Allan Chertok scite author profile

Recent research has shown that when constrained to causality, the optimal feedback controller for an ocean wave energy converter (WEC) subjected to stochastic waves can be solved as a nonstandard Linear Quadratic-Gaussian (LQG) optimal control problem. In this paper, we present a relaxation to the modeling assumptions that must be made to apply this theory. Specifically, we propose a technique that uses the principle of Gaussian Closure to accommodate nonlinear WEC dynamics in the synthesis of the optimal feedback law. The technique is approximate, in the sense that it arrives at a computationally efficient control synthesis technique through a Gaussian approximation of the stationary stochastic response of the system. This approach allows for a wide range of nonlinear dynamical models to be considered, and also accommodates many complex loss mechanisms in the power transmission system. The technique is demonstrated through simulation examples pertaining to a flap-type WEC with a hydraulic power train.

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Non-linear Model Predictive Control of Wave Energy Converters with Realistic Power Take-off Configurations and Loss Model

Karthikeyan¹,

Previsic²,

Scruggs

et al. 2019

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Development of a Direct Drive Permanent Magnet Generator for Small Wind Turbines

Chertok¹,

Hablanian²,

McTaggart³

2004

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Allan Chertok

Northern Power Systems WindPACT Drive Train Alternative Design Study Report; Period of Performance: April 12, 2001 to January 31, 2005

Design and performance of the field regulated reluctance machine

Optimal causal control of wave energy converters in stochastic waves – Accommodating nonlinear dynamic and loss models

Non-linear Model Predictive Control of Wave Energy Converters with Realistic Power Take-off Configurations and Loss Model

Development of a Direct Drive Permanent Magnet Generator for Small Wind Turbines

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