Abstract
This study proposes a gain-scheduled controller with direct tuning for the position control of a pneumatic clutch actuator that is installed in heavy-duty trucks. Pneumatic clutch actuators are highly nonlinear systems and cannot be easily controlled. Industries require a simple controller design that is easy to understand and requires few trial-and-error calibrations. Therefore, we adopted a gain-scheduled proportional integral derivative (PID) control law, which is a well-known and easy-to-understand nonlinear control method. In this approach, a gain scheduler is expressed using polynomials composed of coefficient parameters and controlled object states. The unknown coefficient parameters of the polynomials are directly tuned from the controlled object input/output data without having to use a controlled object model. The proposed controller design procedure is simple and does not require system identification or trial-and-error tuning. The effectiveness of the proposed method is verified by an experiment using an actual vehicle. The experimental results confirm the effectiveness of the proposed method for the position control of pneumatic clutch actuators.
Highlights
The demand for driving comfort is increasing, with the automotive industry moving toward automatic transmissions for passenger vehicles and for heavy-duty trucks
We proposed a control law and a direct tuning method for gain-scheduling control parameters for the position control of a pneumatic clutch actuator which does not require a controlled object model
We derived a control law comprised of gain-scheduled control and valve dead zone compensation
Summary
The demand for driving comfort is increasing, with the automotive industry moving toward automatic transmissions for passenger vehicles and for heavy-duty trucks. We propose a practical position control method that requires less calibration time for the tuning process and calculation cost for a pneumatic clutch actuator with strong nonlinearity. To the best of our knowledge, there have been no prior studies that applied a direct tuning method to gain-scheduled controllers for pneumatic clutch actuators.
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