Improving Disturbance Rejection and Dynamics of Cable Driven Parallel Robots with On-board Propellers.
IROS(2020)
摘要
This work studies redundant actuation for both trajectory tracking and disturbance rejection on flexible cable-driven parallel robots (CDPR). High dynamics/bandwidth unidirectional force generators, like air propellers, are used in combination with conventional but slower cable winding winches. To optimally balance the action of the two types of actuation within their saturation constraints, a model predictive controller is used. Experiments show the added value of on-board propulsion units with respect to winch-only control in order to improve the overall CDPR dynamic behavior.
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关键词
winch-only control,CDPR dynamic behavior,disturbance rejection,cable driven parallel robots,on-board propellers,redundant actuation,trajectory tracking,flexible cable-driven parallel robots,air propellers,model predictive controller,on-board propulsion units,cable winding winches,high bandwidth unidirectional force generators,high dynamics unidirectional force generators,saturation constraints,CDPR end effector
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