SCIENTIFIC ABSTRACT YURKOV, V. N. - YURKOVSKIY, I. M.

ra ZAKHAROV,, B.P., inzh.; YURKOV V.N kand.tekhn.naukj'BELYMHOV.. V.N... inzh. Using a bunker train in tunne.ling. Shakjht, OtAl, 7 rl.,-o.4:23-25 Ap 163. (141PM .16:3) 7-10-Gitavch iftriLtostropipravlenip -(for Wharov). 20 Altaya" )-,iy torrio-matallurgicherkly nauchno-issiedovatel'skiy institut (for Yurkov, Belyashov).  YERGALM."', A.Ye.; YU OVI V.N ABEDIMOV A.Zh.; ZAVAfajh,, V.G.; VV_p Study of the-electrochemical.method of fastening, loams and clays. Trudy Alt. G14IIII AN Kazakh, SSR 15;48-52 163, (MIRA 17:3)    M& R PHASE I BOOK EXPLOITATION .619 Astaftyev., Oeorgly Pavlovicht Shebabayevich, Valentin Semeovich and Yurkov,, Yuriy Alekseyevich RadionavigAtsionnyye ustroystva i sistemy (Hadionavigational Devices and Systems) Moscow, Izd-vo "Sovetskoye radio", 1958. 863 p. Number of copies printed not given. Eds.t 11yukhInj, V,F# and Volkova,, R.N.; Tech. Ed.: Koruzey, U.N. Ptmposk: The book is a textbook for stulents of hl&-*-r ailitar-4 schoolis as well as higher tecbn1cal schools (vt; ). It may be used bir engineers and technician engaged In the field of radio navigation., COVERAGEt The book gives an account of the theory &nd basic principles of operation of present-day radio devices and system used for navigation. General characteristics of radionavigational 'Card 1/16  Radionavilgational Devices and Systems 619 devLces abd alratems'are presented and special consideration is given to- a.,, 411kaussion-of amplitudoo,phasa frequency, pulse, and complex devicos and systems. Attention is*given to the anlysis of erromliko geometric distortions which occur due to the effect of - radio-wave propagation conditions and radio interferences. Applica- tion of radionavigational devices for the solution of various problems arising in aircraft navigation is discussed# The text is a collective contribution of three authors who wrote the following chapters: G.P. Astaflyev wrote chapters -TV,,V.,Vl, VIII,, IX.. XI, XIII,, XXIV V.S. Shebsbayevich wrote chapters VII,, Xj XII, XrV, XV" XVIJ, XIX, XX, XXIO XXII, XXVIII. Yu. A. Yurkov wrote chapters It I10 IIIv-XVII, XVIII,, XXIII, XXV, XXVI,,XXVII. The authors thank Prof('issor S.A. Drobov,, Candidate of Technical Sciences, for his valuab%e criticisms, and Docent M. Ye Starik for his help. Special recognition is given the reviewer., Laureate of the Stalin prize,, Doctor of Technical Sciencesj, Professor Ye. Ya. Shchegolev (deceased)I for his valuable advice and criticism. There are 89 Soviet references .. (including 12 translations), 44 English., 6 German and 4 French. Card 2/16  RadionavigAtional Devices and Systems 61g TABLE OF CONTENTS: Preface 3 Introduction 5. SECTION 1. GENERAL CHARACTERISTICS OF RADIONAVIGATIONAL DEVICES AND SYSTEMS ch. 1. Problems and Characteristics of Radionavigational Devices and Systems 9 1. Purpose of radionavigational devices and systems 9 2. Basic, tactical and technical requirements of radionavigational devices and systems 15 3. Principles of construction and classification of radionavigational devices and systems 17 Ch. II. Bitsic Information on Air Navigation 24 Card 3/16  Radionavlgational Devices and Systems 619 1. Basic navigational elements and definitions 24 2. Basic aircraft position linea 28 3. Basic physical properties of the earth 2-4 4. General information on cartographic projections and maps 41 Ch. III., Typical Errors of Radionavigational Measurements 46 1. General characteristics of radionavigational measurement errors 46 2. Effect of radio-wave propagation conditions on accuracy and range of operation of radionavigational devices and systems 49 3. Effect of various types of interferenoe on the operation of radionavigational devices 64 4. Effect of measurement duration on the accuracy of determining aircraft position 65 Ch. IV. Operating Range of Radionavigational Systems 69 1. Accounting for and treating random errors 69 Card 4/16  RadionaV1.9ational Devices and Systems 619 2. Equal probability error curves of aircraft position determination 76 3, Platting the error ellipse 81 4. Dimensions of the error ellipses 83 5, Operating range of the radionavigational system 87 SECTION 2. AMPLITUDE RADIONAVIGATIONAL DEVICES AND SYSTEKS Ch.'V. General Characteristics of Amplitude Radionavigational Devices and Systems 92 1. Introduction 92 2. Methods of assignment and determination of directions in space 96 3. History of amplitude radionavigational devices in our country 99 Ch'..14A Methods of Indication in Amplitude Radlonavigational Devices 102 Card 5/16  Radionavi gational Devices and Systems 619 1. General information on indicators 102 2. Aural Indication 10 3. Visual indication 108 4. Comparison of methods 119 Ch. VII. Effect of Radio-wave Propagation Conditions on the Performance of Amplitude Radionavigational Devices 122 1. Errors caused by the effect of irregularities of ground cover and relief 122 2. Effect of secondary emission fields. Radio compass deviation 137 3. Polarization errors 154 4. Direction-finding errors caused by side deflection of radio waves 168 Ch. VIII. Directional Antennas of Amplitude Radionaviational Devices 173 1. Requirements of directional antennas 173 2. Loop antennas 175 3- Spaced antennas 185 4. Antennas free from polarization errors 195 5# Co-bined antennas .M 198 Card 6/16 "  ----Radionavigati:6rLiil-D6,,ri:6es and Systems 61g Non-directional effect of directional antennas 203 7. Control of directional characteristics 207 Ch. IX. Amplitude Radio, Direction Finders 217 1. General information on amplitude radio direction finders 217 2. Minimum signal direction finding 220 3. Maximum signal. direction finding 240 4. Direetion finding by comparison of re4eived aignals 2117 r0 Amplitude modulation of received signals 252 Direction findings by minimum degree of modulation of received signals 269 7. Direction finding by comparing the degree of modulation of received signals 277 Ch. X. Amplitude Radio Beacons 281 1. Classification of radio beacons 281 2. Radio marker beacons' 286 3. Radio range beacons 290 4. Direction finding radio beacons 335 Card 7/16  Radionavigational Devices and Systems 619 Ch. XI. Effect of Noise Interference on Operation of onavigational Devices Amplitude,Radi 364 L 1. Signal and noise passage through the receiving device 364 2. Angular sensitivity of amplitude devices operating on minimum signal 375 3. Angular sensitivity of amplitude devices operating by the comparison method 383 SECTION 3. PHASE RADIONAVIGATIONAL DEVICES AND SYSTEMS Ch. XII. General Characteristics of Phase Radionavigational Devices 393 1. Principle of operation and classification of phase radionavigational.devices 393 2. Brief review of development of radionavigational measurement by phase methods 398 3. Effect of radio-wave propagation conditions on the operation of phase radionavigational devices 402 Card 8/16  Radionavigational Devices and Systems 61g Ch. XIIIo . Methods of Indication in Phase Radionavigational .Devices 1, General information on phase difference measurement 2. Direct methods of measruing phase difference 3.. Compensation methods of rie-asuring phase difference Ch. XrV. Phase Radionavigational Ranging Devices 1. Ranging devices with measurement of phase difference at high frequencies 2. -Ranging devices with measurement of phase difference at modulation frequency 3. Ranging devices with measurement of phase difference at beat frequency ~4~ Ranging devices with preservation of initial phase by standard freq7aency generator on board Ch, XV. Phase-difference Ranging Systems General characteristic of systems Card 9/16 414 414 415 ~,,423 432 432 441 442 448 450 450  2. Phase-differenceranging systems,with-measurementat trigh.frequency 455 3. Phase-differenceranging systems with measurements at beat frequencyo providing a net of position lines at carrier frequency 464 4. Phase-difference ranging systems-with measurements at beat frequency, providing a net of position lines at combination frequency 470 5. Pbase-difference ranging syatema for ground rix determination of moving object 475 M iVI. Phase Hadionavigational Angle-measuring Devices 479 It Phase angle-measixring devices using rotating directional charaoteristica 479 2. Phase angle-mcaouring devices of the interference type .494 3% Phase angle-measuring devices with rotating non- directional antennas 500 Card, 10y 16  Radionavigational Devices and Systems 61g SECTION 4. FREQUENCY RADIONAVIGATIONAL DEVICES AND SYSTEKS Cho XVII. General,Characteriatico-of--Rraquency Hadlonavigational- ~Devices and Systems 518 1. Classification$ applications, and stages of development of frequency radionavigational devices and systems 518 .2. Theoretical bases of frequency radio-altimeter operation 526 .Cho XVIII. Frequency Radio Altimeters and Frequency Radionavigational Systems 546 1. Typical frequency radio altimeter, 546 2. Frequency radio altimeters eliminatftg,diacrete readings 56o 3- Frequency radio altimeters with intermediate- frequency amplification 568 4. Frequency-difference ranging systems 570 Card -n/M  Radionavigational'Dbvices and Systems 619 5-- Frequency angle-measuring system 6. Frequency radionavigational devices using Doppler effect SECTION 5- PULSE (TIKE) RADIONAVIGATIONAL DEVICES AND SYSTEMS Ch. XIX. General Characteristics of Pulse Radionavigational 'Devices 1. Principle of operation and classification of pulse devices 2. BAsLe methods of measuring time intervals 3. History of the'pulse method of measuring distance Ch# XX, Effect of Radio-wave Propagation Conditions on Operation of Pulse Radionavigational Devices 14- Pulse signal shape distortion during propagation 2. Effect of propagation conditions on space-wave delay Card 12116 573 574 5T8 578 582 589 592 592 6oo  'Radionavigational Devices and Systems 619 Cho XXI, Pulse Radio Altimeters 611 Ch. XXII. Pulse Hadionavigational Ranging Systems 619 ~1. Pulse ranging devices for air navigation 61g 2. Airdraft pulse-Interrogation ranging system used for air navigationand bombing 628 3. Ground pulse-interrogation ranging systems used for bombing 638 4. System of ranging and angle measurement for aircraft homing 64o Cho XXIII. Pulse-difference Radionavigational Ranging Systems 642 1. Principle of operation of pulse-difference radionavigational ranging systems 642 2. Pulse-difference radionavigational ranging systems with independent and synchronized operation of radio station 650 Card 13/16  -Radio navigational Devices and Systems 619 3. Airplane receiver Indicators of pulse-difference and radionavigational ranging systems. Methods of automatiz- Ing readings 656 4. Ground stations and methods of synchronizing their operation 691 Ch. XXIV. Effect of Noise Interference on Operation of Pulse RadionavIgational. 1?evices 697 1# Baoic concepts and definitions 697 2* Effect of noise interrerence when matching pulse signal fronts 7o4 3. Effect of noise interference on time position of pulse signal symmetry axes 719 SECTioN 6. COMPLEX RADIONAVIGATIONAL SYSTE14S FOR AIRCRAFT LANDINO Ch. XXV. General Characteristics of Landing Systems. Simple Methods of Instrument Landing 727 1e Purpose of landing systems. Requirements of landing systems 727 2. Stages in the theoretical and technical development of landing systems 731 3. 'Simple methods of instnment landing 735 Card 14/16  Radionavigational Devices and Systems 619 4. Simplified landing systems 74o 5. General information on lighting equipment for landing systems 748 Ch. XXVI. Airport Dispatching Equipment and Systems 752 1. Requirements of airport dispatching equipment 752 2. Technical facilities of dispatching service 754 3. Standard dispatching equipment 762 Ch. XXVIIo Instrument Landing Systems 768 1. General information 768 2. Localizer equipment used In standard systerAs 770 3. Glide-path equipment used in standard systems 793 4. 'Instrument landing systems operating in the centimeter and decimeter bands 802 5. Bxample of an instrument landing system 811 6. Automatic landing control 815 Ch. XXVIII, Ground Controlled Approach Systems 1. General characteristics of landing systems Card 15/16  Hadionavigational, Devices and Systems 619 210 Non-automatio,groundicont:rolled approaah 30 Ground control,led approach with computers 4. Ground controlled approacli with autopilot Conclusion Bib-liography AVAILABLE: Library of Congress JP/ksv Card 16/16 1o-14-58 82o 83~ 83 848 851  P0 66056 SOV/106-59-10-2/11 AUTHORB; TelizaEgy, 9~~ V. and Yurkov,_.~_P~ TITLE: The Spectra of,Phase-Keyed SiSgals4, PERIODICAL: , Elektro-svyazI, 1959,~Nr 10, PP 13-22 (USSR) ABSTRACT: To solve-problems arising in telemetric and other systems, in. which the phase of a carrier oscillation is "keyed", it id.of practical importance to knowthe spectrum characteristics of pulsed and continuous oscillations, -which are phase-keyed in various ways. The problem is formulated as follows: it is required to find the f* - ulses or of a series of l e l i t e s r um o a s spec ng pu p , , of a-periodic train of pulses, the duration of each being -,z '_ add-.the oscillation within the envelope - the. contained oscillation - being harmonic. -Also during., t ion,changes the-.time T,the phase of the contained oscilla by a',step q times and remains-.unchanged for a time Tk between-steps.z In the general case, the value of the phase after-each step can be written in the form 0, . il::~, where i can take aixy value, positive or k negative, the total number being q. In the case of a periodically phase-keyed signal 9 the values of i in Card 1/4 each pulse.repeat,in the same sequence, If in the  68056 SOV/106-59-10-2/11 The Spectra -of Phase-Keyed Signals periodic traJml, 4e repetition frequency of -the.pulses F is made equal. to /T, then this pulse.train becomes a continuous, phase-keyed signal. Depending on whether the signal in a periodic or an aperiodic fiInction, then the Fourier series or the Fourier integral respectively is used, The formulae produced are applicable to any ,shape envelope and any non-random keying law but for clarity the Authors choose as examples sigaals with rectangular envelopes and step changes in phase, in which i takes the values 1. 29 3jo-ol q. The Authors first consider-phase-keyed, aperiodic-functions, consisting, of either a single pulse or a series of pulses. The general expression for any component can be written f /t) ) sin (W k'% k(t ot where k k -C T t LX k k (X Card 2/4 0 outside the given interval, and k 19 29 .09 q  68056 SOT/106-59-10-2/11 The Spectra of Phase Keyed Signals is the number of the pulse-component;-,Fk(t) is the function describing the envelope, and Ok is the initial phase of the contained oscillation. The spectrum for pu-1 en_in-Eq_(-3)- and_for_a~, -aeries of p - pulse a in Eq -(5) and - (6) It Eq is applicable. - when P is add -and Eq (6) when p is even., Next is investigated the spectrum for a periodic train of pulses of the type fl(t) - Fl(t) sin (wot + 01) when O< te-T; T