Title :
An Automatic Range Ambiguity Solution in High-Repetition-Rate Airborne Laser Scanner Using Priori Terrain Prediction
Author :
Hao Lu ; Yong Pang ; Zengyuan Li ; Bowei Chen
Author_Institution :
Inst. of Forest Resource Inf. Tech., Beijing, China
Abstract :
In this letter, a fully automatic method to resolve range ambiguities for high-repetition-rate airborne laser scanner data is introduced. The method combines position and orientation system data with a rough digital elevation model to make adaptive predictions for the range intervals of laser pulses and is compatible with a wide range of LiDAR systems. Results show its capability in avoiding the intrinsic constraints of multiple pulse repetition rate techniques in state-of-the-art commercial ALS systems while retaining efficient computational performance and robustness under complex terrain circumstances.
Keywords :
digital elevation models; laser ranging; optical information processing; optical radar; optical scanners; ALS systems; LiDAR systems; automatic range ambiguity solution; digital elevation model; high-repetition-rate airborne laser scanner data; multiple pulse repetition rate techniques; priori terrain prediction; Digital elevation models; Distance measurement; Global Positioning System; Laser radar; Robustness; Three-dimensional displays; DEM; LiDAR; multiple time around (MTA); pulse repetition rate (PRR); range ambiguity;
Journal_Title :
Geoscience and Remote Sensing Letters, IEEE
DOI :
10.1109/LGRS.2015.2461441
