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Reinforcement Learning for Ramp Control: An Analysis of Learning Parameters
Chao Lu, Jie Huang, Jianwei Gong
Keywords:reinforcement learning, Q-learning, ramp control, agent, macroscopic traffic flow model, ent learning


Reinforcement Learning (RL) has been proposed to deal with ramp control problems under dynamic traffic conditions; however, there is a lack of sufficient research on the behaviour and impacts of different learning parameters. This paper describes a ramp control agent based on the RL mechanism and thoroughly analyzed the influence of three learning parameters; namely, learning rate, discount rate and action selection parameter on the algorithm performance. Two indices for the learning speed and convergence stability were used to measure the algorithm performance, based on which a series of simulation-based experiments were designed and conducted by using a macroscopic traffic flow model. Simulation results showed that, compared with the discount rate, the learning rate and action selection parameter made more remarkable impacts on the algorithm performance. Based on the analysis, some suggestions
about how to select suitable parameter values that can achieve a superior performance were provided.


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