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DRLE: Decentralized Reinforcement Learning at the Edge for Traffic Light Control in the IoV

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arxiv 2009.01502 v2 pith:K263UNGJ submitted 2020-09-03 cs.MA cs.DCcs.LGcs.SYeess.SY

DRLE: Decentralized Reinforcement Learning at the Edge for Traffic Light Control in the IoV

classification cs.MA cs.DCcs.LGcs.SYeess.SY
keywords trafficcontroledgelightdrlebetterdecentralizeddata
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The Internet of Vehicles (IoV) enables real-time data exchange among vehicles and roadside units and thus provides a promising solution to alleviate traffic jams in the urban area. Meanwhile, better traffic management via efficient traffic light control can benefit the IoV as well by enabling a better communication environment and decreasing the network load. As such, IoV and efficient traffic light control can formulate a virtuous cycle. Edge computing, an emerging technology to provide low-latency computation capabilities at the edge of the network, can further improve the performance of this cycle. However, while the collected information is valuable, an efficient solution for better utilization and faster feedback has yet to be developed for edge-empowered IoV. To this end, we propose a Decentralized Reinforcement Learning at the Edge for traffic light control in the IoV (DRLE). DRLE exploits the ubiquity of the IoV to accelerate the collection of traffic data and its interpretation towards alleviating congestion and providing better traffic light control. DRLE operates within the coverage of the edge servers and uses aggregated data from neighboring edge servers to provide city-scale traffic light control. DRLE decomposes the highly complex problem of large area control. into a decentralized multi-agent problem. We prove its global optima with concrete mathematical reasoning. The proposed decentralized reinforcement learning algorithm running at each edge node adapts the traffic lights in real time. We conduct extensive evaluations and demonstrate the superiority of this approach over several state-of-the-art algorithms.

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