摘要
研究军事雷达测距的仿生波形准确设计和优化问题,为了加强数调频仿生信号的时延分辨力。在传统的军事雷达生物仿生波信号测距方法的基础上引入对数调频对仿生波测距过程进行优化,给出了该仿生模型的处理过程,特别在滤波器组滤波过程中,运用一组Q值相同的对数调频信号,带宽呈Lyons Cochlear模型变化的FIR线性滤波器组实现。仿真结果表明在军事雷达测距中,采用该方法对接收到的回波信号进行处理分析,从目标检测曲线、距离估计方面与匹配滤波方法相比,准确性更高,性能更稳定。
Research the military radar ranging bionic accurate waveform design and optimization, in order to strengthen the number of bionic FM signal delay resolution. Biomimicry in traditional military radar wave signal distance measurement method on the basis of introducing the logarithmic frequency modulation of the bionic wave distance measuring process was optimized, and the process of the bionic model are given, especially in the process of filtering filter group, using a set of Q value of the same logarithmic frequency modulation signal, the bandwidth is Lyons FIR linear filter group implementation of Cochlear model change. The simulation results show that in the military radar ranging, by using this method to treat the received echo signal analysis and from the aspects of target detection curve, distance estimation compared with the matched filtering method, the accuracy is higher, more stable performance.
出处
《电子测试》
2013年第12期34-36,共3页
Electronic Test
关键词
对数调频
仿生处理模型
距离估计
军事雷达系统
Logarithmic frequency modulation
The bionic processing model
Distance estimation
Military radar systems
