SCIENTIFIC ABSTRACT SOKOLOV, P.M. - SOKOLOV, B.S.

P.'*@. Piatiletka velikoi stroiki. 5loskva7, GospolLtizdat, 191;6. "Ll P. I-C JAC: 11[3335-j68 @',oviet ;:;eogranh-., Part 1, 1951, Uncl.  SCEOLOV) P.M. ""OK01.01", O"Sljq v 1,sakh ve'-: i1coi stroiki. Mo.Azva, Noskovskii raboc:'JLi, 1947. L@9 ..-. ('C4X let '!elik-d GkLi;dbr',jkoi jotsialisticheskoi revoliutsii.) , -1:, f,- DLC: 1"C' " 5 ."j'@58 4 -)-, SO: T..,, '@oviet 'Ieographv, Part 1, 1951, Uncl.  @ushchestva "OKO'.OV, D.E. So'sialisticheskaia sistenia khoziaiftvaistochnik- sily i nio,. nashei rodiny. Mosk-va, Moskov3kii rabochil, 1947. 110 (.C:,:X let Peliit'.oi Ocktiabrls..oi sotsiali:3ticheskoi revoliutsii.) MH 'ITTIC: DLC: H'1335-356 -CI T jov;et Gcograph-.,, Fart 1, '951, Uncl.  SOKOLOV, B.M. --, lt@_ 'A @ -:'I I. Map and graphic work in geography lessons of the 8th class. Geog.v shkole 19 no-1:58-60 Ja-F '56. (MLHA 9:5) (Geography--Study and teaching)  SOKOLOV B.M. General review in teaching the geograph7 of foreign countries. Geog. v shk-ole 20 no.5:47-49 S-0 15?. (MIRA 10:10 1.Shko1a No. 29, Novosibirsk. (Geography@Studjr and teaching)  -.1-SOKOLov, B.m. -- Inculcating in students habits of independent work with books. Geog. v shkole 23 no.5:63,-65 5 - 0 160. (MIRA 13:9) 1. 29-ya shkola g. Novosibirsim. (Novosibirsk--Geography-Study and teaching)  L Oh900-67 D;!T (0 )/"E7,:'P( L) I i Ec,@ (c SOURCE CODE: _1oo61oo61o62Vdon AT6022670 ACC NRi Woo6o/66 AUTHOR: Kozinets, B. N.; Lantsman, R. M.; Sokolov, B. M.; Yakubovich, V. -A.- ORG: none iting Acogniti d dI c imination by means of electronic compliters TITLE: Handwr ofi an s r SOURCE.: Moscow. Institut avtomatiki I telemckhaniki. Samoobuchayushchlyesya avtomaUcheskiye sfsten@y (Self -instructing automatic systems). Moscow, Izd-vo Nauka, 1966, @OPIC TAGS: pattern recognition, automaton, character recognition, computer application ABSTRACT: The general problem of machine recognition and discrimination of handwriting, the development of the necessary algorithms, and the theoretical principles underlying the process of teaching an automaton handwriting analysis are discussed. The discussion is base primarily on certain theoretical work in this area that has been carried out at the We LGU. A detailed explanation is given of the manner In which the handwriting or "graphic" material Is converted into a system of numbers suitable for computer processing, and several different metrization. techniques are described. The principle of the "dynamic stereotype of writing" (a fundamental assumption of the method proposed) is in@roduced as a means of neutralizing 1/2  L 0"1900-67 ACC NRt AT6022670 randoir. or deliberate handwriting deviations from an established and quantized standard. The necessary wid sufficient conditions for the validity of this hypothesis are stated, and It is S1101M that algorithms based on this assumption are in all cases much simpler than those which disre-i (fard it Examples are given wid an analysis is made of the results of certain machine. experi- 'I ments using the general techniques outlined, including a comparison of the algorithm adopted with others founded on different approaches. The theoretical considerations and experiments descri])ed substantiall-e the possibility in principle of employing computers for the differen tiationi of similar handwriting styles. Orig. art. has: 8 figures. SUB CODE-.09,06, / SUBM DATE: 02Mar66/ ORIG REF: 003  -SO,KGLOV, B.M., kand.tekhn.nauk; DIREKTW4, B.Ya., i-nzh.; LOSHAK, S.B., inzh.; POLUEHIN, A.I., inzh.; YAKOVLEV, G.G., inzh. Experience in 11he use of power units with supercr--*Llif@al pressures and prospects of thei,- development. Teploenergetika 12 no.7:2-9 Jl 165. (MIll 18:7) 1. Gosudarstvennyy trest po organivatsii i ratsionalizatsit rayonnykh elektrostantsiy i setey.  S PIETS, .1 OV, Right Favlov's rierve in dogs. '.,,kh. anat., g.1st. i A I embr. 43 no.12:59-65 D162: 1. Kafedra normall1noy wnatomil ( zav. - prc.-f. B.H. Sokoloy, Ryazanskogo meditsin;kogo instituta i-mani aka-d-em:Lk@-Ta-,rlf@il'  610KOLOV, B.M.(Ryazan, (obl.), Sovetskaya pl., 17-a, kv.95) ",Creation of supplementary collateral blood circu]-lation in experiments and in the clinic" by B.P.Kirillov. Reviewed by B.I.I.Sokolov. Arkh, anat. gist. i embr. 40 no.6;112-113 Je 161. (MIRA 15:2) (BLOOD-GIRCULATION) (Kii;.ILLOV, B.P.)  AUTHOR: Sokolov, B.M1. (Gubakhinskiy Cok-e Oven ',Vorks). 527 TITLE: The use of faolite fittings in sulphate departments. (Primenenie faolitvykh izdeliy v sullfatnyllkh tsekhakh.) PERIODICAL: "Koks i Khimiya" (Coke and Chemist 1-957, No. 4, oo. 34 - 37v (USS.S.R7. ABSTRACT: The problem of using faolite fittings and pipes for the -transfer of corrosive liquids in sulphate manuf--cture is discussed. The methods of joining faolite pipes is illustrated. The initially higher cost of faolite fittings is compensated by the duration of their service life. There are 3 figures and 1 table.  LUT110T 130holoV9 13. M. 68-58-6-9/21 PITLE: _7DOP110,1101 ofEfftuent Waters on tile Gubakha ation Cohe Oven 'Norks (Obesfenoliwiniyo sLochnyidi vod n", gub,,kchinshom @--okso]::hiraicheskom zavodc) PE1ZI0JDIC-`1L-. i Khimiya) 195@31 Nr 6, pp 32-39 (USS-21) _11ST-11ICT: The c.)peration of dephenolising plant (stewa ,iethod) on ho abov- ,,orks is desc-ribed. It is pointed out that t th-e process of dephenolisin6 effluent ,*,@ater did not receive the necessary attention and more investigations are necessary in order to establish correct operating conditions and in parti,,;ulay, @o redesign the dephonolisi-a. scrubber into a three-stage scheme of spra-ying. Giprohoks @:.md M-L! should deve-Jop an extraction method of dophenolisin..S effluents. There are 2 5 fi@@ures, zavod (Gubakha Coke Oven Works) ' 1. Ovens--Performance 2. Water--Processing 3. Phenols car@:; 1/1 --Separation  NC.VIKGVI V.N.; TOLSTOV, L.K.; SERFBRYA-KC'I'L, Ye.K.; S=xf@,T-Ur" B.M.; mal tichastiye: Mr-alentlyev, Ya.I.; KAFGER, V.S.; ZORCh-RiKO, 1.F.; KARPCV, K.F.j Kushn-Lrenko, V.S.; SHWCENKO, L.I.; TRIFONOVA, N. I.; PODZIIUTTAS, V.A.; MASLITSKAYA, M.P. Obtaining industrial naphthalene frcm the centrifugal naphthalere Of the Gubakha Coke and Coql Chemicals Piant. Koks i kh-im. no.S: 35-38 '(@2. (MLR-,I 17:2) 1. Vostochnyy uglekhimicheski.y institut (for Novikov, Tolstov, Serebryakova). 2. Gubakhinsk-iy koksokhimicheskiy zavod (for Soko- lov).  ANDREYEV, S.I.; LEBEDI, B.M. ; Generation of nanosecond pulsas of s-aper@dgh-fraquenay osc-il- lations. Prib. -i tiekli. aksp. 8 no.5:1213-124 S-0 163. (NIULk 16:12)  AmnsIoN imm m4m986o. 8/MW64jW6/0Q3/OW/O9U,,1 'AUTHDRS: An&qwp 3* Is; Lobed's Be M*; ackolors B. Me i I . - 1. , TITLE t Investigation reversals of magnetism In rapidly alternating fields of lax-go amplitaft ISOUIRGE: Fizika tvardogo tole, Y,, 6. no, 3. 19649 915-921 TOPIC TAGS i magnetic reversals Terrbragrietic, ferrite, magnetic moiient., magnetic dol3ping ABVRACTs The authors, purpose'has been to inv6stigate the dynamics of magnatiza- tion reversal. in ferrites in magnetic fields reaching jo3 oersteds during alternations of polarity at the rate of about 1011 oersteds per second and to determine the damping parameters. It, was discovered that the rate of change of the: magnetic moment and the time of magnetization reversal decrease with amplitude of the field only up to 4C certain limit, determined by the composition -of the farrite and 17 the rate of change in the magnetic fields It *v" fodnd that at roversal rates of W20 oersteds per second or greater In the field, the time Of Card 1/2.  AGGIMION NRs AP4019WO reviwaal and the rate of change of the magnetic moment in the ferrite no longer depond on the amplitude of the magnetizing (reve: sal) field at maximum fields Of 1300 oersteds or greater. At the maxim= rate of field reversal itsed, in. the exlxriment,, about 2OU oersteds per seconds magnetization reversal took place in 104' seconds s and the energy of the process rewhoid about, 4~10-2 Joules/cm3. The Inature of the magnetization reversal in satisfactorily explained tV phenomeno- ;logical equations for procession of the magnetic moment of a saturated ferromagnet-i Sic, The danping parameters determ1ned by ferromagnstle resonance agree in order I j of itagrdtude with the va.Ue determined tr rapid reversal of nagnablzatione Orige I art. has s 4 figures and twon2as, ASW'#LUION# none suwn I xuuW DATE AMi 3INa-64 :SUB GODEs ND MW WTI 008' Orin 1 002 Curd 2/2  L 1636-M EWT (1) /&JA (h) ACCESSION ER: AP5016400 U.R/012D/65/000/0-'0'3/ 0 0224 621.3-032.26 AUTHOR,: Andreyev, S. I. Sokolov, B. M. TIM: Simple vertical-sweep generator for an image-converter tube SOURCE: Fribory 1. tekhnika eksperimenta, no. 3, 1965, 222-224 TOPIC TAGS: image converter, sweep generator ABSTFJ.CT.- A ferrite-type tubeless circuit is described which is intended for producing high-voltage nanosecond pulses; the pulses build a step-type voltage I for the vertical sweep in an image-converter tube. A capacitor is charged by a few M, voltage and then discharged via an LC ferrite-coil circuit prodacing high voltage-peak oscillations in the secondary. These peaks are rectified b,- a ftLu- wave aircuit and applied to the image-converter-tube plates. Frames of 0.2 sea duration repeated at a rate of 5 Me are mentioned. ASSOCIATION: GosudarstvenW optich6skiy institute, Leningrad (State Optical Institnte. Leninitrad) SUBMUTED: 3DMar64 NO RMF BOY: 007 i'.Card ENCL: 00 SUB CODE: EG OTM 000  1, 26958-65 TENT (1) /E'PA(sp) -2/EPA(w) -21EMC (t) /T/IWA (m) -2 Pz-6/Po-4/Pab-10/j)i-1j ACCESSION KR: AP5003242 TJP@c) AT 6/0057/65/035/001/0101/0107 AUTHOR. Andreyev, S.I./ Sokolov, B.M. h freque 0, G @s ion at at1spheric rlnve;ti@-ation of plasina deionizat: TITLE: Vltrahig pressure SOURCE: 2;hurnal tekhnicheskoy fiziki,.v.35, na.l,,1965, 101-107 TOPIC TAW: plasma Oagnostics,-spark discharge., electron concentration, electron- . q---. -'-;'...temperatt:tre, recombination coefficient. reson ator- Q factor.- -ultiahight- fre4uen Y.- ABSTRACT: An ultrahigh frequency method is:described by which the time variation of the e*;iectron density and temperature of a plasma can be determined and some in- formation can be obtained concerning the distribution of these quantities along the plasna column. This method was employed to investigate the deianization follow- ing a spark discharge in air at atmospheric pressure, and the results are presented and discussed. A 76 ohm coaxial resonator was employed. This was loaded with an ad- justable internal capacitance so that its resonant frequency could be varied sllf@t- ly from the 750 Mc/sec exciting frequency. The spark discharge took place within the resonator and the characteristics of the resulting plasma were determined from, Card 1/2  L 26958-65 ACCESSIO21 NR: AP5003242 The theory the shift in resonant frequency and the change in the of the cavity. of these effects is discussed and it is shown that an average value of the electron concentration and temperature can be determined and some information can be ob- taincd on density distribution. It was concerning the deviation from,uniform electr found that the electron density following a spark discharge in air is very uneven- ly distributed over the length of the gap. The volume recombination coefficient at -3 ween 108 and 1010 01@ was found to vary from 2 x lOj6 electron concentrations bet to 1.5 x 10-5 CM3/sec, dependlng on the length of the gap a-.0 the energy of the discharg,L-. n conclusion, the authors thank M.P.Vanyukov for his Interest and sup-.. port of the work, and V.Ye.Golant for a discussion and valuable remarks." Orig. art.has: 20 formulas, 5 figures and 1 table. ASSOCIATION: none SUBMIT`MD: 27Jan64 ENCL: 00 @SUB CCDE: ME,NP NR REF SOV: 009 OTHER: 004 2/9 C ard 1111101 MIN  L 0533,f5.__; EPA (s) -2/EPA (w 1-2/_-E-JTW/&4A@n)-2- UR/0057/65/035/1007/1295/IL297 ACCESSI ON HR: AP50183111 537-523.4 AMOR: Andreyev, S.I.; Sokolov; B.- M. IS TITLG: Spark channel formation in air SOURCHI Zhurnal tekhnicheskoy fitiki, v. 35j no,. 7,- 1965, 1295-1297 TOPIC J.'AGS: se@rk disChg e, air istreamert spark channel expansion ABSTRA*,r-. Early stages of spark development in an_8-mm gap in air at, atmospheric pressure were photogrnphed with a Kerr cell shutter, and the current and voltage in the gafp were recorded with an oscilloscope having a resolving time of 10-9 see, Thel investigation was undertaken mainly tto determine the radius-of the first spark channel and the current in it at the instant of its formation, when a streamer firsi bridges the gap. These data are significant because they constitute the initial conditions for the theory of the further development of the channel. The potential on the gap was held at a value slightly belaw the spontaneous breakdan potertial mid the discharge was initiated by a treigger electrode In an opening in the cathodie6 This Jz believed to 1produce'conditions similar to those obtaining when the discharg@- is initinted by intense ultraviolet Illumination of the Qathode. The %err cell was -Card 1/3  _-L-63531-65-- A=SSI:ON NR: AP5018311 control.led-by a ferrite deviceproposed and described by S.I.Andreyev, M. P.V anyrikov, and V.A.Serebryakav ON- Nd_:1- 89-- 1952)'*- Several -photographs - and drawings of oscilloscope traces are givej@, but the experimental data themselves are not- priii6xit-7 -ram the undisclosed experimental data the following conclusions. are drawn- ed. F. 1) The streamer bridges the gap 10-8 see after the first perceptible current rise (the -current- sensitivity- was 20-A),and-the-cuTrent at this instant is from 500 to 800 A. 2) The average velocity of the streamer app-roxima-tely- 108 _cm/seC,--and--th charge Involved In its motion is 4 x 10-6 C/cm. 3) The visible diameter of the first channei at--the moment-of its formation is from 100 to 120 11. 4) Tbe channel pands at an average velocity-of CW__ h the-. cb@,_.,.ent -increases. from- 600 - -, to- Z, ex 'see @w Ile 1200 h. This expansion velocity IS In goo agreement'with the hydrodynamic theory. . of S.I.Andreyev et al (ZhTFO 32, 57, 1962).- 5) 7be current density reaches its@ maximun value of 107 A/Cm2 at a time'close to that at which the channel is formed; the enpansion of the channel leads to a decrease -of the current density. 6)_ A step iras observed in the osoillogram bf the gap potential when the current reached 500 t13 800 A; this stop signals the formation of-the spark channel ard does not precele- streaver formation, - as was previously assumed (t,S.Marshaks ON 1 71s 6310- 1960; 77, 229, 1962),, Origo art. hast 3 figures. [151 Card W3  z t