Efficiency-aware nonlinear model-predictive control with real-time iteration scheme for wave energy converters

Date published

2022-05-26

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Publisher

Taylor & Francis

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Article

ISSN

0020-7179

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Citation

Guerrero-Fernandez JL, González-Villarreal OJ, Rossiter JA. (2022) Efficiency-aware nonlinear model-predictive control with real-time iteration scheme for wave energy converters, International Journal of Control, Volume 96, Issue 8, pp. 1909-1921

Abstract

Several solutions have been proposed in the literature to maximise the harvested ocean energy, but only a few consider the overall efficiency of the power take-off system. The fundamental problem of incorporating the power take-off system efficiency is that it leads to a nonlinear and non-convex optimal control problem. The main disadvantage of the available solutions is that none solve the optimal control problem in real-time. This paper presents a nonlinear model predictive control (NMPC) approach based on the real-time iteration (RTI) scheme to incorporate the power take-off system's efficiency when solving the optimal control problem at each time step in a control law aimed at maximising the energy extracted. The second contribution of this paper is the derivation of a condensing algorithm O(N2) for ‘output-only’ cost functions required to improve computational efficiency. Finally, the RTI-NMPC approach is tested using a scaled model of the Wavestar design, demonstrating the benefit of this new control formulation.

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Github

Keywords

Wave energy converters, nonlinear model predictive controller, real-time iteration, power take-off-system efficiency, condensing algorithm O(N2)

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Attribution-NonCommercial-NoDerivatives 4.0 International

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