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Optimization Method of Sparse Array Frequency and Steering Invariant Beamforming

机译:稀疏阵列频率和转向不变波束形成的优化方法

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摘要

The conventional beamforming optimization method cannot meet the requirements of constant beamwidth of spare array in different frequency and different beam pointing angles. In this paper, a frequency and steering invariant beamforming method based on compressed sensing (CSFSIB) is proposed. First, the array elements are extended virtually, the sparse signal obtained by virtual array is reconstructed by compressed sensing (CS) recovery algorithm. Then the Second-order cone programming (SOCP) method is used to calculate the weighted vector and optimize the steering invariant beamforming (SIB). Finally, frequency invariant beamforming (FIB) is designed based on inverse Fourier transform (IFT). Simulation results indicate that the proposed method can reduce the sidelobe level and save the number of array elements while keeping the mainlobe width constant.
机译:传统的波束形成优化方法不能满足不同频率和不同光束指向角的备用阵列恒定波束宽的要求。在本文中,提出了一种基于压缩感测(CSFSIB)的频率和转向不变波束形成方法。首先,阵列元件实际上扩展,通过压缩感测(CS)恢复算法来重建虚拟阵列获得的稀疏信号。然后,二阶锥编程(SOCP)方法用于计算加权矢量并优化转向不变波束成形(SIB)。最后,频率不变波束成形(FIB)是基于逆傅立叶变换(IFT)的设计。仿真结果表明,所提出的方法可以减少Sidelobe级别,并在保持MainLobe宽度恒定的同时保存数组元素的数量。

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