Nonlinear model predictive control of a wave energy converter based on differential flatness parameterisation

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Abstract

This paper presents a fast constrained optimization approach, which is tailored for nonlinear model predictive control of wave energy converters (WEC). The advantage of this approach relies on its exploitation of the differential flatness of the WEC model. This can reduce the dimension of the resulting nonlinear programming problem (NLP) derived from the continuous constrained optimal control of WEC using pseudospectral method. The alleviation of computational burden using this approach helps to promote an economic implementation of nonlinear model predictive control strategy for WEC control problems. The method is applicable to nonlinear WEC models, nonconvex objective functions and nonlinear constraints, which are commonly encountered in WEC control problems. Numerical simulations demonstrate the efficacy of this approach.
Original languageEnglish
Pages (from-to)68-77
Number of pages10
JournalInternational Journal of Control
Volume90
Issue number1
DOIs
Publication statusPublished - 2 Jan 2017

Keywords

  • wave energy
  • nonlinear model predictive control
  • differential flatness
  • pseudospectral method

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