We present results for the definition of nonlinear steady-state manifolds achieving output regulation for input-saturating over-actuated systems. By defining steady-state manifolds of polynomial form and exposing the structure of the studied systems, we derive homogeneous polynomial equations corresponding to the steady-state conditions and present existence conditions for their solution. The numerical computation of the polynomial feedforward inputs that satisfy the zero-error steady state is performed by solving a sum-of-squares program. The solution to this convex problem maximizes the set of exogenous signals for which regulation can be achieved inside the given input bounds.
Valmorbida, G., Galeani, S. (2013). Nonlinear output regulation for over-actuated linear systems. In Decision and Control (CDC), 2013 IEEE 52nd Annual Conference on (pp.4485-4490). IEEE [10.1109/CDC.2013.6760580].
Nonlinear output regulation for over-actuated linear systems
GALEANI, SERGIO
2013-12-01
Abstract
We present results for the definition of nonlinear steady-state manifolds achieving output regulation for input-saturating over-actuated systems. By defining steady-state manifolds of polynomial form and exposing the structure of the studied systems, we derive homogeneous polynomial equations corresponding to the steady-state conditions and present existence conditions for their solution. The numerical computation of the polynomial feedforward inputs that satisfy the zero-error steady state is performed by solving a sum-of-squares program. The solution to this convex problem maximizes the set of exogenous signals for which regulation can be achieved inside the given input bounds.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
