Force and Position Control for Electrohydraulic Systems of a Robotic Excavator
Q. P. Ha, Quoc-Hung Nguyen, D. C. Rye, Hugh Durrant‐Whyte
- 发表年份
- 1999
- 引用次数
- 13
摘要
Force and Position Control for Electrohydraulic Systems of a Robotic Excavator Q. P. Ha, Q. H. Nguyen, D. C. Rye, H. F. Durrant-Whyte Pages 483-490 (1999 Proceedings of the 16th ISARC, Madrid, Spain, ISSN 2413-5844) Abstract: In impedance control of hydraulic excavators the piston position and ram force of each hydraulic cylinder for the axis control of the boom, arm, and bucket can be determined. The problem 'is thus how to find the control voltage applied to the servovalves to track these commands to the hydraulic systems. This paper presents analytic, simulation and experimental results for controllers that have been developed in our laboratory to achieve force and position tracking of electrohydraulic systems of a robotic mini-excavator. The systems with hydraulic cylinders as actuators are represented by a comprehensive model taking into account friction, nonlinearities, and uncertainties. A discontinuous observer is developed for estimating both piston velocity and disturbance force including friction. With an observer-based compensation for disturbance, tracking of the piston ram force and position is guaranteed using a robust sliding mode controller. The control signal consists of three components: equivalent control, switching control, and fuzzy control. High performance and strong robustness can be obtained as demonstrated by simulation and experiments performed on a hydraulically-actuated Komatsu PC05-7 robotic excavator. Promising results are reported, and issues relating to future work are discussed. Keywords: force and position control: electrohydraulic systems: discontinuous observer: robust sliding mode control: robotic excavator DOI: https://doi.org/10.22260/ISARC1999/0075 Download fulltext Download BibTex Download Endnote (RIS) TeX Import to Mendeley
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