INFORMATION TRANSMISSION METHODS WITH THROUGH THE USE OF STOCHASTIC SIGNALS

Authors

  • Ruslan Didkowsky

DOI:

https://doi.org/10.20535/2411-2976.22013.5-18

Abstract

The paper provides an overview of information transmission methods through the use of the noise carrier proposed by researchers from the middle of the last century to the present day. It is shown that the main areas of application of autocorrelation systems with the noise carrier is the confidential communication system construction, where the protection of the transmitted information from intercepting and protection of the channel from the extraneous information injecting are of priority. Methods of information transfer, discussed in the paper, allow solving the problem of sustainable communication in difficult conditions of signal propagation with simple technical means, especially in multipath channels. The paper studies the most urgent theoretical and practical problems relating to communication systems with the noise carrier.

References

Pestrikov V.M. Era of tubeless wireless communications devices. – Sevastopol: Weber, 2011. – 185 p.

Rodionov V.M. The Birth of Radio Engineering. – Moscow: Nauka, 1985. – 240 p.

De Rosa L.A., Rogoff M. Sect. 1 (Communications), Application of Statistical Methods to Secrecy Communication Systems, Proposal 946, Fed. Telecommun. Lab., Nutley, NJ, Aug. 28, 1950.

Kharkevich A.A. Signals transmission using modulated noise // Elektrosvyaz. –1957. – № 11. – P. 42–46.

Petrovich N.T., Razmakhnin M.K. Communication Systems with Noise-Like Signals. – Moscow: Sovetskoye Radio, 1969. – 232 p.

Noise-Like Signals in Data Transmission Systems / Ed. by V.B. Pestryakov. – Moscow: Sovetskoye Radio, 1973. – 424 p.

Varakin L.E. Communication Systems with Noise-Like Signals. – Moscow: Radio i sviaz', 1985. – 384 p.

Ilchenko M.Ye., Kravchuk S.A. Telecommunication Broadband Radio Access Systems. – Kyiv: Naukova dumka, 2009. – 312 p.

Harmuth H.F. Nonsinusoidal Waves for Radar and Radio communication. – New York: Academic Press, 1981.

Barrett T. W. History of UltraWideBand (UWB) Radar & Communications: Pioneers and Innovators // Progress In Electromagnetics: Symposium 2000 (PIERS2000), Cambridge, MA. – 2000.

Bunin S.G. Ultra wide band impulse signals in future long range communication systems // Microwave and Telecommunication Technology (CriMiCo), 2011 21th International Crimean Conference, 12-16 Sept. 2011. – Sevastopol: SevNTU, 2011. – P. 26–27.

Dmitriev A.S., Ivanov V.P., Lebedev M.N. Model of Transistor Oscillator with Chaotic Dynamic // Soviet Journal of Communication Technology and Electronics. – 1988. – Vol. 33, No 10. – P. 169–172.

Fujisaka H., Yamada T. Stability theory of synchronized motion in coupled-oscillator systems // Prog. Theor. Phys. – 1983. – Vol. 69, No. 1. – Р. 32–47.

Pecora L.M., Caroll T.L. Synchronization in chaotic systems // Phys. Rev. Lett. – 1990. – Vol. 64, No. 8. – Р. 821–824.

Zakharchenko N.V., Korchinsky V.V., Radzimovsky B.K. Multi-User Access in Communication Systems with chaotic Signals // Eastern-European Journal of Enterprise Technologies. – 2011. – № 5/9 (53). – P. 26–29.

Kostenko P.Yu., Barsukov A.N., Vasiuta K.S., Symonenko S.N. Detection of the chaotic process distorted by the white noise using BDS statistics // Radioelectron. Commun. Syst. – 2009. – Vol. 52, No. 11. – P. 599–605.

Bhat L., Sudha K.L. Performance analysis of chaotic DS-CDMA with CSK modulation // International Journal of Mobile Network Communications & Telematics (IJMNCT). – 2012. – Vol. 2, No. 2. – Р. 21–30.

Kolumbán G., Krébesz T., Chi K.T., Lau F.C.M. Basics of communications using chaos // Chaotic Signals in Digital Communications. – 2013. – Vol 26. – P. 111–141.

Kalinin V.I. Ultra-wideband data transmission with double spectral processing of noise signals // Technical Physics Letters. – 2005. – Vol. 31, No. 11. – 2005. – P. 929–931.

Narayanan R.M., Chuang J. Covert communications using heterodyne correlation random noise signals // Electronics Letters. – 2007. – Vol. 43, No. 22. – P. 1211–1212.

Narytnik T., Amro A., Ilchenko M., Kalinin V., Turabi O. Sub-terahertz low power UWB communication link for WPAN // Network and Complex Systems. – 2012. – Vol. 2, No. 4. – P. 45–49.

Ilchenco M.Ye., Kalinin V.I., Narytnik T.N., Cherepenin V.A. Wireless UWB ecologically friendly communications at 70 nanowatt radiation power // Microwave and Telecommunication Technology (CriMiCo), 2011 21th International Crimean Conference, 12-16 Sept. 2011. – Sevastopol: SevNTU, 2011. – P. 355–356.

Yanenko A.F., Peregudov S.N. Reference noise generator for millimetric radiometry // Bulletin of National Technical University of Ukraine. Series “Radiotechnique. Radioapparatus Building”. – 2009. – No. 38. – P. 69–72.

Denda W. Rauschen als Information. – Heidelberg: Hüthig, 1988. – 188 s.

Didkowsky R.M., Oleksienko N.V. Increasing Performance of differential Noise-shift keying Communication System // Microwave and Telecommunication Technology (CriMiCo), 2013 23rd International Crimean Conference. 9- 13 Sept. 2013. – Sevastopol: SevNTU, 2013. – P. 256–257.

Trifonov A.P., Parfenov V.I., Mishin D.V. Optimal Reception of a Stochastic Signal with Unknown Duration Against the Background of White Noise // Radiophysics and Quantum Electronics. – 2001. – Vol. 44, Issue 10. – P. 820–832.

Murarka N.P. Spread spectrum system using noise band shift keying // IEEE Trans. On Communications. – 1973. – Vol. 17, No. 7. – Р. 842–847.

Murza L.P. Gaussian Vector Signals in digital Communications. Amplitude and polarization manipulation // Radiotekhnika i Elektronika. – 1983. – Vol. 28, No. 3. – P. 461– 468.

Lega Yu.G. System engineering of communications with noise signals. – Kyiv: Naukova dumka, 2000. – 304 p.

Didkowsky R.M., Pervuninsky S.M. Synthesis non- Gaussian random Numbers determined of Finite Cumulant Sequences // Bulletin of ChETI. – 1999. – No. 1. – P. 29–32.

Didkowsky R.M. Polynomial transformation of Gaussian random sequences // Bulletin of ChETI. – 1999. – No. 4. – P. 63–68.

Lange F. Korrelationselektronik. – Berlin: Verlag Technik, 1962.

Müller W.T. Untersuchungen zur Korrelationsabstandsmodulation // Nachrichtentechnik. – 1964. – B. 14, H. 11.

Semenov A.M., Sikarev A.A. Wideband radiocommunication – Moscow: Vojenizdat, 1970. – 280 p.

Mazurkov M.I. Wideband radio-communication systems. – Odessa: Nauka i tekhnika, 2010. – 340 p.

Voronin A.A. Noise-like signals as effective method for fading suppression // Electrosvjaz’. – 1966. – № 7.

Pervuninsky S.M., Didkowsky R.M., Metelap V.V., Tobilevych Yu.Ye. Mathematical Simulation of Communication Systems Using Time Correlation Modulation // Visnyk Cherkaskoho Universytetu. Ser. Applied Mathematics. – 2006. – No. 83. – P. 112–123.

Bunin S.G., Voiter A.P. Data-Processing Packet Radio Networks. – Kyiv: Tekhnika, 1989. – 223 p.

Pervuninsky S.M., Didkowsky R.M. Calculation of error probability for differential noise-shift keying signal receiver by using the characteristic function method // Scientific works of ONAT n.a. Popov. – 2011. – No. 1. – P. 33–42.

Didkowsky R.M., Pervuninsky S.M., Bokla N.I. Basic methods of stochastic signal modulation // Doklady BGUIR. – 2013. – No. 4(74). – P. 50–55.

Didkowsky R.M. Using non-Gaussian distributions in the differential noise-shift-keying communication system // Scientific notes USRCI. – 2010. – No. 4 (16). – P. 70–77.

Didkowsky R.M., Vovchenko A.V., Bokla N.I. Symbol timing synchronization with the usage of Barker sequences in communication systems utilizing stochastic signals // Automatic Control and Computer Sciences. – 2013. – Vol. 47, Issue 3. – P. 165-172.

Didkowsky R.M., Lega Yu.G., Pervuninsky S.M. Optimal code sequences in problems of clock synchronization of communication systems with noise signal phase-shift keying // Radioelectronics and Communications Systems. – 2012. – Vol. 55, Issue 4. – P. 157-165.

Didkowsky R.M. Enhancing performances in multiple- access differential chaos-shift-keying communication system // Scientific notes USRCI. – 2010. – No. 2(14). – P. 23–31.

Lega Yu.G., Pervuninsky S.M., Didkowsky R.M. The centralized communication system of the multiple access with noise signal phase intriguing // Computer Printing Technologies. – 2012. – No. 27. – P. 139–151.

Ilchenko M.Ye., Narytnik T.N., Didkovsky R.M. Clifford Algebra in Multipleaccess Noise-Signal Communication Systems // Telecommunications and Radio Engineering. – 2013. – Vol. 72, No. 18. – P. 1651-1663.

Toppan F. Division Algebra, Generalized Supersymmetries, and Octonionic M-theory // CBPF — Centro Brasileiro de Pesquisas Físicas, Notas de física, 2004. – No. 031/04. – 17 p.

Ilchenko M.Ye., Narytnik T.N., Didkovsky R.M. Development directions of communication systems utilizing noise signals in sub-terahertz frequency band // Problems of info-communications. Science and Technology (PIC S&T), 2013 1st International Conference, 9-11 Oct. 2013. – Kharkov: KhNURE, 2013. – P. 18-20.

Ilchenko M.E., Cherepenin V.A., Kalinin V.I., Narytnik T.N., Chapurskiy V.V. Wireless terahertz communications with spectral modulation of ultra-wideband noise signals // Telecommunication Sciences. – 2012. – Vol. 3, No. 2. – P. 39–43.

Downloads

Issue

Section

Статті