Range–Azimuth Decouple Microwave Coincidence Imaging Based on a Frequency-Diverse Bunching Metasurface Antenna

To obtain the range and azimuth information of the target in a frequency-diverse bunching metasurface antenna (FDBMA)-based microwave coincidence imaging (MCI) system, a range–azimuth decouple algorithm (RADA) is proposed in this letter. First, an FDBMA comprising a double-layer rectangular waveguide feeding structure, a randomly modulated metasurface, and a parabolic reflector is proposed. Various radiation patterns can be generated at 134 sampling frequency points from 22 GHz to 26 GHz with an interval of 30 MHz. Then, a three-step imaging method, namely, the RADA, is proposed to retrieve the range and azimuth information of the target sequentially. Finally, by applying the RADA in an FDBMA-based MCI, the superresolved target image is reconstructed. The proposed FDBMA and RADA are validated through full-wave simulations.

Citation: Y. Nian, M. Zhao, X. Tao, S. Zhu, D. Li, M. Zhang and A. Zhang, "Range–azimuth decouple microwave coincidence imaging based on a frequency-diverse bunching metasurface antenna," IEEE Antennas Wireless Propag. Lett., vol. 23, no. 11, pp. 3397-3401, Nov. 2024.

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