Title :
A hybrid vision + ladar rural road follower
Author :
Rasmussen, Christopher
Author_Institution :
Delaware Univ., Newark, DE
Abstract :
We present a vision- and ladar-based approach to autonomous driving on rural and desert roads that has been tested extensively in a closed-loop system. The vision component uses Gabor wavelet filters for texture analysis to find ruts and tracks from which the road vanishing point can be inferred via Hough-style voting, yielding a direction estimate for steering control. The ladar component projects detected obstacles along the road direction onto the plane of the front of the vehicle and tracks the 1-D obstacle "gap" due to the road to yield a lateral offset estimate. Several image- and state-based tests to detect failure conditions such as off-road poses (i.e., there is no road to follow) and poor lighting due to sun glare or distracting shadows are also explained. The system\´s efficacy is demonstrated with full control of a vehicle over 10+ miles of difficult roads at up to 25 mph, as well as analysis of logged data in diverse situations
Keywords :
Gabor filters; closed loop systems; collision avoidance; computer vision; mobile robots; optical radar; road vehicles; roads; steering systems; Gabor wavelet filters; Hough-style voting; autonomous driving; closed-loop system; ladar rural road follower; steering control; texture analysis; vision based rural road follower; Gabor filters; Laser radar; Machine vision; Road vehicles; Sun; System testing; Vehicle detection; Voting; Wavelet analysis; Yield estimation;
Conference_Titel :
Robotics and Automation, 2006. ICRA 2006. Proceedings 2006 IEEE International Conference on
Conference_Location :
Orlando, FL
Print_ISBN :
0-7803-9505-0
DOI :
10.1109/ROBOT.2006.1641177
