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Self-Encoded Spread Spectrum Modulation for Robust Anti-Jamming Communication.

机译：用于鲁棒抗干扰通信的自编码扩频调制。

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摘要

This research investigates a novel self encoded spread spectrum (SESS) technique to provide signal protection and maintain reliable communication in the presence of interference and hostile jamming that exist in the modern battlefield environment. Military communications must be jam- resistant, or anti-jamming (AJ), and are subjected to the fading and multipath nature of wireless channels. Pseudo-random noise (PN) spread spectrum technique was developed in the mid-1950 for AJ capability and have found applications in tactical communication systems ranging from point-to-point communications to satellite links and multiple access networks. This technique has been the technology for advance mobile telephony and Global Positioning Systems (GPS). The performance of a PN spread spectrum system, however, can be severely degraded by intelligent signal jammers. The goal of our proposed research is to develop and demonstrate innovative SESS modulation techniques that significantly enhance AJ capability. The proposed techniques eliminate the PN codes employed in conventional spread spectrum systems, thereby can potentially provide robust AJ performance due to the stochastic nature of the unique spectrum spreading and de-spreading processes. Initial works have shown that SESS modulation is extremely robust in fading channels without the explicit need for diversity and error control coding. Preliminary results have also demonstrated that the SESS waveforms also yield significant performance improvement in multiple inputs-multiple outputs systems. The principal significance of this project will be its breakthroughs in AJ technology that advance AJ communication capability in a tactical environment. Additional major outcome of the research includes information theoretic spread spectrum communications that opens new research frontiers and potential applications in GPS and satellite communications.

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作者
Nguyen, L.; Jang, W. M.;
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年度 2009
页码 1-21
总页数 21
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Antijamming; Modulation; Spread spectrum; Tactical communications; Wireless communications; Jam resistant; Military communications; Pseudo-random noise; Sess technique; Sess(Self encoded spread spectrum);

机译：抗干扰;调制;扩频;战术通信;无线通信;抗干扰;军事通信;伪随机噪声; sess技术; sess（自编码扩频）;

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1. High security self-encoded spread spectrum watermarking using genetic algorithms [J] . Hua Kun, Wang Wei Telecommunication systems: Modeling, Analysis, Design and Management . 2015,第1期

机译：使用遗传算法的高安全性自编码扩频水印
2. Multipath error mitigation using self-encoded spread spectrum for binary-offset-carrier signals [J] . Duraisamy P., Jang W.M., Nguyen L., Communications, IET . 2014,第7期

机译：使用自编码扩展频谱缓解二进制偏移载波信号的多径错误
3. Multipath error mitigation using self-encoded spread spectrum for navigation [J] . Duraisamy, P., Jang, Radar, Sonar & Navigation, IET . 2013,第4期

机译：使用自编码扩频进行导航的多径错误缓解
4. Self-encoded spread spectrum modulation with differential encoding [C] . Kong, Y., Nguyen, . 2002

机译：带差分编码的自编码扩频调制
5. Performance improvements in self-encoded spread spectrum. [D] . Duraisamy, Poomathi. 2012

机译：自编码扩频中的性能改进。
6. Demodulation of Chaos Phase Modulation Spread Spectrum Signals Using Machine Learning Methods and Its Evaluation for Underwater Acoustic Communication [O] . Chao Li, Franck Marzani, Fan Yang 2018

机译：机器学习方法对混沌相位调制扩频信号的解调及其对水下声通信的评估
7. Timing accuracy of self-encoded spread spectrum navigation with communication [O] . Jang, Won Mee 2011

机译：自编码扩频的定时精度通信导航

Self-Encoded Spread Spectrum Modulation for Robust Anti-Jamming Communication.

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