Thesis

Control of wave energy converters using machine learning strategies

Downloadable Content

Download PDF
Creator
Rights statement
Awarding institution
  • University of Exeter.
  • Industrial Doctoral Centre for Offshore Renewable Energy.
  • University of Strathclyde
  • University of Edinburgh.
Date of award
  • 2017
Thesis identifier
  • T14813
Person Identifier (Local)
  • 201353274
Qualification Level
Qualification Name
Department, School or Faculty
Abstract
  • Wave energy converters are devices that are designed to extract power from ocean waves. Existing wave energy converter technologies are not financially viable yet. Control systems have been identifed as one of the areas that can contribute the most towards the increase in energy absorption and reduction of loads acting on the structure, whilst incurring only minimal extra hardware costs. In this thesis, control schemes are developed for wave energy converters, with the focus on single isolated devices.;Numerical models of increasing complexity are developed for the simulation of a point absorber, which is a type of wave energy converter with small dimensions with respect to the dominating wave length. After investigating state-of-the-art control schemes, the existing control strategies reported in the literature have been found to rely on the model of the system dynamics to determine the optimal control action;This is despite the fact that modelling errors can negatively affect the performance of the device, particularly in highly energetic waves when non-linear effects become more signficant. Furthermore, the controller should be adaptive so that changes in the system dynamics, e.g. due to marine growth or non-critical subsystem failure, are accounted for. Hence, machine learning approaches have been investigated as an alternative, with a focus on neural networks and reinforcement learning for control applications.;A time-averaged approach will be employed for the development of the control schemes to enable a practical implementation on WECs based on the standard in the industry at the moment.;Neural networks are applied to the active control of a point absorber. They are used mainly for system identifcation, where the mean power is related to the current sea state and parameters of the power take-off unit. The developed control scheme presents a similar performance to optimal active control for the analysed simulations, which rely on linear hydrodynamics.;Reinforcement learning is then applied to the passive and active control of a wave energy converter for the first time. The successful development of different control schemes is described in detail, focusing on the encountered challenges in the selection of states, actions and reward function. The performance of reinforcement learning is assessed against state-of-the-art control strategies.;Reinforcement learning is shown to learn the optimal behaviour in a reasonable time frame, whilst recognizing each sea state without reliance on any models of the system dynamics. Additionally, the strategy is able to deal with model non-linearities. Furthermore, it is shown that the control scheme is able to adapt to changes in the device dynamics, as for instance due to marine growth.
Resource Type
DOI
Date Created
  • 2017
Former identifier
  • 9912589193402996

Relations

Items

Thumbnail Title Date Uploaded Visibility Actions
file details PDF of thesis T14813 2021-07-02 Public Download