Robust curved road boundary identification using hierarchical clustering.
Date
2013-11-01
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Abstract
We develop a new method for automatic curved road boundary detection in images captured by
traffic cameras. The proposed method combines data driven (edge segments) and model based
(2nd degree polynomial models for road boundaries) techniques to identify dominant road
boundary in images exhibiting extreme weather conditions, low visibility and poor lighting.
The proposed method constructs a ranked list of possible road boundaries through agglomerative
hierarchical clustering of edge segments. Each node in the hierarchical clustering is a
potential road boundary. Top ranked road boundaries are paired with each other to identify potential
road regions. The road regions are then ranked using appearance and perspective cues
and the top ranked road region is used to construct the dominant road boundary in the image.
We evaluate our method on a realistic dataset captured by traffic cameras managed by Ontario’s
Ministry of Transportation.
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Keywords
Road boundary, Hierarchical clustering