基于高分辨距离像的UWB雷达信号设计

根据目标冲激响应设计相应的雷达信号,可使回波能量最大化,从而提高检测性能.本文针对目标检测的超宽带雷达信号设计发射-接收联合优化的问题,提出基于相位编码的超宽带雷达波形优化方法.该方法充分发挥了雷达发射机的发射能力,即对于固定的发射机来说,以发射更大的能量来得到更大的输出信干噪比.首先针对目标高分辨率距离像的多相编码超宽带雷达信号设计,建立了信号设计优化计算的目标函数,提出了一种恒模共轭梯度(CM-CG)算法实现优化计算.最后仿真结果表明,该方法设计得到的多相编码雷达信号性能很好地逼近最优发射波形,该方法具有收敛速度快、运算量小的特点. 号,可使回波能量最大化,从而提高检测性能.本文针对目标检测的超宽带雷达信号设计发射一接收联合优化的问题,提出基于相位编码的超宽带雷达波形优化方法.该方法充分发挥了雷达发射机的发射能力,即对于固定的发射机来说,以发射更大的能量来得到更大的输出信干噪比.首先针对目标高分辨率距离像的多相编码超宽带雷达信号设计,建立了信号设计优化计算的目标函数,提出了一种恒模共轭梯度(CM-CG)算法实现优化计算.最后仿真结果表明,该方法设计得到的多相编码雷达信号性能很好地逼近最优发射波形,该方法具 收敛速度快、运算

UWB Radar Signal Design Based on High Resolution Range Profile

The detection performance can be improved by designing related radar signals to maximize the energy of echoes according to the target impulse response.A new method based on phase-coded ultra-wideband signal is proposed in this paper in order to optimize the transmit-receiver waveform design by fully exploiting power of the transmitter to enhance output.The signal to Interference plus Noise Ratio(SINR) is increased for a fixed transmitter by transmitting more energy.To realize the poly-phase-coded ultra-wideband radar signal design based on High Resolution Range Profile(HRRP) of the target, a target function is first built for optimization calculation and then a new Constant-Module Conjugate Gradient(CM-CG) algorithm is used.Simulation results show that the poly-phase-coded radar signal derived by this algorithm approaches the optimal waveform and the method enjoys fast convergence and small computation amount.