Network Optimization in Intelligent Internet of Things Applications
Chapman & Hall/CRC (Verlag)
978-1-032-52153-4 (ISBN)
Network Optimization in Intelligent Internet of Things Applications: Principles and Challenges sheds light on the optimization methods that form the basis of effective communication between networked devices. It is an excellent resource as it provides readers with a thorough understanding of the methods, ideas, and tactics essential to attaining seamless connectivity and improving performance.
This book presents the fundamental ideas that govern network optimization, from maximizing throughput and lowering latency to handling a variety of communication protocols and minimizing energy use. It also addresses scalability issues, security flaws, and constantly changing IoT environments along with optimization techniques.
This book uses cutting-edge research and real-world examples to give readers the knowledge and skills to address the complex problems associated with network optimization in intelligent IoT applications. It also examines machine learning-driven predictive analytics, robust security protocols, flexible routing algorithms, and the integration of edge computing - all crucial instruments for overcoming obstacles and attaining peak performance.
This book provides a comprehensive understanding of the principles, challenges, and cutting-edge solutions in IoT network optimization for all kinds of readers, whether it is students, academicians, researchers, or industry professionals. This book unleashes the potential of networked smart devices, which can be unleashed in various sectors.
Payal Khurana Batra is working as an Assistant Professor in the Department of Computer Science Engineering and Information Technology at Jaypee Institute of Information Technology. Noida, India. She received her B.Tech in Computer Science and Engineering from Kurukshetra University, Kurukshetra, India, in 2004 and her M.E in Information Technology Degree from Panjab University, Chandigarh, India in 2009. She received her PhD degree from Jaypee Institute of Information Technology, Noida, India, in 2017. She has more than ten years of teaching experience. She has patents to her name in the domain of IoT. She has several publications in international conferences and journals indexed in SCI and Scopus. She is an active researcher in WSNs, IoT, Soft Computing Techniques and Machine Learning. Pawan Singh Mehra (Senior Member, IEEE) is an Assistant Professor at Delhi Technological University, New Delhi. He received his Ph.D. in Computer Engineering from Jamia Millia Islamia and M.Tech (Hons) in Computer Science and Engineering from the Center for Development of Advanced Computing(CDAC). He completed a Bachelor of Engineering from RJIT, Gwalior. He has approx. 14 years of Teaching and Research Experience. He has authored more than 50 publications in International journals and conferences indexed in SCIE, Scopus, ESCI, Web of Science. He is an active reviewer in International Journals indexed in IEEE/ACM Transactions, SCIE & Scopus. He has been awarded the Research Excellence Award in 2022, 2023 and 2024. He is a Senior Member of IEEE, ACM, Fellow of IETE and Life member of CSI and ISTE. He has published two books on the Internet of Things and edited a book for GATE. His research interests include Wireless Sensor Networks, Internet of Things, Quantum Computing and Cryptography, Blockchain, Cryptography and Network security, and Artificial Intelligence. Sudeep Tanwar (Senior Member, IEEE) is working as a Professor in the Computer Science and Engineering Department at the Institute of Technology, Nirma University, India. Dr Tanwar is a visiting Professor at Jan Wyzykowski University in Polkowice, Poland and the University of Pitesti in Pitesti, Romania. Dr Tanwar’s research interests include blockchain technology, wireless sensor networks, fog computing, smart grids, and IoT. He has authored 2 books and edited 13 books and more than 200 technical papers, including top journals and top conferences, such as IEEE TNSE, TVT, TII, WCM, Networks, ICC, GLOBECOM, and INFOCOM. Dr Tanwar initiated the research field of blockchain technology adoption in various verticals in 2017. His h-index is 44. Dr Tanwar actively serves his research communities in multiple roles. He is currently serving in the editorial boards of Physical Communication, Computer Communications, International Journal of Communication System, and Security and Privacy. He has been awarded the best research papers from IEEE GLOBECOM 2018, IEEE ICC 2019, and Springer ICRIC-2019. He has served at many international conferences as a member of organizing committee, such as publication chair for FTNCT-2020, ICCIC 2020, WiMob 2019, member of advisory board for ICACCT-2021, ICACI 2020, workshop co-chair for CIS 2021, and general chair for IC4S 2019, 2020, ICCSDF 2020. Dr Tanwar is a final voting member for the IEEE ComSoc Tactile Internet Committee in 2020. He is a member of IEEE, CSI, IAENG, ISTE, CSTA, and the Technical Committee on Tactile Internet of IEEE Communication Society. He is leading the ST research lab, where group members are working on the latest cutting-edge technologies.
Part 1: Introduction to IoT, Network Objectives and Optimization Techniques. Chapter 1. IoT Networks: Issues, Challenges, & Objectives. Chapter 2. 6G for Intelligent Internet of Things. Chapter 3. A Systematic Study of Intelligent Toll Payment Gateways. Chapter 4. IOT based Health Care System for Early Prediction of Alzheimer's Disease. Chapter 5. Ethical and Social Implications of IOT Integrated Autonomous Vehicles. Part 2. Energy Conservation for Intelligent IoT Networks. Chapter 6. Green Internet of Things. Chapter 7. Network Optimization for Internet of Things (IoT): Techniques and Algorithms. Part 3. Congestion Control and Heterogeneity in Intelligent IoT Network. Chapter 8 Network Optimization on Internet of Medical Things. Part 4. Scalability, Reliability and QoS in Intelligent IoT Network. Chapter 9. Scalable IoT Architecture and Services: Challenges and Opportunities in IoT Enabled Healthcare Monitoring Frameworks. Chapter 10. A Study on Intrusion Detection System for RPL Protocol Attacks in Internet of Things. Part 5. Security and Privacy in Intelligent IoT Network. Chapter 11. Lightweight Cryptography Algorithms, Authorization and Authentication Techniques in IoT. Chapter 12. Deep Learning Techniques for IoT Security: A Comprehensive Review and Future Directions. Chapter 13. An Empirical Study of the Concept Drift Driven Machine Learning for IOT Network Anomaly Detection. Chapter 14. Internet of Things (IoT) Security Using Blockchain. Chapter 15. Secure Communication and Authentication in IoT-based UAV Networks. Chapter 16. A Comprehensive IoT Security Framework Using Edge Computing: Approaches and Challenges. Chapter 17. Edge Computing Based Design for IOT Security. Chapter 18. Wi-Fi Jammer, A Threat to IoT Networks: Experimental Perspective.
Erscheinungsdatum | 22.08.2024 |
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Zusatzinfo | 36 Tables, black and white; 62 Line drawings, black and white; 62 Illustrations, black and white |
Sprache | englisch |
Maße | 156 x 234 mm |
Gewicht | 802 g |
Themenwelt | Mathematik / Informatik ► Informatik ► Datenbanken |
Mathematik / Informatik ► Informatik ► Software Entwicklung | |
Informatik ► Theorie / Studium ► Künstliche Intelligenz / Robotik | |
Recht / Steuern ► Privatrecht / Bürgerliches Recht ► IT-Recht | |
ISBN-10 | 1-032-52153-8 / 1032521538 |
ISBN-13 | 978-1-032-52153-4 / 9781032521534 |
Zustand | Neuware |
Informationen gemäß Produktsicherheitsverordnung (GPSR) | |
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