A lane closure bottleneck usually leads to traffic congestion and a waste of fuel consumption on highways. In mixed traffic that consists of human-driven vehicles and connected automated vehicles (CAVs), the CAVs can be used for traffic control to improve the traffic flow. The authors propose speed harmonisation and merge control, taking advantage of CAVs to alleviate traffic congestion at a highway bottleneck area. To this end, they apply a reinforcement learning algorithm called deep Q network to train behaviours of CAVs. By training the merge control Q-network, CAVs learn a merge mechanism to improve the mixed traffic flow at the bottleneck area. Similarly, speed harmonisation Q-network learns speed harmonisation to reduce fuel consumption and alleviate traffic congestion by controlling the speed of following vehicles. After training two Q-networks of the merge mechanism and speed harmonisation, they evaluate the trained Q-networks under various conditions in terms of vehicle arrival rates and CAV market penetration rates. The simulation results indicate that the proposed approach improves the mixed traffic flow by increasing the throughput up to 30% and reducing the fuel consumption up to 20%, when compared to the late merge control without speed harmonisation.
Speed harmonisation and merge control using connected automated vehicles on a highway lane closure: a reinforcement learning approach
IET Intelligent Transport Systems ; 14 , 8 ; 947-957
2020-06-16
11 pages
Article (Journal)
Electronic Resource
English
lane closure bottleneck , reinforcement learning approach , road vehicles , learning (artificial intelligence) , CAV market penetration rates , trained Q-networks , vehicle arrival rates , mixed traffic flow , road traffic control , Q-network , highway bottleneck area , road traffic , traffic engineering computing , highway lane closure , speed harmonisation , fuel consumption , connected automated vehicles , human-driven vehicles , reinforcement learning algorithm , traffic control , traffic congestion
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