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[1] Feger R, Wagner C, Schuster S. A 77-GHz FMCW MIMO Radar Based on an SiGe Single-Chip Transceiver. IEEE Trans Microwave Theor Techn, 2009, 57: 1020-1035 CrossRef ADS Google Scholar
[2] Feger R, Pfeffer C, Stelzer A. A Frequency-Division MIMO FMCW Radar System Based on Delta-Sigma Modulated Transmitters. IEEE Trans Microwave Theor Techn, 2014, 62: 3572-3581 CrossRef ADS Google Scholar
[3] Ju Y, Jin Y, Lee J. Design and implementation of a 24 GHz FMCW radar system for automotive applications. In: Proceedings of International Radar Conference, Lille, 2014. 1--4. Google Scholar
[4] Ma T, Chen Z, Wu J, et al. A CMOS 76-81 GHz 2TX 3RX FMCW Radar Transceiver Based on Mixed-Mode PLL Chirp Generator. In: Proceedings of IEEE Asian Solid-State Circuits Conference (A-SSCC), Tainan, 2018. 83--86. Google Scholar
[5] Capon J. High-resolution frequency-wavenumber spectrum analysis. Proc IEEE, 1969, 57: 1408-1418 CrossRef Google Scholar
[6] Zalabsky T, Bezousek P, Matousek D. Patch antenna array for X-band FMCW sensor: An antenna system for detection of obstacles in near vicinity of a helicopter. In: Proceedings of Conference on Microwave Techniques (COMITE), Pardubice, 2015. 1--5. Google Scholar
Figure 1
(Color online) Block diagram of the proposed FMCW MIMO radar hardware and the employed data processing algorithm.
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