Saiedeh Razavi scite author profile

Ensuring transportation systems are efficient is a priority for modern society. Technological advances have made it possible for transportation systems to collect large volumes of varied data on an unprecedented scale. We propose a traffic signal control system which takes advantage of this new, high quality data, with minimal abstraction compared to other proposed systems. We apply modern deep reinforcement learning methods to build a truly adaptive traffic signal control agent in the traffic microsimulator SUMO. We propose a new state space, the discrete traffic state encoding, which is information dense. The discrete traffic state encoding is used as input to a deep convolutional neural network, trained using Q-learning with experience replay. Our agent was compared against a one hidden layer neural network traffic signal control agent and reduces average cumulative delay by 82%, average queue length by 66% and average travel time by 20%.

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Traffic capacity implications of automated vehicles mixed with regular vehicles

Olia

Razavi

Abdulhai

et al. 2017

Journal of Intelligent Transportation Systems

154

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Evaluating reinforcement learning state representations for adaptive traffic signal control

Genders

Razavi

2018

Procedia Computer Science

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Assessing the Potential Impacts of Connected Vehicles: Mobility, Environmental, and Safety Perspectives

Olia

Abdelgawad

Abdulhai

et al. 2015

Journal of Intelligent Transportation Systems

111

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Saiedeh Razavi

Multisensor data fusion: A review of the state-of-the-art

Evaluating Reinforcement Learning State Representations for Adaptive Traffic Signal Control

Traffic capacity implications of automated vehicles mixed with regular vehicles

Evaluating reinforcement learning state representations for adaptive traffic signal control

Assessing the Potential Impacts of Connected Vehicles: Mobility, Environmental, and Safety Perspectives

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