Method for generating MIMO (multiple-input and multiple-output) radar orthogonal polyphase code signals on the basis of genetic-tabu hybrid algorithm

Abstract

The invention provides a method for generating MIMO (multiple-input and multiple-output) radar orthogonal polyphase code signals on the basis of genetic-tabu hybrid algorithm. The method includes: firstly, randomly generating an initial population; secondly, judging whether a stop criterion of genetic algorithm is satisfied or not; thirdly, calculating a fitness function; fourthly, selecting by proportional selection; fifthly, intersecting; sixthly, mutating by tabu search algorithm; seventhly, updating the population, and returning to the step 3 for continuing genetic algorithm with the new population. Transmission signals with fine self-correlation and cross-correlation can be designed, and polyphase code waveform designed by the method has fixed phase and is easy to generate and more suitable for practical application.

Description

technical field [0001] The invention relates to a waveform generation method of a multi-input multi-output radar system. Background technique [0002] Multiple-input multiple-output (MIMO) radar is a new system radar with high detection performance, which is proposed by referring to the multiple-input multiple-output technology in the communication field. According to the layout of the antenna, MIMO radar is mainly divided into two types: centralized and distributed. The centralized MIMO radar transmits orthogonal signals at the transmitting end, and obtains the virtual array aperture through matched filtering technology at the receiving end, thereby obtaining greater system degrees of freedom and improving the spatial resolution of detecting targets. Distributed MIMO radar can suppress the RCS angle scintillation of the target. The superior performance of MIMO radar in many aspects makes it a current research hotspot. Unlike standard phased-array antennas that transmit c...

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