5G Innovations for Industry Transformation: Data-driven Use Cases

✍ Scribed by Jari Collin, Jyrki T. J. Penttinen

Publisher: Wiley
Year: 2023
Tongue: English
Leaves: 285
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

5G INNOVATIONS FOR INDUSTRY TRANSFORMATION

Authoritative resource providing insight on real-life industrial 5G use cases in driving customer value, productivity, and sustainability ambitions

With 5G innovations rapidly expanding to different areas within technology, 5G Innovations for Industry Transformation provides key information on how 5G technology can positively impact digital transformation in the industry sectors, discussing new data-driven business opportunities, including green digital transition, new standards for sustainability, and real-time data-driven services, introducing case studies that cover a variety of industries, from the oil & gas industry to the telecom industry, along with the lessons learned from these case studies, and providing insights into how 5G technology will transform businesses by sharing real-time customer solutions, fair data sharing principles, and ecosystem and change management.

The book summarizes novelty aspects in a compact and practical way to benefit users and specialists in the field who want to understand some of the very key aspects of 5G. To aid in reader comprehension, the book contains tables, figures of technical principles and architectural block diagrams, and photographs further explaining key topics.

Sample topics covered in 5G Innovations for Industry Transformation include

5G SA technology with new capabilities, 5G private networks, and how smart, connected products are transforming competition
Implications of 5G applied to your particular business and/or industry, and how to scale up and industrialize based on these implications
How to lead the charge in relation to optimizing business practices based on the advent of 5G, and details on navigating the platform economy
How 5G affects data privacy and security, and other integrated capabilities of 5G, such as processes, data, technology, and competencies

Based on real-world experiences and high-quality research and presenting practical examples that serve as a useful guiding hand, 5G Innovations for Industry Transformation is an essential resource for change leaders, enterprise architects, and software developers of any industrial enterprise seeking to drive digitalization forward in their value chain and organization.

✦ Table of Contents

Cover
Title Page
Copyright Page
Contents
About the Authors
Foreword
Preface
Acknowledgments
Part 1 New Data-Driven Business Opportunities with Industrial 5G
Chapter 1 Digital Disruption of Industries
1.1 Introduction
1.2 Industrial 5G Boosts Digital Transformation
1.2.1 Industry 4.0 – The Ongoing Industrial Revolution
1.2.2 Digital Transformation
1.2.3 Industrial 5G
1.2.4 New Technology Capabilities from 5G
1.2.5 Business Model Disruption
1.3 Toward New Business Models
1.4 Key Drivers of 5G in the Industrial Verticals
References
Chapter 2 Green Digital Transition: New Standards for Sustainability
2.1 Introduction
2.2 Industrial 5G-enabled Green Transition
2.3 Benefits of Industrial 5G for Sustainability
2.3.1 Improved Energy Efficiency
2.3.2 Reduced Downtime
2.3.3 Enhanced Safety
2.3.4 Improved Logistics and Supply Chain Management
2.4 5G Radio Network and Energy Efficiency
References
Chapter 3 Smart, Connected Products with APIs Transform Industry Ecosystems
3.1 Introduction
3.2 Industry Ecosystems – Driving Digital Transformation
3.2.1 The Emergence of Industry Ecosystems
3.2.2 Collaboration Benefits
3.2.3 New Value Through Data Sharing
3.3 Industrial 5G – Building a Platform for Industry Ecosystems
3.3.1 Digital Platforms and Platform Economy
3.3.2 Industrial 5G as a Digital Platform
3.4 Standard APIs – Enabling Common Digital Platforms
3.4.1 Types of API
3.4.2 API Value Chain
References
Chapter 4 New Capabilities of 5G SA
4.1 General
4.1.1 5G Evolution Toward Standalone
4.1.2 Non-Standalone Options
4.1.3 SA Deployment Options
4.2 Technical Foundations of the SA Mode
4.2.1 New Capabilities
4.2.2 Service-Based Architecture
4.2.3 Control and User Plane Separation
4.2.4 Network Slicing
4.2.5 3GPP Network Exposure
4.2.6 GSMA Common API Initiatives
4.2.7 Edge Computing
4.3 Vertical Aspects
4.3.1 Importance of Network Slicing for Industrial Applications
4.3.2 Network Slice Setup
4.4 Edge and API Development
4.4.1 General
4.4.2 GSMA Operator Platform
4.4.3 CAMARA
4.4.4 TM Forum
References
Chapter 5 Mobile Edge and Real-Time Data-Driven Innovations
5.1 Introduction
5.2 Mobile Edge Computing and Industrial 5G
5.2.1 Industry Challenge, Competition, and Market Opportunity
5.2.2 Operational Benefits and Use Cases Across Industries
5.2.3 Sustainability Benefits
5.3 Data Quality and Cyber Security
References
Chapter 6 Private Networks
6.1 Introduction
6.2 Standardization
6.2.1 3GPP
6.2.2 Industry Bodies
6.3 5G NPN Standard Architectures
6.3.1 SNPN
6.3.2 PNI-NPN
6.3.3 Implementation Aspects
6.4 NPN Deployment Models
6.4.1 Standalone NPN
6.4.2 Shared RAN
6.4.3 Shared RAN and Control Plane
6.4.4 PLMN-Hosted NPN
6.4.5 Private Network on Network Slice
6.4.6 Open RAN as a Private Network
6.4.7 Legacy Networks as a Service
6.4.8 Local and Fixed Wireless Access (FWA)
6.4.9 Non-3GPP Wireless Private Network
6.5 Summary
References
Part 2 Industry Case Studies
Chapter 7 Mining Industry: Striving for Autonomous Connected Operations Underground
Case Study Team Members:
7.1 Introduction
7.2 Industry Transformation Challenge
7.3 Data-Driven Use Cases
7.3.1 Introduction to Use Cases
7.3.2 Performance Tests Between 5G and Wi-Fi
7.3.3 Uplink Throughput (TCP) and Retransmission
7.3.4 Uplink Throughput (UDP) and Packet Loss
7.3.5 Latency and Jitter
7.4 Benefits of 5G
7.5 Future Opportunities
References
Chapter 8 Forest Industry: Improving Productivity in Bioproduct Mill Operations
Case Study Team Members:
8.1 Introduction
8.2 Industry Transformation Challenge
8.3 Data-Driven Use Cases
8.3.1 Automated Guided Vehicles
8.3.2 On-demand Site Monitoring
8.3.3 Digital Maintenance Support
8.4 Benefits of 5G
8.4.1 New Opportunities
8.4.2 Using the Frans 5G Robot to Explore Digital Maintenance Opportunities
8.4.3 Transferrable 5G Video Cameras for Site Monitoring
8.4.4 Enhanced Automation for AGV-enabled Processes
8.5 Barriers Hindering Adoption
8.6 Managerial Implications
References
Chapter 9 Elevator Industry: Optimizing Logistics on Construction Sites with Smart Elevators
Case Study Team Members:
9.1 Introduction
9.2 Industry Transformation Challenge
9.2.1 Background
9.2.2 Smart Construction Elevator
9.2.3 The Importance of APIs in the Industry Ecosystem
9.3 Data-Driven Use Case: Construction Site Pilot
9.3.1 Use Case Description
9.3.2 Data Collection
9.3.3 Data Connectivity
9.3.4 Data Processing
9.4 Benefits of 5G
9.5 Future Opportunities
References
Chapter 10 Telecom Industry: Improving Energy Efficiency for Climate
Case Study Team Members:
10.1 Introduction
10.2 Industry Transformation Challenge
10.3 Data-Driven Use Cases
10.4 Benefits from 5G
10.5 Future Opportunities
10.6 Managerial Implications
References
Chapter 11 Oil and Gas Industry: Improving Operations with 5G-Enabled Drones at a Refinery Area
Case Study Team Members:
11.1 Introduction
11.2 Industry Transformation Challenge
11.3 Data-Driven Use Cases
11.3.1 Introduction to the Use Cases
11.3.2 Leak Detection
11.3.3 Inspections
11.3.4 Asset Management
11.3.5 Surveillance and Emergency Response
11.3.6 Logistics and Transport
11.4 Benefits of 5G
11.5 Managerial Implications
References
Part 3 Transforming for Digital Business
Chapter 12 Industrialization of the Lessons Learned
12.1 Introduction
12.2 Industrial 5G Solution with New Opportunities
12.2.1 Sensors
12.2.2 Connectivity
12.2.3 Data Storage
12.2.4 Analytics
12.2.5 Application
12.2.6 Digital Service
12.2.7 Integrated Solution with Data Security
12.3 Alternative Approaches to Industrial 5G
12.3.1 Private Networks
12.3.2 Virtual Private Networks
12.3.3 Network Slice
12.4 Barriers to Implementing Industrial 5G
12.4.1 Competencies
12.4.2 Change Complexity
12.4.3 Technology
12.4.4 Total Cost of Ownership
12.4.5 Data Security and Privacy
12.5 Conclusions
References
Chapter 13 5G Private Network Guidelines for Industry Verticals
13.1 Introduction
13.2 Evaluation of the Requirements
13.2.1 SNSP Deployment
13.2.2 PNI-NPN Deployment
13.2.3 Pros and Cons of Deployment Models
13.3 Techno-economic Optimization Modeling Aspects
13.3.1 Current Deployment Models
13.3.2 On Further Techno-economic Optimization
13.4 Enterprise/Vertical Requirement Interpretation
13.5 Enterprise and Vertical Requirements Assessment
13.6 Business Model for 5G Private Network
13.7 Example of Modeling
13.8 Summary
References
Chapter 14 5G-Driven New Business Development
14.1 Introduction
14.2 Business Opportunity Development and Commercialization to Drive Digital Transformation
14.3 Main Phases of Business Opportunity Development and Commercialization
14.3.1 Business Concept Development
14.3.2 Market Launch – Business Model Development with Digital Technologies
14.3.3 Shared Value Creation and Business Planning
14.3.4 Digital Technologies and Strategic Options
References
Chapter 15 Next Steps Toward the Industrial Metaverse and 6G
15.1 Introduction
15.2 Fundamentals of Industrial Metaverse
15.2.1 Business Environment in the Industrial Metaverse
15.2.2 Ecosystem Management and Governance
15.2.3 Capabilities and Complementary Assets
15.2.4 Monitoring Impact and Change Management
15.3 6G Outlook
References
Index
EULA

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