Your search keyword '"Bistatic MIMO system"' showing total 3 results

1. Space-time adaptive detection for bistatic MIMO system under covariance matrix persymmetry and symmetric spectrum

Author

Sheng Yan, Chengpeng Hao, Da Xu, and Bo Shi

Subjects

covariance matrices, matched filters, radar clutter, space-time adaptive processing, mimo radar, radar detection, signal detection, transforms, adaptive filters, space-time adaptive detection, bistatic mimo system, covariance matrix persymmetry, multiple-input multiple-output radar system, clutter space-time models, sample covariance matrix, independent secondary data, stad frame, ka–stad detectors, constant false alarm rate performances, ka–rao detectors, bistatic mimo radar system, adaptive matched filter, generalised likelihood ratio test, knowledge-aided transform, ka transform, ka–amf detectors, ka–glrt detectors, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Space-time adaptive detection (STAD) is an important research aspect of the bistatic multiple-input multiple-output (MIMO) radar system. The signal and clutter space-time models of the bistatic MIMO radar are described in this study. The knowledge-aided (KA) transform, which utilises the structural properties of the target-free data and the sample covariance matrix, is applied to increase the independent secondary data fourfold in the STAD frame. The performance assessment of the KA–STAD detectors with generalised likelihood ratio test (GLRT), adaptive matched filter (AMF), and Rao rules is presented. The simulation experiments show that the detection and constant false alarm rate performances of the presented KA–GLRT, KA–AMF, and KA–Rao detectors outperform the GLRT, AMF, and Rao detectors for the bistatic MIMO radar system STAD frame in clutter background with limited secondary data.

Published

2019

2. Space-time adaptive detection for bistatic MIMO system under covariance matrix persymmetry and symmetric spectrum.

Author

Yan, Sheng, Hao, Chengpeng, Xu, Da, and Shi, Bo

Subjects

SPACE-time adaptive signal processing, MIMO radar, LIKELIHOOD ratio tests, RADAR target recognition, SPACETIME

Abstract

Space-time adaptive detection (STAD) is an important research aspect of the bistatic multiple-input multiple-output (MIMO) radar system. The signal and clutter space-time models of the bistatic MIMO radar are described in this study. The knowledge-aided (KA) transform, which utilises the structural properties of the target-free data and the sample covariance matrix, is applied to increase the independent secondary data fourfold in the STAD frame. The performance assessment of the KA–STAD detectors with generalised likelihood ratio test (GLRT), adaptive matched filter (AMF), and Rao rules is presented. The simulation experiments show that the detection and constant false alarm rate performances of the presented KA–GLRT, KA–AMF, and KA–Rao detectors outperform the GLRT, AMF, and Rao detectors for the bistatic MIMO radar system STAD frame in clutter background with limited secondary data. [ABSTRACT FROM AUTHOR]

Published

2019

3. Space-time adaptive detection for bistatic MIMO system under covariance matrix persymmetry and symmetric spectrum

Author

Bo Shi, Da Xu, Yan Sheng, and Chengpeng Hao

Subjects

space-time adaptive processing, Computer science, MIMO, clutter space-time models, Energy Engineering and Power Technology, 02 engineering and technology, bistatic mimo system, ka transform, Constant false alarm rate, independent secondary data, ka–glrt detectors, signal detection, adaptive filters, adaptive matched filter, 0202 electrical engineering, electronic engineering, information engineering, radar detection, constant false alarm rate performances, transforms, ka–rao detectors, knowledge-aided transform, matched filters, space-time adaptive detection, bistatic mimo radar system, Covariance matrix, ka–stad detectors, Matched filter, Detector, Frame (networking), General Engineering, multiple-input multiple-output radar system, covariance matrices, 020206 networking & telecommunications, ka–amf detectors, covariance matrix persymmetry, stad frame, Bistatic radar, sample covariance matrix, generalised likelihood ratio test, lcsh:TA1-2040, Clutter, mimo radar, 020201 artificial intelligence & image processing, lcsh:Engineering (General). Civil engineering (General), Algorithm, radar clutter, Software

Abstract

Space-time adaptive detection (STAD) is an important research aspect of the bistatic multiple-input multiple-output (MIMO) radar system. The signal and clutter space-time models of the bistatic MIMO radar are described in this study. The knowledge-aided (KA) transform, which utilises the structural properties of the target-free data and the sample covariance matrix, is applied to increase the independent secondary data fourfold in the STAD frame. The performance assessment of the KA–STAD detectors with generalised likelihood ratio test (GLRT), adaptive matched filter (AMF), and Rao rules is presented. The simulation experiments show that the detection and constant false alarm rate performances of the presented KA–GLRT, KA–AMF, and KA–Rao detectors outperform the GLRT, AMF, and Rao detectors for the bistatic MIMO radar system STAD frame in clutter background with limited secondary data.

Published

2019