Chapter
2.1.1 Naming and Addressing
2.1.2 Device Discovery and Network Discovery
2.1.3 Content and Service Access
2.1.5 Security and Privacy
2.2 Machine-to-Machine: IoT as of Today
2.4 Multi-Disciplinary Applications
2.4.1 Smart Personal Network (PN)
2.4.3 Smart Healthcare andWellness
2.4.4 Smart Transportation
2.4.5 Smart Energy and a Better Environment
2.4.6 Smart Manufacturing and Logistics
Chapter 3 - Experimental Activities to Support Future Space-based High Throughput Communication Infrastructures
3.1 Introduction and Motivations
3.2 Description of Q/V-Band Satellite Communication Experimental Activities and First Results
3.3 Expected Impacts and Conclusions
Chapter 4 - High-Capacity Ground-, Air-, and Space-based ICT Networks for Communications, Navigation, and Sensing Services in 2030
4.2 Toward Future Integrated Services
4.2.1 Potential Scenarios
4.2.1.1 e-Health and well-being
4.2.1.3 Mobility for smart city
4.2.1.4 Entertainment and culture
4.2.2 Requirements for Integrated Communications, Navigation, and Sensing Services
4.3 Baseline System Architecture and Enabling Technologies
4.3.1 Baseline Architecture
4.3.2 Enabling Technologies
4.3.2.1 5G systems and SatCom
4.3.2.2 Cooperative/assisted localization and UWB
4.3.2.3 Wireless sensors networks
4.3.2.4 Visible light communications
4.4 New Paradigms and Challenges
4.4.5 Specific Security and Privacy Mechanisms
Chapter 5 - Organizing International ICT Research for Multidisciplinary Applications
5.1.1 Evolution of ICT Research
5.1.2 Influence of the ICT Evolution on the 5G Concept
5.1.3 Internet of Things (IoT) and M2M
5.1.5 Cybersecurity Challenges
5.2.1 Problem-based Learning
5.3 ICT and Standardization
5.3.1 Academia and Standardization
Chapter 6 - Convergence of Secure Vehicular Ad Hoc Network and Cloud in Internet of Things
6.1.1 Introduction to VANET
6.1.2 Characteristics of VANETs
6.2.1 Advantages of Cloud Computing
6.2.2 Cloud Computing Architecture
6.2.3 Cloud Business Model
6.3 Vehicular Cloud Computing
6.4 Convergence of VANET and CLOUD
6.4.2 Assumptions and Network Model
6.4.3 Block Schematic of Communication between VANET and Cloud
6.4.3.2 Compression phase
6.4.3.4 Decompression phase
6.6 Simulation and Result Analysis
Chapter 7 - Heterodox Networks: An Innovative and Alternate Approach to Future Wireless Communications
7.3 Self-Configurable Intelligent Distributed Antenna System
7.3.2 SCIDAS Architectural Components
7.3.3 Understanding SCIDAS
7.3.4 SCIDAS in Handing PTC
7.4 Hovering ad hoc Network (HANET)
7.4.2 Why to Deploy HANET for PTC?
7.4.3 HANET Network Architecture
7.5 Heterodox Network: Cascaded SCIDAS–HANETArchitecture
Chapter 8 - Network Neutrality for CONASENSE Innovation Era
8.1.3 Innovative Services
8.2 The Network Neutrality
8.2.4 Current Discussion on NN
8.2.4.1 Service innovation
8.2.4.2 The investment on the network infrastructure
8.2.4.3 The management of Internet traffic by Internet Service Providers and what constitutes reasonable traffic management
8.4 Network Neutrality Impact on CONASENSE Innovation
Chapter 9 - CONASENSE at Nanoscale: Possibilities and Challenges
9.2 Communication at the Nanoscale
9.3 Sensing at the Nanoscale
9.4 Navigation at the Nanoscale
9.5 Possible Applications of CONASENSE at Nanoscale
Role of ICT for Multi-Disciplinary Applications in 2030
( River Publishers Series in Communications )
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