Dayuan Tan, Mohamed Younis, Wassila Lalouani, Shuyao Fan, Guozhi Song
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A novel pedestrian road crossing simulator for dynamic traffic light scheduling systems
The major advances in intelligent transportation systems are pushing societal
services toward autonomy where road management is to be more agile in order to
cope with changes and continue to yield optimal performance. However, the
pedestrian experience is not sufficiently considered. Particularly, signalized
intersections are expected to be popular if not dominant in urban settings
where pedestrian density is high. This paper presents the design of a novel
environment for simulating human motion on signalized crosswalks at a
fine-grained level. Such a simulation not only captures typical behavior, but
also handles cases where large pedestrian groups cross from both directions.
The proposed simulator is instrumental for optimized road configuration
management where the pedestrians' quality of experience, for example, waiting
time, is factored in. The validation results using field data show that an
accuracy of 98.37 percent can be obtained for the estimated crossing time.
Other results using synthetic data show that our simulator enables optimized
traffic light scheduling that diminishes pedestrians' waiting time without
sacrificing vehicular throughput.
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