Title :
3D outline contours of vehicles in 3D-LIDAR-measurements for tracking extended targets
Author :
Steinemann, P. ; Klappstein, J. ; Dickmann, J. ; Wünsche, H. -J ; Hundelshausen, F.V.
Author_Institution :
Dept. for Environ. Perception, Daimler AG, Ulm, Germany
Abstract :
Tracking of extended targets in high definition 360 degree 3D-LIDAR (Light Detection and Ranging) measurements is a challenging task. It is a key component in robotic applications and is relevant to collision avoidance and autonomous driving. This paper presents a robust method to determine the 3D outline contour of vehicles in disordered 3D-LIDAR measurements while using several geometrical vehicle-specific constraints. In addition, the 3D outline contour contains information on the local reliability of the contour. A weighted registration approach allows calculating the velocity of consecutive 3D outline contours directly. The approach is tested with real sensor data. A robot car equipped with an inertial measurement unit serves as ground truth.
Keywords :
automobiles; collision avoidance; mobile robots; optical radar; radar tracking; target tracking; autonomous driving; collision avoidance; consecutive 3D outline contour; contour reliability; disordered 3D-LIDAR measurement; extended target tracking; geometrical vehicle-specific constraint; inertial measurement unit; light detection; light ranging; robot car; robotic application; sensor data; velocity calculation; weighted registration approach; Equations; Laser radar; Mathematical model; Measurement by laser beam; Robots; Vehicles; Visualization;
Conference_Titel :
Intelligent Vehicles Symposium (IV), 2012 IEEE
Conference_Location :
Alcala de Henares
Print_ISBN :
978-1-4673-2119-8
DOI :
10.1109/IVS.2012.6232179
