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Role of ICT for Multi-Disciplinary Applications in 2030.
The theme of this book is Role of ICT for multi-disciplinary applications in 2030, which is absolutely appropriate to explore with regard to the CONASENSE vision of looking at services utilizing the Communications, Navigation, Sensing and Services (CONASENSE) paradigm in a period of 20-50 years from...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Aalborg :
River Publishers,
2016.
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| Colección: | River Publishers series in communications.
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| Temas: | |
| Acceso en línea: | Texto completo |
MARC
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| 100 | 1 | |a Ligthart, L. P. | |
| 245 | 1 | 0 | |a Role of ICT for Multi-Disciplinary Applications in 2030. |
| 260 | |a Aalborg : |b River Publishers, |c 2016. | ||
| 300 | |a 1 online resource (223 pages) | ||
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| 490 | 1 | |a River Publishers Series in Communications | |
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| 505 | 0 | |a Cover -- Half Title Page -- Role of ICT for Multi-Disciplinary Applications in 2030 -- River Publishers Series in Communications -- Title Page -- Role of ICT for Multi-Disciplinary Applications in 2030 -- Copyright Page -- Contents -- Foreword -- List of Figures -- List of Tables -- Chapter 1 -- Multi-Disciplinary Applications of Wireless Sensor Networks: Challenges and Research Directions -- 1.1 Introduction -- 1.2 Multi-Disciplinary Applications of WSNs -- 1.3 Distributed Beamforming for WSNs -- 1.4 Cognitive Radio for WSNs -- 1.5 Joint Sensing and Communication in One Technology for WSNs -- 1.6 Physical Layer Security of WSNs -- 1.7 Wavelet Technology for Context Aware and Reconfigurable WSNs -- 1.8 Conclusion -- References -- Chapter 2 -- Multi-Disciplinary Applications Requiring Advanced IoT and M2M -- 2.1 Introduction -- 2.1.1 Naming and Addressing -- 2.1.2 Device Discovery and Network Discovery -- 2.1.3 Content and Service Access -- 2.1.4 Communication -- 2.1.5 Security and Privacy -- 2.2 Machine-to-Machine: IoT as of Today -- 2.3 Moving to IoT -- 2.3.1 Networking -- 2.3.2 Computing -- 2.4 Multi-Disciplinary Applications -- 2.4.1 Smart Personal Network (PN) -- 2.4.2 Smart Retail -- 2.4.3 Smart Healthcare and Wellness -- 2.4.4 Smart Transportation -- 2.4.5 Smart Energy and a Better Environment -- 2.4.6 Smart Manufacturing and Logistics -- 2.5 Conclusions -- References -- 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 -- References -- Chapter 4 -- High-Capacity Ground-, Air-, and Space-based ICT Networks for Communications, Navigation, and Sensing Services in 2030 -- 4.1 Introduction. | |
| 505 | 8 | |a 4.2 Toward Future Integrated Services -- 4.2.1 Potential Scenarios -- 4.2.1.1 e-Health and well-being -- 4.2.1.2 Public safety -- 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 -- 4.4.1 SDN/NFV Paradigm -- 4.4.2 Cognitive Paradigm -- 4.4.3 Social Paradigm -- 4.4.4 HBC Paradigm -- 4.4.5 Specific Security and Privacy Mechanisms -- 4.5 Conclusions -- References -- Chapter 5 -- Organizing International ICT Research for Multidisciplinary Applications -- 5.1 Introduction -- 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 -- 5.1.4 The Power of ICT -- 5.1.5 Cybersecurity Challenges -- 5.2 Role of Academia -- 5.2.1 Problem-based Learning -- 5.3 ICT and Standardization -- 5.3.1 Academia and Standardization -- 5.4 Conclusions -- References -- Chapter 6 -- Convergence of Secure Vehicular Ad Hoc Network and Cloud in Internet of Things -- 6.1 Overview -- 6.1.1 Introduction to VANET -- 6.1.2 Characteristics of VANETs -- 6.2 Cloud Computing -- 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 -- 6.4.1 Data Compression -- 6.4.2 Assumptions and Network Model -- 6.4.3 Block Schematic of Communication between VANET and Cloud -- 6.4.3.1 Encryption phase -- 6.4.3.2 Compression phase -- 6.4.3.3 Cloud -- 6.4.3.4 Decompression phase. | |
| 505 | 8 | |a 6.4.3.5 Decryption phase -- 6.6 Simulation and Result Analysis -- 6.7 Conclusions -- References -- Chapter 7 -- Heterodox Networks: An Innovative and Alternate Approach to Future Wireless Communications -- 7.1 Introduction -- 7.2 Concept of PTC -- 7.3 Self-Configurable Intelligent Distributed Antenna System -- 7.3.1 Background -- 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) -- 7.4.1 Background -- 7.4.2 Why to Deploy HANET for PTC? -- 7.4.3 HANET Network Architecture -- 7.5 Heterodox Network: Cascaded SCIDAS-HANETArchitecture -- 7.6 Conclusion -- References -- Chapter 8 -- Network Neutrality for CONASENSE Innovation Era -- 8.1 Introduction -- 8.1.1 Network Neutrality -- 8.1.2 CONASENSE [3] -- 8.1.3 Innovative Services -- 8.2 The Network Neutrality -- 8.2.1 The Concept of NN -- 8.2.2 NN's Principles -- 8.2.3 History of NN -- 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 -- 8.3 CONASENSE -- 8.4 Network Neutrality Impact on CONASENSE Innovation -- 8.5 Conclusions -- References -- Chapter 9 -- CONASENSE at Nanoscale: Possibilities and Challenges -- 9.1 Introduction -- 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 -- 9.6 Major Challenges -- 9.7 Conclusion -- References -- Index. | |
| 520 | |a The theme of this book is Role of ICT for multi-disciplinary applications in 2030, which is absolutely appropriate to explore with regard to the CONASENSE vision of looking at services utilizing the Communications, Navigation, Sensing and Services (CONASENSE) paradigm in a period of 20-50 years from now. The vision of CONASENSE society is to bring about active integration of the three worlds of communications, navigation and local/remote sensing - that have been apart for years require a multidisciplinary approach. This 4th Communication, Navigation, Sensing and Services (CONASENSE) book brings together in contributions from another society, namely, Global ICT Standardization Forum for India (GISFI).Technical topics discussed in the book include: Wireless Sensor Networks Advanced IoT and M2M Future Space Communications Infrastructure ICT Networks for CONASENSE in 2030 International ICT Research Secure Vehicular Ad-Hoc Networks Heterodox Networks CONASENSE Innovation Era CONASENSE at NanoscaleThus the book provides a rich and interesting coverage of diverse aspects concerning multi-disciplinary applications. | ||
| 545 | 0 | |a Leo Ligthart, Ramjee Prasad | |
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