CAPS satellite spread spectrum communication blind multi-user detecting system based on chaotic sequences

Ai G X, Shi H L, Wu H T, et al. Satellite communication and positioning system. PRC Patent, 200410046064.1, 2004-06-03

Shang J N, Shi H L, Lu X C, et al. Communication and positioning system based on time, position and status. PRC Patent, 200610012056.4, 2006-05-31

Pratt T, Bostian C, Allnutt J, et al. Satellite Communications. 2nd ed. Beijing: Publishing House of Electronics Industry, 2003

Ai G X, Shi H L, Wu H T, et al. A positioning system based on communication satellites and the Chinese Area Positioning System (CAPS). Chin J Astron Astrophys, 2008, 8(6): 611–630

Ai G X, Shi H L, Wu H T, et al. The principal of the positioning system based on communication satellites. Sci China Ser G-Phys Mech Astron, 2009, 52(3): 472–488

Ning C L, Shi H L, Hu C. GPS/CAPS dual-mode software receiver. Sci China Ser G-Phys Mech Astron, 2009, 52(3): 360–367

Hu Y H, Hua Y, Hou L, et al. Design and implementation of the CAPS receiver. Sci China Ser G-Phys Mech Astron, 2009, 52(3): 445–457

Schneider K S. Optimum detection of code division multiplexed signals. IEEE Trans. Aerosp Electron Syst, 1979, 15(1): 181–185

Kohno R, Hattori M, Imai H, et al. Cancellation techniques of co-channel interference in asynchronous spread spectrum multiple access systems. Electr Commun Jpn, 1983, 66(5): 20–29

Wei H M, Zhang B N. Chaotic spread spectrum communication technology and application (in Chinese). Xi’an: Xidian University Press, 2007

Glisic S, Vucetic B. Spread spectrum CDMA systems for wireless communications (Mobile Communications Series). London: Artech House Publishers, 1997

Kohda T, Tsuneda A. Pseudo-noise sequences by chaotic nonlinear maps and their correlation properties. IEICE Trans Commun, 1993, E76-B(8): 855–862

Vitali S, Rovatti R, Setti G. On the performance of chaos-based multi-code DS-CDMA systems. Circuits Syst Signal Process, 2005, 24(5): 475–495

Nan M K, Shi X Q, Zeng J F. A synchronization scheme for chaotic direct spreading sequence immune of quantization errors (in Chinese). J Commun, 2000, 21(9): 62–65

Wang H, Hu J D. Chaotic sequences based on Logistic-Map (in Chinese). Chin J Electron, 1997, 25(1): 19–23

Wang H, Hu J D. Modified logistic-map chaotic spread-spectrum sequences (in Chinese). J Commun, 1997, 18(8): 71–77

Feng J C, Yu Y L, Zhou S. Spread-spectrum communication based on chaos (in Chinese). J Commun, 1998, 19(6): 76–83

Kostov N. Mobile radio channels modeling in MATLAB. Radio Eng, 2003, 12(4): 12–16

Yahong R, Xiao C S. Improved models for the generation of multiple uncorrelated Rayleigh fading waveforms. IEEE Commun Lett, 2002, 6(6): 256–258

Xiao C S, Yahong R, Beaulien N C. Second-order statistical properties of the WSS Jakes’fading channel simulator. IEEE Trans Commun, 2002, 50(6): 888–891

Shao S X, Yang L X. Blind adaptive multi-user detector for nonlinearly modulated satellite mobile CDMA systems. J Electron, 2006, 23(3): 338–340

Honig M, Madhow U, Verdu S. Blind adaptive multi-user detection. IEEE Trans Inform Theory, 1995, 41(4): 944–960

Zhang X D, Wei W. Blind adaptive multi-user detection based on kalman filtering. IEEE Trans Signal Process, 2002, 50(1): 87–95

Zheng J L, Zhang Q. Choice of chaotic spreading sequences for asynchronous DS-CDMA communication (in Chinese). Chin J Electron, 2001, 29(7): 865–867