Novel MIMO-SAR system applied for high-speed and high-accuracy deformation measurement

Abstract

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As a novel system, multiple-input multiple-output synthetic aperture radar (MIMO-SAR) has achieved rapid development in the past years. Based on the MIMO technique, multiple transmitting and receiving antennas could be utilised to compose a specific geometrical structure and acquire a large aperture. The MIMO-SAR system can be utilised to take deformation measurement to scenes with high deformation rate and can avoid the problems of phase errors caused by the antennas' vibration on the rail. This study introduces the basic principle of the MIMO technique and the key problems in the system design. Experimental datasets are acquired with the MIMO-SAR and GB-SAR (ground-based SAR) systems simultaneously. Comparisons of the imaging results indicate that the MIMO-SAR system has a better repeat-track interferometry performance than the GB-SAR system. In addition, deformation measurement results validate the high-accuracy measurement ability of the MIMO-SAR system.

Keywords

• receiving antennas
• radar imaging
• synthetic aperture radar
• mimo radar
• transmitting antennas
• radar antennas
• aperture antennas
• radar interferometry
• ground-based sar system
• mimo-sar system
• receiving antennas
• mimo technique
• multiple-output synthetic aperture radar
• gb-sar system