Static photovoltaic models’ parameter extraction using reinforcement learning strategy adapted local gradient Nelder-Mead Runge Kutta method-Reference-Cited by-同舟云学术

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Static photovoltaic models’ parameter extraction using reinforcement learning strategy adapted local gradient Nelder-Mead Runge Kutta method

Published:2023-07-17 Issue:20 Volume:53 Page:24106-24141
ISSN:0924-669X
Container-title:Applied Intelligence
language:en
Short-container-title:Appl Intell

Author:

Chen Zhiqing,Kuang Fangjun,Yu Sudan,Cai Zhennao,Chen Huiling^ORCID

Publisher

Springer Science and Business Media LLC

Subject

Artificial Intelligence

Link

https://link.springer.com/content/pdf/10.1007/s10489-023-04761-8.pdf

Reference77 articles.

1. Yousri D et al (2019) Static and dynamic photovoltaic models’ parameters identification using Chaotic Heterogeneous Comprehensive Learning Particle Swarm Optimizer variants. Energy Convers Manag 182:546–563

2. Gong W, Cai Z, Ling CX (2010) DE/BBO: a hybrid differential evolution with biogeography-based optimization for global numerical optimization. Soft Comput 15(4):645–665

3. Yu K et al (2017) Parameters identification of photovoltaic models using self-adaptive teaching-learning-based optimization. Energy Convers Manag 145:233–246

4. Wang J et al. (2021) Photovoltaic cell parameter estimation based on improved equilibrium optimizer algorithm. Energy Convers Manag 236:114051

5. Liu Y et al (2020) Horizontal and vertical crossover of Harris hawk optimizer with Nelder-Mead simplex for parameter estimation of photovoltaic models. Energy Convers Manag 223:113211

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2. Improved Runge Kutta Optimization Using Compound Mutation Strategy in Reinforcement Learning Decision Making for Feature Selection;Journal of Bionic Engineering;2024-06-25

3. Enhancing network security with information-guided-enhanced Runge Kutta feature selection for intrusion detection;Cluster Computing;2024-06-15

4. Super‐evolutionary mechanism and Nelder‐Mead simplex enhanced salp swarm algorithm for photovoltaic model parameter estimation;IET Renewable Power Generation;2024-02-24

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