摘要: 为了能在提高雷达生存能力的同时,保持雷达的跟踪能力,提出一种基于自适应脉冲间隔的目标跟踪技术。给出火控雷达的信号模型及其改进的时域信号,分析基于匀加速运动模型的扩展卡尔曼滤波算法,研究脉冲间隔的自适应变化规律及信号的截获概率。仿真结果表明,该技术能准确跟踪目标,延长信号截获时间,从而降低侦察系统对火控雷达的截获概率。
关键词:
火控雷达,
目标跟踪,
匀加速,
自适应脉冲间隔,
扩展卡尔曼滤波,
截获概率
Abstract: In order to improve the survival ability of radar, and keep the radar tracking ability at the same time, this paper proposes a target tracking technology of fire control radar based on adaptive pulse interval. An improved signal model and normal signal is proposed. Extended Kalman filtering algorithm for Constant Acceleration(CA) target is expounded. The principle of choosing pulse interval based on adaptive technique is introduced and interception possibility is analyzed. Simulation results show that this technology can achieve a high accuracy of target tracking and prolong signal intercept time, and reduce the interception probability of reconnaissance system for fire control radar.
Key words:
fire control radar,
target tracking,
Constant Acceleration(CA),
adaptive pulse interval,
extended Kalman filtering,
interception probability
中图分类号:
李成玉, 杨小龙, 韩壮志, 李志强, 何强. 基于自适应脉冲间隔的火控雷达目标跟踪技术[J]. 计算机工程, 2012, 38(21): 276-278,282.
LI Cheng-Yu, YANG Xiao-Long, HAN Zhuang-Zhi, LI Zhi-Jiang, HE Jiang. Target Tracking Technology of Fire Control Radar Based on Adaptive Pulse Interval[J]. Computer Engineering, 2012, 38(21): 276-278,282.