一种基于Hankel方法的多收多发RCS近远场变换算法
|
摘要
针对传统的Hankel方法在大角度范围观测时,近远场变换结果与理论远场结果之间存在角度误差的问题,提出了一种基于Hankel方法多收多发RCS近远场算法。该方法通过多发多收的形式增加系统有效相位中心的数目,并获得更多的的场景信息。通过不同相位中心获得的信息,在小角度内分别用Hankel方法进行RCS近远场变换,并通过各个小角度内变换结果进行数据拼接,实现全角域内精确的RCS近远场变换。通过对两组分别由5个和9个理想散射点组成的散射体,以本算法进行近远场变换仿真试验。仿真结果验证了该算法的正确性和有效性。
When the traditional Hankel method is used to near-field to far-field transformation observed over a large range of angles, there is an angular error to the theoretical far-field results. In this paper, a multi-receiving and multi-transmitting RCS near-field to far-field algorithm based on the Hankel method is proposed. This method increases the number of effective phase centers in the system using a form of multi-transmitting and multi-receiving and obtains more information about scene. Through the information obtained from different phase centers, the RCS near-field to far-field transformations are performed by using Hankel method at small angles. The data are stitched together by using the results of each small-angle transformation to achieve accurate RCS near-field to far-field transformation in the full angles. By using two groups of scatterer respectively consisting of five and nine ideal scattering points, the near-field to far-field transformation simulation experiments based on this algorithm are performed. Results verify the correctness and effectiveness of the algorithm.
When the traditional Hankel method is used to near-field to far-field transformation observed over a large range of angles, there is an angular error to the theoretical far-field results. In this paper, a multi-receiving and multi-transmitting RCS near-field to far-field algorithm based on the Hankel method is proposed. This method increases the number of effective phase centers in the system using a form of multi-transmitting and multi-receiving and obtains more information about scene. Through the information obtained from different phase centers, the RCS near-field to far-field transformations are performed by using Hankel method at small angles. The data are stitched together by using the results of each small-angle transformation to achieve accurate RCS near-field to far-field transformation in the full angles. By using two groups of scatterer respectively consisting of five and nine ideal scattering points, the near-field to far-field transformation simulation experiments based on this algorithm are performed. Results verify the correctness and effectiveness of the algorithm.
引文
[1]黄培康,殷红成,许小剑.雷达目标特性[M].电子工业出版社, 2005.
[2] Hu W, Sun H, Lv X, et al. Research on RCS measurement under non-far field condition[C]//International Symposium on Antennas,Propagation and Em Theory, 2003. Proceedings.IEEE, 2003:392-395.
[3]高超,袁晓峰,肖志河.一种近场条件下获取远场RCS的方法[J].微波学报, 2012(s3):61-63.
[4]张麟兮.雷达目标散射特性测试与成像诊断[M].中国宇航出版社, 2009.
[5]郭日峰,李南京,胡楚锋.一种利用外推获得飞行器目标远场RCS方法研究[J].电子科技, 2010,23(8):81-84
[6]何国瑜.电磁散射的计算和测量[M].北京航空航天大学出版社[等], 2006.
[7] Lahaie I J. Overview of an image-based technique for predicting far-field radar cross section from near-field measurements[J]. Antennas&Propagation Magazine IEEE, 2003, 45(6):159-169.
[8] Wei G, Yuan W, Gao F, et al. An accurate monostatic RCS measurement method based on the extrapolation technique[C]//Communication Software and Networks(ICCSN), 2017 IEEE 9th International Conference on. IEEE, 2017:784-788.
[9]党娇娇,李南京,胡楚锋,等.耦合目标近场散射外推技术研究[J].电子学报,2017,45(6):1327-1333.
[2] Hu W, Sun H, Lv X, et al. Research on RCS measurement under non-far field condition[C]//International Symposium on Antennas,Propagation and Em Theory, 2003. Proceedings.IEEE, 2003:392-395.
[3]高超,袁晓峰,肖志河.一种近场条件下获取远场RCS的方法[J].微波学报, 2012(s3):61-63.
[4]张麟兮.雷达目标散射特性测试与成像诊断[M].中国宇航出版社, 2009.
[5]郭日峰,李南京,胡楚锋.一种利用外推获得飞行器目标远场RCS方法研究[J].电子科技, 2010,23(8):81-84
[6]何国瑜.电磁散射的计算和测量[M].北京航空航天大学出版社[等], 2006.
[7] Lahaie I J. Overview of an image-based technique for predicting far-field radar cross section from near-field measurements[J]. Antennas&Propagation Magazine IEEE, 2003, 45(6):159-169.
[8] Wei G, Yuan W, Gao F, et al. An accurate monostatic RCS measurement method based on the extrapolation technique[C]//Communication Software and Networks(ICCSN), 2017 IEEE 9th International Conference on. IEEE, 2017:784-788.
[9]党娇娇,李南京,胡楚锋,等.耦合目标近场散射外推技术研究[J].电子学报,2017,45(6):1327-1333.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |