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Comparison of Deep Reinforcement Learning and Model Predictive Control for Adaptive Cruise Control

Yuan Lin, John McPhee, Nasser L. Azad

2020IEEE Transactions on Intelligent Vehicles224 citationsDOIOpen Access PDF

Abstract

This study compares Deep Reinforcement Learning (DRL) and Model Predictive Control (MPC) for Adaptive Cruise Control (ACC) design in car-following scenarios. A first-order system is used as the Control-Oriented Model (COM) to approximate the acceleration command dynamics of a vehicle. Based on the equations of the control system and the multi-objective cost function, we train a DRL policy using Deep Deterministic Policy Gradient (DDPG) and solve the MPC problem via Interior-Point Optimization (IPO). Simulation results for the episode costs show that, when there are no modeling errors and the testing inputs are within the training data range, the DRL solution is equivalent to MPC with a sufficiently long prediction horizon. Particularly, the DRL episode cost is only 5.8% higher than the benchmark optimal control solution provided by optimizing the entire episode via IPO. The DRL control performance degrades when the testing inputs are outside the training data range, indicating inadequate machine learning generalization. When there are modeling errors due to control delay, disturbances, and/or testing with a High-Fidelity Model (HFM) of the vehicle, the DRL-trained policy performs better when the modeling errors are large while having similar performances as MPC when the modeling errors are small.

Topics & Concepts

Reinforcement learningModel predictive controlCruise controlGeneralizationBenchmark (surveying)Computer scienceRange (aeronautics)Control theory (sociology)Control (management)Artificial intelligenceEngineeringMathematicsGeographyMathematical analysisAerospace engineeringGeodesyTraffic control and managementAutonomous Vehicle Technology and SafetyCardiovascular Function and Risk Factors
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