速度拖引干扰和杂波背景下脉冲多普勒雷达目标跟踪算法  被引量:11

Algorithm for Target Tracking with Pulse Doppler Radar in the Presence of Velocity Gate Pull off/in Jamming and Clutter Environment

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作  者:李迎春[1] 王国宏[1] 关成斌[1] 孙殿星[1] 

机构地区:[1]海军航空工程学院信息融合研究所,烟台264001

出  处:《电子与信息学报》2015年第4期989-994,共6页Journal of Electronics & Information Technology

基  金:国家自然科学基金(61179018;61102165);"泰山学者"建设工程专项经费资助课题

摘  要:针对在速度拖引干扰和杂波背景下脉冲多普勒(PD)雷达无法精确跟踪目标的问题,该文提出基于双模型(DM)和幅度信息(AI)的目标跟踪算法。分别建立基于位置、幅度量测的跟踪模型和基于位置、速度、幅度量测的跟踪模型。两个模型均使用基于幅度信息的概率数据互联(AI-PDA)尽可能地降低杂波的影响,然后使用常规方法进行滤波估计。若没有速度拖引干扰,则两个模型估计具有位置和速度上的相关性;若存在干扰,由于速度量测是虚假的,则两个模型估计不具有相关性。据此,进行卡方检验(chi-square test),分析影响检验结果的因素,进而确定最终的估计结果。仿真验证了该算法的有效性。Considering the problem that Pulse Doppler(PD) radar is not able to track target precisely in the presence of velocity gate pull-off/in jamming and clutter environment, an algorithm for target tracking is proposed which is based on the Double Models(DM) and the Amplitude Information(AI). The algorithm establishes two tracking models: one model is based on the position and amplitude measurements, the other is based on the position, velocity, and amplitude measurements. The two models both use Probabilistic Data Association based on AI(AI-PDA) to reduce the influence of clutter as much as possible, then carry out filtering and estimating using the conventional method. If there is no velocity gate pull off/in jamming, the estimations of two models are related on position and velocity; if there is jamming, the estimations are not related. Accordingly, the chi-square test is carried out and the final estimation result is determined after analysis. The simulation results prove the effectiveness of the algorithm.

关 键 词:雷达 目标跟踪 速度拖引干扰 双模型 幅度信息 卡方检验 

分 类 号:TN953[电子电信—信号与信息处理]

 

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