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Author:   Arvind Panwar (Galgotias University, India) ,  Vishal Jain (Vivekananda Institute of Professional Studies¿ Technical Campus, India) ,  Urvashi Sugandh (Galgotias University, India; Chitkara University, India) ,  Vinay Kukreja (Chitkara University, India)
Publisher:   John Wiley & Sons Inc
Imprint:   Wiley-Scrivener
ISBN:  

9781394314720

ISBN 10:   1394314728
Pages:   768
Publication Date:   24 April 2026
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Out of stock  
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Table of Contents

Preface xxvii Part 1: Fundamentals and Architecture 1 1 Understanding the Energy-Efficiency Paradigm in Modern WSN-IoT Integration Fundamental Concepts 3 Urvashi Sugandh, Achin Jain, Sunita Yadav, Neha Sharma, Arvind Panwar and Vishal Jain 1.1 Introduction 4 1.2 Fundamental Concepts of WSN-IoT Integration 6 1.3 Energy Consumption Patterns 12 1.4 Core Challenges in Energy-Efficient WSN-IoT Systems 15 1.5 Modern Energy-Efficiency Techniques 18 1.6 Implementation Considerations 21 1.7 Future Directions and Emerging Solutions 23 1.8 Conclusion 26 2 Energy Efficient WSN in IoT: Introduction 33 Seema Malik, R.K. Yadav, Birendra Saraswat and Ambuj Kumar 2.1 Wireless Sensor Network 33 2.2 Various Types of WSN 36 2.3 Structure of WSN 38 2.4 Network Topologies of WSN 44 2.5 Routing in WSN 46 2.6 Clustering in WSN 50 2.7 Mobile Sink Based WSN 54 2.8 Coverage in WSN 55 2.9 QoS Parameters in WSN 57 2.10 Applications of WSN 57 2.11 Conclusion and Future Scopes 60 3 Energy-Efficient Architectures and Protocols in Internet of Things (IoT)-Based Wireless Sensor Networks 67 Ipseeta Satpathy, Arpita Nayak and Vishal Jain 3.1 Introduction 68 3.2 Research Questions 71 3.3 Research Objectives 71 3.4 Energy Efficient Protocols 72 3.5 Energy Harvesting Techniques for Wireless Sensor Network (WSN) 75 3.6 Optimizing Sensor Node Design for Energy Efficiency in Wireless Sensor Networks 79 3.7 The Ideal Data Handling for Energy Efficiency in Wireless Sensor Networks 83 4 Enhancing Energy Efficiency in IoT Via Cellular Network Integration 91 Manoj Singh Adhikari, Ritika Gupta, Dharm Raj, Anil Kumar Sagar, Danish Ather and Amrit Kumar Agrawal 4.1 Introduction 92 4.2 Cellular Network 93 4.3 Internet of Things 96 4.4 Integration of Cellular Network with IoT Technology 107 4.5 Security and Privacy in Cellular IoT 111 4.6 Recent Advancement 119 4.7 Future Direction 123 4.8 Conclusion 124 5 Green IoT Sustainable Energy Solutions for WSNs (Wireless Sensor Networks) 135 Sanchita Ghosh, Piyal Roy, Amitava Podder, Saptarshi Kumar Sarkar and Bitan Roy 5.1 Introduction 136 5.2 Overview of Wireless Sensor Networks (WSNs) 138 5.3 Green IoT: Concept and Principles 141 5.4 Sustainable Energy Solutions for WSNs 145 5.5 Integration of Green IoT and Sustainable Energy in WSNs 148 5.6 Challenges and Future Directions 150 5.7 Conclusion 153 6 A Comprehensive Review of Wireless Communication Standards for Smart Grid 157 L. Chhaya 6.1 Introduction 158 6.2 Wireless Communication Standards for Smart Grid 159 6.3 Comparison and Applications of Different Standards 181 6.4 Conclusions 184 Part 2: Energy-Efficient Protocols and Techniques 187 7 Edge Computing for Energy Efficient IoT 189 Sheetal Agarwal and Rupal Gupta 7.1 Introduction 189 7.2 IoT 192 7.3 Cloud Computing 203 7.4 Edge Computing 207 7.5 Challenges in Traditional IoT Architectures 210 7.6 Edge Computing for Energy Efficient IoT 211 7.7 Future Directions 212 7.8 Conclusion 213 8 Energy-Aware Routing Protocols in IoT-Based WSN 217 Shikha Verma and Vimal Dwivedi 8.1 Introduction 217 8.2 Characteristics and Challenges of Routing Protocols in IoT-Based WSN 219 8.3 Designing Challenges for WSNs Routing Protocols 219 8.4 Different Routing Protocols in IoT-Based WSN 221 8.5 Comparative Study of Four Prominent IoT-Based WSN Protocols 229 8.6 Conclusion 232 9 Energy Aware Routing Protocols in IoT Based Wireless Sensor Networks (WSN) 235 Sonia Singh and Neha Gupta 9.1 Introduction 236 9.2 Traditional Approaches of Energy-Aware Routing Protocols 237 9.3 Categories of Energy-Aware Routing Protocols 239 9.4 A Brief Comparison of Energy-Efficient Routing Protocols 251 9.5 Strategies for Optimizing Energy Utilization 256 9.6 Impact of IoT-Specific Characteristics 258 9.7 Challenges in IoT Deployments 260 9.8 Suitability for Diverse IoT Applications 262 9.9 Performance Metrics for Routing Protocols 264 9.10 Emerging Trends and Future Directions 266 9.11 Conclusion 267 9.12 Future Research Opportunities 268 10 Cross-Layer Optimization Employing Energy Efficient Routing Protocols in WSN 273 Lina Elmoiz Alatabani, Rashid A. Saeed and Elmustafa Sayed Ali 10.1 Introduction 274 10.2 Related Work 276 10.3 WSN Architecture and Constraints 278 10.4 Energy Efficient Routing Protocols 284 10.5 Cross-Layer Framework Application in WSN 290 10.6 Optimization Techniques for Energy Efficiency 296 10.7 Case Studies and Real-World Applications 302 10.8 Future Trends and Research Directions 312 10.9 Conclusion 314 11 Adaptive Blast Radius Optimization for Energy-Efficient Routing in Wireless Sensor Networks and IoT 319 J. Viji Gripsy, L. Sheeba, M. Sasikala and Bobby Lukose 11.1 Introduction 319 11.2 Literature Review 324 11.3 Proposed Methodology 327 11.4 Results and Discussion 332 11.5 Conclusion and Future Enhancement 335 12 An Energy-Efficient Load Distribution Clustering (EELDC) Algorithm Improves the Energy Efficiency of IoT‑Based Wireless Sensor Networks 341 G. Indra Navaroj, E. Golden Julie, S. Jerine Peter and A. Ananthakumari 12.1 Introduction 342 12.2 Related Works 344 12.3 Proposed Method 348 12.4 Results 355 12.5 Conclusion 356 13 Enhance the Security Protocols of Wireless Sensor Network Using an Ant-Based Approach 359 Renu Jangra and Ramesh Kait 13.1 Introduction 360 13.2 Literature Survey 361 13.3 Attacks in Wireless Sensor Network 364 13.4 Security Challenges 365 13.5 Securing Wireless Sensor Networks 366 13.6 Cryptography 367 13.7 Proposed Algorithm Flowchart 370 13.8 Experimental Results 371 13.9 Summary 375 Part 3: Applications and Integration 379 14 IoT Integrated Wireless Network in Medical and Healthcare Sectors 381 Rakesh Kumar Dhaka, Sampurna Panda, Babita Panda and Naeem Hannoon 14.1 Introduction 382 14.2 Why Use Wireless Networks in Healthcare Applications 383 14.3 Who Stands to Gain 383 14.4 Obstacles & Problems Along the Way 384 14.5 Utilized Wireless Networking Technologies 386 14.6 Standards 388 14.7 The Role of Applications in Research 389 14.8 Commercial Utilizations 392 14.9 LifeSync Wireless ECG System 392 14.10 Radio and Modules for Embedded Wireless Device Servers 392 14.11 Directions of the Future 394 14.12 Summarization 396 15 Integrating Big Data Analytics and IoT Technologies for Enhanced Industrial Efficiency: A Comprehensive Mapping Study 401 Muhammad Younus, Halimah Abdul Manaf, Achmad Nurmandi, Dyah Mutiarin, Andi Luhur Prianto, Imron Sohsan, Bambang Irawan, Zuly Qodir, Rijal Ramdani, Bilveer Singh and Dimas Zulkarnain Rosadi 15.1 Introduction 402 15.2 Literature Review 404 15.3 Research Method 414 15.4 Results and Discussion 415 15.5 Conclusion 425 16 Energy Efficient Internet of Things and Wireless Sensor Networks in Smart Agriculture 429 N. Suthanthira Vanitha, G. Sudha, J. Gowrishankar, K. Radhika, A. Kalaiyarasan and S. Grace Infantiya 16.1 Introduction 430 16.2 Architecture of WSN and IoT in Smart Agriculture 431 16.3 IoT-WSNs Technologies 435 16.4 WSN-IoT Communication Protocol Methods 439 16.5 Applications of IoT and WSNs in Smart Agriculture 440 16.6 Challenges of IoT-WSNs in Smart Agriculture 444 16.7 Future Prospects 446 16.8 Conclusion 446 17 Enhancing Energy-Efficient Wireless Sensor Network Techniques with Internet of Things (IoT) Using Artificial Intelligence 453 Dina Darwish and Kali Charan Rath 17.1 Introduction 454 17.2 IoT's Role in WSN 456 17.3 WSN's Challenges in the IoT 458 17.4 Energy Efficient Wireless Sensor Network Techniques with Internet of Things (IoT) 460 17.5 IoT and Associated Future Technology 465 17.6 Conclusion 468 18 Machine Learning for Energy Prediction in Wireless Sensor Networks (WSN) 473 Shilpi Gupta, R. Girija, Namita Kathpal, Savita Kumari and Vimlesh Singh 18.1 Introduction 474 18.2 About ML and Its Techniques 476 18.3 Methodology 485 18.4 Research Issues and Solutions 488 18.5 Conclusion and Future Scope 490 19 Integrated Machine Learning and Reinforcement Learning Framework for Optimizing Performance in Wireless Sensor Networks 497 J. Angel Ida Chellam, Harshini Manoharan, R. Shijitha and J. Mythili 19.1 Introduction 498 19.2 Literature Review 499 19.3 Machine Learning for Energy Prediction 501 19.4 Key Applications of RL in WSNs 510 19.5 Common RL Techniques in WSNs 513 19.6 Integrated Machine Learning and Reinforcement Learning Framework for Optimized Wireless Sensor Networks 515 19.7 Results and Discussion 517 19.8 Conclusion 523 20 Architectural Framework for Blockchain-Based Energy Management in Wireless Sensors Networks 527 Urvashi Sugandh, Achin Jain, Arvind Panwar, Sunita Yadav, Chandan Pal Singh and Kuldeep Singh Kaswan 20.1 Introduction 528 20.2 Background Concepts 530 20.3 Energy Management Challenges in WSNs 538 20.4 Blockchain Integration in WSN Architecture 541 20.5 Energy Management Framework 544 20.6 Future Directions and Challenges 547 20.7 Conclusion 549 Part 4: Challenges and Advanced Solutions 557 21 Analysis of Security Challenges in Next-Generation Wireless Networks 559 Vivek Yadav, Manju Khari, Kapil Kumar, Intekhab Alam and Ayush Verma 21.1 Introduction 560 21.2 Wireless Network Evolution 560 21.3 Literature Review 563 21.4 Architecture Analysis 565 21.5 Analysis of 4G Architecture 566 21.6 5G Architecture Analysis 568 21.7 Speculative Insights into 6G Architecture 569 21.8 Attack and Threats on 4G Networks 571 21.9 Attacks and Threats on 5G Networks 571 21.10 Speculative Insights into Attacks and Threats on 6G Networks 572 21.11 Application of 4G Wireless Network 577 21.12 Application of 5G Wireless Network 577 21.13 Speculative Application of 6G Wireless Network 578 21.14 Conclusive Outcomes of 4G, 5G, and 6G Network Technology 578 21.15 Conclusion 586 21.16 Future Scope 587 22 Energy Efficient Harvesting Technologies for Wireless Sensor Networks: An Overview 591 N. Suthanthira Vanitha, M. Shenbagapriya, A. Karthikeyan, S. Valarmathy, K. Radhika and D. Anbuselvi 22.1 Introduction 592 22.2 Energy Harvesting Sources 593 22.3 Energy Harvesting Techniques 594 22.4 Energy Storage Systems (ESS) 599 22.5 Architectures of Energy Harvesting 600 22.6 Challeges and Further Prospects 602 22.7 Conclusion 603 23 Energy Challenges in IoT-Based Wireless Sensor Network Deployment: Perspectives and Solutions 607 Neha Sharma, Arvind Panwar, Urvashi Sugandh, Rakesh Sharma and Chandan Pal Singh 23.1 Introduction 608 23.2 Energy Consumption Patterns in Sensor Nodes 609 23.3 Energy Harvesting Techniques 611 23.4 Energy-Efficient Communication Protocols 612 23.5 Cross-Layer Optimization for Energy Efficiency 615 23.6 Emerging Paradigms for Energy-Efficient WSN Deployment 616 23.7 Future Research Directions 619 23.8 Conclusion 621 24 Unveiling Energy Harvesting Solutions for Enhanced Wireless Sensor Network Efficiency 627 G. Gnana Priya, K. Balasubadra and K. Mumtaj Begam 24.1 Introduction 628 24.2 Overview of RF-EHNs 630 24.3 Applications of RF EH WSNs 647 24.4 Conclusion 648 25 Promoting Sustainability: Energy Harvesting Strategies That Enhance the Long-Term Viability of Internet-of-Things–Based Wireless Sensor Networks 653 Ankita Nayak, Ipseeta Satpathy and Vishal Jain 25.1 Introduction 654 25.2 Invigorating IoT: Sensor Networks' Use of Energy Harvesting Technologies 656 25.3 Combating Challenges and Capitalizing on Opportunities in IoT Energy Harvesting 659 25.4 Sustainable Sensor Networks: Essential Design Fundamentals for Energy Consuming Internet-of-Things Devices 660 25.5 Considering Efficiency: Advances in Energy Management for Internet-of-Things Networks 662 25.6 Obtaining Ecological and Financial Footprints: Examining the Effects of Sustainable Internet of Things and Standard Compliances 663 25.7 Determining the Trail for Future IoT Innovations 666 25.8 Conclusion 668 26 Security Considerations in Energy-Efficient Wireless Sensor Networks 673 Nikhil Kumar Goyal, Monika Dandotiya, Monika Kumari, Vinita Kushwah and A. Anushya 26.1 Introduction 674 26.2 Energy-Efficient Cryptographic Algorithms and Security in WSN 681 26.3 Detection System for WSNs 685 26.4 Authentication Protocol for Users in WSNs 687 26.5 Routing Protocols for Wireless Sensor Networks 690 26.6 Regulatory and Compliance Considerations in Wireless Sensor Network 693 26.7 Applications of Wireless Sensor Network 697 26.8 Conclusion 700 27 Energy Challenges in IoT-Based WSN Deployment 705 Sonal Laad, Hari Narayan Shukla, Tushar Chaurasia, Richa Patel, Akhilesh Panchal and Nasser S. Albalawi 27.1 Introduction 706 27.2 Literature Study of the Existing Research 708 27.3 Methodology of Bit-Mapping MAC for MWSN (BMMMWSN) and Contention-Based Hybrid MAC for MWSN (CBHM-MWSN) 714 27.4 Discussion 717 27.5 Conclusion 717 References 718 Index 731

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Arvind Panwar, PhD is an Associate Professor in the School of Computing Science and Engineering at Galgotias University, India with more than ten years of teaching experience. He has published more than 20 research papers in international journals and conferences and five Indian patents, one of which has been granted. His areas of interest include blockchain technology, distributed ledger technology, data science, machine learning, data mining, and network security. Vishal Jain, PhD is a Professor in the Department of Computer Science and Engineering in the School of Engineering and Technology at Vivekananda Institute of Professional Studies’ Technical Campus, India. He has published more than 250 research papers in professional journals and conferences and more than 70 books and edited ten book series. His research areas include machine learning, information retrieval, semantic web, ontology engineering, data mining, ad hoc networks, sensor networks, and network security. Urvashi Sugandh, PhD is an Assistant Professor at Galgotias University and a Professor at Chitkara University, India with more than 12 years of research and teaching experience. She has published seven journal articles, ten conference papers, 11 book chapters, edited two books, and 11 patents, six of which have been granted. Her expertise spans blockchain technology, cybersecurity, and Internet of Things applications. Vinay Kukreja, PhD is a Professor and the Director of Research in the Office of Research Publications at Chitkara University, India with more than 18 years of experience. He has published more than 600 articles, three books, four edited volumes, and 50 patents. His research interests encompass machine learning, deep learning, agile software development, image processing, data analysis, and structural equation modeling.

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