Robust Waveform Design Based on Bisection and Maximum Marginal Allocation Methods with the Concept of Information Entropy

Abstract: Cognitive radar can overcome the shortcomings of traditional radars that are difficult to adapt to complex environments and adaptively adjust the transmitted waveform through closed-loop feedback. The optimization design of the transmitted waveform is a very important issue in the research of cognitive radar. Most of the previous studies on waveform design assume that the prior information of the target spectrum is completely known, but actually the target in the real scene is uncertain. In order to simulate t… Show more

“…However, due to the Lagrange operator used to solve the optimal waveform, the algorithm search is extremely difficult. In [6][7][8], the author proposes a robust waveform design scheme based on SINR and MI , which allows cognitive radar to obtain relatively good waveforms even in unfavorable environments. In [9], a waveform design method for maximizing mutual information under SINR constraints is proposed.…”

Cognitive radar waveform design based on PCMA-ES algorithms

“…However, due to the Lagrange operator used to solve the optimal waveform, the algorithm search is extremely difficult. In [6][7][8], the author proposes a robust waveform design scheme based on SINR and MI , which allows cognitive radar to obtain relatively good waveforms even in unfavorable environments. In [9], a waveform design method for maximizing mutual information under SINR constraints is proposed.…”

Cognitive radar waveform design based on PCMA-ES algorithms