IoT for smart grids : design challenges and paradigms

This book explains the fundamentals of control theory for Internet of Things (IoT) systems and smart grids and its applications. It discusses the challenges imposed by large-scale systems, and describes the current and future trends and challenges in decision-making for IoT in detail, showing the ongoing industrial and academic research in the field of smart grid domain applications. It presents step-by-step design guidelines for the modeling, design, customisation and calibration of IoT systems applied to smart grids, in which the challenges increase with each system's increasing complexity. It also provides solutions and detailed examples to demonstrate how to use the techniques to overcome these challenges, as well as other problems related to decision-making for successful implementation. Further, it anaylses the features of decision-making, such as low-complexity and fault-tolerance, and uses open-source and publicly available software tools to show readers how they can design, implement and customise their own system control instantiations. This book is a valuable resource for power engineers and researchers, as it addresses the analysis and design of flexible decision-making mechanisms for smart grids. It is also of interest to students on courses related to control of large-scale systems, since it covers the use of state-of-the-art technology with examples and solutions in every chapter. And last but not least, it offers practical advice for professionals working with smart grids.

Part I: Challenges and Design Aspects.- I: Introduction on IoT and Smart-Grid.- II: Challenges on Designing IoT Platforms for Smart-Grid.- III: Modeling and Analysis of Smart-Grid Systems.- IV: Design and Customization of Decision-Making Mechanism.- V: BigData Analytics for Smart-Grid Environment.- Part II: The Smart-Grid Usecase.- I: Rapid Prototyping of IoT Platform.- II: Simulation Environment for IoT Targeting Smart-Grid.