Low-Order Controllability and Kinematic Reductions for Affine Connection Control Systems
Copyright policy )Low-Order Controllability and Kinematic Reductions for Affine Connection Control Systems
Summary: Controllability and kinematic modeling notions are investigated for a class of mechanical control systems. First, low-order controllability results are given for the class of mechanical control systems. Second, a precise connection is made between those mechanical systems which are dynamic (i.e., have forces as inputs) and those which are kinematic (i.e., have velocities as inputs). Interestingly and surprisingly, these two subjects are characterized and linked by a certain intrinsic vector-valued quadratic form that can be associated to an affine connection control system.
- University of California, Santa Barbara United States
- Queen's University Canada
Controllability, vector-valued quadratic form, Control of mechanical systems, driftless systems, Differential-geometric methods in systems theory
Controllability, vector-valued quadratic form, Control of mechanical systems, driftless systems, Differential-geometric methods in systems theory
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