Netted Radar System Design with Spread Spectrum Technology

Abstract:

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In this paper, a novel netted radar system is designed to reduce the influence of mutual interference between signals. The emission signals of all stations are assigned the orthogonal PN codes. Because of the good autocorrelation and cross-correlation properties, mutual interference becomes weaker and signals from different stations could be separated by the preassigned PN codes. At the same time, the spectrum of the emission signal is spreaded, the peak-to-mean envelope power ratio (PMEPR) and the intercepted probability of the signals descend therefore. Simulation results show the good performance of the proposed approach.

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Periodical:

Edited by:

Qi Luo

Pages:

648-653

DOI:

10.4028/www.scientific.net/AMM.55-57.648

Citation:

L. Q. Fu et al., "Netted Radar System Design with Spread Spectrum Technology", Applied Mechanics and Materials, Vols. 55-57, pp. 648-653, 2011

Online since:

May 2011

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Price:

$35.00

[1] G.A. Rao and S.P. Mahulikar: Aero. J. Vol. 106 (2002), p.629.

[2] N.J. Li: IEEE Trans. on Aero. and Electron. Syst. Vol. 31(1995), p.1120.

[3] Y. Paichard: Intl Waveform Diversity and Design Conf. (2009), p.234.

[4] Y. Paichard: IEEE Intl Radar Conf. (2010), p.1187.

[5] Han. Jeongwoo and Nguyen. Cam: IEEE Antennas and Propagation Society Intl. Symposium, (2007), p.4917.

[6] T. Yu, S. Doughty and K. Woodbridge: Info. Decision and Ctrl. (2007), p.23.

[7] X.S. Men, X.H. Tian and J. Gong: Electron. Optics & Ctrl. (2009), p.43.

[8] C.J. Baker and A.L. Hume: IEEE Aerosp. Electron. Syst. Mag. (2003), p.3.

[9] Y. Paichard, M. Brooker and M. Inggs: Intl. Waveform Diversity and Design Conf. (2009), p.278.

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