Classical system theory revisited for turnpike in standard state space systems and impulse controllable descriptor systems

Heiland J, Zuazua Iriondo E (2021)


Publication Type: Journal article

Publication year: 2021

Journal

Book Volume: 59

Pages Range: 3600-3624

Journal Issue: 5

DOI: 10.1137/20M1356105

Abstract

The concept of turnpike connects the solution of long but finite time horizon optimal control problems with steady-state optimal controls. A key ingredient of the analysis of turnpike phenomena is the linear quadratic regulator problem and the convergence of the solution of the associated differential Riccati equation as the terminal time approaches infinity. This convergence has been investigated in linear systems theory in the 1980s. We extend classical system theoretic results for the investigation of turnpike properties of standard state space systems and descriptor systems. We present conditions for turnpike phenomena in the nondetectable case and for impulse controllable descriptor systems. For the latter, in line with the theory for standard linear systems, we establish existence and convergence of solutions to a generalized differential Riccati equation 2021 Society for Industrial and Applied Mathematics.

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APA:

Heiland, J., & Zuazua Iriondo, E. (2021). Classical system theory revisited for turnpike in standard state space systems and impulse controllable descriptor systems. SIAM Journal on Control and Optimization, 59(5), 3600-3624. https://doi.org/10.1137/20M1356105

MLA:

Heiland, Jan, and Enrique Zuazua Iriondo. "Classical system theory revisited for turnpike in standard state space systems and impulse controllable descriptor systems." SIAM Journal on Control and Optimization 59.5 (2021): 3600-3624.

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