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E-grāmata: 5G-Enabled Industrial IoT Networks

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  • Formāts: 260 pages
  • Izdošanas datums: 31-Jan-2022
  • Izdevniecība: Artech House Publishers
  • ISBN-13: 9781630818548
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5G-Enabled Industrial IoT NetworksPalielināt
  • Formāts: 260 pages
  • Izdošanas datums: 31-Jan-2022
  • Izdevniecība: Artech House Publishers
  • ISBN-13: 9781630818548
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This one-of-a-kind book gives you an exclusive look into how the "Industrial Internet of Things" (IIoT) convergence with the 5G end-to-end network is driving the 4th industrial revolution and bringing about game-changing developments in multiple industries. The book shows you how 5G-driven IIoT networks can deliver optimal performance for all industrial applications using key LTE and 5G NR features, and helps you understand how IIoT with 5G can be used to automate factories and make them more cost efficient.





Detailed chapters take you through the current knowledge available on this breakthrough technology and give you access to expert discussions on: key use cases and corresponding target requirements; IIoT standards and alliances; end-to-end architecture for IIoT; IIoT enablers for 5G new radio; performance of select IIoT use cases; and machine learning enabled IIoT networks.





The book pulls together in one resource key cases and knowledge you need to fully understand how 5G enabled IIoT is transforming global industries. You will be conversant with the end-to-end technology enablers for IIoT, learn how 5G new radio features enhance the system performance of IIoT networks, and gain a deeper understanding of the role of machine learning in the IIoT revolution.





With its international scope and focus on 5G IIoT networks and performance, this is an important read for global technology leaders in telecom and manufacturing industries, analysts and technical writers for various industry magazines and newspapers, telecom researchers, and anyone needing to understand the current state of the art in this rapidly developing technology.
Preface 11(4)
1 Industrial IoT: Introduction, Use Cases, and Requirements
15(24)
1.1 Introduction
15(1)
1.2 5G NR Requirements
16(7)
1.2.1 eMBB Requirements
18(2)
1.2.2 URLLC Requirements
20(1)
1.2.3 mMTC Requirements
20(1)
1.2.4 Enhanced Positioning Requirements
21(2)
1.3 5G NR-Based IIoT Use Cases
23(6)
1.3.1 Wireless Video and Analytics
25(1)
1.3.2 Machine Remote Control
26(1)
1.3.3 Cloud Robotics and Process Automation
26(2)
1.3.4 Transport and Logistics Hubs
28(1)
1.4 Innovation Platforms for IIoT
29(7)
1.4.1 5G Smart Sea Port at Hamburg Port Authority
29(2)
1.4.2 Active Research Environment for the Next Generation of Automobiles
31(2)
1.4.3 0MR0N Factory
33(3)
1.5 Concluding Remarks
36(1)
Acknowledgments
36(1)
References
37(2)
2 Current IIoT Deployments Using LTE-M/NB-IoT
39(22)
2.1 Introduction
39(1)
2.2 Cellular IoT Technology
40(13)
2.2.1 LTE-M
42(6)
2.2.2 NB-IoT
48(4)
2.2.3 NTNs
52(1)
2.3 Cellular IoT Deployments
53(6)
2.3.1 Commercial Deployments
53(3)
2.3.2 IoT Featured Solutions
56(3)
References
59(2)
3 IIoT: Standards, Alliances, and Spectrum
61(14)
3.1 Introduction
61(1)
3.2 3GPP, ITU, and IEEE 802.11ax Standards
61(6)
3.2.1 Wi-Fi 6 (802.11ax)
65(2)
3.2.2 IEEE 802.Had and 802.11ay
67(1)
3.3 5G-ACIA
67(3)
3.4 Global 5G Spectrum Overview
70(3)
3.5 Concluding Remarks
73(1)
Acknowledgments
74(1)
References
74(1)
4 End-to-End Network Architecture for Industrial IoT
75(40)
4.1 Overview of 5G System Architecture
75(9)
4.1.1 5G System Architecture Goals and Principles
76(2)
4.1.2 5G RAN and Deployment Options
78(1)
4.1.3 5G CN
79(3)
4.1.4 Traffic Routing and QoS
82(2)
4.2 Network Slicing
84(7)
4.2.1 Technical Capabilities for Network Slicing
86(1)
4.2.2 Specification of Network Slicing
87(4)
4.3 Nonpublic Networks
91(9)
4.3.1 SNPN
94(3)
4.3.2 Public Network Integrated NPN
97(1)
4.3.3 Enhanced Support for NPNs
98(2)
4.4 Integration with 5G System and Existing Industrial IT Infrastructure
100(7)
4.4.1 Preconfiguration and Reconfiguration of 5GS TSN Bridge
102(2)
4.4.2 Step I: Data Exchange of Bridge and Port Capabilities
104(1)
4.4.3 Step 2: Data Exchange of Discovery Information
104(2)
4.4.4 Step 3: Configuration Information to Identify and Forward TSN Streams
106(1)
4.4.5 Extensions in 3GPP Release 17 and Beyond
107(1)
4.5 Support of Data Analytics and Its Applications
107(6)
4.5.1 Sensor Data for Network Optimization
108(1)
4.5.2 Predictive Mobility with ML for URLLC Traffic
109(4)
References
113(2)
5 End-to-End Service Support for IIoT
115(26)
5.1 Overview
115(3)
5.2 URLLC and Time-Sensitive Communication Support in 5GS
118(3)
5.3 IEEE (TSN) Ethernet Support and Integration
121(3)
5.4 Time Synchronization in 5G
124(5)
5.5 Edge Cloud Integration
129(3)
5.6 Traffic Models and Performance
132(6)
Acknowledgments
138(1)
References
139(2)
6 IIoT Enablers in 5G New Radio
141(32)
6.1 Introduction
141(1)
6.2 5G Radio Access
142(9)
6.2.1 Flexible Frame Structure
143(2)
6.2.2 Massive MIMO
145(2)
6.2.3 Mi Hi meter-Wave Spectrum
147(3)
6.2.4 Advanced Channel Coding
150(1)
6.3 IoT in New Radio
151(14)
6.3.1 Massive MTC
152(3)
6.3.2 Reduced Capability Devices
155(6)
6.3.3 URLLC
161(4)
6.4 New Radio Evolution
165(6)
References
171(2)
7 UE and Sensors for IIoT
173(12)
7.1 Introduction
173(2)
7.2 Massive IoT Devices
175(5)
7.2.1 IoT Modules
175(3)
7.2.2 Asset/Fleet Tracker
178(1)
7.2.3 IoT Gateways
178(1)
7.2.4 Sensors
179(1)
7.3 Broadband and Critical IoT Devices
180(4)
7.3.1 Broadband IoT Devices
181(2)
7.3.2 Critical IoT Devices
183(1)
7.3.3 Private Network Devices
183(1)
References
184(1)
8 IIoT: System Performance and Proof of Concept
185(26)
8.1 Introduction
185(2)
8.2 Simulation Methodology
187(2)
8.3 Simulation Performance
189(19)
8.3.1 Indoor Factory: 3GPP Model
189(6)
8.3.2 Indoor Factory: Ray-Tracing
195(4)
8.3.3 PoC Factory
199(9)
8.4 Concluding Remarks
208(1)
Acknowledgments
209(1)
References
209(2)
Acronyms and Abbreviations 211(12)
About the Authors 223(4)
Index 227
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