Internet Of Things Principles
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Internet of Things Principles
Author: Dr.S.Murugesan
language: en
Publisher: Leilani Katie Publication
Release Date: 2024-05-16
Dr.S.Murugesan, Associate Professor, Department of Computer Science and Engineering, R.M. D. Engineering College, Kavaraipettai, Tiruvallur, Tamil Nadu, India. Venkata Satish Dhulipudi, Assistant Professor, Department of Electrical and Communication Engineering, Bonam Venkata Chalamayya Institute of Technology and Science, Amalapuram, Andhra Pradesh, India. Pechetti Girish, Assistant Professor, Bonam Venkata Chalamayya Institute of Technology and Science, Amalapuram, Andhra Pradesh, India. V.Prasanna Laxmi, Associate Professor, Department of Electrical and Communication Engineering, Bonam Venkata Chalamayya Institute of Technology and Science, Amalapuram, Andhra Pradesh, India.
Principles of Internet of Things (IoT) Ecosystem: Insight Paradigm
This book discusses the evolution of future-generation technologies through the Internet of things, bringing together all the related technologies on a single platform to offer valuable insights for undergraduate and postgraduate students, researchers, academics and industry practitioners. The book uses data, network engineering and intelligent decision- support system-by-design principles to design a reliable IoT-enabled ecosystem and to implement cyber-physical pervasive infrastructure solutions. It takes readers on a journey that begins with understanding the insight paradigm of IoT-enabled technologies and how it can be applied. It walks readers through engaging with real-time challenges and building a safe infrastructure for IoT-based, future-generation technologies. The book helps researchers and practitioners to understand the design architecture through IoT and the state of the art in IoT countermeasures. It also highlights the differences between heterogeneous platforms in IoT-enabled infrastructure and traditional ad hoc or infrastructural networks, and provides a comprehensive discussion on functional frameworks for IoT, object identification, IoT domain model, RFID technology, wearable sensors, WBAN, IoT semantics, knowledge extraction, and security and privacy issues in IoT-based ecosystems. Written by leading international experts, it explores IoT-enabled insight paradigms, which are utilized for the future benefit of humans. It also includes references to numerous works. Divided into stand-alone chapters, this highly readable book is intended for specialists, researchers, graduate students, designers, experts, and engineers involved in research on healthcare-related issues.
Internet of Things (IoT): Principles and Applications in Engineering
Since the introduction of the Internet by ARPANET forty years ago, the word "Internet" has come to refer to the large category of applications and protocols that are constructed on top of complex and linked computer networks. These networks provide services to billions of users all over the globe in a manner that is available around the clock. Indeed, we are at the beginning of a new age in which ubiquitous communication and connection are no longer a fantasy or a problem. This era is only starting to emerge. Following this, the emphasis has switched toward a seamless integration of people and gadgets in order to combine the physical world with virtual environments that have been created by humans, so building the so-called Internet of Things (IoT) utopia. An examination of this phenomena in further detail shows two essential pillars of the Internet of Things: "Internet" and "Things," both of which need further elaboration. This notation is used to encompass a more general set of entities, such as smart devices, sensors, human beings, and any other object that is aware of its context and is able to communicate with other entities, making it accessible at anytime and anywhere. Although it may appear that every object that is capable of connecting to the Internet will fall into the "Things" category, this notation is used to encompass a more general set of entities. This suggests that there should be no constraints placed on the accessibility of the items, either in terms of time or location. One of the most important requirements of the Internet of Things is ubiquitous connectivity. In order to meet this requirement, applications need to be able to support a wide variety of devices and communication protocols. These devices range from small sensors that are able to detect and report a desired factor to powerful back-end servers that are used for data analysis and knowledge extraction. In order to do this, it is necessary to include mobile devices, edge devices such as routers and smart hubs, and human controllers into the system.