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Main Authors: Sun, Yan, Jia, Ming-jie, Wang, Wen-qin, Greco, Maria Sabrina, Gini, Fulvio, Zhang, Shunsheng
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2408.03045
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author Sun, Yan
Jia, Ming-jie
Wang, Wen-qin
Greco, Maria Sabrina
Gini, Fulvio
Zhang, Shunsheng
author_facet Sun, Yan
Jia, Ming-jie
Wang, Wen-qin
Greco, Maria Sabrina
Gini, Fulvio
Zhang, Shunsheng
contents The combination of frequency diverse array (FDA) radar technology with the multiple input multiple output (MIMO) radar architecture and waveform diversity techniques potentially promises a high integration gain with respect to conventional phased array (PA) radars. In this paper, we propose an approach to the design of the transmitter and the receiver of a coherent FDA (C-FDA) radar, that enables it to perform the demodulation with spectral overlapping, due to the small frequency offset. To this purpose, we derive the generalized space-time-range signal model and we prove that the proposed C-FDA radar has a higher coherent array gain than a PA radar, and at the same time, it effectively resolves the secondary range-ambiguous (SRA) problem of FDA-MIMO radar, allowing for mainlobe interference suppression and range-ambiguous clutter suppression. Numerical analysis results prove the effectiveness of the proposed C-FDA radar in terms on anti-interference and anti-clutter capabilities over conventional radars.
format Preprint
id arxiv_https___arxiv_org_abs_2408_03045
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Coherent FDA Radar: Transmitter and Receiver Design and Analysis
Sun, Yan
Jia, Ming-jie
Wang, Wen-qin
Greco, Maria Sabrina
Gini, Fulvio
Zhang, Shunsheng
Signal Processing
The combination of frequency diverse array (FDA) radar technology with the multiple input multiple output (MIMO) radar architecture and waveform diversity techniques potentially promises a high integration gain with respect to conventional phased array (PA) radars. In this paper, we propose an approach to the design of the transmitter and the receiver of a coherent FDA (C-FDA) radar, that enables it to perform the demodulation with spectral overlapping, due to the small frequency offset. To this purpose, we derive the generalized space-time-range signal model and we prove that the proposed C-FDA radar has a higher coherent array gain than a PA radar, and at the same time, it effectively resolves the secondary range-ambiguous (SRA) problem of FDA-MIMO radar, allowing for mainlobe interference suppression and range-ambiguous clutter suppression. Numerical analysis results prove the effectiveness of the proposed C-FDA radar in terms on anti-interference and anti-clutter capabilities over conventional radars.
title Coherent FDA Radar: Transmitter and Receiver Design and Analysis
topic Signal Processing
url https://arxiv.org/abs/2408.03045