This book addresses one of the most overlooked practical, methodological, and moral questions in the journey to secure and handle the massive amount of data being generated from smart devices interactions: the integration of Blockchain with 5G-enabled IoT. After an overview, this book discusses open issues and challenges, which may hinder the growth of Blockchain technology. Then, this book presents a variety of perspectives on the most pressing questions in the field, such as: how IoT can connect billions of objects together; how the access control mechanisms in 5G-enabled industrial…mehr
This book addresses one of the most overlooked practical, methodological, and moral questions in the journey to secure and handle the massive amount of data being generated from smart devices interactions: the integration of Blockchain with 5G-enabled IoT. After an overview, this book discusses open issues and challenges, which may hinder the growth of Blockchain technology. Then, this book presents a variety of perspectives on the most pressing questions in the field, such as: how IoT can connect billions of objects together; how the access control mechanisms in 5G-enabled industrial environment works; how to address the real-time and quality-of-service requirements for industrial applications; and how to ensure scalability and computing efficiency. Also, it includes a detailed discussions on the complexity of adoption of Blockchain for 5G-Enabled IoT and presents comparative case studies with respect to various performance evaluation metrics such as scalability, data management, standardization, interoperability and regulations, accessibility, human-factors engineering and interfaces, reliability, heterogeneity, and QoS requirements. This book acts as a professional guide for the practitioners in information security and related topics.
Sudeep Tanwar is an associate professor in the Computer Science and Engineering Department at the Institute of Technology, Nirma University, Ahmedabad, Gujarat, India. He is visiting Professor in Jan Wyzykowski University in Polkowice, Poland, and University of Pitesti in Pitesti, Romania. He received his B.Tech in 2002 from Kurukshetra University, India, M.Tech (Honors) in 2009 from Guru Gobind Singh Indraprastha University, Delhi, India, and Ph.D. in 2016 with specialization in Wireless Sensor Network. He has authored or coauthored more than 200 technical research papers published in leading journals and conferences from the IEEE, Elsevier, Springer, Wiley, etc. Some of his research findings are published in top-cited journals such as IEEE TNSE, IEEE TVT, IEEE TII, Transactions on Emerging, Telecommunications Technologies, IEEE WCM, IEEE Networks, IEEE Systems Journal, IEEE Access, IET Software, IET Networks, JISA, Computer Communication, Applied Soft Computing, JPDC, JNCA,PMC, SUSCOM, CEE, IJCS, Software: Practice and Experience, MTAP, and Telecommunication System. He has also edited/authored 13 books with national/international publishers like IET and Springer. One of his edited textbooks, Multimedia Big Data Computing for IoT Applications: Concepts, Paradigms, and Solutions, published by Springer in 2019 has been downloaded 3.7 million times until March 13, 2021. This text book attracts attention of researchers across the globe. (https://link.springer.com/book/10.1007/978-981-13-8759-3). He has guided many students leading to M.E./M.Tech and Ph.D. He is currently serving the editorial boards of Physical Communication, Computer Communications, International Journal of Communication System, and Security and Privacy. His current interest includes wireless sensor networks, fog computing, smart grid, IoT, and blockchain technology. He initiated the research field of blockchain technology adoption in various verticals in 2017. He was invited as guest editor/editorial board member of many international journals, as keynote speaker at many international conferences held in Asia and as program chair, publications chair, publicity chair, and session chair at many international conferences held in North America, Europe, Asia, and Africa. He has been awarded best research paper awards from IEEE GLOBECOM 2018, IEEE ICC 2019, and Springer ICRIC-2019. He is a Senior Member of IEEE, CSI, IAENG, ISTE, CSTA, and the member of Technical Committee on Tactile Internet of IEEE Communication Society.
Inhaltsangabe
Introduction.- Introduction of Blockchain and 5G-enabled IoT Devices.- Existing Enabling Technologies and Solutions in 5G-Enabled IoT for Industrial Automation.- The Importance of 5G-Enabled IoT for Industrial Automation.- Background and Research Challenges for 5G-Enabled IoT for Industrial Automation.- Taxonomy and Decentralized Architectures for 5G-Enabled IoT.- Integrating Internet of Everything and Artificial Intelligence with Blockchain based 5G-enabled IoT.- Communication and networking in 5G-enabled IoT.- Advanced data analytics for cloud-integrated in 5G-Enabled IoT.- Machine learning, data mining and big data analytics for 5G-Enabled IoT.- Data Security and Privacy in 5G-Enabled IoT.- Legal/Regulatory issues in Blockchain-based 5G-Enabled IoT Solutions.- Distribution and System Intelligence for 5G-Enabled IoT.- Large-Scale Edge/fog computing-based applications and services for 5G-enabled IoT.- A User Intention modeling for 5G-enabled IoT.- 5G-enabled IoT Platforms, New Architectures, Designs, and Frameworks for Smart Communication.- Ethical, legal, and social issues for Blockchain-based 5G-enabled IoT for Industrial Applications.- Case studies, applications, and prototypes on State-of-the-arts Solutions.- Conclusion.
Introduction.- Introduction of Blockchain and 5G-enabled IoT Devices.- Existing Enabling Technologies and Solutions in 5G-Enabled IoT for Industrial Automation.- The Importance of 5G-Enabled IoT for Industrial Automation.- Background and Research Challenges for 5G-Enabled IoT for Industrial Automation.- Taxonomy and Decentralized Architectures for 5G-Enabled IoT.- Integrating Internet of Everything and Artificial Intelligence with Blockchain based 5G-enabled IoT.- Communication and networking in 5G-enabled IoT.- Advanced data analytics for cloud-integrated in 5G-Enabled IoT.- Machine learning, data mining and big data analytics for 5G-Enabled IoT.- Data Security and Privacy in 5G-Enabled IoT.- Legal/Regulatory issues in Blockchain-based 5G-Enabled IoT Solutions.- Distribution and System Intelligence for 5G-Enabled IoT.- Large-Scale Edge/fog computing-based applications and services for 5G-enabled IoT.- A User Intention modeling for 5G-enabled IoT.- 5G-enabled IoT Platforms, New Architectures, Designs, and Frameworks for Smart Communication.- Ethical, legal, and social issues for Blockchain-based 5G-enabled IoT for Industrial Applications.- Case studies, applications, and prototypes on State-of-the-arts Solutions.- Conclusion.
Introduction.- Introduction of Blockchain and 5G-enabled IoT Devices.- Existing Enabling Technologies and Solutions in 5G-Enabled IoT for Industrial Automation.- The Importance of 5G-Enabled IoT for Industrial Automation.- Background and Research Challenges for 5G-Enabled IoT for Industrial Automation.- Taxonomy and Decentralized Architectures for 5G-Enabled IoT.- Integrating Internet of Everything and Artificial Intelligence with Blockchain based 5G-enabled IoT.- Communication and networking in 5G-enabled IoT.- Advanced data analytics for cloud-integrated in 5G-Enabled IoT.- Machine learning, data mining and big data analytics for 5G-Enabled IoT.- Data Security and Privacy in 5G-Enabled IoT.- Legal/Regulatory issues in Blockchain-based 5G-Enabled IoT Solutions.- Distribution and System Intelligence for 5G-Enabled IoT.- Large-Scale Edge/fog computing-based applications and services for 5G-enabled IoT.- A User Intention modeling for 5G-enabled IoT.- 5G-enabled IoT Platforms, New Architectures, Designs, and Frameworks for Smart Communication.- Ethical, legal, and social issues for Blockchain-based 5G-enabled IoT for Industrial Applications.- Case studies, applications, and prototypes on State-of-the-arts Solutions.- Conclusion.
Introduction.- Introduction of Blockchain and 5G-enabled IoT Devices.- Existing Enabling Technologies and Solutions in 5G-Enabled IoT for Industrial Automation.- The Importance of 5G-Enabled IoT for Industrial Automation.- Background and Research Challenges for 5G-Enabled IoT for Industrial Automation.- Taxonomy and Decentralized Architectures for 5G-Enabled IoT.- Integrating Internet of Everything and Artificial Intelligence with Blockchain based 5G-enabled IoT.- Communication and networking in 5G-enabled IoT.- Advanced data analytics for cloud-integrated in 5G-Enabled IoT.- Machine learning, data mining and big data analytics for 5G-Enabled IoT.- Data Security and Privacy in 5G-Enabled IoT.- Legal/Regulatory issues in Blockchain-based 5G-Enabled IoT Solutions.- Distribution and System Intelligence for 5G-Enabled IoT.- Large-Scale Edge/fog computing-based applications and services for 5G-enabled IoT.- A User Intention modeling for 5G-enabled IoT.- 5G-enabled IoT Platforms, New Architectures, Designs, and Frameworks for Smart Communication.- Ethical, legal, and social issues for Blockchain-based 5G-enabled IoT for Industrial Applications.- Case studies, applications, and prototypes on State-of-the-arts Solutions.- Conclusion.
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