Distributed and Coordinated Model Predictive Control for Channel Resource Allocation in Cooperative Vehicle Safety Systems
Document Type
Article
Publication Date
6-1-2024
Abstract
Cooperative vehicle safety systems rely on periodic broadcasts of beacons to track positions and movements of concerned vehicles. In vehicular networking, vehicle driving environment is changing rapidly. This unique characteristic can cause dynamic network topology and heavy traffic conditions. In scenarios where traffic density is high, a large number of beacons could cause channel congestion, and the tracking performance of safety applications can thus be seriously impacted. To maintain high-tracking accuracy for each node under varying traffic situations, this article presents a distributed and coordinated channel access control strategy based on multiagent model predictive control theory. First, we propose a multidimensional and hybrid Petri net model to characterize the interactions among multiple vehicles. The interaction model describes the possibility of collisions among vehicles. We then propose an application-dependent utility function that incorporates intervehicle collision behavior. A model predictive control problem for beaconing rate adaption is formulated based on the function. Next, a distributed and coordinated decision-making scheme is designed. In this scheme, each node is treated as an agent. Each agent uses a model predictive control controller and coordinates with its neighboring agents to take channel access control actions. Simulation results validate that it improves channel resource utilization and tracking accuracy under dynamic driving situations.
Identifier
85181561198 (Scopus)
Publication Title
IEEE Internet of Things Journal
External Full Text Location
https://doi.org/10.1109/JIOT.2023.3343951
e-ISSN
23274662
First Page
19328
Last Page
19343
Issue
11
Volume
11
Grant
ZR2022MF270
Fund Ref
Natural Science Foundation of Shandong Province
Recommended Citation
Zhang, Fuxin; Zhou, Mengchu; and Qi, Liang, "Distributed and Coordinated Model Predictive Control for Channel Resource Allocation in Cooperative Vehicle Safety Systems" (2024). Faculty Publications. 395.
https://digitalcommons.njit.edu/fac_pubs/395
