Affiliation:
1. FAMU/FSU College of Engineering
2. North Dakota State University
Abstract
Today’s autonomous vehicles operate in an increasingly general set of circumstances. In particular, unmanned ground vehicles (UGV’s) must be able to travel on whatever terrain the mission offers, including sand, mud, or even snow. These terrains can affect the performance and controllability of the vehicle. Like a human driver who feels his vehicle’s response to the terrain and takes appropriate steps to compensate, a UGV that can autonomously perceive its terrain can also make necessary changes to its control strategy. This article focuses on the development and application of a terrain detection algorithm based on terrain induced vehicle vibration. The dominant vibration frequencies are extracted and used by a probabilistic neural network to identify the terrain. Experimental results based on iRobot’s ATRV Jr (Fig. 1) demonstrate that the algorithm is able to identify with high accuracy multi-differentiated terrains broadly classified as sand, grass, asphalt, and gravel.
Reference19 articles.
1. Howard
A.
and SerajiH.. Vision-Based Terrain Characterization and Traversability Assessment. Journal of Robotic Systems, 18(10):577–587, 2001.
2. N. Vandapel, D. F. Huber, A. Kapuria, and M. Herbet. Natural terrain classification using 3-d ladar data. In Proceedings of the IEEE International Conference on Robotics and Automation (ICRA), pages 5117–5122, New Orleans, LA, April 2004.
3. K. Iagnemma, H. Shibly, and S. Dubowsky. Terrain parameter estimation for planetary rovers. In Proceedings of the IEEE International Conference on Robotics and Automation (ICRA), pages 3142–3147, Washington, DC, May 2002.
4. K. Iagnemma, S. Kang, H. Shibly, and S. Dubowsky. Online terrain parameter estimation for wheeled mobile robots with application to planetary rovers. IEEE Transactions On Robotics, 20(5), October 2004.
5. K. Iagnemma and S. Dubowsky. Terrain estimation for high speed, rough-terrain autonomous vehicle navigation. In Proceedings of the SPIE Conference on Unmanned Ground Vehicle Technology, pages 256–266, Orlando, FL, May 2002.
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