期刊
IET SMART GRID
卷 2, 期 4, 页码 635-644出版社
INST ENGINEERING TECHNOLOGY-IET
DOI: 10.1049/iet-stg.2019.0012
关键词
neural nets; maximum power point trackers; photovoltaic power systems; perturbation techniques; Monte Carlo methods; observed voltage; irradiance data; global MPP; quick irradiance change detection method; SMC-based MPPT method resorts; partial shading; enhanced MPPT method; rapid irradiance change; quickest change detection; photovoltaic system; environmental conditions; maximum power point; optimal performance; enhanced MPP tracking method; state estimation; sequential Monte-Carlo filtering; artificial neural network; state-space model; sequential estimation; incremental conductance MPPT approach; ANN model
The performance of a photovoltaic system is subject to varying environmental conditions, and it becomes more challenging to track the maximum power point (MPP) and maintain the optimal performance when partial shading occurs. In this study, an enhanced MPP tracking (MPPT) method is proposed utilising the state estimation by the sequential Monte-Carlo (SMC) filtering, which is assisted by the prediction of MPP via an artificial neural network (ANN). A state-space model for the sequential estimation of MPP is proposed in the framework of incremental conductance MPPT approach, and the ANN model based on the observed voltage and current or irradiance data predicts the global MPP to refine the estimation by SMC. Moreover, a quick irradiance change detection method is applied, such that the SMC-based MPPT method resorts to the assistance from ANN only when partial shading is detected. Simulation results show that the proposed enhanced MPPT method achieves high efficiency and is robust to rapid irradiance change.
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