Autonomous off-road ground vehicles require advanced perception systems in order to sense and understand the surrounding environment, while ensuring robustness under compromised visibility conditions. In this paper, the use of millimeter wave radar is proposed as a possible solution for all-weather off-road perception. A self-learning ground classifier is developed that segments radar data for scene understanding and autonomous navigation tasks. The proposed system comprises two main stages: an adaptive training stage and a classification stage. During the training stage, the system automatically learns to associate appearance of radar data with class labels. Then, it makes predictions based on past observations. The training set is continuously updated online using the latest radar readings, thus making it feasible to use the system for long range and long duration navigation, over changing environments. Experimental results, obtained with an unmanned ground vehicle operating in a rural environment, are presented to validate this approach. Conclusions are drawn on the utility of millimeter-wave radar as a robotic sensor for persistent and accurate perception in natural scenarios.
A Self-Learning Ground Classifier using Radar Features
REINA, GIULIO;
2014-01-01
Abstract
Autonomous off-road ground vehicles require advanced perception systems in order to sense and understand the surrounding environment, while ensuring robustness under compromised visibility conditions. In this paper, the use of millimeter wave radar is proposed as a possible solution for all-weather off-road perception. A self-learning ground classifier is developed that segments radar data for scene understanding and autonomous navigation tasks. The proposed system comprises two main stages: an adaptive training stage and a classification stage. During the training stage, the system automatically learns to associate appearance of radar data with class labels. Then, it makes predictions based on past observations. The training set is continuously updated online using the latest radar readings, thus making it feasible to use the system for long range and long duration navigation, over changing environments. Experimental results, obtained with an unmanned ground vehicle operating in a rural environment, are presented to validate this approach. Conclusions are drawn on the utility of millimeter-wave radar as a robotic sensor for persistent and accurate perception in natural scenarios.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.