Linear system identification using stable spline kernels and PLQ penalties

Abstract

Recently, a new regularized least squares approach to linear system identification has been introduced where the penalty term on the impulse response is defined by so called stable spline kernels. They encode information on regularity and BIBO stability, and depend on a small number of parameters that can be estimated from data. In this paper, we provide new nonsmooth formulations of the stable spline estimator. In particular, we consider linear system identification problems in a very broad context, where regularization functionals and data misfits can come from a rich set of piecewise linear quadratic functions. Moreover, our analysis includes polyhedral inequality constraints on the unknown impulse response. For any formulation in this class, we show that interior point methods can be used to solve the system identification problem, with complexity O(n3)+O(mn2) in each iteration, where n and m are the number of impulse response coefficients and measurements, respectively. The usefulness of the framework is illustrated via a numerical experiment where output measurements are contaminated by outliers. © 2013 IEEE.