A lane-detection system is an important component of many intelligent transportation systems. We present a robust lane-detection-and-tracking algorithm to deal with challenging scenarios such as a lane curvature, worn lane markings, lane changes, and emerging, ending, merging, and splitting lanes. We first present a comparative study to find a good real-time lane-marking classifier. Once detection is done, the lane markings are grouped into lane-boundary hypotheses. We group left and right lane boundaries separately to effectively handle merging and splitting lanes. A fast and robust algorithm, based on random-sample consensus and particle filtering, is proposed to generate a large number of hypotheses in real time. The generated hypotheses are evaluated and grouped based on a probabilistic framework. The suggested framework effectively combines a likelihood-based object-recognition algorithm with a Markov-style process (tracking) and can also be applied to general-part-based object-tracking problems. An experimental result on local streets and highways shows that the suggested algorithm is very reliable.
Robust lane detection and tracking in challenging scenarios
IEEE Transactions on Intelligent Transportation Systems ; 9 , 1 ; 16-26
2008
11 Seiten, 20 Quellen
Aufsatz (Zeitschrift)
Englisch
Robust Lane Detection and Tracking in Challenging Scenarios
British Library Conference Proceedings | 2008
|Robust Lane Detection and Tracking in Challenging Scenarios
Online Contents | 2008
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