Research Article
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Year 2023, Volume: 17 Issue: 1, 208 - 211, 30.07.2023
https://doi.org/10.17261/Pressacademia.2023.1788

Abstract

References

  • Alfares, H. K., & Nazeeruddin, M. (2002). Electric load forecasting: literature survey and classification of methods. International Journal of Systems Science, 33(1), 23-34.
  • Braun, V., & Clarke, V. (2006). Using thematic analysis in psychology. Qualitative Research in Psychology, 3(2), 77-101.
  • Bengio, Y., Courville, A. C., & Vincent, P. (2012). Unsupervised feature learning and deep learning: A review and new perspectives. CoRR, abs/1206.5538, 1(2665), 2012.
  • Cath, C. (2018). Governing artificial intelligence: ethical, legal and technical opportunities and challenges. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 376(2133), 20180080.
  • Guikema, S. D. (2018). Power outage forecasting: Methods, results, and uncertainty. In Safety and Reliability–Safe Societies in a Changing World (pp. 2811-2816). CRC Press.
  • DiCicco‐Bloom, B., & Crabtree, B. F. (2006). The qualitative research interview. Medical Education, 40(4), 314-321.
  • Goodfellow, I., Pouget-Abadie, J., Mirza, M., Xu, B., Warde-Farley, D., Ozair, S., ... & Bengio, Y. (2014). Generative Adversarial Networks. Advances in Neural Information Processing Systems.
  • Neeraj, Gupta, P., & Tomar, A. (2023). Deep Learning Techniques for Load Forecasting. In Prediction Techniques for Renewable Energy Generation and Load Demand Forecasting (pp. 177-198). Singapore: Springer Nature Singapore.
  • Omitaomu, O. A., & Niu, H. (2021). Artificial intelligence techniques in smart grid: A survey. Smart Cities, 4(2), 548-568.
  • Yin, R. K. (2003). Case Study Research, design and methods, Sage Publications Inc. Thousand Oaks, California.

GENERATIVE AI IN ELECTRICITY DISTRIBUTION: A QUALITATIVE EXPLORATION

Year 2023, Volume: 17 Issue: 1, 208 - 211, 30.07.2023
https://doi.org/10.17261/Pressacademia.2023.1788

Abstract

Purpose: The purpose of this study is to explore the application and potential of generative artificial intelligence (AI) within the context of electricity distribution companies. The study aims to investigate how these advanced AI technologies, particularly Generative Adversarial Networks (GANs), can address the sector's pressing challenges, such as load forecasting, power outage prediction, and preventive maintenance.
Methodology: The study employs a qualitative case study methodology, providing an in-depth analysis of real-world applications of generative AI within electricity distribution companies. The selection of cases represents a wide variety of experiences and contexts, facilitated by both primary data collected through semi-structured interviews with key personnel within the organizations and secondary data derived from an extensive review of company reports, public documentation, and industry publications. The gathered data was systematically analyzed using thematic analysis to identify and report recurring patterns and themes.
Findings: The analysis reveals that generative AI has been successfully implemented in various operational aspects of electricity distribution. The first case study presents how GANs have significantly improved load forecasting accuracy in an Eastern Turkish electricity distribution company. The second case study from Southern Turkey showcases how GANs have been used for predicting power outages, thereby aiding efficient resource allocation, reducing downtime, and enhancing customer satisfaction. Lastly, the third case from Northern Turkey demonstrates how generative AI has contributed to effective preventive maintenance of distribution equipment, improving overall system reliability.
Conclusion: Based on the analysis findings, it may be concluded that generative AI holds transformative potential for the electricity distribution sector. While the implementation of these technologies is associated with challenges such as data privacy, security, and the requirement of technical expertise, the benefits in terms of improved accuracy, system reliability, and resource efficiency provide a strong justification for their adoption. The paper underlines the importance of an interdisciplinary collaboration between AI researchers, electrical engineers, industry professionals, and policymakers for furthering the adoption of these technologies. As the field of generative AI continues to evolve, it is expected to have an even greater impact on the electricity distribution sector, thereby opening up exciting opportunities for future research and application

References

  • Alfares, H. K., & Nazeeruddin, M. (2002). Electric load forecasting: literature survey and classification of methods. International Journal of Systems Science, 33(1), 23-34.
  • Braun, V., & Clarke, V. (2006). Using thematic analysis in psychology. Qualitative Research in Psychology, 3(2), 77-101.
  • Bengio, Y., Courville, A. C., & Vincent, P. (2012). Unsupervised feature learning and deep learning: A review and new perspectives. CoRR, abs/1206.5538, 1(2665), 2012.
  • Cath, C. (2018). Governing artificial intelligence: ethical, legal and technical opportunities and challenges. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 376(2133), 20180080.
  • Guikema, S. D. (2018). Power outage forecasting: Methods, results, and uncertainty. In Safety and Reliability–Safe Societies in a Changing World (pp. 2811-2816). CRC Press.
  • DiCicco‐Bloom, B., & Crabtree, B. F. (2006). The qualitative research interview. Medical Education, 40(4), 314-321.
  • Goodfellow, I., Pouget-Abadie, J., Mirza, M., Xu, B., Warde-Farley, D., Ozair, S., ... & Bengio, Y. (2014). Generative Adversarial Networks. Advances in Neural Information Processing Systems.
  • Neeraj, Gupta, P., & Tomar, A. (2023). Deep Learning Techniques for Load Forecasting. In Prediction Techniques for Renewable Energy Generation and Load Demand Forecasting (pp. 177-198). Singapore: Springer Nature Singapore.
  • Omitaomu, O. A., & Niu, H. (2021). Artificial intelligence techniques in smart grid: A survey. Smart Cities, 4(2), 548-568.
  • Yin, R. K. (2003). Case Study Research, design and methods, Sage Publications Inc. Thousand Oaks, California.
There are 10 citations in total.

Details

Primary Language English
Subjects Business Administration
Journal Section Articles
Authors

Ezgi Avcı This is me 0000-0002-9826-1027

Publication Date July 30, 2023
Published in Issue Year 2023 Volume: 17 Issue: 1

Cite

APA Avcı, E. (2023). GENERATIVE AI IN ELECTRICITY DISTRIBUTION: A QUALITATIVE EXPLORATION. PressAcademia Procedia, 17(1), 208-211. https://doi.org/10.17261/Pressacademia.2023.1788
AMA Avcı E. GENERATIVE AI IN ELECTRICITY DISTRIBUTION: A QUALITATIVE EXPLORATION. PAP. July 2023;17(1):208-211. doi:10.17261/Pressacademia.2023.1788
Chicago Avcı, Ezgi. “GENERATIVE AI IN ELECTRICITY DISTRIBUTION: A QUALITATIVE EXPLORATION”. PressAcademia Procedia 17, no. 1 (July 2023): 208-11. https://doi.org/10.17261/Pressacademia.2023.1788.
EndNote Avcı E (July 1, 2023) GENERATIVE AI IN ELECTRICITY DISTRIBUTION: A QUALITATIVE EXPLORATION. PressAcademia Procedia 17 1 208–211.
IEEE E. Avcı, “GENERATIVE AI IN ELECTRICITY DISTRIBUTION: A QUALITATIVE EXPLORATION”, PAP, vol. 17, no. 1, pp. 208–211, 2023, doi: 10.17261/Pressacademia.2023.1788.
ISNAD Avcı, Ezgi. “GENERATIVE AI IN ELECTRICITY DISTRIBUTION: A QUALITATIVE EXPLORATION”. PressAcademia Procedia 17/1 (July 2023), 208-211. https://doi.org/10.17261/Pressacademia.2023.1788.
JAMA Avcı E. GENERATIVE AI IN ELECTRICITY DISTRIBUTION: A QUALITATIVE EXPLORATION. PAP. 2023;17:208–211.
MLA Avcı, Ezgi. “GENERATIVE AI IN ELECTRICITY DISTRIBUTION: A QUALITATIVE EXPLORATION”. PressAcademia Procedia, vol. 17, no. 1, 2023, pp. 208-11, doi:10.17261/Pressacademia.2023.1788.
Vancouver Avcı E. GENERATIVE AI IN ELECTRICITY DISTRIBUTION: A QUALITATIVE EXPLORATION. PAP. 2023;17(1):208-11.

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