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DynSTGAT

Libing Wu, Min Wang, Dan Wu, Jia Wu

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Abstract

Adaptive traffic signal control plays a significant role in the construction of smart cities. This task is challenging because of many essential factors, such as cooperation among neighboring intersections and dynamic traffic scenarios. First, to facilitate the cooperation of traffic signals, existing work adopts graph neural networks to incorporate the temporal and spatial influences of the surrounding intersections into the target intersection, where spatial-temporal information is used separately. However, one drawback of these methods is that the spatial-temporal correlations are not adequately exploited to obtain a better control scheme. Second, in a dynamic traffic environment, the historical state of the intersection is also critical for predicting future signal switching. Previous work mainly solves this problem using the current intersection's state, neglecting the fact that traffic flow is continuously changing both spatially and temporally and does not handle the historical state.

Topics & Concepts

Computer scienceIntersection (aeronautics)Traffic flow (computer networking)GraphArtificial neural networkTask (project management)State (computer science)Artificial intelligenceControl (management)Road trafficAdaptive systemWork (physics)SIGNAL (programming language)Adaptive controlRoad traffic controlGraph theoryTraffic Prediction and Management TechniquesTraffic control and managementTransportation Planning and Optimization
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