METHOD FOR GENERALIZED SYNCHRONIZATION DETECTING AND ITS APPLICATION TO COMMUNICATION SYSTEMS
Cite this article as:
Ponomarenko V. I., Prokhorov M. D., Koronovskii A. A., Moskalenko О. I., Hramov A. E. METHOD FOR GENERALIZED SYNCHRONIZATION DETECTING AND ITS APPLICATION TO COMMUNICATION SYSTEMS. Izvestiya VUZ. Applied Nonlinear Dynamics, 2015, vol. 23, iss. 6, pp. 4-15. DOI: https://doi.org/10.18500/0869-6632-2015-23-6-4-15
A method is proposed for generalized synchronization detection which does not exploit an auxiliary system. The method operates in a real time and uses a single response system that is driven alternately by the drive system signal and its delayed copy. A system of secure communication based on the proposed method is developed that has high resistance to noises of a transmission channel. The proposed communication system is studied both numerically and experimentally.
1. Kocarev L., Halle K.S., Eckert K., Chua L.O., Parlitz U. // Int. J. Bifurc. Chaos. 1992. Vol. 2. P. 709.
2. Parlitz U., Chua L.O., Kocarev L., Halle K.S., Shang A. // Int. J. Bifurc. Chaos. 1992. Vol. 2. P. 973.
3. Cuomo K.M., Oppenheim A.V. // Phys. Rev. Lett. 1993. Vol. 71. P. 65.
4. Dmitriev A.S., Panas A.I., Starkov S.O. // Int. J. Bifurc. Chaos. 1995. Vol. 5. P. 1249.
5. Dmitriev A.S., Panas A.I. Dynamical Chaos: New Information Carriers for Communication Systems. Moscow: Fizmatlit, 2002. (in Russian).
6. Ponomarenko V.I., Prokhorov M.D. // J. Commun. Technol. El. 2004. Vol. 49. P. 1031.
7. Tao Y. // Int. J. Comput. Cogn. 2004. Vol. 2. P. 81.
8. Argyris A., Syvridis D., Larger L., Annovazzi-Lodi V., Colet P., Fischer I., Garc ́ia-Ojalvo J., Mirasso C.R., Pesquera L., Shore K.A. // Nature. 2005. Vol. 437. P. 343.
9. Koronovskii A.A., Moskalenko O.I., Hramov A.E. // Physics-Uspekhi. 2009. Vol. 52. P. 1213.
10. Ponomarenko V.I., Prokhorov M.D., Karavaev A.S., Kulminskiy D.D. // Nonlinear Dyn. 2013. Vol. 74. P. 1013.
11. Karavaev A.S., Kulminskiy D.D., Ponomarenko V.I., Prokhorov M.D. // Int. J. Bifurc. Chaos. 2015. Vol. 25. 1550134.
12. Koronovskii A.A., Moskalenko O.I., Popov P.V., Hramov A.E. // Bull. Russ. Acad. Sci., Phys. 2008. Vol. 72. P. 131.
13. Koronovskii A.A., Moskalenko O.I., Hramov A.E. // Tech. Phys. 2010. Vol. 55. P. 435.
14. Moskalenko O.I., Koronovskii A.A., Hramov A.E. // Phys. Lett. A. 2010. Vol. 374. P. 2925.
15. Rulkov N.F., Sushchik M.M., Tsimring L.S., Abarbanel H.D.I. // Phys. Rev. E. 1995. Vol. 51. P. 980.
16. Pyragas K. // Phys. Rev. E. 1996. Vol. 54. P. R4508.
17. Abarbanel H.D.I., Rulkov N.F., Sushchik M.M. // Phys. Rev. E. 1996. Vol. 53. P. 4528.
18. Koronovskii A.A., Moskalenko O.I., Hramov A.E. // Phys. Rev. E. 2011. Vol. 84. 037201.
19. Palus M., Kom ̆ arek V., Hrn ́ c ̆ ́ir Z., ̆ St ̆ erbov ̆ a K. ́ // Phys. Rev. E. 2001. Vol. 63. 046211.
20. Liu Z., Zhou J., Munakata T. // Europhys. Lett. 2009. Vol. 87. 50002.
21. Schumacher J., Haslinger R., Pipa G. // Phys. Rev. E. 2012. Vol. 85. 056215.
22. Stankovski T., McClintock P.V.E., Stefanovska A. // Phys. Rev. E. 2014. Vol. 89. 062909.
23. Koronovskii A.A., Moskalenko O.I., Pavlov A.S., Frolov N.S., Hramov A.E. // Tech. Phys. 2014. Vol. 59. P. 629.
BibTeX
author = {V. I. Ponomarenko and Mikhail Dmitrievich Prokhorov and A. A. Koronovskii and О. I. Moskalenko and A. E. Hramov},
title = {METHOD FOR GENERALIZED SYNCHRONIZATION DETECTING AND ITS APPLICATION TO COMMUNICATION SYSTEMS},
year = {2015},
journal = {Izvestiya VUZ. Applied Nonlinear Dynamics},
volume = {23},number = {6},
url = {https://old-andjournal.sgu.ru/en/articles/method-for-generalized-synchronization-detecting-and-its-application-to-communication},
address = {Саратов},
language = {russian},
doi = {10.18500/0869-6632-2015-23-6-4-15},pages = {4--15},issn = {0869-6632},
keywords = {generalized synchronization,systems of hidden data transmission,time-delay systems.},
abstract = {A method is proposed for generalized synchronization detection which does not exploit an auxiliary system. The method operates in a real time and uses a single response system that is driven alternately by the drive system signal and its delayed copy. A system of secure communication based on the proposed method is developed that has high resistance to noises of a transmission channel. The proposed communication system is studied both numerically and experimentally. Download full version }}