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The use of artificial intelligence technologies in energy and climate security

Mammadov Agil, Ibrahimli Kanah, Guliev Iglfal

Rynek Energii

2025

Nr 5

100--108

This study provides a theoretical analysis of the use and application of artificial intelligence in the energy sector as it relates to climate security. The object of the study is energy and climate security as types of economic activity and social activity. The subject of the research is artificial intelligence in relation to the object area of research. The purpose of the study is to create a sound scientific basis for the use of artificial intelligence in the energy sector, as well as to identify emerging problems in the formation of a science-based approach to climate policy development. The authors' research includes three interrelated research methodologies: topic modeling, text mining as part of qualitative analysis and object modeling as part of the systematization of results that are adequate to the subject area of the study and correspond to their reality; in addition, the authors supplemented the quantitative results with a theoretical and heuristic analysis of the scientific results of other researchers. The concept of parametric optimization (PO) is used as an effective method for solving the applied problem of testing the hypothesis of managing energy costs and energy efficiency based on AI in order to achieve optimal performance of the technical system and compliance with the SDGs in the field of climate security. The study's findings suggest that AI is becoming fundamental to the development of a modern energy sector based on data and complex relationships and provides tools to improve technical system performance and efficiency in the face of sanctions restrictions. The truth of the hypothesis has been proven that the use of AI as a control feedback loop at a technical facility for purification and energy generation is a more cost-effective and technically optimal alternative to a “live” operator, which will eliminate the human error factor. In this regard, the energy industry, utilities, grid operators and independent power producers must pay special attention to the introduction of AI technologies into existing technical systems.

A feedback loop study of brain-heart interaction based on HEP and HRV

Wang Shanshan, Wang Xiaoni, Zhao Yuxin, Xie Lin, Zhang Jianbao

Biocybernetics and Biomedical Engineering

2025

Vol. 45, iss. 2

181--188

Although growing evidences suggest heartbeat evoked potential (HEP) as a biomarker of interoception, little is known about how HEP is related to cardiovascular function. In the article, mental arithmetic and meditation tasks that respectively activate sympathetic and parasympathetic activities were designed, and electroencephalogram and cardiovascular parameters were recorded in healthy young males. Our findings revealed a decrease in HEP during mental arithmetic and an increase during meditation. A correlation between HEP and blood pressure was also observed, indicating that baroreceptor stretch may contribute to HEP generation. Furthermore, HEP showed a positive correlation with parasympathetic activity and a negative correlation with sympathetic activity. Collectively, these results suggest the presence of a potential negative feedback loop between the brain and heart, mediated by HEP.