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DOI码：10.1364/OE.26.033783

发表刊物：OPTICS EXPRESS

摘要：A photonics-based wideband distributed coherent aperture radar (DCAR) system is proposed and experimentally demonstrated. In the proposed system, the central controlling system and several spatially dispersed remote transceivers are connected by the optical fiber-based time synchronization network. In the central controlling system, the optical-carried orthogonal/coherent linear frequency modulated waveforms (LFMWs) are generated by a reconfigurable multi-channel optical arbitrary waveform generator (RMOAWG), and the signal processing for the echo waves is also implemented there. While in the remote transceivers, only the optical/RF and RF/optical conversions are carried out. Benefitting from the use of photonics-based methods, bandwidths of the generated radar signals can be large, improving the detection resolution of the system. Due to the centralized signal generation and processing, the remote transceivers can be simplified, reducing the system complexity. Moreover, the fiber-based distribution ensures low loss, good transportability, and great flexibility. Experimentally, a two-unit DCAR system operating in X-band with a bandwidth of 3 GHz is presented. When full coherence is achieved, signal-to-noise ratio (SNR) gains of 8.3 dB and 8.33 dB are obtained over a single radar for radar 1 and radar 2, respectively. Results are in good agreement with theoretical prediction. Theoretically, with such SNR gain. the range detection precision can be improved to about 2.6 times that of a single radar. (C) 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

第一作者：Xiao, Xuedi, Li, Shangyuan, Peng, Shaowen, Wu, Dexin, Xue, Xiaoxiao, Zheng, Xiaoping, Zhou, Bingkun

论文类型：J

文献类型：Article

卷号：26

期号：26

页面范围：33783

ISSN号：1094-4087

是否译文：否