红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2015年
3期
1042-1047
,共6页
马跃%阳凡林%卢秀山%冯成凯%李松
馬躍%暘凡林%盧秀山%馮成凱%李鬆
마약%양범림%로수산%풍성개%리송
激光遥感%激光测高%测距误差%高程误差%机载激光雷达
激光遙感%激光測高%測距誤差%高程誤差%機載激光雷達
격광요감%격광측고%측거오차%고정오차%궤재격광뢰체
laser remote sensing%laser altimeter%range error%elevation error%airborne lidar
星载激光测高系统通过接收卫星平台激光器发出的激光脉冲经地表反射的微弱回波,计算卫星与地表的距离;结合卫星轨道和姿态数据,生成激光脚点精确地理位置和高程结果。其高程误差主要受器件、环境和目标参数影响,目前还没有完整描述对地观测星载激光测高系统平面和高程误差的数学模型。简化并完善了针对固体地表的激光测距误差模型,建立了完整的激光脚点平面和高程误差模型。利用高程精度和空间分辨率更高的机载Lidar数据评估了星载激光测高系统GLAS实测数据的高程偏差,评估结果符合所建误差模型。在较平坦的冰盖表面,GLAS系统高程精度可以达到设计值约15 cm。研究内容对测高系统高程误差评估和系统参数设计具有参考意义。
星載激光測高繫統通過接收衛星平檯激光器髮齣的激光脈遲經地錶反射的微弱迴波,計算衛星與地錶的距離;結閤衛星軌道和姿態數據,生成激光腳點精確地理位置和高程結果。其高程誤差主要受器件、環境和目標參數影響,目前還沒有完整描述對地觀測星載激光測高繫統平麵和高程誤差的數學模型。簡化併完善瞭針對固體地錶的激光測距誤差模型,建立瞭完整的激光腳點平麵和高程誤差模型。利用高程精度和空間分辨率更高的機載Lidar數據評估瞭星載激光測高繫統GLAS實測數據的高程偏差,評估結果符閤所建誤差模型。在較平坦的冰蓋錶麵,GLAS繫統高程精度可以達到設計值約15 cm。研究內容對測高繫統高程誤差評估和繫統參數設計具有參攷意義。
성재격광측고계통통과접수위성평태격광기발출적격광맥충경지표반사적미약회파,계산위성여지표적거리;결합위성궤도화자태수거,생성격광각점정학지리위치화고정결과。기고정오차주요수기건、배경화목표삼수영향,목전환몰유완정묘술대지관측성재격광측고계통평면화고정오차적수학모형。간화병완선료침대고체지표적격광측거오차모형,건립료완정적격광각점평면화고정오차모형。이용고정정도화공간분변솔경고적궤재Lidar수거평고료성재격광측고계통GLAS실측수거적고정편차,평고결과부합소건오차모형。재교평탄적빙개표면,GLAS계통고정정도가이체도설계치약15 cm。연구내용대측고계통고정오차평고화계통삼수설계구유삼고의의。
In space-borne laser altimeter system, the range between satellite and target was calculated by the weak received signal which was transmitted from laser device and reflected by earth surface, and the accurate location and elevation of laser footprint was acquired by combining satellite precise orbit with attitude data. The elevation error was mainly affected by the device noise, the environment and the target parameters, and there is no complete analyzing model of location and elevation error for spaceborne laser altimetry system. The error model of laser ranging for solid surface was simplified and improved. Meanwhile, the location and elevation error analysis model of laser footprint was established in this paper. Utilizing airborne lidar data with better spatial resolution and elevation accuracy, the elevation deviation of GLAS data were evaluated, and the result was consistent with the error model. It is proved that on the flat surface of ice sheets the elevation accuracy of GLAS system can meet its design value of approximate 15 cm. This research is instructive for elevation error assessment and system parameters designing of laser altimeter system.