Title :
A perception system for obstacle detection and tracking in rural, unstructured environment
Author :
Yechuan Yeo ; Xinghu Zhang ; Rong Yang
Author_Institution :
DSO Nat. Labs., Singapore, Singapore
Abstract :
This paper describes a multi-sensor perception system for detecting and tracking obstacles in a rural, unstructured environment. A 3D lidar is used as the main sensor for obstacle detection and short range vehicle tracking, complemented by automotive radars for long range moving vehicle tracking. A bottom-up inference process based on extended elevation map is used for obstacle detection, while a modified random matrix method is adopted for laser-based vehicle tracking to handle rigid body constraint and partial observability problem. Track-to-track level fusion is performed to improve the accuracy of the individual sensor´s tracks. The performance of the system is evaluated and verified through extensive experiments conducted out-field.
Keywords :
matrix algebra; object detection; optical radar; sensor fusion; target tracking; 3D LIDAR; automotive radars; bottom-up inference process; extended elevation map; laser-based vehicle tracking; long range moving vehicle tracking; modified random matrix method; multisensor perception system; obstacle detection; obstacle tracking; partial observability problem; perception system; rigid body constraint; rural environment; short range vehicle tracking; track-to-track level fusion; unstructured environment; Kinematics; Laser fusion; Laser radar; Radar tracking; Target tracking; Vehicles; 3D lidar; object tracking; obstacle detection; radar;
Conference_Titel :
Information Fusion (FUSION), 2014 17th International Conference on
Conference_Location :
Salamanca
