Robust consensus control with guaranteed rate of convergence using second-order Hurwitz polynomials |
| |
Authors: | Michael Fruhnert Martin Corless |
| |
Affiliation: | 1. School of Aeronautics &2. Astronautics, Purdue University, West Lafayette, IN, USA |
| |
Abstract: | This paper considers homogeneous networks of general, linear time-invariant, second-order systems. We consider linear feedback controllers and require that the directed graph associated with the network contains a spanning tree and systems are stabilisable. We show that consensus with a guaranteed rate of convergence can always be achieved using linear state feedback. To achieve this, we provide a new and simple derivation of the conditions for a second-order polynomial with complex coefficients to be Hurwitz. We apply this result to obtain necessary and sufficient conditions to achieve consensus with networks whose graph Laplacian matrix may have complex eigenvalues. Based on the conditions found, methods to compute feedback gains are proposed. We show that gains can be chosen such that consensus is achieved robustly over a variety of communication structures and system dynamics. We also consider the use of static output feedback. |
| |
Keywords: | Consensus distributed control synchronisation second-order systems |
|
|