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

Nicolás Faedo; Yerai Peña‐Sanchez; Fabio Carapellese; Giuliana Mattiazzo; John V. Ringwood

doi:10.1049/rpg2.12286

IET Renewable Power Generation (Oct 2021)

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

Nicolás Faedo,
Yerai Peña‐Sanchez,
Fabio Carapellese,
Giuliana Mattiazzo,
John V. Ringwood

Affiliations

Nicolás Faedo: Marine Offshore Renewable Energy Lab Department of Mechanical and Aerospace Engineering Politecnico di Torino Torino Italy
Yerai Peña‐Sanchez: Centre for Ocean Energy Research Department of Electronic Engineering Maynooth University County Kildare Ireland
Fabio Carapellese: Marine Offshore Renewable Energy Lab Department of Mechanical and Aerospace Engineering Politecnico di Torino Torino Italy
Giuliana Mattiazzo: Marine Offshore Renewable Energy Lab Department of Mechanical and Aerospace Engineering Politecnico di Torino Torino Italy
John V. Ringwood: Centre for Ocean Energy Research Department of Electronic Engineering Maynooth University County Kildare Ireland

DOI: https://doi.org/10.1049/rpg2.12286
Journal volume & issue: Vol. 15, no. 14
pp. 3424 – 3433

Abstract

Read online

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.

Published in IET Renewable Power Generation

ISSN: 1752-1416 (Print); 1752-1424 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Mechanical engineering and machinery: Renewable energy sources
Website: https://ietresearch.onlinelibrary.wiley.com/journal/17521424

About the journal

Abstract

Keywords