11146nam#a2200757#i#4500001000500000005001700005008004000022020002300062041000900085044000900094072002400103080006900127100009400196245008900290260003900379300001200418500127100430510012901701510014601830510018801976510011402164510022802278510014602506510025902652510019002911510013903101510018603240510025103426510020303677510011703880510020103997510009304198510023004291510020604521510018904727510024104916510018405157510015105341510012105492510018905613510016905802510020905971510015906180510016006339510025906499510034306758510016107101510029507262510019907557510019207756510020507948510022108153510019808374510025808572510024608830510011209076510016609188510018009354510015009534510016009684510017009844510015710014510015810171533003310329856002610362240720241121121626.4 20220522d2022####ek#y0engy0150####ca##$a978-1-922756-14-50#$aENG##$axxu#7$aGeneral. TEC000000##$aИнженерное дело. Техника в целом. 62#1$aVeshkurtsev, Yury Mikhailovich$aA.M. Prokhorov Academy of Engineering (Siberian Branch)00$aTHE FOUNDATIONS OF THE THEORY OF CONSTRUCTION OF NEW-GENERATION MODEMS$cMonography1#$aMelbourne$bAUS PUBLISHERS$c2022##$a164 p.##$aThe monography presents the fundamentals of the theory of construction new-generation modems. Modems are built on the principles of statistical communication theory, based on the use of a random signal (chaos) as a carrier of information. In such a signal, a characteristic function is modulated, which is a fundamental characteristic of a random process. The signal modulation and demodulation method is patented and allows you to create modems with efficiency and noise immunity indicators several orders of magnitude higher than those of the known devices of the same name. New-generation modems immediately improve the technical characteristics of digital IT equipment by several orders of magnitude, since they work without errors in wired and radio channels when receiving one hundred duodecillion of binary symbols. The book is recommended for scientists and specialists in the field of digital communication systems, statistical radio engineering and instrumentation, and may be useful for graduate students, masters and students of relevant specialties.$anew-generation modems, information, signal, signal modulation and demodulation method, IT equipment, digital communication, radio engineering$a10.26526/monography_628a8925151ca0.711254940#$aLukach E. Characteristic functions / trans. from English; under. ed. by V.M. Zolotarev. – Moscow: Nauka, 1979. – 424 p.0#$aVeshkurtsev Yu.M. Applied analysis of the characteristic function of random processes. – Moscow: Radio and communication, 2003. – 204 p.0#$aVeshkurtsev Yu.M., Veshkurtsev N.D., Titov D.A. Instrumentation based on the characteristic function of random processes. – Novosibirsk: publishing house ANS "SibAK", 2018. – 1820#$aLevin B.R. Theoretical Foundations of Statistical Radio Engineering. – Moscow: Sov. radio, 1966. –728 p.0#$aGoryainov V.T., Zhuravlev A.G., Tikhonov V.I. Statistical radio engineering. Examples and tasks: textbook for universities / under. ed. by V.I. Tikhonov. – 2nd ed. revis. and add. – Moscow: Sov. radio, 1980. – 544 p.0#$aTsvetkov E.I. Fundamentals of the theory of statistical measurements. – Leningrad: Energoatomizdat. Leningrad department, 1986. – 256 p.0#$aVeshkurtsev Yu.M., Veshkurtsev N.D., Titov D.A. Filtering in the probability space of an additive mixture of a non-centered quasi-deterministic signal and noise // Devices and systems. Management, control, diagnostics, 2018. – No. 3. – P. 18 – 23.0#$aBershtein I.L. Fluctuations of the amplitude and phases of a tube oscillator // Bullet. of Academy of Sciences of the USSR. Ser. Physical, 1950. – V. 14. – No. 2. – P. 146 - 173.0#$aVeshkurtsev Yu.M., Veshkurtsev N.D. Statistical control of substances. – Novosibirsk: publishing house ANS "SibAK", 2016. – 64 p.0#$aVeshkurtsev Yu.M. Noise immunity and efficiency of the new modulation method // international scientific journal "Science and World", 2019. – No. 3 (67). Volume 2. – P. 8 - 16.0#$aGradshtein I.S., Ryzhik I.M. Tables of integrals, series and products. Under ed. by A. Jeffrey, D. Zwillinger. – 7th edition: Trans. from eng. under ed. by V.V. Maksimov. – St. Petersburg: publishing house "BHV-Petersburg", 2011. – 1232 p.0#$aVeshkurtsev Yu.M. Noise immunity of a modem based on dynamic chaos according to the Veshkurtsev law in a channel with Gaussian noise // Digital Signal Processing, 2019. – No. 4. – P. 42 – 45.0#$aVeshkurtsev Yu.M. Signal modulation and demodulation method // Electrosvyaz, 2019. – No. 5. – P. 66 – 69.0#$aVeshkurtsev Yu.M. Theoretical foundations of statistical modulation of a quasi-random signal // international scientific journal "Science and World", 2019. – No. 4 (68). V. 1. – P. 36 – 46.0#$aTikhonov V.I. Statistical radio engineering. – Moscow: Soviet Radio, 1966. – 678 p.0#$aVeshkurtsev Yu.M. Building a modulation theory using a new statistical law for the formation of a quasi-deterministic signal // international scientific journal "Science and World", 2019. – No. 5 (69). V.2. – P. 17 - 26.0#$aHandbook of Special Functions / Under ed. by M. Abramowitz and I. Stegun. trans. from English. Under ed. by V.A. Ditkin and L.N. Karamzina. – Moscow: ch. ed. physical – mat. lit., 1979. – 832 p.0#$aPatent 2626554 RF, IPC N03S 5/00. Method of signal modulation / Yu.M. Veshkurtsev, N.D. Veshkurtsev, E.I. Algazin. – No. 2016114366; dec. 13.04.2016, publ. 28.07.2017. Bull. No. 22.0#$aLyapunov A.M. On a theorem of the theory of probability. One general proposition of probability theory. A new form of the theorem on the limit of probabilities // Collect. edit.: In 6 volumes. – Moscow, 1954. – V.1. – P. 125-176.0#$aVeshkurtsev Yu.M. Formation of a reference oscillation in the statistical analysis of phase fluctuations // Instruments and Experimental Technique, 1977. – No. 3. – P. 7 -13.0#$aBaskakov S.I. Radio engineering circuits and signals. Textb. for universities. – 2nd ed., Rev. and add. – M.: Higher School, 1988. – 448 p.0#$aSudakov Yu.I. Amplitude modulation and self-modulation of transistor generators. – M.: Energiya. 1969. – 392 p.0#$aPatent 2626332 RF, IPC H04L 27/06. Signal demodulation method / Yu.M. Veshkurtsev, N.D. Veshkurtsev, E.I. Algazin. – No. 2016131149; dec. 27.07.2016, publ. 26.07.2017. Bull. No. 21.0#$aVeshkurtsev Yu.M., Titov D.A. Study of the signal modem model with a new modulation // Theory and technology of radio communication, 2021. – No. 3. - P. 23 - 29.0#$aVeshkurtsev Yu.M. Improving the noise immunity of the modem of digital systems with amplitude manipulation // Instruments and systems. Management, control, diagnostics, 2019. – No. 7. – P. 38 – 44.0#$aVeshkurtsev Yu.M. New generation modem for future data transmission systems. Part 1 // Omsk Scientific Bulletin, 2018. – No. 4 (160). – P. 110 - 113.0#$aVilenkin, S.Ya. Statistical processing of the results of the study of random functions: monograph / S.Ya. Vilenkin. – Moscow: Energiya, 1979. – 320 p.0#$aVeshkurtsev Yu. M., Titov D. A. Determination of probabilistic characteristics of random values of estimates of the Lyapunov function in describing a physical process // Metrology. 2021. No. 4. P. 53–67. https://doi.org/10.32446/0132-4713.2021-4-53-670#$aVeshkurtsev Yu. M. Study of modem in a channel with gladkie fading of signal with modulated kharakteristicheskaya function // Proccedings of the International Conference “Scientific research of the SCO countries: synergy and integration”, Beijng, China, 28 October, 2020. Part 2. Pp. 171 – 178. doi: 10.34660/INF.2020.71.31.0260#$aVeshkurtsev Yu.M. New generation modem for future data transmission systems. Part 2 // Omsk Scientific Bulletin, 2018. – No. 5 (161). – P. 102 – 105.0#$aVeshkurtsev Yu.M. New modem built in the space of probabilities // Current state and prospects for the development of special radio communication and radio control systems: Collec. edit. All-Russ. jubilee scientific-technical conf. - Omsk: JSC "ONIIP", October 3-5, 2018. – P. 114 - 119.0#$aVeshkurtsev Yu.M. Addition to the theory of statistical modulation of a quasi-deterministic signal with distribution according to Tikhonov law // Elektrosvyaz, 2019. – No. 11. – P. 56 - 61.0#$aVeshkurtsev Yu.M. Modem for receiving modulated signals using the Tikhonov distribution law // Instruments and systems. Management, control, diagnostics, 2019. – No. 8. – P. 24 - 31.0#$aVeshkurtsev Yu.M. Modem noise immunity when receiving a signal with the distribution of instantaneous values according to Tikhonov law // Digital Signal Processing, 2019. – No. 2. – P. 49 – 53.0#$aZyuko A.G. Noise immunity and efficiency of information transmission systems: monograph / A.G. Zyuko, A.I. Falko, I.P. Panfilov and others / Under ed. by A.G. Zyuko. – M.: Radio and communication, 1985. – 272 p.0#$aZubarev Yu.B. Digital television broadcasting. Fundamentals, methods, systems: monograph / Yu.B. Zubarev, M.I. Krivosheev, I.N. Krasnoselsky. – M.: Publishing House of SRIR, 2001. – 568 p.0#$aVeshkurtsev Yu.M. Investigation of the noise immunity of a modem of digital systems with amplitude shifting when operating in a channel with Gaussian noise // Instruments and systems. Management, control, diagnostics, 2019. – No. 9. – P. 28 – 33.0#$aBychkov E.D., Veshkurtsev Yu.M., Titov D.A. Noise immunity of a modem in a noisy channel when receiving a signal with the Tikhonov distribution // Instruments and systems. Management, control, diagnostics, 2020. – No. 3. – P. 38 – 43.0#$aLazarev Yu. F. MatLAB 5.x. – Kiev: Ed. group BHV, 2000. – 384 p. ISBN 966-552-068-7. – Text: direct.0#$aDyakonov V. P. MATLAB. Processing of signals and images. Special handbook. – St. Petersburg: Peter, 2002. – 608 p. – ISBN 5-318-00667-1. – Text: direct.0#$aDyakonov V. P., Kruglov V. I. Mathematical extension packages MATLAB. Special handbook. – St. Petersburg: Peter, 2001. – 480 p. – ISBN: 5-318-00004-5. – Text: direct.0#$aSergienko A. B. Adaptive filtering algorithms: implementation features in MATLAB // Exponenta Pro. 2003. N1. – P. 11 – 20. – Text: direct.0#$aDyakonov V. P. MATLAB 6/6.1/6.5 + Simulink 4/5. Basics of application. – Moscow: SOLON-Press. 2004. – 768 p. – ISBN 5-98003-007-7. – Text: direct.0#$aSolonina A. I. Digital signal processing. Simulation in Simulink. – St. Petersburg: BHV-Petersburg, 2012. – 425 p. – ISBN 978-5-9775-0686-1. – Text: direct.0#$aDyakonov V. P. Digital signal processing. Simulation in Simulink. – Moscow: DMK-Press, 2008. – 784 p. – ISBN 978-5-94074-423-8. – Text: direct.0#$aSimulink Environment Fundamentals. Blocks. The MathWorks. URL: https://ch.mathworks.com/help/referencelist.html?type=block (date of access: 21.04.2021).##$aThere is an electronic copy4#$aauspublishers.com.au