Page 223 - 2024-Vol20-Issue2
P. 223
219 | Gochhait, Sharma & Bachute
[8] J. Lian, Y. Zhang, C. Ma, Y. Yang, and E. Chaima, “A re- [18] C. Oliveira, J. Baptista, and A. Cerveira, “Self-
view on recent sizing methodologies of hybrid renewable sustainability assessment for a high building based on
energy systems,” Energy Conversion and Management, linear programming and computational fluid dynamics,”
vol. 199, p. 112027, 2019. Algorithms, vol. 16, no. 2, p. 107, 2023.
[9] A. Dreher, T. Bexten, T. Sieker, M. Lehna, J. Schu¨tt, [19] C. Yoo, I. Chung, H. Lee, and S.-S. Hong, “Intelligent
C. Scholz, and M. Wirsum, “Ai agents envisioning the control of battery energy storage for multi-agent based
future: Forecast-based operation of renewable energy microgrid energy management,” Energies, vol. 6, no. 10,
storage systems using hydrogen with deep reinforce- pp. 4956–4979, 2013.
ment learning,” Energy Conversion and Management,
vol. 258, p. 115401, 2022. [20] L. Abualigah, R. Zitar, K. Almotairi, A. Hussein,
M. Abd Elaziz, M. Nikoo, and A. Gandomi, “Wind,
[10] D. Rangel Martinez, K. Nigam, and L. Ricardez- solar, and photovoltaic renewable energy systems with
Sandoval, “Machine learning on sustainable energy: A and without energy storage optimization: A survey of ad-
review and outlook on renewable energy systems, cataly- vanced machine learning and deep learning techniques,”
sis, smart grid and energy storage,” Chemical Engineer- Energies, vol. 15, no. 2, p. 578, 2022.
ing Research and Design, vol. 174, pp. 414–441, 2021.
[21] T. Pakulska and M. Poniatowska Jaksch, “Digitalization
[11] K. Vijayalakshmi, K. Vijayakumar, and K. Nandhaku- in the renewable energy sector—new market players,”
mar, “Prediction of virtual energy storage capacity of Energies, vol. 15, no. 13, p. 4714, 2022.
the air conditioner using a stochastic gradient descent-
based artificial neural network,” Electric Power Systems [22] R. Abdulkader, H. Ghanimi, P. Dadheech, M. Alharbi,
Research, vol. 208, p. 107879, 2022. W. El-Shafai, M. Fouda, and S. Sengan, “Soft computing
in smart grid with decentralized generation and renew-
[12] L. Zhao, H. Jerbi, R. Abbassi, B. Liu, M. Latifi, and able energy storage system planning,” Energies, vol. 16,
H. Nakamura, “Sizing renewable energy systems with no. 6, p. 2655, 2023.
energy storage systems based microgrids for cost min-
imization using hybrid shuffled frog-leaping and pat- [23] S. Gochhait and D. Sharma, “Regression model-based
tern search algorithm,” Sustainable Cities and Society, short-term load forecasting for load despatch centre,”
vol. 73, p. 103124, 2021. Journal of Applied Engineering and Technological Sci-
ence (JAETS), vol. 4, no. 2, pp. 693–710, 2023.
[13] A. Olabi, A. Abdelghafar, H. Maghrabie, E. Sayed,
H. Rezk, M. Al Radi, and M. Abdelkareem, “Applica- [24] S. Gochhait, “Artificial intelligence (ai) based load fore-
tion of artificial intelligence for prediction, optimization, casting models for load dispatch centers in india,” Indian
and control of thermal energy storage systems,” Thermal Intellectual Property Right , 202221058676, October
Science and Engineering Progress, vol. 101730, 2023. 2022.
[14] A. Boretti, “Integration of solar thermal and photo-
voltaic, wind, and battery energy storage through ai in
neom city,” Energy and AI, vol. 3, p. 100038, 2021.
[15] N. Kharlamova, S. Hashemi, and C. Træholt, “Data-
driven approaches for cyber defense of battery energy
storage systems,” Energy and AI, vol. 5, p. 100095, 2021.
[16] N. Kharlamova, S. Hashemi, and C. Træholt, “Data-
driven approaches for cyber defense of battery energy
storage systems,” Energy and AI, vol. 5, p. 100095, 2021.
[17] Z. Xu, Y. Gao, M. Hussain, and P. Cheng, “Demand
side management for smart grid based on smart home
appliances with renewable energy sources and an energy
storage system,” Mathematical Problems in Engineering,
vol. 2020, pp. 1–20, 2020.
