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Machine Learning-Driven Design of Quantum Batteries for Sustainable Energy Storage
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Author(s): Prajwal R. Kale (Prof. Ram Meghe College of Engineering and Management, India), Kiran A. Dongre (Prof. Ram Meghe College of Engineering and Management, India), Bala Chandra Pattanaik (Wallaga University, Ethiopia)and P. S. Ranjit (Aditya College of Engineering and Technology, Jawaharlal Nehru Technological University, Kakinada, India)
Copyright: 2024
Pages: 15
Source title:
Real-World Challenges in Quantum Electronics and Machine Computing
Source Author(s)/Editor(s): Christo Ananth (Samarkand State University, Uzbekistan), T. Ananth Kumar (IFET College of Engineering, India)and Osamah Ibrahim Khalaf (Al-Nahrain University, Iraq)
DOI: 10.4018/979-8-3693-4001-1.ch008
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Abstract
This exploration composition investigates the new conception of applying machine literacy ways to develop amount batteries, adding the possibilities for sustainable energy storehouse by erecting amount batteries. Due to common restrictions, traditional battery design styles can be challenging to optimise for effectiveness, continuance, and environmental impact. The key to this design is to use machine literacy ways to alter the processes involved in battery design. Machine literacy ways are able to efficiently assay large datasets, soothsaying battery performance, and relating the stylish material compositions for amount batteries. The operation of machine literacy driven design has the implicit to expand the possibilities for energy storehouse technology. As a result, batteries with lesser capacity, stability, and environmental benevolence can be produced. By assaying machine literacy ways and the introductory architectural principles of amount batteries in detail, this exploration aims to give light on the implicit benefits and challenges related to this innovative system.
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