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Networks of the Future: Architectures, Technologies, and Implementations [Kõva köide]

Edited by (Western Sydney University, Penrith, New South Wales, Australia), Edited by (Western Sydney University, Penrith, New South Wales, Australia), Edited by
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With the ubiquitous diffusion of the IoT, Cloud Computing, 5G and other evolved wireless technologies into our daily lives, the world will see the Internet of the future expand ever more quickly. Driving the progress of communications and connectivity are mobile and wireless technologies, including traditional WLANs technologies and low, ultra-power, short and long-range technologies. These technologies facilitate the communication among the growing number of connected devices, leading to the generation of huge volumes of data. Processing and analysis of such "big data" brings about many opportunities, as well as many challenges, such as those relating to efficient power consumptions, security, privacy, management, and quality of service. This book is about the technologies, opportunities and challenges that can drive and shape the networks of the future.

Written by established international researchers and experts, Networks of the Future answers fundamental and pressing research challenges in the field, including architectural shifts, concepts, mitigation solutions and techniques, and key technologies in the areas of networking. The book starts with a discussion on Cognitive Radio (CR) technologies as promising solutions for improving spectrum utilization, and also highlights the advances in CR spectrum sensing techniques and resource management methods.

The second part of the book presents the latest developments and research in the areas of 5G technologies and Software Defined Networks (SDN). Solutions to the most pressing challenges facing the adoption of 5G technologies are also covered, and the new paradigm known as Fog Computing is examined in the context of 5G networks.

The focus next shifts to efficient solutions for future heterogeneous networks. It consists of a collection of chapters that discuss self-healing solutions, dealing with Network Virtualization, QoS in heterogeneous networks, and energy efficient techniques for Passive Optical Networks and Wireless Sensor Networks. Finally, the areas of IoT and Big Data are discussed, including the latest developments and future perspectives of Big Data and the IoT paradigms.
Preface xi
Acknowledgments xiii
Reviewers xv
Editors xvii
Contributors xix
PART I Cognitive Radio Networks
Chapter 1 Cognitive Radio with Spectrum Sensing for Future Networks
3(22)
Nabil Giweli
Seyed Shahrestani
Hon Cheung
Chapter 2 Cognitive Radio and Spectrum Sensing
25(18)
Daniel Malafaia
Jose Vieira
Ana Tome
Chapter 3 Machine Learning Techniques for Wideband Spectrum Sensing in Cognitive Radio Networks
43(26)
Sufi Tabassum Gul
Asad Ullah Omer
Abdul Majid
Chapter 4 Resource Management Techniques in Licensed Shared Access Networks
69(20)
M. Majid Butt
Jasmina McMenamy
Arman Farhang
Irene Macaluso
Carlo Galiotto
Nicola Marchetti
PART II 5G Technologies and Software-Defined Networks
Chapter 5 Software-Defined Network Security: Breaks and Obstacles
89(12)
Ahmed Dawoud
Seyed Shahristani
Chun Raun
Chapter 6 Fog Computing Mechanisms in 5G Mobile Networks
101(26)
Stojan Kitanov
Toni Janevski
Chapter 7 Lightweight Cryptography in 5G Machine-Type Communication
127(18)
Husnu Yildiz
Adnan Kilic
Ertan Onur
Chapter 8 Index Modulation: A Promising Technique for 5G and Beyond Wireless Networks
145(22)
Ertugrul Basar
Chapter 9 Seamless and Secure Communication for 5G Subscribers in 5G-WLAN Heterogeneous Networks
167(18)
Amit Kumar
Hari Om
Chapter 10 Simulators, Testbeds, and Prototypes of 5G Mobile Networking Architectures
185(18)
Shahram Mollahasan
Alperen Eroglu
Omer Yamac
Ertan Onur
PART III Efficient Solutions for Future Heterogenous Networks
Chapter 11 A Fuzzy Logic-Based QoS Evaluation Method for Heterogeneous Networks
203(40)
Farnaz Farid
Seyed Shahrestani
Chun Ruan
Chapter 12 Network Virtualization for Next-Generation Computing and Communication Infrastructures: Scalable Mapping Algorithm and Self-Healing Solution
243(34)
Qiang Yang
Chapter 13 Maximizing the Lifetime of Wireless Sensor Networks by Optimal Network Design
277(24)
Keqin Li
Chapter 14 Bandwidth Allocation Scheme with QoS Provisioning for Heterogeneous Optical and Wireless Networks
301(18)
Siti H. Mohammad
Nadiatulhuda Zulkifli
Sevia Mahdaliza Idrus
Arnidza Ramli
Chapter 15 Energy Conservation Techniques for Passive Optical Networks
319(20)
Rizwan Aslam Butt
Sevia Mahdaliza Idrus
Nadiatulhuda Zulkifli
Chapter 16 Energy Efficiency in Wireless Body Sensor Networks
339(16)
Ali Hassan Sodhro
Giancarlo Fortino
Sandeep Pirbhulal
Mir Muhammad Lodro
Madad Ali Shah
Chapter 17 Efficient Modulation Schemes for Visible Light Communication Systems
355(22)
Navera Karim Memon
Fahim A. Umrani
PART IV Big Data and the Internet of Things
Chapter 18 A Data Aware Scheme for Scheduling Big Data Applications with SAVANNA Hadoop
377(16)
K. Hemant Kumar Reddy
Himansu Das
Diptendu Sinha Roy
Chapter 19 Big Data Computing Using Cloud-Based Technologies: Challenges and Future Perspectives
393(22)
Samiya Khan
Kashish A. Shakil
Mansaf Alam
Chapter 20 A Multidimensional Sensitivity-Based Anonymization Method of Big Data
415(16)
Mohammed Al-Zobbi
Seyed Shahrestani
Chun Ruan
Chapter 21 A Quick Perspective on the Current State of IoT Security: A Survey
431(34)
Musa G. Samaila
Joao B. F. Sequeiros
Acacio F. P. P. Correia
Mario M. Freire
Pedro R. M. Inacio
Chapter 22 A Semidistributed Metaheuristic Algorithm for Collaborative Beamforming in the Internet of Things
465(16)
Suhanya Jayaprakasam
Sharul Kamal Abdul Rahim
Chee Yen Leow
Index 481
Dr. Mahmoud Elkhodr completed his Ph.D. degree in Information and Communication technologies at Western Sydney University (Western), Australia. Mahmoud has been awarded the International Postgraduate Research Scholarship (IPRS) and Australian Postgraduate Award (APA) in 2012-2015. He has been awarded the High Achieving Graduate Award twice in 2010 and 2012. Mahmoud has authored several journal articles and book chapters and presented at prestigious conference venues. He is currently editing two books on Future Networks and 5G technologies to be published in 2017. His research interests include: Internet of Things, e-health, Human Computer- Interactions, Security and Privacy.









Dr. Qusay F. Hassan is an independent researcher and a technology evangelist with 15 years of professional experience in ICT. He is currently a systems analyst at the United States Agency for International Development in Cairo, Egypt, where he deals with large-scale and complex systems. Dr. Hassan has received his BS, MS, and Ph.D. from Mansoura University, Egypt in computer science and information systems in 2003, 2008, and 2015, respectively. His research interests are varied which include IoT, SOA, high- performance computing, cloud computing and grid computing. Dr. Hassan has authored and co-authored a number of journal and conference papers as well as book chapters. He also published a book lately: Applications in Next-Generation High Performance Computing (published in 2016 by IGI Global), and he is currently editing two new books on the Internet of Things to be published in 2017. Dr. Hassan is an IEEE senior member, and a member of the editorial board of a number of associations









Dr. Seyed Shahrestani completed his PhD degree in Electrical and Information Engineering at the University of Sydney. He joined Western Sydney University (Western) in 1999, where he is currently a Senior Lecturer. He is also the head of the Networking, Security and Cloud Research (NSCR) group at Western. His main teaching and research interests include networking, management and security of networked systems, artificial intelligence applications, health ICT, IoT and smart environments. He is also highly active in higher degree research training supervision, with successful results.