Zhengrong Chu scite author profile

In this article, a new automated steering control method is presented for vehicle lane keeping. This method is a combination between the linear active disturbance rejection control and the quantitative feedback theory. The structure of the steering controller is first determined based on the linear active disturbance rejection control, then the controller is tuned in the framework of the quantitative feedback theory to meet the prescribed design specifications on sensitivity and closed-loop stability. The parameter uncertainties of the vehicle system are considered at the tuning stage. The proposed steering controller is simulated and tested on a scale vehicle. Both the simulation and experimental results demonstrate that the scale vehicle controlled by the proposed controller is able to perform the lane keeping. In the experiments, the lateral offset between the scale vehicle and the road centerline is regulated within the acceptable ranges of 60.03 m during straight lane keeping and 60.15 m during curved lane keeping. The proposed controller is easy to be implemented and is simple without requiring complex calculations and measurements of vehicle states. Simulations also show that the control method can be implemented on a full-scale vehicle.

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An superior tracking artificial bee colony for global optimization problems

Chu

Niu

et al. 2016

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Zhengrong Chu

Active disturbance rejection control applied to automated steering for lane keeping in autonomous vehicles

Active Disturbance Rejection Control Applied to High-order Systems with Parametric Uncertainties

Modeling and analysis of a large deployable antenna structure

Automated steering controller design for vehicle lane keeping combining linear active disturbance rejection control and quantitative feedback theory

An superior tracking artificial bee colony for global optimization problems

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