摘要
针对斜坡地形、台阶地形和植被地貌、分界地貌建立了4种基本模型,研究了不同的地表空间起伏和反射率分布对回波信号时空分布特性的影响,并采用蒙特卡罗方法仿真了4种模型下Geiger探测模式星载激光雷达的高程测量精度,发现:地形起伏主要影响回波信号的时间分布特性,统计条件下可以消除测量误差;回波信号空间分布特性变化主要由地貌(反射率)的变化引起,误差较小可以忽略。研究结果表明:激光三维测绘卫星对垂直陡变地形(如城市建筑)、斜坡地形(如山坡)、分界地貌(如水陆分界)和折射率起伏地貌(如植被地貌等)具有良好的探测能力。
Four basic models have been established in view of the slope terrain,the step and platform terrain,the vegetation terrain as well as the dividing terrain and research is focused on exploring the effect of irregular topography and distribution of reflectance on the spatial and temporal distribution of echo signal.Additionally,Monte-Carlo Method has been employed to simulate measuring accuracy of LiDAR Geiger mode detection under the four models.Through the numerical simulation,it is found that irregular topography mainly affects the time distribution of echo pulse and error can be eliminated under the statistics condition;the change of the distribution of echo signal is mainly caused by the variation of the landscape,so small error can be ignored.Such results prove that 3DLaser Surveying Satellite is advantageous to the detection over different landforms and physiognomy,such as architectures,hills,boundary zones and vegetative cover.
出处
《测绘学报》
EI
CSCD
北大核心
2014年第12期1238-1244,共7页
Acta Geodaetica et Cartographica Sinica
基金
国家自然科学基金(11302132)
关键词
激光测绘
卫星
地表形貌
台阶
斜坡
反射率
蒙特卡罗方法
LiDAR surveying
satellite
geography and geomorphology
stepped terrain
slope terrain
reflectivity
Monte-Carlo method
