测绘学报
測繪學報
측회학보
ACTA GEODAETICA ET CARTOGRAPHICA SINICA
2015年
4期
399-406,413
,共9页
卫星平台震颤%多光谱影像%影像匹配%震颤检测%资源三号
衛星平檯震顫%多光譜影像%影像匹配%震顫檢測%資源三號
위성평태진전%다광보영상%영상필배%진전검측%자원삼호
satellite platform jitter%multi-spectral imagery%image matching%jitter detection%ZY-3
卫星平台震颤是影响高分辨率卫星成像质量的因素之一,会引起影像模糊和内部畸变.本文从资源三号卫星多光谱相机的成像特点和多光谱影像配准误差影响因素入手,理论推导和仿真分析了卫星平台震颤对配准误差的影响规律,在此基础上提出了基于多光谱影像高精度密集匹配的平台震颤检测方法和流程,最后利用不同波段、不同时间的成像数据进行试验.试验结果表明资源三号卫星在试验数据成像阶段存在约0.6 Hz的平台震颤,且垂轨方向震颤幅值大于沿轨方向,同时引起波段间相同频率周期性配准误差.检测结果为进一步提高资源三号处理精度提供了可能,也为卫星平台震颤源的分析和优化卫星平台设计提供了重要参考依据.
衛星平檯震顫是影響高分辨率衛星成像質量的因素之一,會引起影像模糊和內部畸變.本文從資源三號衛星多光譜相機的成像特點和多光譜影像配準誤差影響因素入手,理論推導和倣真分析瞭衛星平檯震顫對配準誤差的影響規律,在此基礎上提齣瞭基于多光譜影像高精度密集匹配的平檯震顫檢測方法和流程,最後利用不同波段、不同時間的成像數據進行試驗.試驗結果錶明資源三號衛星在試驗數據成像階段存在約0.6 Hz的平檯震顫,且垂軌方嚮震顫幅值大于沿軌方嚮,同時引起波段間相同頻率週期性配準誤差.檢測結果為進一步提高資源三號處理精度提供瞭可能,也為衛星平檯震顫源的分析和優化衛星平檯設計提供瞭重要參攷依據.
위성평태진전시영향고분변솔위성성상질량적인소지일,회인기영상모호화내부기변.본문종자원삼호위성다광보상궤적성상특점화다광보영상배준오차영향인소입수,이론추도화방진분석료위성평태진전대배준오차적영향규률,재차기출상제출료기우다광보영상고정도밀집필배적평태진전검측방법화류정,최후이용불동파단、불동시간적성상수거진행시험.시험결과표명자원삼호위성재시험수거성상계단존재약0.6 Hz적평태진전,차수궤방향진전폭치대우연궤방향,동시인기파단간상동빈솔주기성배준오차.검측결과위진일보제고자원삼호처리정도제공료가능,야위위성평태진전원적분석화우화위성평태설계제공료중요삼고의거.
Satellite platform jitter is one of the factors that affect the quality of high resolution imagery, which can cause image blur and internal distortion.Taking ZiYuan‐3 (ZY‐3)multi‐spectral camera as a prototype,this paper proposes a satellite platform jitter detection method by utilizing multi‐spectral imagery.First,imaging characteristics of multispectral camera and the main factors affecting band‐to‐band registration error are introduced.Then the regularity of registration error caused by platform jitter is analyzed by theoretical derivation and simulation.Meanwhile,the platform jitter detection method based on high accuracy dense points matching is presented.Finally,the experiments were conducted by using ZY‐3 multi‐spectral imagery captured in different time.The result indicates that ZY‐3 has a periodic platform jitter about 0.6 Hz in the imaging period of test data,and the jitter amplitude across track is greater than that along track,which causes periodic band‐to‐band registration error with the same frequency.The result shows the possibility of the improvement in geometric processing accuracy for ZY‐3 imagery products and provides an important reference for satellite platform jitter source analysis and satellite platform design optimization.
