Apple Academic Press

Electronics and Communications Technology

AAP Advances in Materials, Manufacturing and Computational Intelligence Techniques

Modern Approaches for Design and Analysis of Electronic Devices for Wireless Applications
Editors: Mridul Gupta, PhD
Kaushal Kumar, PhD
Nishu Gupta, PhD
Arun Prakash, PhD

In Production
Pub Date: Forthcoming May 2027
Hardback Price: $200 USD | £150 UK
Hard ISBN: 9781779648594
E-Book ISBN: 978-1-77964-860-0
Pages: 385 est pp w index
Binding Type: Hardback / ebook
Series: AAP Advances in Materials, Manufacturing and Computational Intelligence Techniques
Notes: 18 color and 109 b/w illustrations

The rapid evolution of electronics and communication technologies is redefining how modern wireless systems are designed, optimized, and deployed. This new volume, Modern Approaches for Design and Analysis of Electronic Devices for Wireless Applications, presents a comprehensive and forward-looking exploration of this dynamic landscape, bringing together cutting-edge research across nanoelectronics, memory architectures, wireless communication, and AI-driven technologies.

At its core, the volume bridges foundational principles with advanced methodologies, offering a cohesive understanding of how emerging device architectures and intelligent systems are shaping next-generation wireless applications. It examines innovations in semiconductor design, including heterojunction-based TFETs and enhanced DRAM architectures, demonstrating how material engineering and circuit optimization can significantly improve performance, scalability, and energy efficiency. These developments are complemented by advanced computational techniques, such as multiverse optimization, which enable precision-driven solutions in complex electronic systems.

The book further expands into the domain of wireless communication, highlighting the transformative potential of mmWave technologies, network slicing, cognitive radio systems, and RFID-enabled smart networks. Together, these approaches illustrate the shift toward ultra-dense, adaptive, and high-speed communication infrastructures essential for 5G and beyond. Emphasis is also placed on energy-efficient communication strategies and antenna design, underscoring the need for sustainable and high-performance wireless systems.

A defining strength of this volume lies in its integration of artificial intelligence and machine learning. From predictive maintenance and system health monitoring to precision agriculture and intelligent spectrum sensing, AI-driven approaches are shown to enhance reliability, optimize resource utilization, and reduce environmental impact. This interdisciplinary perspective highlights how data-driven innovation is accelerating the transition toward smarter, greener, and more resilient electronic ecosystems.

Key Features
• Explores advanced device architectures, including TFETs and optimized memory systems
• Highlights mmWave technologies, network slicing, and next-generation wireless frameworks
• Examines AI- and ML-driven approaches for system optimization and sustainability
• Demonstrates energy-efficient communication and smart network design strategies
• Integrates applications across IoT, precision agriculture, and predictive maintenance
• Presents emerging trends in spectrum sensing and cognitive radio networks

By combining theoretical insights with practical applications, this book serves as both a foundational reference and a catalyst for innovation. It provides researchers, engineers, and students with a roadmap for advancing high-speed, energy-efficient, and intelligent wireless systems in an increasingly connected world.

CONTENTS:
Preface

PART 1: ADVANCED DEVICE ARCHITECTURES AND CIRCUIT DESIGN

1. Enhanced Performance of Dual-Material Gate Heterojunction Junctionless TFETs Using Si1-xGex/InGaAs and HfO2/SiO2 for High-Speed Applications
Kaushal Kumar, Challa Harshavardhan Reddy, Ajay Kumar, Vinay Kumar, Aditya Jain, Neha Gupta, Nitin Arora, and Subhash Chander Sharma

2. 3T DRAM Cell Enhancement Using TG and Implementation of Adder Circuit Using DRAM Cell Architecture
Kaushal Kumar, Abhay Tyagi, Ajay Kumar, Vinay Kumar, Aditya Jain, Neha Gupta, Nitin Arora, and Subhash Chander Sharma

3. Multiverse Optimization-Based Fractional Order Differentiator for Various Electronics Applications
Shalabh Kumar Mishra, Om Prakash Goswami, Nawnit Kumar, and Hendra Yufit Riskiawan

PART 2: 5G AND WIRELESS COMMUNICATION TECHNOLOGIES

4. mmWave-Enabled Network Slicing for Ultra-Dense 5G Deployment
Deepak Upadhyay, Nookala Venu, Mridul Gupta, Mohammad Derawi, and Srinivas Kiran Gottapu

5. Optimized Slicing in mmWave 5G Networks
Deepak Upadhyay, Nookala Venu, Mridul Gupta, Ahmad Hoirul Basori, and Manuel J. Cabral S. Reis

6. Computational Intelligence-Based Analysis of Cognitive Radio for Wireless Connectivity
Pankaj Verma, Sakshi Saxena, Aditi, Bhoomika Gupta, and Xiao-Zhi Gao

7. RFID Technology for Smart Wireless Networks
Chandni Bajaj

8. Energy-Efficient Techniques for Wireless Communication Traffic Systems
Jyoti Kandpal, Anamika Lata, and Jose David Diaz-Roman

9. Exploring the Design of Antennas and Impedance Matching Network with Experiential Learning
Pallaviram Sure, Pruthvi Raj M., Darshan B. V., Varsha V., and Soundarya D. L.

10. Transformative Role of AI and Machine Learning in Building Greener Electronic and Wireless Systems
Sneha Salunke, Vanita Kshirsagar, Digvijay Bhosale, Shubhangi Suryawanshi, Jyotsna Barpute, and Satyajeet Gaikwad

PART 3: ARTIFICIAL INTELLIGENCE AND MACHINE LEARNING FOR ELECTRONICS AND WIRELESS SYSTEMS

11. Digital Harvest: A Comprehensive Guide to Integrating Electronic Devices for Precision Crop Monitoring and Analysis Using Machine Learning
Preeti Yadav, Vinay Rishiwal, Seema Giri, and Mano Yadav

12. Machine Learning Algorithms for Prognostics and Health Monitoring in Electronic Systems: A Comprehensive Overview
Tushar Shikhola and Neha Gupta

13. A Perspective on Harnessing Insights Using Pre-Trained Models for Intelligent Health Monitoring in Electronic Systems
Pooja Yadav, Hemant Yadav, Pankaj Yadav, and S. C. Sharma

PART 4: EMERGING TRENDS AND APPLICATIONS
14. Spectrum Sensing Techniques for Cognitive Radio Networks and Its Applications for the Next-Generation Wireless Communications
Chhagan Charan, Gaurav Verma, and Pankaj Verma

Index

About the Authors / Editors:
Editors: Mridul Gupta, PhD
Associate Professor, Department of Electronics and Communication Engineering, Graphic Era (Deemed to be University), Dehradun, India

Mridul Gupta, PhD, is an Associate Professor at Graphic Era (Deemed to be University), India, with more than 14 years of teaching and research experience. He has published over 70 research articles in peer-reviewed international journals and Scopus-indexed conference proceedings and holds three granted Indian patents. Dr. Gupta has served as a reviewer for leading journals, including IEEE Transactions on Microwave Theory and Techniques, IET Microwaves, Antennas & Propagation, Electronics Letters, and Microwave and Optical Technology Letters (Wiley). He has edited a book with CRC Press/Taylor & Francis and serves as convenor of the IEEE International Conference on Device Intelligence, Computing and Communication Technologies (DICCT). His research interests include digital signal processing, optimization techniques, fractional-order circuits, and microwave engineering. He earned his BTech from Uttarakhand Technical University, MTech from Motilal Nehru National Institute of Technology, Allahabad, and PhD from Netaji Subhas Institute of Technology, University of Delhi, India.

Kaushal Kumar, PhD
Associate Professor, Department of Electronics and Communication Engineering, Graphic Era (Deemed to be University), Dehradun, India

Kaushal Kumar, PhD, is an Associate Professor in the Department of Electronics and Communication Engineering at Graphic Era (Deemed to be University), Dehradun, India. He has over 14 years of teaching experience, specializing in nanoscale electronic devices. His research focuses on MOSFETs, TFETs, and junctionless TFETs, with emphasis on device modeling and performance optimization. Dr. Kumar has published more than 40 research papers in refereed international journals, including Silicon, AEU–International Journal of Electronics and Communications, Applied Physics A, and Microelectronics Journal. He is a recipient of a best paper award at an IEEE conference and has been nominated for the Research Excellence Award (2024). He actively reviews manuscripts for international journals and conferences. His work contributes to advancements in microelectronics and energy-efficient device design. He earned his PhD from the Indian Institute of Technology, Roorkee, and MTech from the National Institute of Technology, Kurukshetra, India.

Nishu Gupta, PhD
Research Scientist, VTT Technical Research Centre of Finland Ltd, Oulu, Finland

Nishu Gupta, PhD, is a Research Scientist at the VTT Technical Research Centre of Finland, with extensive international research experience across Europe and the Middle East. He has held postdoctoral and research positions at the Norwegian University of Science and Technology (NTNU), University of Fribourg, and King Abdulaziz University, and is also a visiting researcher at the University of Oviedo, Spain. Dr. Gupta is a senior member of IEEE and contributes to national initiatives as a member of the Zero Trust Architecture working group under Ministry of Electronics and Information Technology (MeitY), Government of India. His research interests include IoT, 5G/6G technologies, dynamic spectrum sensing, intelligent transportation systems, and edge computing. He earned his PhD in Electronics and Communication Engineering from Motilal Nehru National Institute of Technology, Allahabad, India.

Arun Prakash, PhD
Professor, Department of Electronics and Communication Engineering, Motilal Nehru National Institute of Technology (MNNIT), Allahabad, India

Arun Prakash, PhD, is a Professor at the Motilal Nehru National Institute of Technology (MNNIT), Allahabad, India. With extensive experience in teaching and research in wireless communication systems, he has published more than 100 research papers in international journals and conferences, co-authored two books, and contributed to several book chapters. Dr. Prakash has supervised PhD scholars and has completed research projects on vehicular communication and IoT. He holds two patents and one copyright and has served as Associate Editor of IEEE Access and Guest Editor for MONET (Springer). His research interests include ad hoc networks, vehicular communication, IoT, and cognitive radio networks. He earned his PhD from MNNIT Allahabad and was a Visiting Research Scholar at the University of Waterloo, Canada.

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