Название: IoT for Smart Grid: Revolutionizing Electrical EngineeringАвтор: Rahiman Zahira, Palanisamy Sivaraman, Chenniappan Sharmeela, Sanjeevikumar Padmanaban
Издательство: Wiley-IEEE Press
Год: 2025
Страниц: 416
Язык: английский
Формат: pdf (true), epub
Размер: 36.9 MB
Expert guidance on technologies to build the Internet of Things (IoT) from electrical engineering and power industry perspectives.
IoT for Smart Grid presents advanced Internet of Things (IoT) technologies that are utilized in various aspects of smart electrical systems, especially monitoring, diagnosis, automation, and industrial evolution, from the point of view of both electrical engineering and power industry facilities and resources.
The book describes how IoT has expanded the use of wireless sensor networks (WSN) to play a vital role in connecting power industry facilities and resources to reduce energy consumption and costs. It also explores concepts of e-mobility that include smart parking, vehicle monitoring, and charging, and considers future challenges such as security and privacy concerns in transactive systems and scalability and standardization issues.
Later chapters describe communication protocols for transactive IoT, smart grid integration, cybersecurity challenges, smart energy management, and more. Relevant examples and practical case studies are included to enrich and reinforce learning.
The Internet of Things (IoT) is a cutting‐edge technique that facilitates interface, communications, and data sharing among IoT devices. In the IoT, the information is transmitted since many sources are gathered for the purpose of creating up‐to‐date decisions and conducting analysis. Developing IoT applications encounters numerous problems, with security being a significant one. The IoT holds the possibility to enhance the overall quality of human existence by offering sophisticated applications that cater to the diverse requirements of humans across various domains, such as commercial, private, and industry. The IoT is constructed using the existing style of cyberspace and integrates mutually the Internet structure and developing engineering. The outcome of this amalgamation facilitates the seamless interconnection of an immense number of embedded systems, resulting in cost‐effective service management, as well as enhanced scalability and flexibility.
The IoT has immense possibilities for creating value and is becoming recognized as the subsequent phase in the extensive digitization of the global economy. A rising phenomenon involves the interconnection of all devices that might benefit from a connection in a smart, energy‐efficient, and profitable method. This revolutionizes the way individuals and companies connect to the physical world and with one other, to impact several aspects of everyday life, with its application domains spanning different sectors like health care, intelligent grids, transportation systems, automation in industry, and agriculture.
The IoT is a technique that involves interconnecting almost all items with intelligence, communication skills, and the ability to sense and act through Internet Protocol (IP) networks. The current state of the Internet has experienced a significant shift, moving away from being primarily driven by physical components such as computers, fibers, and Ethernet connections, to being driven by market forces and opportunities. This phenomenon has occurred as a consequence of the integration of seemingly separate intranets with robust software competences. The IoT requires the use of open environments and a unified architecture consisting of interoperable platforms. Smart products and cyber‐physical systems, commonly referred to as “things,” are the most recent devices of the IoT. Such items are common products that have been improved using microcomputers, optoelectronic and/or radio transceivers, actuators and sensors, and interface stacks. They can gather data from their surroundings, act on that data, and interact with the physical world in environments with limited resources.
Edited by a team of highly qualified professionals in the field, IoT for Smart Grid explores additional topics such as:
MQTT, CoAP, and other protocols in transactive systems and WSN diagnostic tools for ensuring reliability and performance
The role of sensors and actuators in transactive models and significance of transactive IoT in modern applications
Remote control and automation in smart grids, utilizing IoT for demand response programs, load shifting strategies, and dynamic pricing models and IoT integration
IoT for Smart Grid is a definitive reference for identifying and applying advanced technologies and concepts and a highly valuable learning resource for students, researchers, consultants, and utility engineers in the design, use, and maintenance of electrical power systems.
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