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ARC
2015
Springer

Disturbance-adaptive stochastic optimal control of energy harvesters, with application to ocean wave energy conversion

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Disturbance-adaptive stochastic optimal control of energy harvesters, with application to ocean wave energy conversion
: This paper proposes a theory for optimizing the power generated from stationary stochastic vibratory disturbances, using a resonant energy harvester. Although the theory is general, the target application of the paper concerns ocean wave energy harvesting. The control technique involves the use of a causal discrete-time feedback algorithm to dynamically optimize the power extracted from the waves. The theory assumes that the input impedance of the converter is known precisely, but that a priori models are unavailable for the characterization of the stochastic behavior of the waves, as well as their hydrodynamic excitation of the system. For these assumptions, we develop an adaptive control technique, which iteratively re-optimizes the feedback law for the controller based on recursive subspace identification of the stochastic disturbance dynamics. The technique is demonstrated on a simulation example pertaining to a cylindrical surface-floating wave energy converter in heave.
J. T. Scruggs, R. Nie
Added 16 Apr 2016
Updated 16 Apr 2016
Type Journal
Year 2015
Where ARC
Authors J. T. Scruggs, R. Nie
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