Mihovska / Tseng / Lien | The Road to B5G/6G Mobile Communication Networks: Technologies and Applications | Buch | 978-87-438-0109-2 | sack.de

Buch, Englisch, 300 Seiten, Format (B × H): 156 mm x 234 mm

Reihe: River Publishers Series in Communications and Networking

Mihovska / Tseng / Lien

The Road to B5G/6G Mobile Communication Networks: Technologies and Applications


1. Auflage 2025
ISBN: 978-87-438-0109-2
Verlag: River Publishers

Buch, Englisch, 300 Seiten, Format (B × H): 156 mm x 234 mm

Reihe: River Publishers Series in Communications and Networking

ISBN: 978-87-438-0109-2
Verlag: River Publishers

This book provides essential resources for industry, academia, and research professionals for understanding the potential evolving roadmap of Beyond 5G (B5G) and 6G technologies and their diverse applications.

In the critical era of the evolution of the 5G mobile communication networks, wireless mobile communication technologies have already pivoted toward the next stages: Beyond 5G (B5G) and the upcoming Sixth Generation (6G). This book is an insightful collection that explores cutting-edge technologies and applications guiding the paths toward B5G and 6G mobile communication networks. Divided into two parts, Technologies and Applications, the book covers a broad spectrum of advancements or the future of mobile systems.

The focus of Part I: Technologies and advanced techniques to B5G/6G is AI-enhanced language learning applications and the use of graph convolutional networks for channel and power allocation in device-to-device communication. It also explores machine learning methods for beam selection and unsupervised learning approaches in mobile network management. Topics such as frequency resource allocation in satellite communication, high-frequency mmWave analysis using clustering methods, and deep learning for network traffic prediction are highlighted. Furthermore, innovative concepts like area sweep coverage, hardware implementations for signal processing, and centralized radio access networks (C-RAN) are discussed, providing a glimpse into future dynamic radio resource allocation schemes.

Part II: Applications addresses emerging trends such as quantum machine learning and the transformative potential of the Tactile Internet in enhancing healing and self-actualization. It also explores real-time system communication efficiencies, showcasing the practical impacts of these advancements.

Mihovska / Tseng / Lien The Road to B5G/6G Mobile Communication Networks: Technologies and Applications jetzt bestellen!

Zielgruppe

Academic, Postgraduate, and Professional Practice & Development

Autoren/Hrsg.

Mihovska, Albena
Tseng, Chih-Cheng
Lien, Shao-Yu

Fachgebiete

Weitere Infos & Material

Part I: Technologies

1. Opportunities and Limitations of Dialogue-based Foreign Language Learning AI Applications

2. A Graph Convolutional Network for Channel and Power Allocation in Device-to-device Communication

3. A Two-stage Beam Selection Method using Machine Learning and a Peak Finding Algorithm

4. A Smart Trouble Ticket Management Approach for Mobile Networks Using Unsupervised Learning

5. A Q-learning Algorithm-based Frequency Resource Allocation for User Links in High Throughput Satellite Communication

6. K-medoids and BIRCH Clustering Methods for Analyzing 6G High MmWave Bands

7. Network Traffic Data Prediction using Deep Learning

8. Area Sweep Coverage: A Trade-off between Tour Length and Memory Requirements

9. Hardware Implementation of a Direction of Arrival Estimation Algorithm using LU Decomposition

10. Centralized Radio Access Network (C-RAN) Architecture for 5G using Front haul (FH) and Backhaul (BH) Networks

11. A Dynamic Radio Resource Allocation Scheme for the B5G Mobile Systems Evaluated on the B5G/IoT Testbed with High Reliability and High Elasticity

Part II: Applications

12. Quantum Machine Learning – The Need of Time

13. Unlocking Inner Potential: Tactile Internet's Impact on Healing and Self-actualization

14. Efficient Communication,for Real-time Systems

Chih-Cheng Tseng received his Ph.D. degree from the Graduate Institute of Communications Engineering, National Taiwan University, Taipei, Taiwan, Republic of China. He is currently a full professor at the Department of Computer Science and Engineering, National Taiwan Ocean University, Taiwan. He has been actively involved in professional activities, e.g., serving as the Operations Co-Chair of IEEE GLOBECOM 2025, TPC Co-Chair of WPMC 2023 and 2024, and Sponsorship Co-Chair of IEEE GLOBECOM 2020. He is currently serving as the associate editor of the international journals, IET Electronic Letters (SCI) and Journal of Mobile Multimedia. He also served as the associate editor of Physical Communications (SCI) and the guest editor of SCI journals such as the International Journal of Sensor Networks, Wireless Personal Communications, and Wireless Communications and Mobile Computing. His research interests include the design and performance evaluation of next-generation mobile communication technologies and O-RAN-based intelligent designs.

Albena Mihovska received her Ph.D. degree in electrical engineering from Aalborg University, Aalborg, Denmark, in 2008. She has a strong academic research track record of more than 20 years, with positions as an Associate Professor with Aalborg University, Denmark, until 2017, and later with Aarhus University, Denmark, until 2023. Currently, she is a CTO with SmartAvatar BV, The Netherlands, and the 6G Research Director with CTIF Global Capsule (CGC) Foundation, Skagen, Denmark, of which she is a Founding Board Member. Her research interests include 6G connectivity solutions for applications across vertical market segments. She is an IEEE R8 Standards Coordination Committee Member and an ITU-T Focus Group on Metaverse (FGMV) Expert. Since 2011 she has been active within ITU-T standardization. She serves on the Steering and Organizing Committees of several prominent IEEE events. She is the WG3 Vice-Chair of the One6G Association (https://one6g.org) and a Board Member of EUROMERSIVE (https://euromersive.eu).

Shao-Yu Lien received his Ph.D degree from the Institute of Communication Engineering, National Taiwan University. He is now an associate professor of the Institute of Intelligent Systems, National Yang Ming Chiao Tung University (NYCU), Taiwan. Dr. Lien has also been a technical director of Institute for Information Industry (III), Taiwan since 2020. Before NYCU, Dr. Lien was also an associate professor of the Department of Computer Science and Information Engineering, National Chung Cheng University (CCU), Taiwan. Dr. Lien has received a number of prestigious research recognitions, including IEEE ICC 2010 Best Paper Award, IEEE Communications Society Asia-Pacific Outstanding Paper Award 2014, WPMC 2022 Best Paper Award, IEEE PIMRC 2023 Best Student Paper Award, IEEE APWiMob 2023 Best Paper Award. Dr. Lien was also a World’s Top 2% Researcher in 2020–2024. He also served as the guest editor of IEEE Transactions on Cognitive Communications and Networking (TCCN), IEEE Transactions on Vehicular Technology (TVT), IEEE Transactions on Green Communications and Networking (TGCN), and Wireless Communications and Mobile Computing (WCMC). Dr. Lien has also served as one of the leading organizers of a number of technical workshops in IEEE VTC-Spring 2015, IEEE GLOBECOM 2015, Qshine 2015 and 2016, IEEE PIMRC 2017, IEEE GLOBECOM 2019, and IEEE ICC 2020. He has been a 3GPP standardization delegate since 2009 for LTE, LTE-A, LTE Pro, 5G NR, and 5G-advanced and, in this role, he has contributed more than 70 technical documents and patents. Dr. Lien’s research interests include AI/ML computing, 6G mobile networks, and robotic networks.

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