Title :
Symmetry-Preserving Observers
Author :
Bonnabel, Silv?©re ; Martin, Philippe ; Rouchon, Pierre
Author_Institution :
Montefiore Inst., Univ. of Liege, Liege
Abstract :
This paper presents the theory of invariant observers, i.e, symmetry-preserving observers. We consider an observer to consist of a copy of the system and a correction term, and we propose a constructive method (based on the Cartan moving-frame method) to find all the symmetry-preserving correction terms. The construction relies on an invariant frame (a classical notion) and on an invariant output-error, a less standard notion precisely defined here. Using the theory we build three non-linear observers for three examples of engineering interest: a non-holonomic car, a chemical reactor, and an inertial navigation system. For each example, the design is based on physical symmetries and the convergence analysis relies on the use of invariant state-errors, a symmetry-preserving way to define the estimation error.
Keywords :
automobiles; chemical reactors; convergence; inertial navigation; nonlinear control systems; observers; symmetry; chemical reactor; convergence analysis; estimation error; inertial navigation system; invariant observers; invariant output-error; nonholonomic car; nonlinear observers; symmetry-preserving observers; Chemical reactors; Control theory; Convergence; Estimation error; Inertial navigation; Linear approximation; Nonlinear dynamical systems; Observers; Optimal control; Vectors; Inertial navigation; moving frame; non-linear observer; symmetries;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2008.2006929
