Ditherless extremum seeking for hydrogen minimization in PEM fuel cells

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Title:	Ditherless extremum seeking for hydrogen minimization in PEM fuel cells
Author:	Castaños Luna, Fernando; Kunusch, Cristian
Abstract:	This paper presents a nonsmooth adaptive extremum seeker that minimizes the hydrogen consumption in a fuel-cell system. The extremum seeker operates by estimating the gradient of the objective function but, unlike other seekers, it does not require a dither signal to produce such estimate. The absence of a dither signal simplifies the choice of parameter values for the seeker, and more importantly, it allows it to converge to the optimal value exactly, not only to a small neighborhood. The proper functioning of the proposed scheme is proved using non-smooth Lyapunov analysis. The strategy is tested on the input–output map of a real polymer electrolyte fuel cells.
Abstract:	Peer Reviewed
Subject(s):	-Àrees temàtiques de la UPC::Enginyeria electrònica -Extremum seeking -fuel cells -nonsmooth Lyapunov analysis -SYSTEMS -PERFORMANCE -STABILITY -MODEL
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Document type:	Article - Submitted version Article
Published by:	Institute of Electrical and Electronics Engineers (IEEE)
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