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Elsevier

Applications of Deep Machine Learning in Future Energy Systems

  • 1 Edición - 20 de agosto de 2024
  • Última edición
  • Editor: Mohammad-Hassan Khooban
  • Idioma: Inglés

Applications of Deep Machine Learning in Future Energy Systems pushes the limits of current Artificial Intelligence techniques to present deep machine learning suitable for the c… Leer más

Descripción

Applications of Deep Machine Learning in Future Energy Systems pushes the limits of current Artificial Intelligence techniques to present deep machine learning suitable for the complexity of sustainable energy systems. The first two chapters take the reader through the latest trends in power engineering and system design and operation before laying out current AI approaches and limitations. Later chapters provide in-depth accounts of specific challenges and the use of innovative third-generation machine learning, including neuromorphic computing, to resolve issues from security to power supply.

An essential tool for the management, control, and modelling of future energy systems, this book maps a practical path towards AI capable of supporting sustainable energy.

Puntos claves

  • Clarifies the current state and future trends of energy system machine learning and the pitfalls facing our transitioning systems
  • Provides guidance on 3rd-generation AI tools for meeting the challenges of modeling and control in modern energy systems
  • Includes case studies and practical examples of potential applications to inspire and inform researchers and industry developers

De interès para

Researchers, research laboratories, practitioners, and Ph.D. students in power systems and electronics

Índice

1. Introduction

2. Artificial intelligence and Machine learning in Future Energy Systems (State-of-Art, future development)
Jalal Heidary

3. Digital Twins-Assisted Design of Next-Generation DC Microgrid
Meysam Gheisarnejad, Maryam Homayounzadeh, Burak Yildirim

4. Deep Learning-Based Procedure for Profit Maximization of EV Charging Stations
Mohammad Hassan Khooban, Peyman Razmi, MASOUMEH SEYEDYAZDI

5. Deep Frequency Control of Power Grids Under Cyber Attacks
Mohammad Aghamohammadi, jalal heidary, Soroush Oshnoei

6. Application of Q-Learning in Stabilization of Multi Carrier Energy Systems
Meysam Gheisarnejad, Maryam Homayounzadeh, Burak Yildirim

7. Design of Next-Generation of 5G Data Center Power Supply based on AI
Mohammad Hassan Khooban, Meysam Gheisarnejad

8. Smart EV Battery Charger Based on Deep Machine Learning
Mohammad Hassan Khooban, Jalil Boudjadar, Mehdi Rafiei

9. Machine learning in Talkative Power
Mohammad Hassan Khooban, Zahra Ghahraman Izadi, Ali Mousavi

10. Advanced Control of Power Electronics-based Machine Learning
Maryam Homayounzadeh, Meysam Gheisarnejad, Mohamadreza Homayounzade, Mohammad Hassan Khooban

11. Multi-Level Energy Management and Optimal Control System in Smart Cities Based on Deep Machine Learning
Javid Ghafourian, Atefe Hedayatnia, Ahmed Al-Durra, Reza Sepehrzad

Detalles del producto

  • Edición: 1
  • Última edición
  • Publicado: 21 de agosto de 2024
  • Idioma: Inglés

Sobre el editor

MK

Mohammad-Hassan Khooban

Dr. Mohammad-Hassan Khooban is an Assistant Professor in the Department of Engineering and the Director of the Power Circuits and Systems Research Group at Aarhus University in Denmark. He has authored or co-authored more than 220 publications in peer-reviewed journals (mostly IEEE) and international conferences, written three book chapters, and holds one patent. He has been involved in six national and international projects. He was identified in 2019, 2020, and 2021 by Stanford University as one of the world’s top 2% researchers in engineering. He was also ranked 16th in the list of top 30 Electronics and Electrical Engineering Scientists in Denmark in 2022. His research interests include the application of advanced control, and optimization of artificial intelligence-inspired techniques in power electronics and systems.
Afiliaciones y experiencia
Department of Engineering - Cyper-Physical Systems, Aarhus University, Aarhus N, Denmark

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