 o ~a, c7i I IT a~ural. of ollt, of pot-z-~lov,-1 of t1le !lotor anfl ra -1 C li-102  MMES, Gyula Penetrajian as a charaeterivtic oT bitumens. Veszprem. vegyip egy kozI 4 no.4061-362 260 Viscosity of diotillation a"d blo,,m bitumens as reflected In the function of temperature and sqearing tension. Ibid-363-364 Refining the Tuym&W deparaffinia3d distillate h9avy oil by using fvrfurole and phenol. lbid.065-366 1. Magyar Asvanyolaj es Foldgex Kiserleti Intenet, Veszprem.   AUTHORS: TITLE: Z UUo/u/ Bi 67/B101 Mozes Gyula, Fenyi Gyulane' Investigation of viscosity additives to lubricating oils PERIODICAL: Referativnyy zhu:--al. Khimiya, no. 6, 1962, 558-539, abstract 6ML246 (:.Iacyar asvanjolaj4s f6ldgaz kiserl. int. kbzl. no. 2, 196i, 130-142) TEXT: A study of the basic properties of 12 Hungarian and foreign ad,itives: (1) viscosity at 50, 70, and 1000C by a capillary viscometer, fluidity curve between 20 and 60 0C by a rotating viscometer, true polymer content and chemical composition by IR spectroscopy, true viscosity and r 0-56. molecular weight from the equation (~, 1-3-51 M (2) Effect of the additives on the viscosity, the visco-sity index IV, and the solidification temperature of oils. A new concept, the "efficiency of the additiirell (H), is introduced to describe changes in the first two properties. It is defined as H = 6Iv/W 98.90C, where the numerator is the change in I V1 Card 1/2  s/oa,, /62/uU0/006/076/11 7 Investigation of viscosity additives ... 3167/3101 and the denominator is the change in viscosity at 96.9 0C. (5) -,he mechanical stability of the additives, studied on a specially constructed apparatus which enabled the sensitivity of the sample to shear in relation to velocity and pressure to be determined. The change in I v and in viscosity at 98.9 0C after shear is a criterion of the decomposition of polymer molecules as a result of shearing action. (4) The thermal sta'.-i-lity was determined by it. I. Kaverinals method. The adjitivas studied _*ncluded poiycetj1 and cl.Ilauryl Liethacrylates and tneir copol ners. On raisin,& the additive concentration (between 2 and 10~1,) the viscosity of the oils was found to increase almost linearly, anJ tl~e I v curve rose to an, asymptote after a sharp initial increase (at 2 - 4',). The numerical value of H -ust therefore also be a function of additive concentration. The effect of additives on the solidification temperature varies considerably from oil to oil. Stability to si-lear stresseo, i. e., the decrease in viscosity and 11, 1 v as a result of shear, was found to be directly proportional to the average molecular weiGht of the additive . Theze results are confirmed by exeeriments with oils containing additives. There was no differenoe in thermal stability between the additives studied. r,,bgt ter's note: Complete translation.] 6-ar 572  K=39 071aaf dro Rheoleocal characteristics of blown bitumma.~:Weazprpm vegyip egy koal 5 no.48361--366 161 1. Magyar bmanyolaj as Foldgaw Klearleti lq*04, Veozprsmo~'  VAMOS, Endre, dr. (Budapest VIII,, Szentikiralyi u.29); ZAKAR, Pal (Budapest V, Kecskemeti u-154_gqp~S ~dr.(Veszprem, Kiss Eajos lakotelep 8); KESZTIIELYI, Sandor (7eszprem, Jozae Attila u.3) Preparation of lubricating oils from Romashkino cude oil. Acta chimica Hung 31 no.1/3:267-280 162. 1. Ungarisches Erdol- und Erdgas Forachungsinstitiit, Veszprem.  ZAKAR, Pal Qhidapest V, Kecskemeti u~2) -; MOZES.- Gyula- (Ywzprom, Kiss Lajos lakotelep 8) Soviet ndneral oil bitizaen~ Ac -, himica H=g 31 no.1/3-.28-,- 290 162. 1. Ungarisches Fxdol und Erdgas Forsc~rangsinstitutv Veszprem.  ZAKAR, Pal; MOZES, Gyula; Zakar (Budapest V.,Kecxker.,eti u.2) - Euzes (Ves.-prem, Kiss Lajoslb~otele~ C') The hagylengyel and the foreign hitur.ens. Acta chLmicfj ~~ne -/,I no.1-3:291-300- 162. 1. Ungarisches Erdol und Erdgas Forschungsirstitut, Veszprem.  ZAKAR, Ps.1; CSIKOS, Rezoo; MOZFA, Gyula j KRISTOF, ~Iihaly I Bitumen blowing ij the presence of catalysts. Magy kem lap 18 no.4s 157-163 Ap 163. , 1. Magyar As*yolaj es Foldgaz Kiserleti Intezet.  --v, -(Veszprem,,,Wartha Vince u,2-6. bngarn); FENYI, Marta (Mrs) Wevzpremj, Wartha Vince u.2-6., Ungarn); FEMVARI, Antal (Veszprem, Wartha Vince u.2-6, Ungarn); VAINS, &xhvg dr. (Veszprem, Martha Vince u.2--6, Ungarn) Meological properties of petroleum products. Acts. chimica Hung 37 no.2--.191-202 163. 1. Ungarisches Erdol und Fj-dgaB Forschungainstitut, Veszprem.  FENYINE DEK?JIY., Olga, tudomanyos munkatara; MOZES,G)rulaj dr.~ tudomanyos famuakatars; VAT40S, &dre, u S oaztalyvezeto Rhoology t the science of deformations. Term tud kozl 7 no.10: 433-435 0 163. 1. Magyar Asvanyolaj- es Foldgazkiserleti Intezet, Veszprem.  KOMS, Glyula Concept of mathem-a t 41 ~: a' s - , ct ,i .-, -,- :.,~ -_, .1 " ') - lr,;i *. , 1~ r. , !~t:! 7 '. / --:in , li -I 20 ro.2:101-1-38 F !~z~ 1. Hungari a n YIJI neral Cl I Nq' ara 1 -,--1:3 Fxperi men*, a' , . . I  MOZE'), Gyula El~zag*~,,*r Magy *,,P,7- la~- .-.- "1 11 ~- I~r - I- -i~~ X, 1 1. 1. Hurwian Mineral 04.1 ar.1 Nq!,pir-ai -vi:3 Fxper-rien,.al Intstiltute, Vpsznrem.  14onns ,j . P ing . "cientific concern of f '-ure laboratory assistantso ~onstr Buc 16 nr. 757:2 11 July 164. 1. Head of the Section of Technical Quality '~',ontrol, ".7ict-Dria socialista" Cement Works, Turda.  RUMANIb./Ft-1!'.-.2Pcolc ~Y 4-.'(: - Abs Jour B4 ol., Nr, Author ~:'e-~,Zt, Gy K(~Iernen, A. Fal, Y .A.e,%, P. Tl-.i.e Lfl,es,i.-atlon r," the Numbpr of Orig Pub (RPR), 195". Abstrsct !'o, Card i/1  OBAL, F.,; KOUS, M.,; KXLEMKH, A..; FALL, S..; Technische Assistenz: J. Rav-ai-i""":- Role of the nervous system in hypothermic action of pentamethylene- tetrazole. Acts, physiol. hung. 7 no-3:211-221 1955. 1. Pathophysiologisches Institut und Pharmakologisches Institut der Kedizinischen Universitat, Targu Kures, Rumanten. (PRITUMINTNTRAZO19, effects, hypothermic. role of nervous system) (BODY TWNPARATURN. effect of drugs on. pentylenetetrazole, role of nervous system in hypothermic action.) (IMVGUS SYSTEM, pkysiology, In hypothermic action of pentylenstotrazole)  OBAL, P.; HOZES. K.. : JaWO, P. ; Technischer 14itarbeiter: J. Ravasz. Role of the nervous system In the effect of drugs of various actions producing increased metabolic rate. Acta physiol. hung. 7 no.3:245-z49 1955. 1. Pbysiologisches institut und pathophysiologisches institut der Medinischen Univeraitat. Targu Mures, Rumanian. (AKPHETAK110, effect. on metab. rate, role of nervous system) (111TROPHOOLS, effects, dinitrophenol. on metab. rate, role of nervous systetu) (MVOUS SYSTNH, piWsiology, In metab. response to amphetamine & dinitrophonol) (KRTABOLISK, TISSUS, effect of drugs on, amphetamine & dinitrophenol. role of nervous system)  RUANLA Pharmiar,-olo.-y, ILxicolory, Trl-,nqu.'Liizc:rG. "j J. Abs Jour Ref Zhur - S lol . , -NO 20, 19 D-8, ..jo 9415- Autho-s Fa3zt, Gror-y; 114,ozos, F. -__I ; Er,11A, Fl- roakc.; -it.rczi, Anirai;. nst Z.L'fjc', ~)f Cl-~Ior~)ro.Da-int; (11~inl-.-ctlll or 0 r LL b 1957, 3, 4, 2c-'~-+. At 0 t r- c t25 L)f w..~r~- iijpo([--:m.*L- ca.Lly hijuct,.;(i r.-Lus ~,Un:ju ... L,,t 02 was -,s wt-,Il as th;-. r(;ctal tar,; uniur surruu-iding tot.-purtturu3 uf 10, 20, 2~1 unJ 3;:~~'.5 of tt,,rizudrln~~ -,-,irl 40-~O riS/krS pw--nt-'~2;--it- (I'Ll) lnjo,;~~d wit,-L (I) into so:n,-, cf u]ie aniwals. Dep.--dl% Gi- tii~; surroundiri.-, temr,~;r-ture 1 can caus,-; -.-,3t on yy Card 1/ 3  RIRIANIA Trzinn.,~%- 7' v Abs Jcur Ruf Zhur ALA., ul' 0, Tnc -,p- PIL t n jl.T~ 'A'Id otht,,r r n. c nt vi ~:j c "I'ard 3/3  -vc.nriA ME-DI"'A See 18 '101 L'13 102A. Pulmonary nedema induced by pentetr;4zole A p, KAUXIA11(.., BER,ZAN M-11111 l1entetrazole in a dn~;(- of I'! IIJL!. Ilif) g. callst.,; 1,111111"11.1r\ -doln.t it) who, This effect can lie prex-t-mod I)v refrig,-rau-n. hv w.v with chlorprornazine, pr(iniethazitiv and 111-mlialt, I'll t  FESZT, T.; MOZESp M.; ALMI, S, Changes in the effect of isonicotinic acid hydrazide on the thyroid gland following the administration of pyridoxine. Stud. cercet. endocr. 13 no.3:377-.381 162. (THYROID GLAND pharmse-o-log,y) (ISONIAZID pharmacology) (PYRIDOXINE pharmacology)  GUKATLO. Nikhail Takavlovichl KOZXS. Ye.N., inzh., retaeatent; KAGAN, N.A., insh., red.; SOROXK, K.S., red. (Basic principles In designing optical control and adjustment instrwments] Oonovnys printsipy konstruirovanila optichaskikh kontrolluo-justirovochnykh priborov. Moskva. Gos.nauchno-tekhn. isd-vo mashinostroit.lit-ry. 1959. 124 p. (KIRA 12:7) (Optical iautrumats)  DARDRI, Anatoliy Nil-olayevich; YOZESIP --- le retsenzent; :iEGUITITOY, B.N., retsenzent; n:~,UST.MtVA-,' red.; MIGO.ECRTI., L.A., tekhn. red. [Technology of optical glass manufacture! Tekhnologiia opti- cheskogo stekla. Izd.3., perer. i dou. Moskva, Vysshaia shkola, 1963. 518 P. (MIIIIA 16:1211 (Glass, Optical)    EMOVA,X.V. prof .;SOLOV 'Ylff . I.P.;ARTTUROVA,N.M.; PCPM,P.G. ; TASTMOVA.L.A.; RATURIN,V.P.; Ka?YWA,Te.K.;TZWMGFICH,G.I.. rodaktor;T(IPCHIM. A.T.. aludesik, redaktor; KIRONOV.S.I., akadealk, radektor;ALIYN, K.K.. redaktor; AXHMUM,G.A., redaktor; VABWSOF,K.I., redaktor; DNMIM,Te.Ta., redaktor; DOIRMOLOV.N.N., redaktor; ILI IN,A.A.. redaktor; PUSTO- redaktor; MMWIM Sh.P., redaktor; KOZ_ 9#, TAUX,L.T.. redaktor; F(IKIN,A.Y., reNtROV; MOSOV,G.I., redaktor; KISIMA,A.A.. takhnicheskiy redaktor [Recent sediments of the Caspian Sea] Sovremennye osadki Kaspiiskogo mori%;,,Koskv&. lzd-vo Akademii nauk SSSR, 1956. 302 p. (KLRA 9:3) 1. Deyetvitellnyy chlen AN AzSSR (for Aliyev) 2. Chlon-korrespondent AN SSSR. (for Varentsov, Flustovalov) 3. Ilachallnik morakogo otryada Azerbaydzhanskoy neftyanoy ekspeditaii SOPS AN SSSR (for Klenava) (Caspian Sea)  MOZESON, D.L. . Using the quantitative method for studying small relief forms. Izv.AIT SSSR. Ser.geog. no-5:118-125 S-0 156. (MLRA 9:11) 1. Sovet po izuchenlyu proizvoditellnykh sil Akademii nauk SSSR. (Physical geography)  MOZESON. D.L. .- -;6, Kain types and origin of shallow nicrorelief forms of the Volga- Ural iuterfluve. Trudy Inst.geog. no.69:37-92 156. (MIRA 9:12) (Volga Valley--I%Fsical geography) (Ural Vallsy~-Fhysical geography)  // j i. ~Z_ F , , ' - , i ,, L_ , J~MHOR: T4 7. G 0 .71TLE: cn, -14 tv Of the North PERIODICAL: Veus'z'~r M, S-3~.y lr- AB&MXT: _C?TE Of 0:" 2170talc'~jon o", -v.-ja hp -fc,: x"a'a stxt~,,,, C- or C; ',TE C I - O'A 'IL 02, -3 X. 7? aC t 1y A r.y _np_.fir;'-! ... 4 -,P1-2 '3 ~1,' a,- v W, Bee- Li:- -ith 17 th2 %lard 1/4 nit -.";c. L-irbi-  The Dewlopmn-t of P,.Lo 7)1 Out-Of-Tm7n S r,:ts ..:e coi- O-L --se Air cu- c ry) to Au- ?ec~ le.z tlj.:,7e 8 wc-a".1 v! C CrLuon 8 .3.,. -, j, c4id ',~-O:-" Pa's 1" lee ""=_.es Al t:10,2& nL dc aj_-cad'y "by th'i n-, z1 a.,ov-1-Ap .4,J.F- .0 ~:48~o:- cons..- ri. 02 :1,!~r v;x~ to Lr K ix-~ 2=?Iy and Card 2A 0:'  The Devej.-=ert Out -Of -3'rin fcor Pr:)bIemi; --i: tne C ard 3Aj a3 wel- 3f 1r,r --a-~Ie fr.--;n f isl, waste L5 ~-,e s -trted on I - 'he 3-.1c,". T'-'e 3'IaI-i('[- see~3 anc! -,he f r,-,iai;t;es are +.o .,- -c - n;led. One tn e ;i (~- i ~. --:r.- a, it e r,-- r~ c' branz.'ie7~ cn it beer 7z~Ollo t.',e Pn-.:Lre meat t!, oi me-.a+, or. It -wELz rp-~;--mmendad .n the th--t by 96o ti- Pumber ~r-.:ar be Jn,~,ea,~ed to 172.r,oe. F)r th-'s purlp:,-e it 4-s necessary tc; ):-ganized -~etei-inary and wcr.-c ;;.rd breeding, tc jtilize pa3tv-re land, and -~'O 1~r treeder-5. is alSo Shonting furr--d an~-rra-s :Ls a very ~-Mp~~rtant exp,.-rte. in of the Iaz-t plerizy ses3icn -.he chaJ-rman of the ?rob-':~tms, -n~rrzer of the AN S.I,SAhcherba= -xv, the -n:,.~,, jifi;Dortant :esults c-4' the congress and ex= P-Ies3ed the hope first Ztep~i had ~eei-. made lea..-l-rg to-wards thp and Apieloment cf prod~~ctic, on Xp-mchatka. Tha 3-.-' -f L-e "3qLT--n'3~ P&rtv of the Soviet Up:.cn, M. A. Crla-T, P.iiIr.-zecl tha-,, *n~., was the first. t,]-MP- -r. a-.sto:rY of Kam&iatlca ttat so large a namber 01 SC4ertt~i-c t, es a rcl ' rs 4, "-Ite, plantrs had partic~paterl :.n solving  "'he D " ~- " -,-, -, i t , r 'JI, -m: f 1--t l7brth econnmic p.-:~tlzems. He 3tressed the fact tnat Kamc~iatka _'_3 in neek, of and sunport, cn the par of ~h-, AN USSR. Direr-ti:Ves foz S"t1dy 'je of pr ve- fcrce~ on Kamenatka wex e lra"Irl t.-i- noxt ll~ was d~~ciled tc, -equest the Dres--dent of AT. U-l,-)R qen,k a we"Ll-tiqlJLp-p~i expedi" tion t~D KaLmrha,.Ya ir, 1956. In Zrnc!L;-,-cr. Ccrrecpcrd-*:-,g Member of ~he V1 LISSR T. V. P-L5tcval(~--, gaid tn-f, the ratLLr,~_ razicw-Ce3 of Kamchatka aj well az the p.roia,:t~3 .-,f lh~ar goi.1 oarran', a ralDi.j 2JLp_-OVement ._~f made an -2-3e-.t~a.1 to- F~lricha-,,ka, andl m-_~5 b,~ hopec' Lnat s en= v- '.-L be per fOrned he ri~ 'n, he next years tY 1, 12idustrT-_USSR 2.. Industry --De7el vpamt,-_USSP 3,, Produatim ---De-velOpmnt_,-USS'R Carri L/~_,  PUSTOVALOV, L.V., otvetstvenVy red.; DKITELIM, Ye.lk., zamestitel' otyetetvennago red.; TMHIUV, A.T., almdemik, red.; XMNDV,, S.I., eked w4k. red.; ALIIW. N.M., red.; AKENOOT. G.A.. red.; TARMSOT. K.L. red.; DCLOOKLOT, U.N., red.; WIN, A.A., red,; NIMEIMff. Sh.P.. red.; KIRCHINK, N.Y., red.; RINGARM. V.P.. red.; TWIN. A.V., red.; IVIVA, N.S., red. izd-v,&; NOVICHWTA. 9.D.. tekhn. red. [Gooloa oZ the Talysh Mountains; papers of the expedition] Toprosy geologil Talysha; trudy ekspediteii. Kookwa. 1958. 151 P. (KIRA 11:9) 1. AkMemiya nank SSSR. Sovet po izueheniyu proizvoditellnykh sil. Aserbaydshanskeqa neftyanaya ekspedltsiya. 2. Deystvitellnyy chlen Ak3demli nauk AzSSR (for Altyev). 3. Chlen-korrespondent AkeLdemil nauk SSSR (for Varentsov, Nekhtiyev, Pastovalov, Rengarten). (Talysh Mountains-Geolog7)  MOZISON, D.L. Session of the Committee of the Academy of Sciences of the U.S.S.R. on the Problems of the North held in Petropavlosk-Kamchatsk17- Izv. AN SSSR Ser.geog. no.1:173-174 Ja-F 158. (MIRA 11:2) (Kamchatka--Physical geography) (Kamchatka--Economic conditions)  KOUSON. D.L.; Ummov. N.A. State of phvalcogeographical study of the northeastern part of the U-S-S-R- and tasks of future research. Probl.Sev. no.2:91- 115 158. (KIRL 12:4) 1. Sovet po izuchaniyu proizvoditellnykh ail AN SSSR. (Siberia, Eastern-Physical geography)  MOZES41, D.L. Protection of nature in the North. Probl.Sev. no.2:222-225 158. (KIU 12:4) 1. Sovet po uzuchaniyu proizvoditel4nykh ail AN SSSR- (Russia. Morthern-Fordst protection) (Russia, Northern-Wildlife, Conservation of)  26-58-1-9/57 AUTHORS: Shcherbakov, D.I,, Academician,and Mozeson,_ 0 andidate of Geographical Sciences TITLE: Prospects of the Development of the Productive Forces of Kamchatka (Perspektivy razvitiya proizvoditellnykh sil Kam- chatki). Scientific Session on Problems of the Study and Utilization of the Natural Resources of the Kamchatka Ob- last' (Nauchnaya sessiya po problemam izucheniya i ispol- zovaniya prirodnykh resursov Kamchatskoy oblasti) PERIODICAL: Priroda, 1956, Nr 5, PP 51-57 (USSR) ABSTRACT: V.A. Obruchev has compiled a geological description of the Kamchatka Peninsula, with its still active volcanoes, gey- sersv mountain streams and waterfalls, cedar woods, the world's principal (80-85%) salmon grounds in the surrounding sea, and its rich mineral resources, such as gold, coal and rare metals. In 1908, F.P. Ryabushinskiy studied the 'local fauna, V.L. Komarov the flora, The Kompleksnaya ekspedit- siya AN SSSR (Complex Expedition of the USSR Academy of Sciences) of 1934-36, the prospecting teams of the Minister- stvo geologii i okhrany nedr SSSR (Ministry of Geology and Card 1/6 Mineral Resources Preservation of the USSR), the Tikhookean-  26-58-5-9/c7 Prospects of the Development of the Productive Forces of Kamchatka Scien- tific Session on Problems of the Study and Utilization of the Natural Re- sources of the Kamchatka Oblast' skiy institut rybnogo khozyaystva i okeano6rafii (Pacific Institute of the Fish Industry and Oceanography) and the Vulkanologicheskaya stantsiya (Volcanological Station), set up by the USSR Academy of Scienceshave conducted succeu6ful research over an extended period of time, Despite these endeavors, only 10% of the area is covered by geological maps of 1 : 200,000 or smaller scale. There are still areas that have not yet been mapped at all. Most of the pen- insula has been explored along its central north-south axis Along Kamchatka's western partifrom the Penzhinsk Bay in the north to Ust'-Bollsheretsk in the southiare situated 60 coal-bearing deposits, Sources rich in carbon dioxide and methane have also indictited oil, natural gas, and liquid bitumen. In the Kronotskiy District, in the east, geologic- al indications also show oil-bearing layers. In the west, a 1,000-km long strip to the Ozerbaya Buy in the north, contains oil deposits that can probably be used for in- dustrial purposes, Cinnabar is found all over a 1,500-km Card 2/6 long stretch up to and including the Karyanskiy Mountain  26-'-8-5-9/57 Prospects of the Development of the Productive Forces of Kamchat~_,a- Scien- tific Session on Problems of the Study and Utilization of the Natural Re- sources of the Kamchatka Oblast' Range in the north. Copper is found in the East-Kamchatkin ore zone and the Central Mountain Range. In the latter's south part, gold which can be exploited industrially is also found. Kamchatka is rich in construction material. There ar~'. almost two billion cu m of pumice, In an area of the west coast of 3.4 million ha, there are 8 billion tons of peat. The forests cover 450,000 sq km. Agricultural pro- jects include doubling of the present arable land to 18~500 ha by 1960, opening up of.10,000 ha of virgin land, an increase in the number of big-horned cattle to 24,500 and that of pigs to 21,000. The number of reindeer increased by 7 times between 1940 and 1957. There are 140,000 heads now. Available pasture area permits an increase to 180,000 Improved pastures will eventually feed 250,000 - 500,000 By 1960, raising of 172,000 heads of reindeer ohould be possible. This will correspond to a production of 2,500,000 kg of reindeer meat. Every year, 8,000 - 9,000 aable furs are obtained. Other furry animals of the region are also Card 5/6 of economical value. In July 1957, the Komissiya po pro-  26-c,8-5-9/57 Prospects of the Development of the Productive Forces of Kamchatka _7c,.en- tific Session on Problems of the Study and Utilization of the Natural Re- sources of the Kamchatka Oblast' blemam severa Soveta po izucheniyu proizvoditellnylch sil Akademii nauk SSSH (Commission of the Problems of the North of the USSR Academy of Sciences' Council of the Study of the Productive Forces) held a scientific session in Petropavlovsk in order to find ways of exploiting the natural riches of Kamchatka. By 1959, the territory must be covered by maps of 1 : 500,000 and 1 : 1,000,000. With respect to oil, coal and minerals, a systematic geological large-scale mapping must be done. Geophysical and other up-to-date methods must be employed to obtain a thorough knowledge of the mi- neral resources. Problems in the catching and processing of fish are being investigated in detail. Large enterprises of the fish industry are to be established in the ports of Petropavlovsk and Ozernovskiy, and in the fish combine of Ust'-Kamchatskiy, Korf, Mikoyan and Kirov.- Soil research is being conducted to help the farming and cattle breeding sectors. Organized scientific hunting and wild life pre- serving methods are stressed, The air transportation net- Card 4/6 work will be expanded and small-river navigation increased  2 Prospects of the Development of the Productive Forces of Clen_ tific Session on Problems of the Study and Utilization of the Naturai tip- sources of the Kamchatka Oblast' by devising special craft. Interior transportatio.-, ~rotle,_,~s will be oolved. The Ozerriovskiy sea port must be developed together with a land route on the west cuast and the con- nection between the port and the Krutogorovskiy coal mines The Petropavlovsk sea port will be considerably expanded and new highways built. The Ust'-Kamchatskiy port will be improved and extended very soon, and the Kamchatka river made navigable, Airfields and landing areas will be set up in the most important industrial and administrative cen- ters. Electric energy is still depended on other than local fuel. Of the scientifically confirmed 522 million tons of coal, only 13,000 to 15,OCO tons are mined annually Al- though the potential capacity of the mountain streams is 12 to 20 million kwh. many difficulties in the construction of hydroelectric power plants need to be overcome Hot water and steam escaping from the earth surface in certain places must be turned to economic use. The session pro- posed and agreed to have another Complex Scientific Kam- Card 5/6 chatka Expedition in 1958 and to bring into beinE a Kom-  2C -58-5 -91/~,7 Prospects of the Development of the Productive Forces of KamchatKa tific Session on Problems of the Study and Utilization of the Natural i~e sources of the Kamchatka Oblast' pleksnyy nauchno-issledovatellskiy institut (oomplex 3cien- tific Research Institute) in the town of Petropavlovsk- Kamchatskiy. There are 1 map and 6 photos. AVAILABLE: Library of Congress Card 6/6 1. Kamchatka Feninsiia - Exploration 2. Economic development - Kainchntka PenlrsuLa  sHOELIRBAKOV, D.J., akademik; K023SOM, D.I., kand. geogr. nauk. Ontlook for the development of the productive forces of Xawhatka. Priroda 47 no.501-57 NY 158. (KIRA 11:5) (Kamchatka--fiatural remouress)  SHCHLRUKOV, D.I., akademik (HoskvaL); MOZESON, D.L._,_ kand.geograf.nauk (Moskva) "Rich and beautiful in Kamchatka" by K.E. Esaulenko. Reviewed by D.I. Shcherbakov. Priroda 51 no.11:120 ii l62. (MIRA 15-11) (Kamehatka,&conomic conditions)  snmuxcv, D.I.,, akademU,, glay. red.; YEPOFEYEV, B.N., Otv. red.; NALIVK111, D.V., akademik, red.; ALITGAUZEN, M.P., red.; DANCHEV, V.I., red.;,~IQ~ESOI'_, D.L.-; LEVCIMN-KO, S.V., red.; CHAYKOVSM , VA., red.; SHEYNTIMi, V.S., red. izd-va; DORCHINA, I.N., tekhn.red.; LAU7, V.G., tekhn.red. [Geochemistry, petrograpIV, and mineralogy of sedirentary formations] Geokhimiia, petrografiia i mineralogiia osadoch- nykh obrazovanii. Moskva, 1963. 457 P. (MIRA 16:12) (Rocks, Sedimentary)  LEVCMKO, Serafim VaAllyevich; MOZESSOV, David Lazarevich; 3HCIMBAKOV, D.I., akadetr-fk-,--6-t'v.-ied-.; ULAVOTSTITA, I.A., red.izd-va; YEGOROVA, D.F., tekhn. red. [Golden Kolyma; from the history of the discovery and mastering of northeastern u.s.s.a.] Zolotaia Kolyma; iz istorii otkrytiia i osvoeniia :~evero-Vostoka SSSR. Mo- skva, Izd-vo AN SSSR, 1963. 93 P. (MIRA 16:12) (Russia, Northern--DiBcov-~ry and exploration) (Russia, Northern-Mines and ridneral re:.iources)  V r tv rpc iMetal )-:)geni .a dtn All  MOZETIC, B. Yugoslavia (430) General - Serials Does the problem of unemployment appear in Slovenia? p. 6. LJUDSKA PRAVICA. (Komunisticna Partija Slovenije) Ljubljana. (Weekly illustrated organ of the Communist Party of Slovenia). Vol 12, M~ t77, December 22, 1951. East European Accessions List. Library of Congress, Vol 1, No 13, November 1952. UNCLASSIFIED  MOZETIC, B. Work of the il-lega-l station at Trieste. p.99. RADIUAMATER. (Savez radioamatera Jugoslavije) Beograd, Yugoslavia Vol. 13, no.4, April 1959. Monthly list of East European Accessions (FEAI) LC, Vol.8, no.9, Sept. 1959 Uncl.  A.- 1 v  4v ;r~:~ - T ~j fir, ea J, -V h 6UC4 --GT "thorn 7t,~Altgoho m,~Ad ad ,-t z livith-a- d( fiLial, hett Ta t W -  . VPDZE SERGEYEVA, Varvara Nikolayevna MOZE KO, L. ;- JAIINZENS, V. FELDHUNE, A., red.; BOKMANIS, R., tekhn. red. (Lignin and its use] Lignins un ta izmantosana. Riga, Latvijss PSR ZA izdevnieciba, 1963. 63 P. (MIRA 16:5) (Lignin)  DYIKOWSKIJ, W]Lad,,Mlaw; M07Gh, Tadeusz Activity of g-I bherellic acid under various conditions of ger--nat' -)r. Of brewer's barley. Pr-ze-,nysl fermentacyjny 6 nc.3z64,65 Mr 162. .jnego, Warszaw-- 1~ Instytut Przem7p. 1u Fermentacy  MDZGAIZVSKIT. A.V; kand. tekhn. nauk; BUZHINSKIT, YUJU., inzh. Selecting a type of asynchronous motor for throttling control systems. Sudostroanis 25 no-7:27-31 JI '59. (MIRA 12:12) (Electric motors, Induction) (Electricity on shi,-.e)  _22, D, ox/~Joz,. A '.A 31 _ A MhOR MOZgA~9,~~-Kly, A f c . C~: a, L-n - e~r. Av,:, TEXT~ Rvdna,,~I_': _-~c ek"37151.'e ;3e Ir and 1-nd-intry 7.,c- aml,e ~S-: YE,-, treated ~lh operat:on of d-'-,-? z 3_-~ z a n a z s e (r. c f r ei -..r e d! fferent'lad -,5 E. s _.m; I ea 4- System cf r~-: a at - I gump w 1'.-.h Bhor f aii a y z ed az, d - r-. E- 1: T z 9 -2 T I z S- 5 tne - a~- 3 %'. loil 0 f z e _i, aL- nyj - ~1_ -na'. 'n -3 a:.,9 rn '. S~1-. T. L C tfor. of ~he speed -a;,. be p-esen-,ea a,. z T :11% f _n I f.. C fB. i_ I n ? ard , "4  Approxima-:e expressi- order, and have ~n_, 2 f orni ~"7 is -.ne auffulng e.emqn-.) where p '-c- -tie Ed 5;~: the p-,-np) K_ k 2 KK2 r". c 'T'ns fcrmu-: a 3' s a v f cf. f E. cj r: y O..T.a .3, denomina.-c a f r ar- a -y s r. a z fr. e d' a.~, ~irnt: C An os--l-ogrein 7aken '-~lm MH-7 (~JN_71 _a 3L ship steering mazhine confirned -,ne ded,~2':icnZ 71 4~ -.?s 2 and 3 llluztrate tne trA-nsl-.'-zn croL~.ss on lhe syg-em 0'.I*Pu-~ a: a:" of the control parameter w,-.I-n rappens wrer. an 1-Ink of --ne order Is coxwe~ated in 11-re w_-lr. -n-P sya--=.,n _.rderr -~'~dy. lbe ~a2l' -'az-d 2/4  S/122/6o/ooo/bo5/bo6/bi7 Approxima~e expression for.... A161/A130 are made: 1) If the main pipelines are not long and the rpm of the electric pump motor is constant, a reciprocative hydro-electrio'drive may be considered a static link of the first order. 2) If the basic conditions are same (as in Point 1) and the amplification factors of the summing' element and feedback are higher than 1 (i.e., k > 0 and k 0), and the reduced mbehanioal time constant 00 is low, a reciprocative hydro-electric drive with elastic feedback also may be considered a static link of the first order. 3) The values of the amplification, factors k2, k4 and of time constants T, T, and T2 can be determined by calcula- tion when the drive is being designed. There are 4 figures and 3 Soviet-bloc references. Fig. 1: System principle without Fig. 3: System with elastic feedback. feedback. Card 3/4 Ti 7~,  140ZGALEVSKIY, A.V., kand.teklir..nauk; LUKOMSKIY, Yu,&.,, inzh. Use of electronic models w determine the vaLie of coefficients of reverse connections in the throttle control of direct- current electric driving of the steering gear. Sudostroenie 26 no.3%'209):36-37 ,+x 160. (MIRA 14:11) ~Stoering gear-Electromechanical nnAlogies)  MOZGALEVSKIT, A.V.,Imnd.tskhn.uauk Calculatlug the size of an electric motor for a pump vith a varyivg delivery rate. Sudostroante 26 no.9:33-35 S'60. (KM 13:10) (PoWing wwhiner7, Keatr1c)  MOZGALEVSKIY, Andrey Vasillyevich, kand. tekhn. nauk, dotsant; LUKCMSKIY, Tu ~,ye ~san ~ro-c ~,aspirant Operational stability of a hydraulic and electric drive with reciprocating motion and clearance. Izv. vys. ucheb. zav.; elektromekh. 6 no.9:1123-1125 163. (MIRA 16.12) 1. Leningradskiy elektrotekbnicheskiy institut.  is LU-JLLU-VU QT1Lt4A)frj'"r% -L) Jqrk U IPkA .-- Tg-C -NRAP6002186 SOURCE CODE: UR/0146/65/008/006/0156/0160 ..AUTHOR: Gaskarov. D. -Moxgalevs!~iz# A& V. ORG: Leninigrad Ele ctrotechhical Institute (Leningradskiy elaktratakhaichookiy institut im. V. 1, Lenina) TITLE: Predicting changes in i"ate ~of an automatic system SOURCE: IVUZ. Priborostroyeniye, V. 8, n6. 6'; 1965, 156-160 TOPIC TAGS: automatic c'optrol, automatic control system, automatic control theor ABSTRACT; The possibility of predicting changes in the otate of an automatic- control system in discussed. The extrapolation problem. involved in such a predictioi can be reduced to determining the system principal parameters X,, (t) in the future at t a to+, #6 t 1when the past values X(t. -ka t) are known, where m and k are positi inte era. In many practical cases, where the state information arrives continuously~ a lin ear extrapolation could be used: X,(t,+nt&t)- a. X (to A! A t), 112 UDC: 62.S23.8  L 18548-66 rA5.:C NIt' AP60OZ186 Iwhere. a* could be determined from the conditions of the minimum mean square value of, extrapolation error. The latter quantity can be expressed in terms of the correla- tion function of a stationaryIrandom process. Technically, the prediction problem can be solved by a special automatic computing device which would calculate the appiapriate autocoi relation function and send it to an equation solver upon each measurem ant of the monitored parameter (a block diagram is shown). Thus, a solution-:ofthe aboviprediction problem in hield possiblei it may help in forestalling V?%rious fa~its in afAtonotic-control systems. Orig. art. has: 7 formulas. SUB CODE: 13 SUBM DATE: 30May64 ORIG REF: 002 1 OTH REF: 002 Owd 2/Z  , U11,11b, -y_ .-Y. (1-c BLINOVY 1.'i. (Le-ningrad): MI'-',ZL;ALEVSKA -ningrad) ~U--T ystem par&meterc for a-itonati,- fault dete-tion. A-.,, Choice, of fr - 'On.. 1 tA_l_em. '46 :-.o.10:1809-1812 0 t65. (Vjpj~ 18:--C))  SOURCE COX)E: UH/0000/66/000/00/0057/00" skAy~ A. V.; Gaskarov, D. V. ~Z 77ITLEZ i9aprobabilistic prediction SOURCE: . Vsesoyuznaya. nauchnaya sess!ya. posvyashchemaya Dnyu radio. 22d, 1966. S~kts4s'-,kibernetiki. Doklady. Moscow, 1966, 57-64 tOIPW---*AGS. statistic analysis, probability. mathematic prediction. control theory ABSTRACT: A change in the state of a system can be determined from the change in the ,sys4ew's, controlled parameters. which are regarded as time functions. If a sufficient amount 6( tr&rmation about the controlled parameters is accumulated, the next change in the system's staleImay be predicted. In cases where the causal relationships between changes are difficult tP establish, the problem of predicting a change in the state of a system may be solved by ~xnefts of the mathematical apparatus of the probability theory. by methods of probabilistic prediction. Then the problem is formulated as follows: Given: a controlled function X(t) which assun es the values NY, 9 .4.9 ) at time instants t, 0.. < I , L - 1. 2, 3. X(t2) X4tn