Abstract
In the paper authors consider the active suspension of the wheeled vehicle. The proposed controller consists of a sliding mode controller used to roll reduction and linear regulators with quadratic performance index (LQRs) for struts control was shown. The energy consumption optimization was taken into account at the stage of strut controllers synthesis. The studied system is half of the active vehicle suspension using hydraulic actuators to increase the ride comfort and keeping safety. Instead of installing additional actuators in the form of active anti-roll bars, it has been decided to expand the active suspension control algorithm by adding extra functionality that accounts for the roll. The suggested algorithm synthesis method is based on the object decomposition into two subsystems whose controllers can be synthesized separately. Individual suspension struts are controlled by actuators that use the controllers whose parameters have been calculated with the LQR method. The mathematical model of the actuator applied in the work takes into account its nonlinear nature and the dynamics of the servovalve. The simulation tests of the built active suspension control system have been performed. In the proposed solution, the vertical displacements caused by uneven road surface are reduced by controllers related directly to suspension strut actuators.
Highlights
The paper presents how to save the energy demand thanks to the application of smart control system to the multi-dimensional object with multitasking control
The authors of this work proposed the solution that does not decrease the requirements for the assumed quality indicators. It divides control tasks into separate functionalities with its controllers and proposes a superior controller (advanced sliding mode controller (ASMC)) that takes into account the demand for external energy
The use of controlled vibration reduction systems for the suspension is appropriate in special vehicles where high performance vibration reduction is necessary because of their function, and the costs of manufacturing and operating are offset by the benefits arising from their use
Summary
The paper presents how to save the energy demand thanks to the application of smart control system to the multi-dimensional object with multitasking control. Authors of the paper [5] considered only active control of torque in anti-roll bar while the suspension of a vehicle was passive. Authors propose the control system of active vehicle suspension which takes into account the task of roll control. The suspension struts are controlled by hydraulic actuators using controllers whose parameters have been determined with the linear regulator with quadratic performance index (LQR) [24] These controllers allow a reduction of vertical displacement of the vehicle’s geometric center while the SMC is responsible for reducing the body roll. The applied actuator model taking into accounts nonlinearities related to fluid flow through the servovalve ports and the dynamics of the electromechanical transducer For this reason, the model linearization has been performed in order to synthesize the strut controllers using the LQR method. The proposed solution eliminates the need of anti-roll bar usage but thanks to active control the anti-roll function is kept
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