Your search keyword '"Sobolev norm approximation"' showing total 2 results

1. Nonlinear system identification in Sobolev spaces.

Author

Novara, Carlo, Nicolì, Angelo, and Calafiore, Giuseppe C.

Subjects

*SOBOLEV spaces, *SYSTEM identification, *NONLINEAR systems, *INVERTED pendulum (Control theory), *DERIVATIVES (Mathematics), *PROBLEM solving

Abstract

We consider the problem of approximating an unknown function from experimental data, while approximating at the same time its derivatives. Solving this problem is useful, for instance, in the context of nonlinear system identification, for obtaining models that are more accurate and reliable than the traditional ones based on plain function approximation. Indeed, models identified by accounting for the derivatives can provide improved performance in several endeavours, such as in multi-step prediction, simulation, Nonlinear Model Predictive Control, and control design in general. In this paper, we propose a novel approach based on convex optimisation, allowing us to solve the aforementioned identification problem. We develop an optimality analysis, showing that models derived using this approach enjoy suitable optimality properties in Sobolev spaces. The optimality analysis also leads to the derivation of tight uncertainty bounds on the unknown function and its derivatives. We demonstrate the effectiveness of the approach with three numerical examples, concerned with univariate function identification, multi-step prediction of the Chua chaotic circuit, and control of the inverted pendulum. [ABSTRACT FROM AUTHOR]

Published

2023

2. Nonlinear system identification in Sobolev spaces

Author

Carlo Novara, Angelo Nicolì, and Giuseppe C. Calafiore

Subjects

Nonlinear system identification, Control and Systems Engineering, FOS: Electrical engineering, electronic engineering, information engineering, FOS: Mathematics, Systems and Control (eess.SY), Dynamical Systems (math.DS), Mathematics - Dynamical Systems, Sobolev norm approximation, Set membership estimation, Electrical Engineering and Systems Science - Systems and Control, Computer Science Applications

Abstract

We consider the problem of deriving from experimental data an approximation of an unknown function, whose derivatives also approximate the unknown function derivatives. Solving this problem is useful, for instance, in the context of nonlinear system identification for obtaining models that are more accurate and reliable than the traditional ones, based on plain function approximation. Indeed, models identified by accounting for the derivatives can provide a better performance in several tasks, such as multi-step prediction, simulation, Nonlinear Model Predictive Control, and control design in general. In this paper, we propose a novel approach based on convex optimization, allowing us to solve the aforementioned identification problem. We develop an optimality analysis, showing that models derived using this approach enjoy suitable optimality properties in Sobolev spaces. The optimality analysis also leads to the derivation of tight uncertainty bounds on the unknown function and its derivatives. We demonstrate the effectiveness of the approach with two numerical examples. The first one is concerned with approximation of an univariate function, the second one with multi-step prediction of the Chua chaotic circuit.

Published

2022