The Tactile Internet
Herausgegeben:Ali-Yahiya, Tara; Monnet, Wrya
The Tactile Internet
Herausgegeben:Ali-Yahiya, Tara; Monnet, Wrya
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The Tactile Internet will change the landscape of communication by introducing a new paradigm that enables the remote delivery of haptic data.
This book answers the many questions surrounding the Tactile Internet, including its reference architecture and adapted compression methods for conveying haptic information. It also describes the key enablers for deploying the applications of the Tactile Internet.
As an antecedent technology, the IoT is tackled, explaining the differences and similarities between the Tactile Internet, the Internet of Things and the Internet of Everything. The…mehr
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The Tactile Internet will change the landscape of communication by introducing a new paradigm that enables the remote delivery of haptic data.
This book answers the many questions surrounding the Tactile Internet, including its reference architecture and adapted compression methods for conveying haptic information. It also describes the key enablers for deploying the applications of the Tactile Internet.
As an antecedent technology, the IoT is tackled, explaining the differences and similarities between the Tactile Internet, the Internet of Things and the Internet of Everything. The essentials of teleoperation systems are summarized and the challenges that face this paradigm in its implementation and deployment are also discussed.
Finally, a teleoperation case study demonstrating an application of the Tactile Internet is investigated to demonstrate its functionalities, architecture and performance.
This book answers the many questions surrounding the Tactile Internet, including its reference architecture and adapted compression methods for conveying haptic information. It also describes the key enablers for deploying the applications of the Tactile Internet.
As an antecedent technology, the IoT is tackled, explaining the differences and similarities between the Tactile Internet, the Internet of Things and the Internet of Everything. The essentials of teleoperation systems are summarized and the challenges that face this paradigm in its implementation and deployment are also discussed.
Finally, a teleoperation case study demonstrating an application of the Tactile Internet is investigated to demonstrate its functionalities, architecture and performance.
Produktdetails
- Produktdetails
- Verlag: Wiley & Sons / Wiley-ISTE
- Artikelnr. des Verlages: 1W789450200
- 1. Auflage
- Seitenzahl: 256
- Erscheinungstermin: 6. Januar 2022
- Englisch
- Abmessung: 240mm x 161mm x 18mm
- Gewicht: 506g
- ISBN-13: 9781789450200
- ISBN-10: 1789450209
- Artikelnr.: 62884184
- Verlag: Wiley & Sons / Wiley-ISTE
- Artikelnr. des Verlages: 1W789450200
- 1. Auflage
- Seitenzahl: 256
- Erscheinungstermin: 6. Januar 2022
- Englisch
- Abmessung: 240mm x 161mm x 18mm
- Gewicht: 506g
- ISBN-13: 9781789450200
- ISBN-10: 1789450209
- Artikelnr.: 62884184
Tara Ali-Yahiya is Associate Professor at Paris-Saclay University, France. She is deputy head of the Networking & Stochastic and Combinatorial Optimization Team at LISN Laboratory. She has an HDR, PhD and MSc in Telecommunications and was a post-doctoral researcher at Telecom SudParis. Wrya Monnet is a faculty member of the CSE department at the University of Kurdistan Hewler, Iraq. He has 23 years of experience in industry and academia and has done post-doctoral research at Telecom SudParis, France. He worked as an R&D and embedded software engineer for 10 years.
Foreword xi
Ian F. AKYILDIZ
Preface xiii
Tara ALI-YAHIYA and Wrya MONNET
List of Acronyms xv
Chapter 1. Introduction to Tactile Internet 1
Tara ALI-YAHIYA
1.1. Human perception and Tactile Internet 2
1.2. The roadmap towards Tactile Internet 3
1.3. What is Tactile Internet? 5
1.4.Cyber-Physical Systems and TI 7
1.4.1.Physical world 7
1.4.2. Internet of Things 7
1.4.3.Communication 7
1.4.4.Storage and computation 8
1.4.5.Feedback 8
1.4.6.Smart computing 10
1.5.References 11
Chapter 2. Reference Architecture of the Tactile Internet 13
Tara ALI-YAHIYA
2.1. Tactile Internet system architecture 13
2.2. IEEE 1918.1 use cases 15
2.2.1.Teleoperation 16
2.2.2.Automotive 17
2.2.3. Immersive virtual reality (IVR) 17
2.2.4. Internet of drones 18
2.2.5. Interpersonal communication 18
2.2.6.Live haptic-enabled broadcast 19
2.2.7. Cooperative automated driving 19
2.3.Conclusion 20
2.4.References 20
Chapter 3. Tactile Internet Key Enablers 21
Tara ALI-YAHIYA
3.1. Introduction 21
3.1.1. The fifth-generation system architecture 21
3.1.2.Network slicing 23
3.1.3.Network function virtualization 25
3.1.4.Software-definednetworking 26
3.1.5.Edge computing 27
3.1.6. Artificial intelligence 29
3.2.Conclusion 31
3.3.References 31
Chapter 4. 6G for Tactile Internet 35
Pinar KIRCI and Tara ALI-YAHIYA
4.1. Introduction 35
4.2.The architecture of 6G 37
4.2.1.Network performance of 6G 38
4.2.2.Space network 39
4.2.3.Air network 40
4.2.4. Ground network 40
4.2.5.Underwater network 41
4.3. 6G channel measurements and characteristics 41
4.3.1.Optical wireless channel 41
4.3.2. Unmanned aerial vehicle (UAV) channel 42
4.3.3.Underwater acoustic channel 43
4.3.4. Satellite channel 43
4.3.5.RF and terahertz networks in 6G 45
4.3.6. Visible light communication technology 48
4.3.7. Orbital angular momentum technology 48
4.4.6Gcellular Internet of Things 49
4.5. Energy self-sustainability (ESS) in 6G 50
4.6. IoT-integrated ultra smart city life 52
4.7.AI-enabled6Gnetworks 55
4.8. AI- and ML-based security management in super IoT 59
4.9.Security for6G 60
4.10. The WEAFMnecosystem(water, earth, air, fire micro/nano ecosystem) with 6G and Tactile Internet 61
4.11.References 63
Chapter 5. IoT, IoE and Tactile Internet 65
Wrya MONNET
5.1.From M2M to IoT 66
5.2. Classification of remote monitoring and control systems 66
5.3. IoT-enabling technologies 67
5.3.1. IoT hardware 67
5.3.2. IoT software 67
5.3.3. IoT connectivity 67
5.4. Architectural design and interfaces 68
5.5. IoT communication protocols 71
5.5.1. Message Queuing Telemetry Transport (MQTT) 72
5.5.2. Constrained Application Protocol (CoAP) 74
5.5.3. Data Distribution Service for real-time systems (DDS) 76
5.5.4. Open Mobile Alliance Device Management (OMA-DM) 79
5.6. Internet of Everything(IoE) 80
5.6.1. Enabling technologies for the IoE 81
5.7. Protocol comparisons and the readiness for TI 82
5.8. TI-IoT models and challenges 83
5.9.Edge computing in the IoT 85
5.9.1.Edge computing
Ian F. AKYILDIZ
Preface xiii
Tara ALI-YAHIYA and Wrya MONNET
List of Acronyms xv
Chapter 1. Introduction to Tactile Internet 1
Tara ALI-YAHIYA
1.1. Human perception and Tactile Internet 2
1.2. The roadmap towards Tactile Internet 3
1.3. What is Tactile Internet? 5
1.4.Cyber-Physical Systems and TI 7
1.4.1.Physical world 7
1.4.2. Internet of Things 7
1.4.3.Communication 7
1.4.4.Storage and computation 8
1.4.5.Feedback 8
1.4.6.Smart computing 10
1.5.References 11
Chapter 2. Reference Architecture of the Tactile Internet 13
Tara ALI-YAHIYA
2.1. Tactile Internet system architecture 13
2.2. IEEE 1918.1 use cases 15
2.2.1.Teleoperation 16
2.2.2.Automotive 17
2.2.3. Immersive virtual reality (IVR) 17
2.2.4. Internet of drones 18
2.2.5. Interpersonal communication 18
2.2.6.Live haptic-enabled broadcast 19
2.2.7. Cooperative automated driving 19
2.3.Conclusion 20
2.4.References 20
Chapter 3. Tactile Internet Key Enablers 21
Tara ALI-YAHIYA
3.1. Introduction 21
3.1.1. The fifth-generation system architecture 21
3.1.2.Network slicing 23
3.1.3.Network function virtualization 25
3.1.4.Software-definednetworking 26
3.1.5.Edge computing 27
3.1.6. Artificial intelligence 29
3.2.Conclusion 31
3.3.References 31
Chapter 4. 6G for Tactile Internet 35
Pinar KIRCI and Tara ALI-YAHIYA
4.1. Introduction 35
4.2.The architecture of 6G 37
4.2.1.Network performance of 6G 38
4.2.2.Space network 39
4.2.3.Air network 40
4.2.4. Ground network 40
4.2.5.Underwater network 41
4.3. 6G channel measurements and characteristics 41
4.3.1.Optical wireless channel 41
4.3.2. Unmanned aerial vehicle (UAV) channel 42
4.3.3.Underwater acoustic channel 43
4.3.4. Satellite channel 43
4.3.5.RF and terahertz networks in 6G 45
4.3.6. Visible light communication technology 48
4.3.7. Orbital angular momentum technology 48
4.4.6Gcellular Internet of Things 49
4.5. Energy self-sustainability (ESS) in 6G 50
4.6. IoT-integrated ultra smart city life 52
4.7.AI-enabled6Gnetworks 55
4.8. AI- and ML-based security management in super IoT 59
4.9.Security for6G 60
4.10. The WEAFMnecosystem(water, earth, air, fire micro/nano ecosystem) with 6G and Tactile Internet 61
4.11.References 63
Chapter 5. IoT, IoE and Tactile Internet 65
Wrya MONNET
5.1.From M2M to IoT 66
5.2. Classification of remote monitoring and control systems 66
5.3. IoT-enabling technologies 67
5.3.1. IoT hardware 67
5.3.2. IoT software 67
5.3.3. IoT connectivity 67
5.4. Architectural design and interfaces 68
5.5. IoT communication protocols 71
5.5.1. Message Queuing Telemetry Transport (MQTT) 72
5.5.2. Constrained Application Protocol (CoAP) 74
5.5.3. Data Distribution Service for real-time systems (DDS) 76
5.5.4. Open Mobile Alliance Device Management (OMA-DM) 79
5.6. Internet of Everything(IoE) 80
5.6.1. Enabling technologies for the IoE 81
5.7. Protocol comparisons and the readiness for TI 82
5.8. TI-IoT models and challenges 83
5.9.Edge computing in the IoT 85
5.9.1.Edge computing
Foreword xi
Ian F. AKYILDIZ
Preface xiii
Tara ALI-YAHIYA and Wrya MONNET
List of Acronyms xv
Chapter 1. Introduction to Tactile Internet 1
Tara ALI-YAHIYA
1.1. Human perception and Tactile Internet 2
1.2. The roadmap towards Tactile Internet 3
1.3. What is Tactile Internet? 5
1.4.Cyber-Physical Systems and TI 7
1.4.1.Physical world 7
1.4.2. Internet of Things 7
1.4.3.Communication 7
1.4.4.Storage and computation 8
1.4.5.Feedback 8
1.4.6.Smart computing 10
1.5.References 11
Chapter 2. Reference Architecture of the Tactile Internet 13
Tara ALI-YAHIYA
2.1. Tactile Internet system architecture 13
2.2. IEEE 1918.1 use cases 15
2.2.1.Teleoperation 16
2.2.2.Automotive 17
2.2.3. Immersive virtual reality (IVR) 17
2.2.4. Internet of drones 18
2.2.5. Interpersonal communication 18
2.2.6.Live haptic-enabled broadcast 19
2.2.7. Cooperative automated driving 19
2.3.Conclusion 20
2.4.References 20
Chapter 3. Tactile Internet Key Enablers 21
Tara ALI-YAHIYA
3.1. Introduction 21
3.1.1. The fifth-generation system architecture 21
3.1.2.Network slicing 23
3.1.3.Network function virtualization 25
3.1.4.Software-definednetworking 26
3.1.5.Edge computing 27
3.1.6. Artificial intelligence 29
3.2.Conclusion 31
3.3.References 31
Chapter 4. 6G for Tactile Internet 35
Pinar KIRCI and Tara ALI-YAHIYA
4.1. Introduction 35
4.2.The architecture of 6G 37
4.2.1.Network performance of 6G 38
4.2.2.Space network 39
4.2.3.Air network 40
4.2.4. Ground network 40
4.2.5.Underwater network 41
4.3. 6G channel measurements and characteristics 41
4.3.1.Optical wireless channel 41
4.3.2. Unmanned aerial vehicle (UAV) channel 42
4.3.3.Underwater acoustic channel 43
4.3.4. Satellite channel 43
4.3.5.RF and terahertz networks in 6G 45
4.3.6. Visible light communication technology 48
4.3.7. Orbital angular momentum technology 48
4.4.6Gcellular Internet of Things 49
4.5. Energy self-sustainability (ESS) in 6G 50
4.6. IoT-integrated ultra smart city life 52
4.7.AI-enabled6Gnetworks 55
4.8. AI- and ML-based security management in super IoT 59
4.9.Security for6G 60
4.10. The WEAFMnecosystem(water, earth, air, fire micro/nano ecosystem) with 6G and Tactile Internet 61
4.11.References 63
Chapter 5. IoT, IoE and Tactile Internet 65
Wrya MONNET
5.1.From M2M to IoT 66
5.2. Classification of remote monitoring and control systems 66
5.3. IoT-enabling technologies 67
5.3.1. IoT hardware 67
5.3.2. IoT software 67
5.3.3. IoT connectivity 67
5.4. Architectural design and interfaces 68
5.5. IoT communication protocols 71
5.5.1. Message Queuing Telemetry Transport (MQTT) 72
5.5.2. Constrained Application Protocol (CoAP) 74
5.5.3. Data Distribution Service for real-time systems (DDS) 76
5.5.4. Open Mobile Alliance Device Management (OMA-DM) 79
5.6. Internet of Everything(IoE) 80
5.6.1. Enabling technologies for the IoE 81
5.7. Protocol comparisons and the readiness for TI 82
5.8. TI-IoT models and challenges 83
5.9.Edge computing in the IoT 85
5.9.1.Edge computing
Ian F. AKYILDIZ
Preface xiii
Tara ALI-YAHIYA and Wrya MONNET
List of Acronyms xv
Chapter 1. Introduction to Tactile Internet 1
Tara ALI-YAHIYA
1.1. Human perception and Tactile Internet 2
1.2. The roadmap towards Tactile Internet 3
1.3. What is Tactile Internet? 5
1.4.Cyber-Physical Systems and TI 7
1.4.1.Physical world 7
1.4.2. Internet of Things 7
1.4.3.Communication 7
1.4.4.Storage and computation 8
1.4.5.Feedback 8
1.4.6.Smart computing 10
1.5.References 11
Chapter 2. Reference Architecture of the Tactile Internet 13
Tara ALI-YAHIYA
2.1. Tactile Internet system architecture 13
2.2. IEEE 1918.1 use cases 15
2.2.1.Teleoperation 16
2.2.2.Automotive 17
2.2.3. Immersive virtual reality (IVR) 17
2.2.4. Internet of drones 18
2.2.5. Interpersonal communication 18
2.2.6.Live haptic-enabled broadcast 19
2.2.7. Cooperative automated driving 19
2.3.Conclusion 20
2.4.References 20
Chapter 3. Tactile Internet Key Enablers 21
Tara ALI-YAHIYA
3.1. Introduction 21
3.1.1. The fifth-generation system architecture 21
3.1.2.Network slicing 23
3.1.3.Network function virtualization 25
3.1.4.Software-definednetworking 26
3.1.5.Edge computing 27
3.1.6. Artificial intelligence 29
3.2.Conclusion 31
3.3.References 31
Chapter 4. 6G for Tactile Internet 35
Pinar KIRCI and Tara ALI-YAHIYA
4.1. Introduction 35
4.2.The architecture of 6G 37
4.2.1.Network performance of 6G 38
4.2.2.Space network 39
4.2.3.Air network 40
4.2.4. Ground network 40
4.2.5.Underwater network 41
4.3. 6G channel measurements and characteristics 41
4.3.1.Optical wireless channel 41
4.3.2. Unmanned aerial vehicle (UAV) channel 42
4.3.3.Underwater acoustic channel 43
4.3.4. Satellite channel 43
4.3.5.RF and terahertz networks in 6G 45
4.3.6. Visible light communication technology 48
4.3.7. Orbital angular momentum technology 48
4.4.6Gcellular Internet of Things 49
4.5. Energy self-sustainability (ESS) in 6G 50
4.6. IoT-integrated ultra smart city life 52
4.7.AI-enabled6Gnetworks 55
4.8. AI- and ML-based security management in super IoT 59
4.9.Security for6G 60
4.10. The WEAFMnecosystem(water, earth, air, fire micro/nano ecosystem) with 6G and Tactile Internet 61
4.11.References 63
Chapter 5. IoT, IoE and Tactile Internet 65
Wrya MONNET
5.1.From M2M to IoT 66
5.2. Classification of remote monitoring and control systems 66
5.3. IoT-enabling technologies 67
5.3.1. IoT hardware 67
5.3.2. IoT software 67
5.3.3. IoT connectivity 67
5.4. Architectural design and interfaces 68
5.5. IoT communication protocols 71
5.5.1. Message Queuing Telemetry Transport (MQTT) 72
5.5.2. Constrained Application Protocol (CoAP) 74
5.5.3. Data Distribution Service for real-time systems (DDS) 76
5.5.4. Open Mobile Alliance Device Management (OMA-DM) 79
5.6. Internet of Everything(IoE) 80
5.6.1. Enabling technologies for the IoE 81
5.7. Protocol comparisons and the readiness for TI 82
5.8. TI-IoT models and challenges 83
5.9.Edge computing in the IoT 85
5.9.1.Edge computing