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Linearization and Input-Output Decoupling for Nonlinear Control of Proton Exchange Membrane Fuel Cells
Linearization and Input-Output Decoupling for Nonlinear Control of Proton Exchange Membrane Fuel Cells
by Chang, Long-Yi , Chen, Hung-Cheng
in adaptive genetic algorithm / Alternative energy sources / Batteries / Controllers / Decoupling / Dynamical systems / Exchange / Fuel cells / Gases / Genetic algorithms / Hydrogen / input-output decoupling / Linearization / Membranes / nonlinear dynamic model / Nonlinear dynamics / Nonlinearity / proton exchange membrane fuel cell / Solar energy / Wind power
2014
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Linearization and Input-Output Decoupling for Nonlinear Control of Proton Exchange Membrane Fuel Cells
by Chang, Long-Yi , Chen, Hung-Cheng
in adaptive genetic algorithm / Alternative energy sources / Batteries / Controllers / Decoupling / Dynamical systems / Exchange / Fuel cells / Gases / Genetic algorithms / Hydrogen / input-output decoupling / Linearization / Membranes / nonlinear dynamic model / Nonlinear dynamics / Nonlinearity / proton exchange membrane fuel cell / Solar energy / Wind power
2014
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Linearization and Input-Output Decoupling for Nonlinear Control of Proton Exchange Membrane Fuel Cells
Linearization and Input-Output Decoupling for Nonlinear Control of Proton Exchange Membrane Fuel Cells
by Chang, Long-Yi , Chen, Hung-Cheng
in adaptive genetic algorithm / Alternative energy sources / Batteries / Controllers / Decoupling / Dynamical systems / Exchange / Fuel cells / Gases / Genetic algorithms / Hydrogen / input-output decoupling / Linearization / Membranes / nonlinear dynamic model / Nonlinear dynamics / Nonlinearity / proton exchange membrane fuel cell / Solar energy / Wind power
2014

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Linearization and Input-Output Decoupling for Nonlinear Control of Proton Exchange Membrane Fuel Cells
Linearization and Input-Output Decoupling for Nonlinear Control of Proton Exchange Membrane Fuel Cells
Journal Article

Linearization and Input-Output Decoupling for Nonlinear Control of Proton Exchange Membrane Fuel Cells

Chang, Long-Yi,
Chen, Hung-Cheng
2014
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Overview
This paper presents a nonlinear control strategy utilizing the linearization and input-output decoupling approach for a nonlinear dynamic model of proton exchange membrane fuel cells (PEMFCs). The multiple-input single-output (MISO) nonlinear model of the PEMFC is derived first. The dynamic model is then transformed into a multiple-input multiple-output (MIMO) square system by adding additional states and outputs so that the linearization and input-output decoupling approach can be directly applied. A PI tracking control is also introduced to the state feedback control law in order to reduce the steady-state errors due to parameter uncertainty. This paper also proposes an adaptive genetic algorithm (AGA) for the multi-objective optimization design of the tracking controller. The comprehensive results of simulation demonstrate that the PEMFC with nonlinear control has better transient and steady-state performance compared to conventional linear techniques.
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Publisher
MDPI AG
Subject

adaptive genetic algorithm

/ Alternative energy sources

/ Batteries

/ Controllers

/ Decoupling

/ Dynamical systems

/ Exchange

/ Fuel cells

/ Gases

/ Genetic algorithms

/ Hydrogen

/ input-output decoupling

/ Linearization

/ Membranes

/ nonlinear dynamic model

/ Nonlinear dynamics

/ Nonlinearity

/ proton exchange membrane fuel cell

/ Solar energy

/ Wind power

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