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1.C. Cleveland, D. Liao, and R. Austin, Aip Advances 2(1), 943 (2012).
2.S. Ahn and L. L. Rubchinsky, Chaos 23, 123 (2013).
3.A. Leite, A. P. Rocha, and M. E. Silva, Chaos 23, 391 (2013).
4.K. Schires, A. Hurtado, and I. D. Henning, Aip Advances 1(3), 17175 (2011).
5.L. M. Pecora and T. L. Carroll, Physical Review Letters 64, 821 (1990).
6.G. Kolumban, B. Vizvari, W. Schwarz, and A. Abel, in Proceedings of the 4th International Workshop on Nonlinear Dynamics of Electronic Systems, Seville, Spain, 27-28 June 1996. pp. 8792.
7.L. Wang, G. Cai, and G. Chen, IEEE Transactions on Wireless Communications 1 (2015).
8.G. Cai, L. Wang, and T. Huang, in Communications and Information Technologies (ISCIT), 2013 13th International Symposium on IEEE, Surat, Thani, 4-6 Sept 2013. pp. 9195.
9.Y. Lyu, G. Cai, and L. Wang, in Medical Information and Communication Technology (ISMICT), 2014 8th International Symposium on IEEE, Florence, Italy, 2-4 April 2014. edited byL. Mucchi, R. Kohno, and J. Iinatti, pp. 15.
10.Nizar. N. Albassam, International Journal of Engineering and Technology 4, 320 (2015).
11.J. H. Lee and H. G. Ryu, in Advanced Communication Technology (ICACT), 16th International Conference on IEEE, PyeongChang, Korean, 16-19 Feb 2014. pp. 11841187.
12.N. N. Albassam, in Information and Communication Systems (ICICS), 2014 5th International Conference on IEEE, Irbid, Jordan, 1-3 April 2014. edited byC. K. Lucas and S. H. Qing, pp. 15.
13.B. Jovic, Electronics Letters 51, 630 (2015).
14.B. Jovic, in AICT 2014, The Tenth Advanced International Conference on Telecommunications, Paris, France, 20 July-24 July 2014. edited byM. Logothetis, M. Massoth, T. Atmaca, and E. Borcoci, pp. 105109.
15.K. Y. Cheong, F. C.M. Lau, and C. K. Tse, Circuits, Systems, and Signal Processing 22, 567 (2003).
16.H. Wang, J. Guo, and Z. Wang, Journal of Tsinghua University 49, 13 (2009).
17.M. Xu and H. Leung, IEEE Transactions on communications 58, 2855 (2010).
18.S. Zhu, Y. Xu, and K. Yin, in NSWCTC’09: International Conference on Networks Security, Wireless Communications and Trusted Computing, edited byZ.B. Hu (IEEE, Wuhan, China, 2009), p. 518.
19.T.J. Wren and T.C. Yang, IET Communications 4, 739 (2010).
20.S. Arai, Y. Nishio, T. Yamazato, and S. Ozawa, in NOLTA’09, Proceedings of International Symposium on Nonlinear Theory and its Applications, Sapporo, Japan edited by T. Ueta (2009), p. 312.
21.S. Arai, Y. Nishio, and T. Yamazato, Nonlinear Theory & Its Applications IEICE 5, 210 (2014).
22.Y. Fu, X. Li, Y. Li et al., Chaos An Interdisciplinary Journal of Nonlinear Science 23, 013111 (2013).
23.F.S. Chen, Chaos Control and Its Application (China Electric Power Press, Beijing, 2004), p. 191.
24.Y. Q. Fu, D. M. Wu, L. Zhang, and X. Y. Li, SCIENCE CHINA Information Sciences 54, 1274 (2011).
25.SystemView(Advanced Dynamic System Analysis) User Manual(ELANIX Company, California USA, 1999).

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Previously a novel chaos M-ary digital communication method based on spatiotemporal chaos Hamilton oscillator has been proposed. Without chaos synchronization circumstance, it has performance improvement in bandwidth efficiency, transmission efficiency and anti-white-noise performance compared with traditional communication method. In this paper, the channel noise influence on chaotic modulation signals and the construction problem of anti-color-noise chaotic M-ary communication system are studied. The formula of zone partition demodulator’s boundary in additive white Gaussian noise is derived, besides, the problem about how to determine the boundary of zone partition demodulator in additive color noise is deeply studied; Then an approach on constructing anti-color-noise chaos M-ary communication system is proposed, in which a pre-distortion filter is added after the chaos baseband modulator in the transmitter and whitening filter is added before zone partition demodulator in the receiver. Finally, the chaos M-ary communication system based on Hamilton oscillator is constructed and simulated in different channel noise. The result shows that the proposed method in this paper can improve the anti-color-noise performance of the whole communication system compared with the former system, and it has better anti-fading and resisting disturbance performance than Quadrature Phase Shift Keying system.


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