This paper presents a calibration scheme and kinematic mapping to support dexterous telemanipulation. The calibration scheme is intended for use with an instrumented glove and permits an accurate determination of the intended motions of a virtual object grasped between a human operator’s thumb and index finger. The motions of the virtual object are then mapped to analogous motions of a scaled virtual object held in a two-fingered robot hand. A non-linear mapping scheme allows better utilization of the human and robot hand workspaces.
A linkage is partially classified by identifying those links capable of unceasing and drivable rotation and those that are not. In this paper, we examine several planar single degree-of-freedom linkages to identify all changes to the physical parameters that may alter this classification. The limits on the physical parameters that result in no change in the classification are defined by transition linkages. More rigorously, a transition linkage possesses a configuration at which the matrix defined by the derivative of the loop closure equations with respect to the joint variables loses rank. Transition linkages divide the set of all linkages into different classifications. In the simplest cases studied, transition linkage identification produces a comprehensive classification scheme. In all cases, this identification is used to alter a linkage’s physical parameters without changing its classification and produces insight into the selection of these parameters to produce a desired classification.
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