航天返回与遥感
航天返迴與遙感
항천반회여요감
SPACECRAFT RECOVERY & REMOTE SENSING
2013年
6期
36-43
,共8页
阮宁娟%庄绪霞%李妥妥%满益云
阮寧娟%莊緒霞%李妥妥%滿益雲
원저연%장서하%리타타%만익운
光学成像%全链路仿真%精度验证%应用分析%航天遥感
光學成像%全鏈路倣真%精度驗證%應用分析%航天遙感
광학성상%전련로방진%정도험증%응용분석%항천요감
optical imaging%end to end simulation%precision validation%application analysis%space remote sensing
针对空间光学遥感系统全链路仿真中的建模、验模和应用分析的问题,文章依据光学遥感成像机制,将遥感成像链路分为信号链路、传递链路和噪声链路,分别建立了调制传递函数模型和信噪比模型。利用分环节验证和系统精度验证相结合的方法验证模型精度,基于商业设计软件、手册、实验室测试数据等不同形式进行分环节验证,基于仿真数据与在轨成像数据对比来实现系统精度验证。验证结果表明,调制传递函数全链路模型精度优于80%,信号模型精度优于82%。依据验证后的成像仿真模型,开展在轨成像参数调整仿真分析,针对不同季节、不同区域的成像提出在轨增益调整策略。
針對空間光學遙感繫統全鏈路倣真中的建模、驗模和應用分析的問題,文章依據光學遙感成像機製,將遙感成像鏈路分為信號鏈路、傳遞鏈路和譟聲鏈路,分彆建立瞭調製傳遞函數模型和信譟比模型。利用分環節驗證和繫統精度驗證相結閤的方法驗證模型精度,基于商業設計軟件、手冊、實驗室測試數據等不同形式進行分環節驗證,基于倣真數據與在軌成像數據對比來實現繫統精度驗證。驗證結果錶明,調製傳遞函數全鏈路模型精度優于80%,信號模型精度優于82%。依據驗證後的成像倣真模型,開展在軌成像參數調整倣真分析,針對不同季節、不同區域的成像提齣在軌增益調整策略。
침대공간광학요감계통전련로방진중적건모、험모화응용분석적문제,문장의거광학요감성상궤제,장요감성상련로분위신호련로、전체련로화조성련로,분별건립료조제전체함수모형화신조비모형。이용분배절험증화계통정도험증상결합적방법험증모형정도,기우상업설계연건、수책、실험실측시수거등불동형식진행분배절험증,기우방진수거여재궤성상수거대비래실현계통정도험증。험증결과표명,조제전체함수전련로모형정도우우80%,신호모형정도우우82%。의거험증후적성상방진모형,개전재궤성상삼수조정방진분석,침대불동계절、불동구역적성상제출재궤증익조정책략。
As to modeling, model verification and application analysis of the space optical remote sensing system, in this paper, based on imaging mechanism of optical remote sensing, the imaging chain is first divided into three chains, which are signal chain, modulation transfer chain and noise chain, and then models of modulation transfer function and signal to noise ratio are built. Link by link and systemic verification has been carried out to confirm the accuracy of the simulation model. Models for different part of the chain are validated based on commercial design software, handbook and test data from the lab and so on. Systemic verification is executed by comparing simulation results with the in-orbit images. The verified results show that the systemic accuracy of model for modulation transfer function is better than 80% and that for signal is better than 85%. Finally, simulation analysis of in-orbit parameters adjustment is done and strategy of gain adjustment for different seasons and regions is put forward.
