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Vector relative degree and funnel control for differential-algebraic systems

We consider tracking control for multi-input multi-output differential-algebraic systems. First, the concept of vector relative degree is generalized for linear systems and we arrive at the novel concept of "truncated vector relative degree", and we derive a new normal form. Thereafter, we consider a class of nonlinear functional differential-algebraic systems which comprises linear systems with truncated vector relative degree. For this class we introduce a feedback controller which achieves that, for a given sufficiently smooth reference signal, the tracking error evolves within a prespecified performance funnel. We illustrate our results by an example of a robotic manipulator.

preprint2020arXivOpen access
Thomas BergerHuy Hoàng LêTimo Reis
math.OC
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Thomas BergerHuy Hoàng LêTimo Reis

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