相控阵雷达捷联波束稳定方法

doi:10.7527/S1000-6893.2013.0408

Abstract

Abstract:

To solve the problem of beam direction alteration caused by platform disturbance in phased array systems, a strapdown beam stabilization method is proposed. The method is utilized within a single module composed of an angle rate sensor and a signal processor, and dispenses with accurate initial attitude. The angle rate sensor measures the rotation rate of the antenna caused by the platform disturbance. The signal processor finds the compensation angle iteratively and controls the beam direction. Algorithm simulation and experiment with a monaxial rotary motor to simulate the platform disturbance show that with the implementation of the strapdown beam stabilization method, the angle errors decrease visibly and the isolation rate of the system improves significantly. Hence the method is effective in reducing the impact of platform disturbance on beam direction. It is easy to use and can be applied to miniaturized platforms such as those on unmanned planes.

Key words: strapdown beam stabilization, attitude solution, beam control, angle compensation, phased array radar

CLC Number:

LI Yang, XIAO Zengli, SUN Peng, PENG Si, ZHANG Xinyu. Strapdown Beam Stabilization Method for Phased Array Radar[J]. ACTA AERONAUTICAET ASTRONAUTICA SINICA, 2014, 35(2): 497-505.

References

[1] Law D C, Mclaughlin S A, Weber B L, et al. An electronically stabilized phased array system for ship borne atmospheric wind profiling[J]. Journal of Atmospheric and Oceanic Technology, 2002, 19(6): 924-933.

[2] Mu H. Design of radar seeker for anti-aircraft missile[M]. Beijing: China Astronautic Publishing House, 1996: 398-405. (in Chinese) 穆虹. 防空导弹雷达导引头设计[M]. 北京: 宇航出版社, 1996: 398-405.

[3] Li Q S. Strapdown decoupling technique research on phased array radar seeker[J]. Guidance & Fuze, 2005, 26(2): 19-22. (in Chinese) 李秋生. 相控阵雷达导引头捷联去耦技术研究[J]. 制导与引信, 2005, 26(2): 19-22.

[4] Zhou R Q, Liu X H, Shi S X. Stabilization and tracking techniques for starpdown seeker[M]. Beijing: National Defense Industry Press, 2010: 121-131.(in Chinese) 周瑞青, 刘新华, 石守峡. 捷联导引头稳定与跟踪技术[M]. 北京: 国防工业出版社, 2010: 121-131.

[5] Gao F, Zhou H. A strapdown digital angular information processing system[J]. Guidance & Fuze, 2000, 21(4): 1-11. (in Chinese) 高烽, 周辉. 一种捷联式数字角信息处理系统[J]. 制导与引信, 2000, 21(4): 1-11.

[6] Fu K S. Analysis on critical technologies for two-axis strap-down stabilized tracing platform[J]. Electronics Optics & Control, 2009, 16(7): 53-55. (in Chinese) 付奎生. 两轴捷联稳定跟踪平台关键技术分析[J]. 电光与控制, 2009, 16(7): 53-55.

[7] Shu X R, He B F, Gao T. Phased array radar antennas[M]. Beijing: National Defense Industry Press, 2007: 240-248. (in Chinese) 束咸荣, 何炳发, 高铁. 相控阵雷达天线[M]. 北京: 国防工业出版社, 2007: 240-248.

[8] Rudin R T. Strapdown stabilization for imaging seekers, AIAA-1993-2660[R]. Reston: AIAA, 1993.

[9] Kennedy P J.Kennedy R L.Direct versus indirect line of sight (LOS) stabilization[J]. IEEE Transactions on Control System Technology, 2003, 11(1): 3-15.

[10] Takao M. Antenna stabilizing control system using a strapdown 2-axis azimuth/elevation method[J]. Microsystem Technology, 2005, 11(8-10): 590-597.

[11] Du H L, Zhang R H, Liu P, et al. Realization of attitude algorithm module in strapdown inertial guidance system[J]. Optics and Precision Engineering, 2008, 16(10): 1956-1962. (in Chinese) 杜海龙, 张荣辉, 刘平, 等. 捷联惯导系统姿态解算模块的实现[J]. 光学精密工程, 2008, 16(10): 1956-1962.

[12] Kim A, Golnaraghi M F. A quaternion-based orientation estimation algorithm using an inertial measurement unit[J]. IEEE Transactions on Position Location and Navigation Symposium, 2004: 268-272.

[13] Miller R B. A new strapdown attitude algorithm[J]. Journal of Guidance, Control, and Dynamics, 1983, 6(4): 287-291.

[14] Skolnik M. Skolnik. Radar handbook[M]. 3rd ed. New York: The McGraw-Hill Companies, 2008: 7.1-7.22, 13.62-13.70.

[15] Zhang G Y. Principle of phased array radar[M]. Beijing: National Defense Industry Press, 2009: 364-382. (in Chinese) 张光义. 相控阵雷达原理[M]. 北京: 国防工业出版社, 2009: 364-382.

[16] Zhang Z Y, Zhou X Y, Fan D P. Adaptive real-time estimation algorithm for gyro-stabilized platform drift[J]. Acta Aeronautica et Astronautica Sinica, 2012, 33(6): 1044-1051. (in Chinese) 张智永, 周晓尧, 范大鹏. 稳定平台中陀螺漂移自适应实时估计算法[J]. 航空学报, 2012, 33(6): 1044-1051.

Strapdown Beam Stabilization Method for Phased Array Radar

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