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A Novel GB-SAR System Based on TD-MIMO for High-Precision Bridge Vibration Monitoring
by
Tao, Haihong
, Suo, Zhiyong
, Qi, Lin
, Zhang, Zexi
, Li, Zhenfang
, Tian, Feng
in
Accuracy
/ Antenna arrays
/ Antennas
/ array error estimation
/ bridge vibration
/ Calibration
/ Deformation
/ deformation detection
/ Deformation effects
/ Design
/ Experiments
/ GB-SAR array arrangement
/ Landslides
/ MIMO communication
/ MIMO imaging radar
/ Phase error
/ Position errors
/ Radar systems
/ Remote sensing
/ Synthetic aperture radar
/ vibration
/ Vibration monitoring
2022
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A Novel GB-SAR System Based on TD-MIMO for High-Precision Bridge Vibration Monitoring
by
Tao, Haihong
, Suo, Zhiyong
, Qi, Lin
, Zhang, Zexi
, Li, Zhenfang
, Tian, Feng
in
Accuracy
/ Antenna arrays
/ Antennas
/ array error estimation
/ bridge vibration
/ Calibration
/ Deformation
/ deformation detection
/ Deformation effects
/ Design
/ Experiments
/ GB-SAR array arrangement
/ Landslides
/ MIMO communication
/ MIMO imaging radar
/ Phase error
/ Position errors
/ Radar systems
/ Remote sensing
/ Synthetic aperture radar
/ vibration
/ Vibration monitoring
2022
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A Novel GB-SAR System Based on TD-MIMO for High-Precision Bridge Vibration Monitoring
by
Tao, Haihong
, Suo, Zhiyong
, Qi, Lin
, Zhang, Zexi
, Li, Zhenfang
, Tian, Feng
in
Accuracy
/ Antenna arrays
/ Antennas
/ array error estimation
/ bridge vibration
/ Calibration
/ Deformation
/ deformation detection
/ Deformation effects
/ Design
/ Experiments
/ GB-SAR array arrangement
/ Landslides
/ MIMO communication
/ MIMO imaging radar
/ Phase error
/ Position errors
/ Radar systems
/ Remote sensing
/ Synthetic aperture radar
/ vibration
/ Vibration monitoring
2022
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A Novel GB-SAR System Based on TD-MIMO for High-Precision Bridge Vibration Monitoring
Journal Article
A Novel GB-SAR System Based on TD-MIMO for High-Precision Bridge Vibration Monitoring
2022
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Overview
Ground-based synthetic aperture radar (GB-SAR) is a highly effective technique that is widely used in landslide and bridge deformation monitoring. GB-SAR based on multiple input multiple output (MIMO) technology can achieve high accuracy and real-time detection performance. In this paper, a novel method is proposed to design transmitting and receiving array elements, which increases the minimum spacing of the antenna by sacrificing several equivalent phase centers. In MIMO arrays, the minimum antenna spacing in the azimuth direction is doubled, which increases the variety of antenna options for this design. To improve the accuracy of the system, a new method is proposed to estimate channel phase errors, amplitude errors, and position errors. The position error is decomposed into three directions with one compensated by the phase error and two estimated by the strong point. Finally, we validate the accuracy of the system and our error estimation method through simulations and experiments. The results prove that the GB-SAR system performs well in bridge deformation and vibration monitoring with the proposed method.
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