SCIENTIFIC ABSTRACT TOROCHKOV, V.YU. - TOROK, E.

4,), 4; Y(-). TOROGHKOVP V*Yu., aspirant. Iz , ~lln6mmwixyvjlv""6,",114".-. - Determining the angle of slope of the optical axis of aerial photo- graphic apparatus during flight. Trudy MIIGAIX no.28:.-3-26 157. (MIRA 11:1) 1. rafedra priborootroyanlya Hookovskogo instituta inzhenerov geode- zii. aerofotos"yemki i kartografii. (Aerial photogrametry)  3(4) PHASE I BOOK EXPLOITATION SOV/2067 Moscow. Institut inzhenerov geodezii, aerofotos "yemki I kartografti Trudy, vyp. 28, (Transactions of the Moscow Institute of Geodetic, Aerial Survey and Cartographic Engineers, Nr 28) Moscow, Geodezizdat, 1957. 110 p. 1,400 copies printed. Ed.: A. I. Mazmishvili; Ed. of Publishing House: T. A. Shamarova; Tech. Ed,: V. V. Romanova. PURPOSE:, This collection of articles is intended for geodesists, photogrammetrists,and cartographers. COVERAGE: This issue contains articles on geodetic surveying, photogrammetry,and cartography. The articles devoted to geodetic surveying discuss errors In precise leveling, an engineer level, and the speed of light in a vacuum. In the field of photogrammet- ry there are articles on camera tilt, the use of,photos of two scales in densifying controljand the differential method of aerial triangulation. Two articles in cartography discuss Card 1/3  Transactions of the Moscow (Cont.) SOV/2067 Polish school atlases and the history of political admin- istrative maps of the USSR. References accompany individual articles. TABLE OF CONTENTS: ._T1or1oj4KQY,_Y,_Yu. The Problem of Determining the Tilt Angle of the I optical Axis of an Aerial Camera During Flight 3 Dureyko, G. V. Engineer's Level of the Docent V.A. Belitsyn Design 27 Piskunov, M. Ye. Errors in Precise Leveling Caused by Incorrect Placement (Holding) of Invar Rods 41 Prilepin, M. V The Most Probable Value of the Speed of Light in Vacuum 53 Fateyev, A. P. The Use of Aerial Photos of Two Scales for Densifying Horizontal and Vertical Control In Large Scale Surveys 61 Card 2/3  Transactions of the Moscow' (Cont.) SOV/2067 Kirillov, A. M. Polish School Atlases in Geography 71 Fedoruk, 0. D. The Differential Method of Aerial Triangulation Considering Side, Base and Azimuth Conditions 77 Bilich, Yu. S. Notes From the History of the Development of Political Administrative Maps of the USSR 105 AVAILABLE: Library of Congress MM/dfh 7-16-59 Card 3/3  40241 S/169/62/000/007/102/149 D228/D307 AUTHUR; Torochkov, V,. lu. TITLE Probable eliaracturiotics of the horizontal components of tho wind'a velocity and direction PERIODICAL: Referativnyy zhurnal, Geofizika, no. 7, 1962,37, ab- stract 7B207 (Tr-. N.-i. in-ta gidrometeorol. pribo- rostr., no. 10, 1961, 53-60) TEXT: The changes in Uie wind's velocity and direction are analyzed au ratidoin functions in order to determine the dynamic characteris- tics of wind detectors. Proceeding from the assuroption that the .-rocess' numerous separate realizations can be replaced by one rea- lization of sufficient duration, approximate correlations are de- rived for the mathematical expectancy, the dispersion, the correla- tive function, and the spec'tral density. Oxcillograms of the re- cordings of the air-flow parameters. which were.nade at the Mar- khotskiy Pass hydrometeorologic station, were used to calculate ~-these characteristics of the wind's velocity and flow. The wind Card 1/3  S/169/62/00-0/007/102/1'49 Probable characterigtics'of D;228/D307 velocity was measured by a M-U(M-48) instrument with a three-bowl .receiver. The rotation of t he bowls was mechanically transmitted to a d.c. tachometric generator, whose voltage was registered on a magnetoelectric oscillograph. The oscillograph simultaneously re- corded the voltages removed from the wire potentiometer, these being proportional to the wind direction. The potentiometer data-unit was mounted on a wind measuring device with an DI-48a screw receiver. Both parameters were recorded at intervals of up to 10 minutes, during which all the regularities of the random processes under in- vestigation were fully displayed. The recordings obtained for the wind's velocity and direction were deciphered at an inierval of 1 second. As a result of this tables were compiled for the change in the characteristic magnitudes, taken as the basis of the calcu-. lation from the derived formulas. It follows from the calculations cited for the wind velocity's spectral function that the components of the wind velocity's structure, amounting to 935' of the total dis- persion, are included in the frequency interval from 0 to 0.3 sec-1; the components of the remaining 7% of the dispersion fall on the .,-,interval from 0,3 to ao see-le Thusq for practical purposes the re- ,Card 2/3  S/169/62/600/007/102/149 Probable characteristics of ... D228/D307 quired range of the measured wind velocity frequencies is from 0 to 0.4 sec-1. Analogous calculations of the spectral density function allowed it to be established that 1,0 _7' of the dispersion is in the frequency range from.0 to 0.3 aec , 8554 is in the range from 0 to 0.6 sec-1, and 90% is in the range from 0 to 1 sec- . The re- maining 10% of the, dispersion lies in the range from 1 to oo sec-1. The'wind's statistical characteristics allow the instrumental. time constant, guaranteeing the necessary measurement precision, to be ascertained. In particular, it is necessary when measuring the di- rection to cave a transmission band ofil sec-1 for a 90% guaran- teed determination of the dispersion. Having'thus defined the in- strument's.range, it is possible to solve the problem of the cha- racteristics of the random variations in the wind's parameters re- lative to their mean values. ~_Abstracterls'note: Complete trans- lation-_7 Card 3/3  TOROCHKOVP V.Yu., kand.tekhn.nauk Gyroscopic damper of angular oscillations. Trudy MIIWK no.44:88 161. (MIRA 14:7) 1. Moskovskiy institut inzhenerov geodezii, aerofotos"yemki i kartografii, kafedra, priborostroyeniya. (Gyroscope) (DampingkMechanice))  JOROCHMV,, V. lu., kand.tekbn.nauk; Linear accelerations of the aj~rp~ and their effect on the acmwacy of work of the vertical q%is of the gyroscope with pendulum correction. Ti-udy tilIGAIK no.44:89-96 161. (KM 14:7) 1. 14ookovokiy institut inzhenerov geodeziit aerofotoolyemki i'kartogrwTiij, kafedra priborostroyardya* (Gyroscope)  I- -- YII-,, kand.tekbn.nauk Equation of the movement of the vertical axis of an aerial camera mounted in a gyrostabilizer* Izv.vys.ucheb.zav.; geod.i aerof. no-43-147-154 t62. (MIRA 16:2) lo Moskovskiy institut inzh6nerov goodezii,, aerofotos"yemki i kartografii. (Aerial ph toframmetry-E 0 (Gyroscope) quipment and supplies)  S/146/62/005/005/011/016 D201/D308 AUTHOR: Torochkov.,_S. Y TITLEs Inertia of the electrolytic reference pick-up PERIODIGAL: Izvestiya vysshikh uchebnykh :-zavedeniy. Proborostro- -89 yeniye, v# 5, no, 5, 19620.85 TEM The author gives the method and the results of experimental investigations into the dynamics of operation of an electrolytic pick-up for the correction of the gyro vertical. The analysiq was carried out for its linear part of operation by determining the static characteristic of the dependence of cor,rection current on the angle of the pick-up. All measurements were made at ambient temperature +1900. Numerical values of the pick-up time constant were obtained from the oscillograms of transients and it was found that this time constant had the same order of magnitude as .that of the vertical of the gyro itself and hence affects subst -velocity of the lat tially the specific. ter. There are. 3 figures. -1/2   TOROCHKOV, V.yu. Selecting the optimum correction speed of a gyrovertical. Izv. vys. ucheb. zav.; prib. 6 no.6:71-76 163. (WRA 17:3) 1. Moskovskiy institut inzhenerov geodazii, aerofoto.-I"uemki kartografii. Rekomendovana kafedroy priborostroyeniya.  TOROCHKOV, V.yu. law 3f the motion rf rcZating sf air current velocity. Nicwp nc.na,3-6 963. f'. M IRA 2. 8 11 ) Recording wind dlrer,-tion at an automatic meteorological statton fr-T fo"castirig service. Ibld.0--.12  TOROCHKOV$ V.Ylj. A ':~ r 1*3(".1-ibility Of recording parametera nf wind an T-~ipl !W' Uw pon. Tridy NTIGMp r10.1202-77 164. (M I RA I P, z 1,)  ON A MUR  66~  . . . a V, - , , . . . -~i, ~ j t'z, ". . . ~ . ~ . ~ 7 . ;, ~ 1~ - , c 7 ~, I * . - --!, , ~ -!. 11 -,A  -L 0888!5~-6~1 -_ - L-u2(1) Gq _ ACC NRt AP6010782 SOURCE CODE: UR/0146/66/009/001/0137/014~_ AUTHOR: Torochkov V. Yu. 6 ORG: Lyfqscow L skttuL -Stkrv~y ng,Aq4 a a q~_ - q of Geodetic, Air _M!jpping.Epgine _r. (Moskovskiy institut inzhenerov geodezii, aerofotos "yemki i kartografii) TITLE: Gyroscopic instrument for measuring integral direction of an aerodynamic- moment vector SOURCE: IVUZ. Priborostroyeniye, v. 9, no. 1, 1966, 137-140 TOPIC TAGS: aerodynamic moment, aerodynamic R and D, meteorology ABSTRACT: A new gyroscopic device intended for measuring integral direction of an aerodynamic -moment vector is described. An air flow acting upon wind vane 1 7,' produces torque Ma (see figure) which causes precession of the dii0e=na gimbd. Precession-angle sensor PAS, produces a signal proportional to the angle of rotation of the internal gimbal. The signal is applied to torque sensor TS . which causes precession of the external gimbal. The latter precession is always so directed that vane I is set along the vector of air velocity V. Torque sensor TS,, is intended to UDC: 531.383  L o8855-67 ACC NR, AP6010782 ensure the stability of operation; 6ensor PAS2 supplies information on the angular position of vane 1. By means of differential equations describing the gyro motion and a transfer function of the external-gimbal angle depending on M., it is proven that the internal-gimbal angle is truly proportional to the aerodynamic moment. Orig. art. has: 3 figures and 14 formulae. SUB CODE: 04, 17 / SUBM DATE: OZMar65 ORIG REF: 001 31  Acc ta, SOURCE CODE: WQ&~/000/020/0129/012 Morazov-B. I ':INWIMR: Torochkov. V. Yu.; ORG: none TZTLE: Gyrotheod 9- class 42, No. 18T328. [announced by the Moscow Institute-* I .or EnRillieers of Geodesy, Aerial Photogmthy, and C&Aoxrsvhy (Moskovskiy institut z aerofotoc"emki i kartografii)] inzhenerov geode-1r;- SOURCE: Izobreteniya', proWshlennyye obraztsy, tovarvM zaaki, no. 20, 1966, 129 TOPIC TAGS: optic theodolite, surveying instrument, geodetic instrument, gyrotheodo- lite, theodolite ABSTRACT: - An Author Certificate has been issued for a gyrotheodolite. 'The &vice consists of a tvo-staip Wroscope mounted on tvo torsion supports$ an autocollimation system, a theodolite, and a stopping systes6 To obtain a hi& precision reading of the geogrephi; the sensitive element is bermstically sealed In a container :C-klo- 1/3 UDC: 621-752.h  va - AP60358W "W' Sonsiti" I* fo*g*' 8b .3 mw 2/3' :-X 7~ R31 Pi-IN NOR" M-MM MR-it  aTs