[1] Zhang, Junli & Wei, Huashuai. (2022). A review on configuration optimization of hybrid energy system based on renewable energy. Frontiers in Energy Research. 10. 10.3389/fenrg.2022.977925.

[2] Lanre Olatomiwa. Optimal configuration assessments of hybrid renewable power supply for rural healthcare facilities. Energy Reports, Volume 2, 2016. Pages 141-146. ISSN 2352- 4847. https://doi.org/10.1016/j.egyr.2016.06.001.

[3] Mas’ud AA, Al-Garni HZ. Optimum Configuration of a Renewable Energy System Using Multi-Year Parameters and Advanced Battery Storage Modules: A Case Study in Northern Saudi Arabia. Sustainability. 2021; 13(9):5123. https://doi.org/10.3390/su13095123

[4] Wang, Zekun & Jia, Yan & Yang, Yingjian & Cai, Chang & Chen, Yinpeng. (2021). Optimal Configuration of an Off-Grid Hybrid Wind-Hydrogen Energy System: Comparison of Two Systems. Energy Engineering. 118. 1641-1658. 10.32604/EE.2021.017464.

[5] SUN, Qian et al. Optimal Configuration of Standalone Wind–Solar–Storage Complementary Generation System Based on the GA-PSO Algorithm. Journal of Power Technologies, [S.l.], v. 99, n. 4, p. 231–236, dec. 2019. ISSN 2083-4195.

[6] Ghayoor, Farzad; Swanson, Andrew G.; Sibanda, Hudson. Optimal sizing for a gridconnected hybrid renewable energy system: A case study of the residential sector in Durban, South Africa. J. energy South. Afr., Cape Town , v. 32, n. 4, p. 11-27, Nov. 2021 .

[7] Jing Yuan Liu, Xu Yang, Jin Gang Guo, Da Wang, Hai Zhao, Yue Lan, "Double-Layer Optimal Configuration Method of Hybrid Energy Storage System Based on Chaotic Ant Colony Algorithm", Advances in Multimedia, vol. 2022, Article ID 6993143, 10 pages, 2022. https://doi.org/10.1155/2022/6993143.

[8] Freire-Gormaly, M, & Bilton, AM. "Optimization of Renewable Energy Power Systems for Remote Communities." Proceedings of the ASME 2015 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. Volume 2A: 41st Design Automation Conference. Boston, Massachusetts, USA. August 2–5, 2015. V02AT03A030. ASME. https://doi.org/10.1115/DETC2015-47509

[9] Tristar, “TriStar MPPT Maximum Power Point Tracker,” 2014.

[10] Christoph Kost, Shivenes Shammugam, Verena Fluri, Dominik Peper, Aschkhan Davoodi Memar, Thomas Schelegl. “Levelized Cost of Electricity Renewable Energy Technologies,” 2021

[11] Christoph Kost, Shivenes Shammugam, Verena Julch, Huyen-Tran Nguyen, Thomas Schelegl. “Levelized Cost of Electricity Renewable Energy Technologies,” 2018.

[12] Гайибов Т. Выбор оптимальных параметров солнечных фотоэлектрических станций и аккумуляторов в распределительных электрических сетях / Сборник материалов международной онлайн конференции «Тенденции развития современной физики полупроводников: проблемы, достижения и перспективы». НИИ Физика полупроводников и микроэлектроники при Национальном университете Узбекистан. 2020. С. 237-242. www.e-science.uz.

[13] Gayibov T.Sh., Fayziyev M.M., Toshov T.U. Tarkibida qayta tiklanuvchan energiya manbalarida ishlovchi elektr stansiyalari mavjud bo‘lgan elektr energetika tizimlarining rejimlarini optimallash. Инновацион технологиялар журнали. 2022. Махсус сон, 26-29 б.

[14] Tulkin Gayibov and Elnur Abdullaev. Optimization of daily operation mode of photovoltic systems of enterprises. E3S Web of Conferences 264, 04063 (2021). CONMECHYDRO – 2021

[15] T.Sh. Gayibov, B.A. Uzakov, E.A. Abdullaev. (2020) Optimization of loading schedules of consumers with own stations on the basis of renewable energy sources. Journal of critical reviews. 7(15) 1738-1742.