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Channel-Level Event-Triggered Communication Scheme for Path Tracking Control of Autonomous Ground Vehicles With Distributed Sensors

Liqin Zhang, Manjiang Hu, Hui Zhang, Yougang Bian, Anh‐Tu Nguyen, Rongjun Ding

2023IEEE Transactions on Vehicular Technology25 citationsDOIOpen Access PDF

Abstract

In this article, a channel-level event-triggered communication scheme is investigated for path tracking control of autonomous ground vehicles via an in-vehicle network to ensure path tracking performance while reducing network resource utilization. First, a path tracking system is established considering the effect of norm bounded uncertainty on lateral vehicle dynamics, and a state feedback path tracking controller is designed within the Takagi–Sugeno fuzzy framework. Next, a decentralized event-triggered communication scheme is adopted between the sensors and controller, which makes it possible to save communication resources at the channel level. Finally, the results in the CarSim-Simulink joint-simulation environment show that the proposed controller can ensure a reliable path tracking performance in both lateral offset and heading error. At the same time, compared with the simple time-triggered scheme, the proposed method can effectively reduce the usage of communication resources by more than 80%.

Topics & Concepts

Scheme (mathematics)Wireless sensor networkComputer scienceEvent (particle physics)Tracking (education)Path (computing)Channel (broadcasting)Electronic engineeringEngineeringReal-time computingComputer networkPhysicsMathematicsMathematical analysisPedagogyPsychologyQuantum mechanicsReal-Time Systems SchedulingStability and Control of Uncertain SystemsNetwork Time Synchronization Technologies
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