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Ecological Cooperative Adaptive Cruise Control for Heterogenous Vehicle Platoons Subject to Time Delays and Input Saturations

Chunjie Zhai, Chuqiao Chen, Xinlei Zheng, Zhimin Han, Yuhan Gao, Chenggang Yan, Fei Luo, Jianmin Xu

2022IEEE Transactions on Intelligent Transportation Systems46 citationsDOI

Abstract

Public concerns about energy crisis and environmental issues lead to higher fuel economy standards and more stringent limitations on greenhouse gas emissions for ground vehicles, and ecological cooperative adaptive cruise control (eco-CACC) is considered to be effective in reducing fuel consumption and greenhouse gas emissions of vehicle platoons. In this paper, an eco-CACC strategy is presented for heterogeneous platoons with time delays and input saturations to achieve platoon stability, fuel economy, riding comfort and driving efficiency. The proposed eco-CACC strategy includes distributed linear feedback control (DLFC) for following vehicles and model predictive control (MPC) for the leading one. To obtain platoon stability, the DLFC protocol is designed using state errors between an ego vehicle and its preceding one, and the frequency domain method is employed to derive the sufficient conditions of platoon stability for the DLFC protocol. Then, to achieve fuel economy, passenger comfort and driving efficiency without violating the different input saturations of vehicles, the constrained fuel consumption optimization problem of the leading vehicle (CFCO-LV) is formulated based on delay MPC, where the weighted sum of the overall fuel consumption and velocity band-stop functions of vehicle platoon is minimized. To quickly obtain the MPC controller, an improved particle swarm optimization (PSO) algorithm is used to solve the CFCO-LV problem. Simulations are implemented to validate the effectiveness of the proposed eco-CACC strategy, and the simulation results demonstrate that, compared with benchmark, the proposed strategy can save 2.19%~8.24% of fuel for the heterogeneous platoon under different velocity ranges.

Topics & Concepts

PlatoonCooperative Adaptive Cruise ControlFuel efficiencyCruise controlBenchmark (surveying)Control theory (sociology)EngineeringController (irrigation)Model predictive controlEnergy consumptionStability (learning theory)Particle swarm optimizationAutomotive engineeringComputer scienceControl (management)Artificial intelligenceElectrical engineeringGeodesyGeographyBiologyMachine learningAgronomyTraffic control and managementVehicle emissions and performanceTransportation Planning and Optimization
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