Nonlinear Control of Mechanical Systems with an Unactuated Cyclic Variable - Archive ouverte HAL
Article Dans Une Revue IEEE Transactions on Automatic Control Année : 2005

Nonlinear Control of Mechanical Systems with an Unactuated Cyclic Variable

Résumé

Numerous robotic tasks associated with underactuation have been studied in the literature. For a large number of these in the plane, the mechanical models have a cyclic variable, the cyclic variable is unactuated, and all shape variables are independently actuated. This paper formulates and solves two control problems for this class of models. If the generalized momentum conjugate to the cyclic variable is not conserved, conditions are found for the existence of a set of outputs that yields a system with a one-dimensional exponentially stable zero dynamics -- i.e. an exponentially minimum-phase system -- along with a dynamic extension that renders the system locally input-output decouplable. If the generalized momentum conjugate to the cyclic variable is conserved, a reduced system is constructed and conditions are found for the existence of a set of outputs that yields an empty zero dynamics, along with a dynamic extension that renders the system feedback linearizable. A common element in these two feedback problems is the construction of a scalar function of the configuration variables that has relative degree three with respect to one of the input components. The function arises by partially integrating the conjugate momentum. The results are illustrated on two balancing tasks and on a ballistic flip motion.
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Dates et versions

hal-00794882 , version 1 (26-02-2013)

Identifiants

  • HAL Id : hal-00794882 , version 1

Citer

Jessy Grizzle, Claude Moog, Christine Chevallereau. Nonlinear Control of Mechanical Systems with an Unactuated Cyclic Variable. IEEE Transactions on Automatic Control, 2005, 50 (5), pp.559 - 576. ⟨hal-00794882⟩
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