Optimized current reference generation for system-level harmonic mitigation in a diesel-electric ship using non-linear model predictive control
Chapter
Accepted version
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http://hdl.handle.net/11250/2391810Utgivelsesdato
2015Metadata
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Originalversjon
IEEE, Org. [Eds.] IEEE International Conference on Industrial Technology (ICIT) 2015 : March 17-19, 2015, Seville, Spain p. 2314-2321, IEEE conference proceedings, 2015 10.1109/ICIT.2015.7125439Sammendrag
Non-linear optimal control using collocation and multiple shooting is investigated in this paper to generate the current reference signal for the lower level control of an active filter in a marine vessel with diesel-electric propulsion. The optimization objective is aimed at using the active filter for system-level minimization of Total Harmonics Distortion with the minimum rating of the active filter. The investigation of the different algorithms is oriented to the search of a solution that can offer a good compromise between accuracy and real-time implementation abilities. Results indicate that linear problem formulations are more suitable for real time implementation as they require less computational costs with minimal loss of flexibility. Non-linear problem formulations provide higher flexibility at the cost of higher computational efforts.