Abstract
Road weather conditions are closed-related to the transportation safety and traffic capacity. With the development of road surveillance systems, weather conditions could be recognized from video. However, it is hard to be detected by machine. To address it, a deeply supervised convolution neural network (DS-CNN) is designed and trained on a self-established dataset. The traffic image dataset includes five groups labeled with “sunny”, “overcast”, “rainy”, “snowy” and “foggy”. Each group has manually labeled and selected more than 2500 images. The DS-CNN, can achieve the precision rate of 0.9681 and the recall rate of 0.9681. This practical weather detection method has been built in the surveillance system covers five freeways. The experimental result used in practice shows much worse detection results at first with disturbance of difference scenarios, worn camera, transmission failure and so on. With further improvement of DS-CNN, we found that it was much more effective than hand-crafted features in this task, and a deeper neural architecture could derive more powerful features. Moreover, the results show that dense weather information has more details in a small scale. In order to fast report the regional weather detection result, a designed visualization method is also proposed in spatiotemporal dimension to fuse with currently-used system. The high accuracy and fast detection speed with friendly visualization would lead to more precise traffic management and prompt the road weather traffic control to more intelligence levels.
Highlights
Weather conditions are close-related to the safety and efficiency of road transportation systems
In order to obtain weather information more densely, we proposed a vision-based weather detection approach using images from Large-scale surveillance systems
To test and validate the models, we built a road weather conditions dataset using images captured from the road surveillance system in Shaanxi province, China
Summary
Weather conditions are close-related to the safety and efficiency of road transportation systems. Rough weather information captured from weather stations is far from enough as it can’t accurately reflect the road weather conditions in a specific region or time. The weather along the freeway connected cities may cover large regions with less weather stations. Road segments in mountain areas are affected by bad weather such as heavy rain and fog. The negative impact of weather may raise the frequency and severity of accidents, reduce driving speed and increase. The associate editor coordinating the review of this manuscript and approving it for publication was Edith C.-H.
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