电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2013年
1期
29-35
,共7页
王岩飞%刘畅*%李和平%贾颖新
王巖飛%劉暢*%李和平%賈穎新
왕암비%류창*%리화평%가영신
合成孔径雷达(SAR)%高分辨率%多通道收发技术
閤成孔徑雷達(SAR)%高分辨率%多通道收髮技術
합성공경뢰체(SAR)%고분변솔%다통도수발기술
SAR%High resolution%Multi-channel transmit and receive technology
针对合成孔径雷达(SAR)高分辨率成像的应用需求,该文给出一种基于单通道发射、多通道并行接收的新的高分辨率SAR系统实现方案.SAR系统共有8个接收通道,信号带宽达到3.2 GHz,具有高分辨率成像、InSAR干涉成像以及全极化成像功能.文中提出一种新的采用空间辐射测量和频偏误差修正测量的分段测量与综合补偿的通道传递误差测量补偿方法,有效解决了高分辨率SAR宽频带收发系统中关键的多通道接收幅度相位误差校正问题,并在国内首次获得了优于0.1 m分辨率的SAR图像.文中详细介绍了系统的组成方案以及主要技术性能指标,重点探讨和分析了多通道系统的频带合成、系统幅度相位误差测量补偿、运动误差补偿和成像处理等实现技术,给出了测量、补偿和成像的试验结果.通过实际飞行试验,验证了高分辨率SAR系统的技术及方案的有效性和可行性.
針對閤成孔徑雷達(SAR)高分辨率成像的應用需求,該文給齣一種基于單通道髮射、多通道併行接收的新的高分辨率SAR繫統實現方案.SAR繫統共有8箇接收通道,信號帶寬達到3.2 GHz,具有高分辨率成像、InSAR榦涉成像以及全極化成像功能.文中提齣一種新的採用空間輻射測量和頻偏誤差脩正測量的分段測量與綜閤補償的通道傳遞誤差測量補償方法,有效解決瞭高分辨率SAR寬頻帶收髮繫統中關鍵的多通道接收幅度相位誤差校正問題,併在國內首次穫得瞭優于0.1 m分辨率的SAR圖像.文中詳細介紹瞭繫統的組成方案以及主要技術性能指標,重點探討和分析瞭多通道繫統的頻帶閤成、繫統幅度相位誤差測量補償、運動誤差補償和成像處理等實現技術,給齣瞭測量、補償和成像的試驗結果.通過實際飛行試驗,驗證瞭高分辨率SAR繫統的技術及方案的有效性和可行性.
침대합성공경뢰체(SAR)고분변솔성상적응용수구,해문급출일충기우단통도발사、다통도병행접수적신적고분변솔SAR계통실현방안.SAR계통공유8개접수통도,신호대관체도3.2 GHz,구유고분변솔성상、InSAR간섭성상이급전겁화성상공능.문중제출일충신적채용공간복사측량화빈편오차수정측량적분단측량여종합보상적통도전체오차측량보상방법,유효해결료고분변솔SAR관빈대수발계통중관건적다통도접수폭도상위오차교정문제,병재국내수차획득료우우0.1 m분변솔적SAR도상.문중상세개소료계통적조성방안이급주요기술성능지표,중점탐토화분석료다통도계통적빈대합성、계통폭도상위오차측량보상、운동오차보상화성상처리등실현기술,급출료측량、보상화성상적시험결과.통과실제비행시험,험증료고분변솔SAR계통적기술급방안적유효성화가행성.
In order to meet the growing demands for high resolution SAR imaging, this paper describes a new single channel transmit, multi-channel parallel receive high resolution SAR system. The system operates with 8 parallel receive channels to obtain a wide bandwidth up to 3.2 GHz, and also features high resolution, InSAR and PolSAR imaging capability. A novel method of transfer error measurement and compensation is presented in the paper. This method based on radiation calibration and frequency shift correction estimation could implement multi-channel amplitude and phase correction effectively. For the first time in China, a resolution of better than 0.1 m is achieved with the airborne SAR system. This paper introduces the architecture and main specifications of the SAR system, and discusses several important aspects of high resolution imaging in detail, including the bandwidth synthesis, transfer error correction, motion compensation and image formation. Flight experiments demonstrate the high resolution imaging capability of the SAR system.
