Academic scholars and professionals in the field of engineering face the ongoing challenge of enhancing the performance, efficiency, and security of complex systems. The rapid advancements in technology, coupled with the increasing complexity of industrial applications, necessitate innovative solutions and a multidisciplinary approach. However, accessing comprehensive resources that address these pressing issues can be daunting and time-consuming.
Enhancing Performance, Efficiency, and Security Through Complex Systems Control provides an ideal solution for academic scholars seeking to tackle these challenges head-on. Edited by esteemed academics Idriss Chana, Aziz Bouazi, and Hussain Ben-Azza, this book offers a curated collection of scientific articles written in the form of chapters. Each chapter delves into various multidisciplinary themes, encompassing computer science, artificial intelligence applications, electrical engineering, and modeling and control systems.
By consolidating innovative research and methodologies, this book serves as a valuable resource that empowers scholars and professionals to improve the design, modeling, and control of complex systems. It highlights innovative ideas, methodologies, and technologies that enhance performance, efficiency, and safety. With a meticulous selection process involving internationally recognized scientific committees, the book ensures the highest standards of quality, making it a reliable reference for researchers, Ph.D. students, and academics.
Enhancing Performance, Efficiency, and Security Through Complex Systems Control is an essential companion for academic scholars and professionals in the field of engineering. It not only addresses the challenges faced in today's complex systems but also provides practical solutions and inspires further research. By delving into a wide range of topics, from artificial intelligence to signal processing and from blockchain to smart systems, this book equips readers with the knowledge and tools needed to excel in their endeavors. Unlock the potential of complex systems control and propel your research forward with this comprehensive and impactful resource.