电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2010年
1期
48-53
,共6页
SAR%干涉%测高模型%不确定度分析
SAR%榦涉%測高模型%不確定度分析
SAR%간섭%측고모형%불학정도분석
SAR%Interferometry%Height measurement model%Uncertainty analysis
现有的考虑地球曲率影响的INSAR测高模型主要有星载干涉SAR测高模型和直接地理编码两种.星载干涉SAR测高模型首先利用SAR干涉获取非模糊干涉相位,然后根据考虑地球曲率的空间几何关系直接计算地形高度.而直接地理编码模型则是在SAR干涉获取非模糊干涉相位的基础上,利用两个斜距方程和一个多普勒方程给出地面点的3维坐标值.由于两种模型得到地形高程的途径不同,因此很难直接比较这两种模型的地形测高不确定度.该文在采用矩阵形式推导出直接地理编码模型地形高程不确定度显示表达式的基础上,通过引入斜距平面坐标系,定量化地证明了直接地理编码模型的高程测量不确定度公式与考虑地球曲率的SAR干涉测高模型的测高不确定度公式是相同的,从而说明了这两种模型在用于地形高程测量时具有相同的精度.最后采用计算机仿真验证了理论分析的正确性.
現有的攷慮地毬麯率影響的INSAR測高模型主要有星載榦涉SAR測高模型和直接地理編碼兩種.星載榦涉SAR測高模型首先利用SAR榦涉穫取非模糊榦涉相位,然後根據攷慮地毬麯率的空間幾何關繫直接計算地形高度.而直接地理編碼模型則是在SAR榦涉穫取非模糊榦涉相位的基礎上,利用兩箇斜距方程和一箇多普勒方程給齣地麵點的3維坐標值.由于兩種模型得到地形高程的途徑不同,因此很難直接比較這兩種模型的地形測高不確定度.該文在採用矩陣形式推導齣直接地理編碼模型地形高程不確定度顯示錶達式的基礎上,通過引入斜距平麵坐標繫,定量化地證明瞭直接地理編碼模型的高程測量不確定度公式與攷慮地毬麯率的SAR榦涉測高模型的測高不確定度公式是相同的,從而說明瞭這兩種模型在用于地形高程測量時具有相同的精度.最後採用計算機倣真驗證瞭理論分析的正確性.
현유적고필지구곡솔영향적INSAR측고모형주요유성재간섭SAR측고모형화직접지리편마량충.성재간섭SAR측고모형수선이용SAR간섭획취비모호간섭상위,연후근거고필지구곡솔적공간궤하관계직접계산지형고도.이직접지리편마모형칙시재SAR간섭획취비모호간섭상위적기출상,이용량개사거방정화일개다보륵방정급출지면점적3유좌표치.유우량충모형득도지형고정적도경불동,인차흔난직접비교저량충모형적지형측고불학정도.해문재채용구진형식추도출직접지리편마모형지형고정불학정도현시표체식적기출상,통과인입사거평면좌표계,정양화지증명료직접지리편마모형적고정측량불학정도공식여고필지구곡솔적SAR간섭측고모형적측고불학정도공식시상동적,종이설명료저량충모형재용우지형고정측량시구유상동적정도.최후채용계산궤방진험증료이론분석적정학성.
The height measurement models considering earth curvature of INSAR mainly consist of two kinds- spaceborne interferometric SAR height measurement model and direct geocoding model. Spaceborne interferometric SAR height measurement model gets unambiguous interferometric phases through interferometric SAR, then calculates the terrain height by the spatial geometry considering earth curvature. Direct geocoding model obtains the three-dimensional coordinates using two slant range equations and one Doppler equation, based on the unambiguous interferometric phases. Because the methods getting the terrain height in the two models are different, it is difficult to compare the height measurement uncertainties of the models. Based on matrix theory, the explicit expressions of height uncertainty of direct gecoding model are presented. And it is proven that the height measurement uncertainty formulas of direct geocoding model are the same as that of spaceborne interferometric SAR height measurement model after introducing a new slane range plane coordinate system. Then it is proposed that these two models would lead to the same precision in height measurement. Finally, computer simulation is employed to validate the correctness of the theory analysis.
