This paper presents dynamic modelling, control design, simulation results, and real time Virtual Reality (VR)-based human-in-the-loop testing for a wheel loader control system. In particular, a loader with electro-hydraulic actuation is considered. A detailed nonlinear dynamic model is developed for the hydraulic system and the loader linkage. The hydraulic model includes a load sensing pump, valves, and cylinders. The linkage model represents a two degree of freedom loader with lift and tilt functions. An LQG-based (Linear Quadratic Gaussian) robust controller is designed for automatic bucket levelling to assist the operator during the boom motion. The controller design is tested with a nonlinear model in a real-time VR simulation. In this VR simulation, the operator interacts with the model using a joystick input. The loader linkage geometry is displayed to the operator in real time using a VR display.

Volume Subject Area:
Dynamic Systems and Control
Topics:
Construction equipment, Control modeling, Virtual reality, Linkages, Control equipment, Design, Simulation, Control systems, Cylinders, Degrees of freedom, Dynamic modeling, Dynamic models, Geometry, Hydraulic drive systems, Pumps, Simulation results, Stress, Testing, Valves, Wheels
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Copyright © 2003
 by ASME
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