Distributed Model Predictive Control for Vehicle Platooning with Coupled Constraints under Asynchronous Communication Protocols

Hao Sun; Davide Tavernini; Patrick Gruber; Bingbing Li; Weichao Zhuang; Umberto Montanaro

doi:10.1109/TVT.2025.3628155

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Distributed Model Predictive Control for Vehicle Platooning with Coupled Constraints under Asynchronous Communication Protocols

Journal article

Open access

Peer reviewed

Distributed Model Predictive Control for Vehicle Platooning with Coupled Constraints under Asynchronous Communication Protocols

Hao Sun, Davide Tavernini, Patrick Gruber, Bingbing Li, Weichao Zhuang and Umberto Montanaro

IEEE Transactions on Vehicular Technology, Vol.Early Access(Early Access)

31/10/2025

DOI: https://doi.org/10.1109/TVT.2025.3628155

Abstract

distributed model predicted control

coupled constraints

asynchronous communication

Vehicle platooning

Protocols

Predictive control

Lyapunov methods

Collision avoidance

Torque

Stability criteria

Prediction algorithms

Communication Protocol

Model Predictive Control

Distributed Model Predictive Control

Optimization Problem

Asymptotically Stable

Distributed Control

Communication Topology

Excessive Energy Consumption

Model Predictive Control Algorithm

Predictive Control Algorithm

Time Step

Control Strategy

Stability Of System

Control Problem

Closed-loop System

Tracking Error

Road Safety

Prediction Horizon

Artificial Intelligence Training

Lyapunov Function Candidate

State Constraints

Penalty Weight

Communication Delay

Roadside Units

Input Constraints

Autonomous Vehicles

Safety

Topology

Vehicle Dynamics

Urbanisation and the steady increase in vehicle on the roads are pushing transportation to its limits, leading to congestion, excessive energy consumption, and safety concerns. Connected and autonomous vehicle (CAV) technology is expected to play a major role in the ongoing evolution of transportation to mitigate transportation issues. In this paper, a distributed model predictive control (DMPC) algorithm is designed for a heterogeneous CAV platooning problem, addressing the challenges posed by coupled collision avoidance constraints. Under an asynchronous bidirectional predecessor-follower (ABD) communication topology, coupled constraints are systematically decoupled, while ensuring the recursive feasibility of the underlying optimisation problem in the DMPC formulation, Lyapunov stability and string stability. Finally, numerical simulations are conducted to validate the effectiveness of the proposed method.

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Title: Distributed Model Predictive Control for Vehicle Platooning with Coupled Constraints under Asynchronous Communication Protocols
Creators: Hao Sun (Author) - University of Surrey, School of Mechanical Engineering Sciences
Davide Tavernini (Author) - University of Surrey, School of Mechanical Engineering Sciences
Patrick Gruber (Author) - University of Surrey, School of Mechanical Engineering Sciences
Bingbing Li (Author) - Southeast University
Weichao Zhuang (Author) - Southeast University
Umberto Montanaro (Corresponding Author) - University of Surrey, School of Mechanical Engineering Sciences
Publication Details: IEEE Transactions on Vehicular Technology, Vol.Early Access(Early Access)
Publisher: Institute of Electrical and Electronics Engineers (IEEE)
Number of pages: 11
First online publication date: 31/10/2025
Date accepted for publication: 20/10/2025
Identifiers: 991059466602346
Copyright: Copyright (c) 2025 IEEE. Personal use of this material is permitted. However, permission to use this material for any other purposes must be obtained from the IEEE by sending a request to pubs-permissions@ieee.org. For the purpose of open access, the authors have applied a Creative Commons Attribution (CC BY) licence to any Author Accepted Manuscript version arising.
Academic Unit: School of Mechanical Engineering Sciences
Language: English
Resource Type: Journal article

Distributed Model Predictive Control for Vehicle Platooning with Coupled Constraints under Asynchronous Communication Protocols

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