ITSC 2024 Paper Abstract

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Zhang, Bowei (Tsinghua University), Jia, Yifan (Hebei University of Technology), Huang, Jin (Tsinghua University), Jiang, Kun (Tsinghua University), Yang, Mengmeng (Tsinghua University), Yang, Diange (State Key Laboratory of Automotive Safety and Energy, Collaborat), Zhong, Zhihua (Tsinghua University)

Rollover Prevention Control of Oversized Cargo Cooperative Transportation System with Robust Path Tracking Performance

Scheduled for presentation during the Regular Session "Control of heavy vehicles" (FrAT4), Friday, September 27, 2024, 10:30−10:50, Salon 7

2024 IEEE 27th International Conference on Intelligent Transportation Systems (ITSC), September 24- 27, 2024, Edmonton, Canada

This information is tentative and subject to change. Compiled on October 3, 2024

Keywords Multi-autonomous Vehicle Studies, Models, Techniques and Simulations, Cooperative Techniques and Systems, Commercial Fleet Management

Abstract

The rollover prevention problem of a fully-automated oversized cargo cooperative transportation system (CTS) is investigated. The effective anti-rollover performance is achieved while maintaining accurate and robust path following of the payload with the proposed two-layer cooperative controller. The complex coupled motion model of the CTS is established through a Constraint-oriented Dividing-and-Integrating (CoDI) strategy. Then a leakage-type adaptive robust controller (LARC) is proposed on the first layer to guarantee robust and stable tracking of the reference path and replanned longitudinal velocity of the payload, despite the existence of multiple uncertainties. An embedded MPC on the second layer provides auxiliary rollover prevention effect with the active anti-rollover actuator considering the input and output constraints. The effectiveness of the cooperative controller is validated through the comparison with the baseline methods via numerical simulation. The results illustrate that the proposed method can significantly improve the driving safety of the CTS when a rollover accident is prone to occur.

 

 

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