Asynchronous self-triggered stochastic distributed MPC for cooperative vehicle platooning over vehicular ad-hoc networks
In this paper, an asynchronous stochastic self-triggered distributed MPC (DMPC) control scheme is proposed for vehicular platoon systems under coupled state constraints and additive stochastic disturbance. In considered platoon systems, each vehicle broadcasts its predicted state as beacon informati...
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sg-ntu-dr.10356-1718202023-11-09T01:58:58Z Asynchronous self-triggered stochastic distributed MPC for cooperative vehicle platooning over vehicular ad-hoc networks Chen, Jicheng Wei, Henglai Zhang, Hui Shi, Yang School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Model Predictive Control Platoon Systems In this paper, an asynchronous stochastic self-triggered distributed MPC (DMPC) control scheme is proposed for vehicular platoon systems under coupled state constraints and additive stochastic disturbance. In considered platoon systems, each vehicle broadcasts its predicted state as beacon information to its neighbouring vehicles through the vehicular ad-hoc network (VANET). To reduce the communication burden in the VANET, each vehicle proactively determines the next sampling time instant by solving the stochastic self-triggered DMPC problem at the sampling time instant. The self-triggered problem is formulated by utilizing local vehicle states and asynchronous beacon information from its neighbours. Consequently, the proposed scheme reduces the communication load dramatically in the VANET while maintaining a satisfactory control performance compared to periodic time-triggered stochastic DMPC. To handle the state coupling between vehicles, e.g., for collision avoidance or communication connectivity purpose, probabilistic coupled state constraints are incorporated into the DMPC problem. Based on the information on stochastic disturbance, the probabilistic coupled state constraints are transformed into deterministic forms using the stochastic tube-based method. Theoretical analysis has shown that closed-loop platooning is quadratically stable at triggering time instants. Numerical examples illustrate the efficacy of the proposed control method in terms of data transmission reduction. This work was supported by the Defense Industrial Technology Development Program. 2023-11-09T01:58:58Z 2023-11-09T01:58:58Z 2023 Journal Article Chen, J., Wei, H., Zhang, H. & Shi, Y. (2023). Asynchronous self-triggered stochastic distributed MPC for cooperative vehicle platooning over vehicular ad-hoc networks. IEEE Transactions On Vehicular Technology. https://dx.doi.org/10.1109/TVT.2023.3288210 0018-9545 https://hdl.handle.net/10356/171820 10.1109/TVT.2023.3288210 2-s2.0-85163779147 en IEEE Transactions on Vehicular Technology © 2023 IEEE. All rights reserved. |
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Engineering::Mechanical engineering Model Predictive Control Platoon Systems Chen, Jicheng Wei, Henglai Zhang, Hui Shi, Yang Asynchronous self-triggered stochastic distributed MPC for cooperative vehicle platooning over vehicular ad-hoc networks |
| description |
In this paper, an asynchronous stochastic self-triggered distributed MPC (DMPC) control scheme is proposed for vehicular platoon systems under coupled state constraints and additive stochastic disturbance. In considered platoon systems, each vehicle broadcasts its predicted state as beacon information to its neighbouring vehicles through the vehicular ad-hoc network (VANET). To reduce the communication burden in the VANET, each vehicle proactively determines the next sampling time instant by solving the stochastic self-triggered DMPC problem at the sampling time instant. The self-triggered problem is formulated by utilizing local vehicle states and asynchronous beacon information from its neighbours. Consequently, the proposed scheme reduces the communication load dramatically in the VANET while maintaining a satisfactory control performance compared to periodic time-triggered stochastic DMPC. To handle the state coupling between vehicles, e.g., for collision avoidance or communication connectivity purpose, probabilistic coupled state constraints are incorporated into the DMPC problem. Based on the information on stochastic disturbance, the probabilistic coupled state constraints are transformed into deterministic forms using the stochastic tube-based method. Theoretical analysis has shown that closed-loop platooning is quadratically stable at triggering time instants. Numerical examples illustrate the efficacy of the proposed control method in terms of data transmission reduction. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Chen, Jicheng Wei, Henglai Zhang, Hui Shi, Yang |
| format |
Article |
| author |
Chen, Jicheng Wei, Henglai Zhang, Hui Shi, Yang |
| author_sort |
Chen, Jicheng |
| title |
Asynchronous self-triggered stochastic distributed MPC for cooperative vehicle platooning over vehicular ad-hoc networks |
| title_short |
Asynchronous self-triggered stochastic distributed MPC for cooperative vehicle platooning over vehicular ad-hoc networks |
| title_full |
Asynchronous self-triggered stochastic distributed MPC for cooperative vehicle platooning over vehicular ad-hoc networks |
| title_fullStr |
Asynchronous self-triggered stochastic distributed MPC for cooperative vehicle platooning over vehicular ad-hoc networks |
| title_full_unstemmed |
Asynchronous self-triggered stochastic distributed MPC for cooperative vehicle platooning over vehicular ad-hoc networks |
| title_sort |
asynchronous self-triggered stochastic distributed mpc for cooperative vehicle platooning over vehicular ad-hoc networks |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171820 |
| _version_ |
1783955640123654144 |