In large-scale phased-array radar signal processing, the digital subarray partition technique would reduce the system size and computational complexity effectively. However, increasing intersubarray spacing will lead ...
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In large-scale phased-array radar signal processing, the digital subarray partition technique would reduce the system size and computational complexity effectively. However, increasing intersubarray spacing will lead to the grating lobes, which degrades the beamforming performance. In this communication, by merging the concepts of encoding technology and subarray division, a novel digitalsubarray structure based on binary coding is proposed to suppress the grating lobes and lower the sidelobe level. The core of the algorithm is optimally accommodating the binary coding so that the array is divided into multiple layers of subarrays, including uniform and interleaved structures with various intersubarray spacing. Thus, the diversity of subarray phase centers is guaranteed, and the periodicity of the phase centers is broken. Simulation results are given to demonstrate the superiorities of the proposed algorithm in beamforming and efficiency performance.
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