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A comparison between robust and adaptive hybrid position/force control schemes for hydraulic underwater manipulators

David M. Lane, Matthew W. Dunnigan, Angie Clegg, P. Dauchez, Lise Cellier

发表年份
1997
引用次数
20

摘要

Tele-operated hydrauilic underwater manipulators are commonly used to perform remote underwater intervention tasks such as weld inspection or mating of connectors Automation of these tasks to use tele-assitance requires a suitable hybrid position/force control scheme, to specify simultaneously the robot motion and contact forces. Classical linear control does not allow for the highly non-linear and time varying robot dynamics in this situation. Adequate control performance requires more advanced controllers. This paper presents and compares two different advanced hybrid control algorithms. The first is based on a modified Variable Structure Control (VSC-HF) with a virtual environment, and the second uses a multivariable self-tuning adaptive controller. A direct comparison of the two proposed control schemes is performed in simulation, using a model of the dynamics of a hydraulic underwater manipulator (a Slingsby TA9) in contact with a surface. These comparisons look at the performance of the controllers under a wide variety of operating conditions, including different environment stiffnesses, positions of the robot and dynamic parameters. Conclusions are drawn based on the relative performance of each controller and on the practicalities of the proposed schemes.

关键词

Control theory (sociology)Controller (irrigation)Control engineeringUnderwaterRobotComputer scienceContact forceAdaptive controlPosition (finance)Scheme (mathematics)

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