Communication packet loss is omnipresent and can disrupt state convergence and weaken system stability for connected and automated vehicles (CAVs). Research into communication packet loss has primarily focused ON state feedback, often leaving various constraints and objectives unaddressed. This study introduces a novel distributed model predictive control (DMPC) method for cooperative control of a CAV platoon subject to Markov communication packet loss. First, the vehicle platoon system is modeled, within which the state of each communication link is described by a Markov process. Second, a DMPC controller is designed by formulating an online open-loop optimization problem. Specifically, a self-deviation constraint is adopted to enhance robustness against packet loss, and a terminal state constraint with a consensus protocol-based update law is designed to achieve terminal mean-square consensus. Third, the terminal consensus, recursive feasibility, and internal stability are analyzed, and a sufficient condition on the asymptotic mean-square stability is deduced. A modified string stable DMPC is further designed with leader information. Finally, numerical simulations and an experiment are carried out to validate the proposed methods, revealing that the proposed DMPC controller outperforms the benchmark controller on tracking performance and fuel economy.


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    Title :

    Distributed Model Predictive Control of Connected and Automated Vehicles With Markov Packet Loss


    Contributors:
    Bian, Yougang (author) / Wang, Xuan (author) / Tan, Yan (author) / Hu, Manjiang (author) / Du, Changkun (author) / Sun, Zhongqi (author) / Guo, Ge (author)


    Publication date :

    2025-04-01


    Size :

    2321689 byte




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English