This edited volume presents cutting-edge research and practical insights into the development of sustainable, energy-efficient, and intelligent wireless communication systems for the next generation of digital connectivity.
This edited volume presents cutting-edge research and practical insights into the development of sustainable, energy-efficient, and intelligent wireless communication systems for the next generation of digital connectivity. Integrating perspectives from academia, research, and industry, it explores topics ranging from energy harvesting, edge computing, and AI-driven network optimization to eco-friendly device manufacturing, dynamic spectrum sharing, and zero-carbon connectivity.
The book also addresses the social, environmental, and policy implications of sustainable communication technologies while highlighting how green wireless infrastructures, cognitive radio systems, and low-power IoT designs can drive both technological innovation and environmental responsibility.
Designed for researchers, engineers, and policymakers, this comprehensive reference provides a roadmap toward climate-conscious communication networks and serves as a guide for achieving green transformation in 6G, IoT, and future intelligent wireless systems.
1. AI-Driven Paradigms In 6G: Transforming Connectivity and
Communication
2. Energy Harvesting Techniques for Low-Powered IoT and WSN
Devices
3. Integration of Wireless Communication in Urban Planning for
Sustainability
4. Privacy-Preserving and Energy-Efficient Algorithm for
Secure and Sustainable Green Wireless Networks
5. Statistical and Deep
Learning Model for Volatility Forecasting of Bitcoin in Real-Time in 6G
Network
6. The Integrating of AI with Emotional Intelligence
7. IoT-Based
Intelligent Waste Management for Sustainable Smart Cities
8. Next Generation
Materials for Sustainable Wireless Devices: Recyclable Materials and
Eco-Friendly Processes in Antenna Production
9. Energy-Efficient FinFET-Based
SRAM Design for Sustainable High-Speed Communication in Next-Generation IoT
and IoBNT Devices
10. Digital Divide Through Eco-Friendly Communication
Technologies
11. Cognitive Radio and Dynamic Spectrum Sharing for
Sustainability
12. Edge Computing and Machine Learning Integration in 6G
Wireless Network
13. Social Impacts of Sustainable Wireless Technologies
14.
Energy-Efficiency Wireless Networks and Strategies for Reducing Energy
Consumption in Wireless Infrastructure
15. Towards Zero-Carbon Connectivity:
Sustainable Solutions for Future Wireless Systems
16. Low Power Device Design
for IoT Networks Sustainable Design Principles for IoT Devices
Indu Bala, PhD, is a professor in the School of Electrical and Electronics Engineering (SEEE) at Lovely Professional University, Phagwara, Punjab, India. She has published more than 70 papers in various national/ international conferences and journals. She has contributed more than 30 book chapters in various books from renowned publishers. Her research interest includes cognitive radio networks, unmanned aerial vehicles, energy harvesting, resource management for next- generation communication networks, optical communication, etc.
Ghanshyam Singh has received PhD in electronics engineering from the Indian Institute of Technology, Banaras Hindu University (IIT- BHU), Varanasi, India, in 2000. Currently, he is working as a professor of electrical and electronic engineering science, and director of the Centre for Smart Information and Communication Systems, Department of Electrical and Electronic Engineering Science, University of Johannesburg, South Africa. He was a visiting researcher at the Seoul National University, Seoul, South Korea. He has worked as a professor in the Department of Electronics and Communication Engineering, Jaypee University of Information Technology, Wakanaghat, Solan, India. He is an author/ co- author of more than 400 scientific research papers of peer reviewed journals and international conferences. He is a senior member of IEEE. His research and teaching interests include a broad range of spectrum (RF/ microwave, millimeter/ THz wave, free- space optics and visible light) technologies with its emerging applications including next- generation communication systems (5G/ 6G), sensing, sustainable smart city, Industry 4.0/ 5.0, healthcare 4.0/ 5.0, intelligent transport system, energy management (IoE), and digital farming. He has more than 25 years of teaching and research experience from academia and research and development institutions. He has supervised various doctoral theses and masters dissertations. He has executed several sponsored research projects of ISRO (Indian Space Research Organisation), DRDO (Defence Research and Development Organisation) and currently working on 5G enabling technology localization research project sponsored by SENTECH SoC, South Africa. He is the author of several books and book chapters published by well- known publishers.
Suman Lata Tripathi is working as a professor in Symbiosis International University, Pune, Maharashtra, with more than 21 years of experience in academics and research. She has completed her PhD in microelectronics and VLSI design from MNNIT, Allahabad, India. She did her MTech in electronics engineering from UP Technical University, Lucknow, and BTech in electrical engineering from Purvanchal University, Jaunpur, India. She is also a remote post- doc researcher at Nottingham Trent University, London, UK, in the year 2022. She has published more than 102 research papers in refereed science journals, conference proceedings, and e- books. She holds 13 Indian patents and four copyrights.
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