红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2014年
7期
2185-2191
,共7页
孙阳%薛栋林%郑立功%张学军
孫暘%薛棟林%鄭立功%張學軍
손양%설동림%정립공%장학군
遥感%偏流角%像移补偿%空间光学%TDICCD
遙感%偏流角%像移補償%空間光學%TDICCD
요감%편류각%상이보상%공간광학%TDICCD
remote sensing%drift angle%image motion compensation%space optics%TDICCD
偏流角是影响线阵CCD相机推扫成像性能的重要因素。为实现在轨有限计算资源环境下偏流角的快速计算,根据圆轨道卫星飞行与地物随地球自转的速度矢量运动关系,建立了适用于圆轨道正视与前后视成像的偏流角模型,给出卫星飞行过程中星下点相对地物的运动速度矢量作角向振动的数学表达式。根据该模型提出基于旋转CCD方式的偏流实时补偿方案,并搭建偏流校正成像模拟平台进行了实验验证。仿真和实验表明,速度矢量模型具有更高的计算效率,计算精度和稳定性与坐标变换模型和轨道要素模型一致,能够将偏流导致的图像MTF下降抑制到5%。该方案适用于TDICCD相机与三线阵CCD立体测绘相机的偏流实时调整机构开发工作。
偏流角是影響線陣CCD相機推掃成像性能的重要因素。為實現在軌有限計算資源環境下偏流角的快速計算,根據圓軌道衛星飛行與地物隨地毬自轉的速度矢量運動關繫,建立瞭適用于圓軌道正視與前後視成像的偏流角模型,給齣衛星飛行過程中星下點相對地物的運動速度矢量作角嚮振動的數學錶達式。根據該模型提齣基于鏇轉CCD方式的偏流實時補償方案,併搭建偏流校正成像模擬平檯進行瞭實驗驗證。倣真和實驗錶明,速度矢量模型具有更高的計算效率,計算精度和穩定性與坐標變換模型和軌道要素模型一緻,能夠將偏流導緻的圖像MTF下降抑製到5%。該方案適用于TDICCD相機與三線陣CCD立體測繪相機的偏流實時調整機構開髮工作。
편류각시영향선진CCD상궤추소성상성능적중요인소。위실현재궤유한계산자원배경하편류각적쾌속계산,근거원궤도위성비행여지물수지구자전적속도시량운동관계,건립료괄용우원궤도정시여전후시성상적편류각모형,급출위성비행과정중성하점상대지물적운동속도시량작각향진동적수학표체식。근거해모형제출기우선전CCD방식적편류실시보상방안,병탑건편류교정성상모의평태진행료실험험증。방진화실험표명,속도시량모형구유경고적계산효솔,계산정도화은정성여좌표변환모형화궤도요소모형일치,능구장편류도치적도상MTF하강억제도5%。해방안괄용우TDICCD상궤여삼선진CCD입체측회상궤적편류실시조정궤구개발공작。
Drift angle is an important factor which disturbs image quality of linear array CCD camera in push broom imaging mode. In order to realize fast calculation to drift angle under limited computational resource condition on orbit, a drift angle expression applied to remote sensor with straight, forward and backward sight on circular orbit was constructed, based on character of relative motion between velocity of camera on round orbit and of ground target which moved with rotation of the earth. Mathematical expression of angular vibration of the velocity vector of satellite relative to target during satellite′s flight was given. The real-time adjusting method based on CCD rotating was presented and verified by constructing imaging testbed of real-time drift compensation. Simulation and test results indicate that speed vector model has higher calculation efficiency, and calculation accuracy and stability are as much as method of coordinate transformation and orbital element. MTF degradation can be suppressed to 5%with drift compensated by speed vector model. The method can be further used for development of drift angle real time adjustment mechanism of TDICCD camera and three-line CCD 3-D photography camera.
