高动态条件下统计空时零陷加宽方法

张柏华; 马红光; 孙新利; 谭巧英; 潘寒尽

doi:10.11999/JEIT150654

高动态条件下统计空时零陷加宽方法

doi: 10.11999/JEIT150654

2.
(第二炮兵工程大学西安 710025) ②(空军95100部队广州 510405) ③(中国兵器装备集团摩托车检测技术研究所西安 710032) ④(总参陆航研究所北京 101121)

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出版历程
- 收稿日期: 2015-06-01
- 修回日期: 2016-01-13
- 刊出日期: 2016-04-19

Space Time Null Widening Method of Navigation Receiver in Missile for High Dynamic Conditions

2.
(The Second Artillery Engineering University, Xi&rsquo

摘要

摘要: 论文根据弹载导航接收机的特点，建立了高动态环境的抗干扰模型；针对高动态环境下干扰的特点和传统零陷加宽方法的不足，提出新的基于统计的空时零陷加宽方法。该方法能在高动态条件和其它非理想因素引起的通道及数据失配的情况下有效地抑制干扰，大大增强弹载导航接收机抗干扰算法的鲁棒性。仿真试验表明了所提方法的有效性。
- 弹载导航接收机 /
- 高动态环境 /
- 空时自适应处理 /
- 零陷加宽 /
- 抗干扰
Abstract: According to the characteristic of navigation receiver in the missile, the anti-jamming model of high dynamic conditions is built. Taking into account the characteristic of interferences in high dynamic conditions and the shortcomings of traditional null widening methods, a novel Statistical Space Time Null Widening (SSTNW) method is proposed. The proposed method can suppress interferences effectively in high dynamic conditions and interferences position disturbed by non-ideal factors, i.e., it may improve the robustness of anti-jamming algorithm of navigation receiver in the missile remarkably. Simulation results show the feasibleness and effectiveness of the proposed method.
- Navigation receiver in missile /
- High dynamic conditions /
- Space Time Adaptive Processing (STAP) /
- Null widening /
- Anti-jamming

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参考文献(32)

李明峰, 冯宝红, 刘三枝. GPS定位技术及其应用[M]. 北京: 国防工业出版社, 2006: 1-17.

LI Mingfeng, FENG Baohong, and LIU Sanzhi. GPS Positioning Technology and Its Applications[M]. Beijing: National Defense Industry Publishing Company, 2006: 1-17.

JAY R S. Interference mitigation approaches for the global positioning system[J]. Lincoln Laboratory Journal, 2003, 14(6): 167-180.

MALMSTRAOM J. Robust navigation with GPS/INS and adaptive beamforming[R]. Swedish Defence Research Agency System Technology Division, 2003.

FANTE R L and VACCARO J J. Wideband cancellation of interference in a GPS receive array[J]. IEEE Transactions on Aerospace and Electronic Systems, 2000, 36(2): 549-564.

FANTE R L and VACCARO J J. Cancellation of jamming multipath in a GPS receiver[J]. IEEE Transactions on Aerospace and Electronic Systems, 1998, 13(11): 25-28.

郭艺. GPS接收机空时抗干扰理论与实现关键技术研究[D], [博士论文], 国防科技大学, 2007.

GUO Yi. Research on the theory and key realization technologies of space-time interference suppression for GPS receiver[D]. [Ph.D. dissertation], National University of Defense Technology, 2007.

曾祥华, 李敏, 聂俊伟, 等. 卫星导航系统中平台运动对天线阵列性能的影响分析[J]. 国防科技大学学报, 2011, 33(1): 95-99.

ZENG Xianghua, Li Min, NIE Junwei, et al. Effects of motion on adaptive array in satellite navigation systems[J]. Journal of National University of Defence Technology, 2011, 33(1): 95-99.

吴仁彪, 卢丹, 李婵. 用于高动态GPS 接收机的微分约束最小功率抗干扰方法[J]. 中国科学: 信息科学, 2011, 41(8): 968-977.

WU Renbiao, LU Dan, and LI Chan. Power minimization with derivative constraints for high dynamic GPS interference suppression[J]. SCIENCE CHINA: Information Science, 2011, 41(8): 968-977.

LU Dan, WU Renbiao, and WANG Wenyi. Robust widen null anti-jamming algorithm for high dynamic GPS[C]. IEEE 11th International Conference on Signal Processing (ICSP), Beijing, 2012: 378-381.

LU Dan, WU Renbiao, and LIU H. Global positioning system anti-jamming algorithm based on period repetitive CLEAN[J]. IET Radar, Sonar Navigation, 2013, 7(2): 164-169.

WANG Dawei and CHEN Qian. Reduced rank calculation of space-time anti-jamming for navigation receiver[C]. IEEE Proceedings of 2013 International Conference on Mechatronic Sciences, Electric Engineering and Computer (MEC), Shengyang, 2013: 439-443.

YANG Xiaobo. An improved GPS receiver anti-jammer algorithm based on space-time adaptive processing[C]. 2012 International Conference on Computer Distributed Control and Intelligent Enviromental Monitoring, Zhangjiajie, 2012: 106-109.

YIN Canbin, JIA Xin, and LI Yuntao. HRWS synthetic aperture radar ambiguity reduction with widened null steering digital beam forming[C]. 2012 EUSAR 9th European Conference on Synthetic Aperture Radar, Germany, Nuremberg, 2012: 454-457.

LIAO Xiaobo and ZHANG Wei. A novel method for GPS anti-jamming based on blind source separation[C]. 2014 Seventh International Symposium on Computational Intelligence and Design, Hangzhou, 2014: 208-211.

LI Qiang, WANG Wei, XU Dingjie, et al. A robust anti-jamming navigation receiver with antenna array and GPS/SINS[J]. IEEE Communications Letters, 2014, 18(3): 467-470.

ZHANG Yimin and MOENESS G. Anti-jamming GPS receiver with reduced phase distortions[J]. IEEE Signal Processing Letters, 2012, 19(10): 635-638.

XIONG Tao, ZHANG Shunsheng, and HE Mingdong. Anti-jamming performance evaluation based on GPS software receiver[C]. 2013 International Workshop on Microwave and Millimeter Wave Circuits and System Technology (MMWCST), Chengdu, 2013: 407-410.

LI Qiang, XU Dingjie, WANG Wei, et al. Anti-jamming scheme for GPS receiver with vector tracking loop and blind beamformer[J]. Electronics Letters, 2014, 50(19): 1386-1388.

CHIEN Y R. Design of GPS anti-jamming systems using adaptive notch filters[J]. IEEE Systems Journal, 2015, 9(2): 451-460.

MA Ying, BU Xiangyuan, GONG Qiaoxian, et al. SFT-based algorithm of acquisition and anti-jamming of GPS signals[C]. IEEE 2014 Sixth International Conference on Wireless Communications and Signal Processing (WCSP), Hefei, 2014: 1-5.

李荣锋, 王永良, 万山虎. 自适应天线方向图干扰零陷加宽方法研究[J]. 现代雷达, 2003, 25(2): 42-45．

LI Rongfeng, WANG Yongliang, and WAN Shanhu. Research on adapted pattern null widening techniques[J]. Modern Radar, 2003, 25(2): 42-45.

MAILLOUX R J. Covariance matrix augmentation to produce adaptive array pattern thoughts[J]. Electronics Letters, 1995, 31(10): 771-772.

ZATMAN M. Production of adaptive array troughs by dispersion synthesis[J]. Electronics Letters, 1995, 31(25): 2141-2142.

ZETTERBERG P and OTTERSTEN B. The spectrum efficiency of a base station antenna array system for spatially selective transmission[J]. IEEE Transactions on Vehicular Technology, 1995, 44(3): 651-660.

RIBA J, GOLDBERG J, and VAZQUEZ G. Robust beamforming for interference rejection in mobile communications[J]. IEEE Transactions on Signal Processing, 1997, 45(1): 271-275.

张柏华, 马红光, 孙新利, 等. 基于正交约束的导航接收机空时自适应方法[J]. 电子与信息学报, 2015, 37(4): 900-906. doi: 10.11999/JEIT140740.

ZHANG Baihua, MA Hongguang, SUN Xinli, et al. Orthogonal constraint based technique for space-time adaptive processing in navigation receiver[J]. Journal of Electronics Information Technology, 2015, 37(4): 900-906. doi: 10.11999/JEIT140740.

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