Chapter Iii: Energy Management Techniques For WSNS.-
Chapter Iv: Energy Management Techniques For WSNS (1): Duty Cycling Approach.-
Chapter V: Energy Management Techniques For WSNS (2): Data Driven Approach.-
Chapter Vi: Energy Management Techniques For WSNS (3): Mobility Based Approach.-
Part Iii: Harvesting and Management Projects and Testbeds.-
Chapter Vii: Energy Harvesting Projects For WSNS.-
Chapter Viii: Energy Management Projects For WSNS.-
Chapter Ix: WSNS Energy Testbeds.-
Part Iv: Ignition.-
Chapter X: Last Flare.-
Index.
Dr. Hossam M.A. Fahmy is a Professor of Computer Engineering and served as Chair of the Computer Engineering & Systems Department, Faculty of Engineering, Ain Shams University, Cairo, Egypt from 2006-2008, as well as 2010-2012. He participates in many academic activities in Egypt and abroad. Professor Fahmy has published and refereed extensively with Springer, Elsevier and IEEE journals, as well as in several refereed international conferences. His teaching and research areas are focused on Computer Networks, MANETs, WSNs, VANETs, Fault Tolerance, Software and Web Engineering. He authored Wireless Sensor Networks: Concepts, Applications, Experimentation and Analysis, book published by Springer, 2016.
Professor Fahmy founded and chaired the IEEE International Conference on Computer Engineering and Systems (ICCES) from 2006-2008 and 2010 -2013. He is a Senior IEEE member, IEEE Region 8 Distinguished Visitor (2013-2015) and (2015-2018), member of the Distinguished Visitor Committee of the IEEE Computer Society. He speaks fluent Arabic, French, and English.
This second book by the author on WSNs focuses on the concepts of energy, and energy harvesting and management techniques. Definitions and terminologies are made clear without leaning on the relaxing assumption that they are already known or easily reachable, the reader is not to be diverted from the main course. Neatly drawn figures assist in viewing and imagining the offered topics. To make energy related topics felt and seen, the adopted technologies as well as their manufacturers are presented in details. With such a depth, this book is intended for a wide audience, it is meant to be helper and motivator, for the senior undergraduates, postgraduates, researchers, and practitioners; concepts and energy related applications are laid out, research and practical issues are backed by appropriate literature, and new trends are put under focus. For senior undergraduate students, it familiarizes with conceptual foundations and practical projects implementations. Also, it is intended for graduate students working on their thesis and in need of specific knowledge on WSNs and the related energy harvesting and management techniques. Moreover, it is targeting researchers and practitioners interested in features and applications of WSNs, and on the available energy harvesting and management projects and testbeds. Exercises at the end of each chapter are not just questions and answers; they are not limited to recapitulate ideas. Their design objective is not bound to be a methodical review of the provided concepts, but rather as a motivator for lot more of searching, finding, and comparing beyond what has been presented in the book.