LMI-based passivation of LTI systems with application to marine structures

Journal Article

Title: LMI-based passivation of LTI systems with application to marine structures

Author:

Faedo, N.; Pena-Sanchez, Y.; Carapellese, F.; Mattiazzo, G.; Ringwood, J.

Publication Date:

September 19, 2021

Journal:

IET Renewable Power Generation

Volume:

Issue:

Pages:

3424-3433

Publisher:

Wiley Online Library

Affiliation:

Politecnico di Torino, Maynooth University (National University of Ireland, Maynooth; NUIM)

Technology:

Wave, Point Absorber

Collection Method:

Modeling, Scale Device

Engineering:

Control

Document Access

Website:

External Link

Attachment:

Access File

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Citation

Faedo, N.; Pena-Sanchez, Y.; Carapellese, F.; Mattiazzo, G.; Ringwood, J. (2021). LMI-based passivation of LTI systems with application to marine structures. IET Renewable Power Generation, 15(14), 3424-3433. https://doi.org/10.1049/rpg2.12286

Abstract

Due to the inherent relevance of passive (physically representative) models for control, state-estimation, and motion simulation in the field of marine systems, in this paper, an optimisation-based approach to passivation of linear time-invariant (LTI) systems is proposed with application to physically consistent dynamical modelling of marine structures. In particular, the presented strategy is based upon the introduction of a suitably designed perturbation, computed via minimisation of a linear objective subject to a specific set of linear matrix inequalities (LMIs). The performance of the passivation technique is showcased in terms of two case studies: An offshore platform, with a frequency-domain response computed by means of hydrodynamic codes, and a 1:20 scale wave energy converter (WEC), is characterised in terms of real experimental data.