When the large aperture static imaging spectrometry (LASIS) was used in spaceborne remote sensing, the spectrum could not be well recovered from the interferogram with detector lateral fringe error. In order to obtain the more accurate spectrum, the error must be corrected. According to the imaging principle analysis of LASIS, the imaging model with lateral fringe error was given, and the error correction method was presented. Finally, the error correction method was validated with the data acquired by LASIS system. The results indicated that the error was commendably corrected by the method mentioned above, and the accuracy of recovered spectrum was evidently improved.%大孔径静态干涉成像光谱技术在航天遥感应用中,由于探测器横纹误差影响,使获得的干涉数据无法反演光谱数据,需要对横纹误差进行修正.通过对于涉成像机理的分析,给出探测器横纹误差影响下的干涉成像模型,提出横纹误差影响下干涉数据修正方法.最后利用仪器获取的数据,对提出的修正方法进行验证,由处理结果可以看出,本文所提的修正方法可以很好的修正横纹误差对光谱的影响,提高反演光谱的精度.
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