Xiaojia Ye scite author profile

The whale optimization algorithm (WOA) is a powerful swarm intelligence method which has been widely used in various fields such as parameter identification of solar cells and PV modules. In order to better balance the exploration and exploitation of WOA, we propose a novel modified WOA (MWOA) in which both the mutation strategy based on Levy flight and a local search mechanism of pattern search are introduced. On the one hand, Levy flight can make the algorithm get rid of the local optimum and avoid stagnation; thus, it is able to prevent the algorithm from losing diversity and to increase the global search capability. On the other hand, pattern search, a direct search method, has not only high convergence rate but also good stability, which can boost the local optimization ability of the WOA. Therefore, the combination of these two mechanisms can greatly improve the capability of WOA to obtain the best solution. In addition, MWOA may be employed to estimate parameters in single diode model (SDM), double diode model (DDM), and PV modules and to identify unknown parameters of two different types of PV modules under diverse light irradiance and temperature conditions. The analytical results demonstrate the validity and the practicality of MWOA for estimating parameters of solar cells and PV modules.

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Xiaojia Ye

Horizontal and vertical crossover of Harris hawk optimizer with Nelder-Mead simplex for parameter estimation of photovoltaic models

Modified Whale Optimization Algorithm for Solar Cell and PV Module Parameter Identification

Identification and distinction of non-small-cell lung cancer cells by intracellular SERS nanoprobes

A multi-strategy enhanced salp swarm algorithm for global optimization

Boosting whale optimization with evolution strategy and Gaussian random walks: an image segmentation method

Quantum-like mutation-induced dragonfly-inspired optimization approach

Boosting slime mould algorithm for parameter identification of photovoltaic models

Levy-based antlion-inspired optimizers with orthogonal learning scheme

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