IEEE Transactions on Automatic Control, Vol.65, No.8, 3647-3654, 2020
Singularities and Moments of Nonlinear Systems
The notions of eigenvalue, pole and moment at a pole of a continuous-time, nonlinear, time-invariant system are studied. Eigenvalues and poles are first characterized in terms of invariant subspaces. Tools from geometric control theory are used to define nonlinear enhancements of these notions and to study their relationship with the solution of certain partial differential equations, cascade decompositions and steady-state impulse responses. The theory is illustrated by means of worked-out examples and its significance is demonstrated by solving the model reduction problem by moment matching at poles for nonlinear systems.
Keywords:Eigenvalues and eigenfunctions;Manifolds;Nonlinear systems;Transfer functions;Steady-state;Reduced order systems;Linear systems;Eigenvalues;modeling;model reduction;nonlinear systems