Leading 5G Applications and Services: Industrial Automation, Robotics, Haptic Internet, and Virtual Reality




Published: November 2016   Pages: 427
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Overview:

The fifth generation (5G) of wireless communications is poised to transform communications, applications, commerce, and content as it will provide substantially greater capacity and significantly reduced latency. Certain applications and services are poised to benefit the most from this development.

These apps and services include Industrial Automation, the Internet of Things (IoT), Robotics, Haptic Internet and Virtual Reality. While the communications industry will continue to be highly dependent on 4G/LTE for roaming and outside of metropolitan areas, leading apps and services will facilitate significant growth for many industry verticals as both adoption and usage benefit from 5G.

This is the most comprehensive research focused on leading 5G enabled applications and services including the following:

Bonus: Multi-user License buyers and greater may also choose any Mind Commerce IoT report they wish at no additional cost.


This research provides a comprehensive evaluation of apps and services poised to benefit from the introduction and ongoing operation of 5G networks and services. It includes forecasts for revenue, users, apps, services, and more. All purchases of Mind Commerce reports includes time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.

Target Audience:

  • Robotics companies
  • Virtual Reality ecosystem
  • Wireless service providers
  • 5G infrastructure suppliers
  • Internet of Things companies
  • Wireless device manufacturers
  • Enterprise and industrial verticals

Table of Contents:

5G and Virtual Reality: Emerging Technologies, Solutions, Market Outlook and Forecasts

1 Executive Summary
2 Introduction and 5G Contribution to VR
2.1 VR Acceleration Curve: Experiment to Experience
2.2 5G Promises to VR Application
2.2.1 Wireless Network Requirement Parameters for VR
2.2.2 Capacitive Sensing and Touch Sensor Technology
2.3 Proliferation of Full Feature Device and Mixed Reality
2.4 Emergence of Eyewear VR Devices
2.5 VR to be Immersive Social Communication Platform
2.6 360 video VR experience will Play Pivotal Role
2.7 Real Time VR will Kick-off the Market
2.8 5G to Allow Full HD Streaming and 4K Video for VR
2.9 5G to Take Haptic Experience Mainstream in VR Application
2.10 5G to allow Network Operators to Play Pivotal Role into VR Ecosystem
2.11 5G to Support Drone and Telerobotic into VR Ecosystem
2.12 Chip Manufacturer to Play Important Role
2.13 Increasing role of VR Service Players
2.14 Wider adoption of VR Application in Diverse Sectors including Government & Public Sector
2.15 Virtual Privacy and Criminality will be New Battle Ground
3 VR Ecosystem in Post-5G Era
4 VR Market Outlook in Post-5G Era
4.1 Global VR Base Market
4.1.1 Combined Market Revenue 2021 - 2026
4.1.2 Combined Unit Shipment 2021 - 2026
4.1.3 Combined Active User 2021 - 2026
4.2 5G Accelerated VR Uptake Market
4.2.1 Market by Segments 2021 - 2026
4.2.1.1 Hardware Market
4.2.1.1.1 Full Feature Device including Haptic & Eyewear Devices
4.2.1.1.2 Hardware Components including Haptic Sensors & Semiconductor Components
4.2.1.2 Software & Application Market
4.2.1.3 Professional Service Market
4.2.2 VR Shipment Units 2021 - 2026
4.2.3 VR Active Users 2021 - 2026
4.2.4 Market by Region 2021 - 2026
4.2.4.1 North America Market
4.2.4.2 APAC Market
4.2.4.3 Europe Market
5 Potential VR Application in Post-5G Era
5.1 Consumer Application Market 2021 - 2026
5.1.1 Gaming
5.1.1.1 Pokemon Go Market Learning
5.1.2 Live Events
5.1.3 Video Entertainment
5.2 Enterprise Application Market 2021 - 2026
5.2.1 Retail Sector
5.2.2 Real Estate
5.2.3 Healthcare
5.2.4 Education
5.3 Industrial Application Market 2021 - 2026
5.3.1 Military
5.3.2 Engineering
5.3.3 Civil Aviation
5.3.4 Medical Industry
5.3.5 Agriculture
5.3.6 Government & Public Sector
6 Company Initiatives and VR Solution Analysis
6.1 Facebook
6.1.1 Social VR with Oculus Rift
6.1.2 Oculus Touch
6.1.3 Telecom Infra Project
6.2 Huawei Technologies
6.2.1 VR Headset
6.2.2 5G Vision and VR Focus
6.3 Qualcomm Inc.
6.4 ZTE Corporation
6.4.1 MEC Solution, Pre5G Capabilities and VR
6.5 Samsung Electronics
6.5.1 Gear VR, Milk VR and Project Beyond
6.6 Google
6.6.1 Google DayDream Platform
6.6.2 Expeditions
6.7 SK Telecom
6.8 LG Corporation
6.9 Nokia StarGazing VR Application
6.10 VREAL
6.11 Microsoft Corporation
6.11.1 HoloLens
6.12 Vuzix Corporation
6.12.1 Wearable Display Products
6.13 Cyber Glove Systems
6.13.1 Data Gloves Solution
6.13.2 Haptic Workstation
6.13.3 VR Software
6.14 Leap Motion, Inc.
6.14.1 Gesture Controller
6.14.2 Orion Software
6.15 Sensics, Inc.
6.15.1 VR Component and Product
6.15.2 OSVR Platform
6.16 Sixense Entertainment, Inc.
6.16.1 Sixense STEM
6.16.2 Sixense MakeVR
6.17 OSVR Platform
6.18 Intel Corporation
6.18.1 Project Alloy
6.19 Alcatel
6.19.1 VISION
6.19.2 360 Camera
6.20 Nvidia Corporation
6.20.1 VRWorks
6.21 BARCO
6.22 NGRAIN
6.23 StreamVR Platform
6.24 Analog Devices Inc.
6.25 Atmel Corporation
6.26 Cypress Semiconductor Corp
6.27 NXP
6.27.1 Acquisition of Freescale Semiconductor
6.28 Integrated Device Technology Inc
6.29 Maxim Integrated
6.30 NKK Switches
6.31 Rohm Semiconductor
6.32 Semtech Corporation
6.33 Texas Instruments
7 Conclusions and Market Recommendations
7.1 Recommendations for VR Market Players
7.2 Recommendations for Investment Community

Figures

Figure 1: VR Market Acceleration Curve: Experiment to Experience 2016 - 2025
Figure 2: 5G Use Cases and Requirements for Bandwidth & Latency
Figure 3: VR Scenario to Stream Live Sports Event
Figure 4: Wireless Network Requirement Parameters for VR Applications
Figure 5: Demonstration of Real Time VR Piloting Shuttlecraft across the Surface of Mars
Figure 6: VR Ecosystem Diagram for Post-5G Era: 2021 - 2026
Figure 7: VR Base Market Segments, Sub-segments and Components
Figure 8: Global VR Base Market Combined Revenue 2021 - 2026
Figure 9: Global VR Base Market Combined Unit Shipment 2021 - 2026
Figure 10: Global VR Base Market Active User 2021 - 2026
Figure 11: Global 5G Accelerated Uptake Market Revenue 2021 - 2026
Figure 12: Global 5G Accelerated VR Uptake Unit Shipment 2021 - 2026
Figure 13: Global 5G Accelerated VR Uptake Active Users 2021 - 2026

Tables

Table 1: Capacitive Sensing enabled Haptic Controller ICs
Table 2: Potential Manufactures or Providers in VR Ecosystem Components in Post-5G Era
Table 3: VR 5G Accelerated Uptake Market by Segment 2021 - 2026
Table 4: VR 5G Accelerated Hardware Uptake Market by Segment 2021 - 2026
Table 5: VR 5G Accelerated Device Uptake Market by Segment 2021 - 2026
Table 6: VR 5G Accelerated Components Uptake Market by Segment 2021 - 2026
Table 7: VR 5G Accelerated Software Uptake Market by Application 2021 - 2026
Table 8: VR 5G Accelerated Uptake Unit Shipment by Segment 2021 - 2026
Table 9: VR 5G Accelerated Uptake Unit Shipment by Devices 2021 - 2026
Table 10: VR 5G Accelerated Uptake Shipments by Component 2021 - 2026
Table 11: VR 5G Accelerated Uptake Shipments by App 2021 - 2026
Table 12: VR 5G Accelerated Uptake Users by Segment 2021 - 2026
Table 13: VR 5G Accelerated Uptake User by Device 2021 - 2026
Table 14: VR 5G Accelerated Uptake Users by Application 2021 - 2026
Table 15: VR 5G Accelerated Uptake Market by Region 2021 - 2026
Table 16: VR 5G Accelerated Uptake Units by Region 2021 - 2026
Table 17: VR 5G Accelerated Uptake Users by Region 2021 - 2026
Table 18: VR 5G Accelerated Uptake Market by North America Country 2021 - 2026
Table 19: VR 5G Accelerated Uptake Units by North America Country 2021 - 2026
Table 20: VR 5G Accelerated Uptake Users by North America Country 2021 - 2026
Table 21: VR 5G Accelerated Uptake Market by APAC Country 2021 - 2026
Table 22: VR 5G Accelerated Uptake Units by APAC Country 2021 - 2026
Table 23: VR 5G Accelerated Uptake Users by APAC Country 2021 - 2026
Table 24: VR 5G Accelerated Uptake Market by Europe Country 2021 - 2026
Table 25: VR 5G Accelerated Uptake Units by Europe Country 2021 - 2026
Table 26: VR 5G Accelerated Uptake Users by Europe Country 2021 - 2026
Table 27: VR 5G Accelerated Software Uptake Market by Consumer Applications 2021 - 2026
Table 28: VR 5G Accelerated Uptake Consumer Apps by Industry 2021 - 2026
Table 29: VR 5G Accelerated Uptake Consumer Apps User by Industry 2021 - 2026
Table 30: VR 5G Accelerated Software Uptake Market by Enterprise Applications 2021 - 2026
Table 31: VR 5G Accelerated Uptake Enterprise Apps Shipment by Industry 2021 - 2026
Table 32: VR 5G Accelerated Uptake Enterprise Apps User by Industry 2021 - 2026
Table 33: VR 5G Accelerated Software Uptake Market by Industrial Applications 2021 - 2026
Table 34: VR 5G Accelerated Uptake Industrial Apps Shipment by Industry 2021 - 2026
Table 35: VR 5G Accelerated Uptake Industrial Apps User by Industry 2021 - 2026

Industrial IoT and 5G: Emerging Technologies, Solutions, Market Outlook and Forecasts

1 Introduction
1.1 Why Industrial IoT and 5G?
1.2 Industrial IoT Platforms
1.3 Relationship between Industrial IoT and 5G
1.4 Industrial IoT: A View into the Period 2016 to 2020
1.5 5G as Key Enabler for IIoT Initiatives
1.6 5G Responsiveness to IIoT
1.7 Potential Contribution of Proprietary Platform
1.8 5G and Industrial Automation
1.9 5G to Enable Wireless IIoT Automation
1.10 5G for Industrial Internet Components
1.11 Role of Industrial Internet in IIoT Automation
1.12 Role of Mobile Edge Computing in IIoT and 5G
1.13 Role of Smart Grid in IIoT and 5G
1.14 Role of LPWAN Technology to IIoT
1.15 5G to Create News Business Model for IIoT
1.16 IIoT Security
1.17 IIoT and 5G: Where is the Money?
1.18 Virtual Reality, IIoT, and 5G
1.19 IIoT 5G Stakeholder Analysis
1.19.1 Equipment Manufacturer
1.19.2 Connectivity Solution Providers
1.19.3 Proprietary Platform and IIoT Application Providers
1.19.4 Data Analytics Providers
1.19.5 Professional Service Providers
1.19.6 Enterprise
1.19.7 End Users
2 IIoT 5G Application Scenarios
2.1 Maritime Use Case
2.1.1 Optimizing Route
2.1.2 Tracking Assets
2.1.3 Monitoring Equipment Remotely and Saving Costs
2.2 Oil and Gas Sector
2.3 Manufacturing Use Case
2.4 Mobile Cloud Robotics
2.5 Precision Agriculture
2.5.1 OnFarm Solution
2.5.2 AT&T, Telefonica, and Verizon to Precision Agriculture
2.6 City Waste Management
2.6.1 Urbiotica Case
2.6.2 Enevo
2.7 Food Waste Management
2.7.1 Maersk Line Remote Container Management
2.8 Smart Buildings
2.8.1 Honeywell Intelligent System to Olympics Stadium
2.9 Road Congestion Management
2.10 Efficient Energy Management
2.11 Enterprise Asset Management
2.12 Healthcare Applications
2.13 Shipping Automation
2.14 Autonomous Driving
2.15 Water Management
2.16 Aviation Management
3 IIoT 5G Market Forecasts
3.1 Global Forecasts 2020 - 2025
3.1.1 IIoT 5G Automation Market Value
3.1.1.1 Market by Segment
3.1.1.1.1 Hardware & Equipment Market by Types of Device
3.1.1.2 Market by Industry Verticals
3.1.1.3 Market by Technology Application
3.1.2 Wireless IIoT 5G Device Deployments
3.1.2.1 Deployment by Device Type
3.1.2.2 Deployment by Industry Vertical
3.2 Regional Forecasts 2020 - 2025
3.2.1 Market Value by Region
3.2.2 Market Value by Leading Countries
3.2.3 Deployment by Region
3.2.4 Deployment by Leading Countries
3.2.5 Europe Market Forecasts
3.2.5.1 Market Value by Segment, Devices, Industry Vertical, & Technology Application
3.2.5.2 Deployment Base by Devices & Industry Vertical
3.2.6 North America Market Forecasts
3.2.6.1 Market Value by Segment, Devices, Industry Vertical & Technology Application
3.2.6.2 Deployment Base by Devices & Industry Vertical
3.2.7 APAC Market Forecasts
3.2.7.1 Market Value by Segment, Devices, Industry Vertical & Technology Application
3.2.7.2 Deployment Base by Devices & Industry Vertical
4 Industrial IoT 5G Platforms, Solutions, and Initiatives
4.1 Time Sensitive Networking
4.2 General Electric
4.2.1 GE Predix
4.2.2 GE Predictivity
4.2.3 GE Partnership
4.2.3.1 Microsoft and GE
4.2.3.2 AT&T and GE
4.2.3.3 Cisco and GE Energy
4.2.3.4 Intel and GE
4.2.3.5 NTT DoCoMo and GE
4.2.3.6 HP and GE
4.2.3.7 BP and GE Oil & Gas
4.2.3.8 Paradigm and GE Oil & Gas
4.3 Qualcomm
4.3.1 LTE IoT Connectivity Platform creating Path for 5G
4.3.2 LTE Modem Solutions
4.4 Aware360
4.4.1 Real Time Monitoring Solution
4.4.2 Aware360 with Gemalto for IIoT Connectivity & Analytics
4.5 KAA
4.6 XILINX
4.6.1 Xilinx to Collaborate IIC for Common IIoT Framework
4.7 AT&T
4.7.1 AT&T M2M Solution
4.7.1.1 AT&T alliance with GE
4.7.2 AT&T M2X Solution
4.7.3 AT&T vEPC Network and Domain 2.0
4.7.4 AT&T 5G Trial and IIoT
4.8 Bosch
4.8.1 Bosch IoT Suit
4.8.2 Bosch IoT Cloud
4.8.3 Bosch Connected Devices and Solutions GmbH (BCDS)
4.9 Cisco System
4.9.1 Cisco IoT System
4.9.2 Cisco Industrial Networking Solutions for IoT
4.9.3 Cisco Embedded Networking Solution
4.9.4 Cisco Security Solution
4.9.5 Application Enablement Platform
4.9.6 Cisco IoT Analytics
4.9.7 Cisco Fog Computing
4.9.8 Cisco's Acquisition of Jasper
4.10 Echelon Corporation
4.10.1 Echelon IzoT Platform
4.10.1.1 IzoT Enabled FT 6050 Chip
4.10.2 Industrial Control Networking Technologies
4.10.3 Xicato Demonstrate Intelligent Platform with Echelon
4.11 Object Management Group
4.11.1 OMG Data Distribution Service
4.11.2 Dependability Assurance Framework for Safety-Sensitive Consumer Devices
4.11.3 Threat Modeling
4.11.4 Structured Assurance Case Metamodel
4.11.5 Unified Component Model for Distributed, Real-Time and Embedded Systems
4.11.6 Automated Quality Characteristic Measures
4.11.7 Interaction Flow Modeling Language
4.11.8 OMG to Manage the Industrial Internet Consortium
4.11.9 Automated Source Code Based Security Measure
4.11.10 Oil and Gas Risk Management
4.12 Real Time Innovation
4.12.1 RTI Connext DDS
4.12.2 RTI IoT FastTrax Program
4.12.3 RTI to Support IIC Connected Care Testbed
4.12.4 RTI Alliance with National Instruments
4.13 Google
4.13.1 Brillo and Weave
4.13.2 Google Cloud Platform
4.13.3 Google Glass in Telemedicine with CrowdOptic
4.14 Omron Corporation
4.15 BlackBerry
4.15.1 BlackBerry IoT Platform
4.15.1.1 QNX Software
4.16 Rockwell Automation
4.17 Honeywell International
4.17.1 Honeywell Process Solution
4.17.2 Honeywell Uniformance IIoT Suite
4.18 Fujitsu America
4.18.1 GR AWARE Platform
4.18.2 iMotion Edgeware Platform
4.18.3 GYUHO SaaS
4.18.4 UBIQUITOUSWARE Device
4.18.5 CRATUS and Fujitsu
4.18.6 Fujitsu Connected Enterprise Solution with SAP
5 Conclusions and Recommendations
5.1 Success Factors for IIoT in 5G
5.1.1 Complex Ecosystem Management
5.1.2 Accuracy in Analysis and Quantification
5.1.3 Spectrum Management
5.1.4 Building Data Trust

Figures

Figure 1: IIoT Platform Components
Figure 2: IIoT 5G Requirements and Operational Diagram
Figure 3: Requirements for Wireless IIoT Access Technology
Figure 4: IIoT Technology to Optimize Route
Figure 5: Mobile Cloud Robotics Functional Architecture
Figure 6: Precision Agriculture Module to Monitor Water Flow
Figure 7: OnFarm Dashboard for Precision Agriculture Analytics
Figure 8: Honeywell Intelligent System for Building
Figure 9: Vehicle to Everything (V2X) Framework for Autonomous Driving
Figure 10: Global IIoT 5G Automation Market Value 2020 - 2025
Figure 11: Global Wireless IIoT 5G Device Deployment Base 2020 - 2025
Figure 12: KAA IIoT Middle Platform
Figure 13: Bosch IoT Framework
Figure 14: Bosch IoT Cloud Service Parameter and Modality
Figure 15: Cisco IoT Service Portfolio
Figure 16: Echelon FT 6050 Running on IzoT Platform
Figure 17: OMG DDS Scalable Architecture: Edge to Fog to Cloud
Figure 18: Google Cloud Platform Architecture
Figure 19: Fujitsu Connected Enterprise Solution Phases

Tables

Table 1: IIoT Platform Sub-Components
Table 2: Global IIoT 5G Automation Market by Segment 2020 - 2025
Table 3: Global IIoT 5G Hardware & Equipment Market by Types of Device 2020 - 2025
Table 4: Global IIoT 5G Automation Market by Industry Vertical 2020 - 2025
Table 5: Global IIoT 5G Automation Market by Technology Application 2020 - 2025
Table 6: Global Wireless IIoT 5G Device Deployment by Types of Device 2020 - 2025
Table 7: Global Wireless IIoT 5G Device Deployment by Industry Vertical 2020 - 2025
Table 8: IIoT 5G Automation Market by Region 2020 - 2025
Table 9: IIoT 5G Automation Market by Leading Countries 2020 - 2025
Table 10: Wireless IIoT 5G Device Deployment by Region 2020 - 2025
Table 11: Wireless IIoT 5G Device Deployment by Leading Countries 2020 - 2025
Table 12: Europe IIoT 5G Automation Market by Segment 2020 - 2025
Table 13: Europe IIoT 5G Hardware & Equipment Market by Types of Device 2020 - 2025
Table 14: Europe IIoT 5G Automation Market by Industry Vertical 2020 - 2025
Table 15: Europe IIoT 5G Automation Market by Technology Application 2020 - 2025
Table 16: Europe Wireless IIoT 5G Deployment by Device Type 2020 - 2025
Table 17: Europe Wireless IIoT 5G Device Deployment by Industry Vertical 2020 - 2025
Table 18: North America IIoT 5G Automation Market by Segment 2020 - 2025
Table 19: North America IIoT 5G Hardware & Equipment Market by Types of Device 2020 - 2025
Table 20: North America IIoT 5G Automation Market by Industry Vertical 2020 - 2025
Table 21: North America IIoT 5G Automation Market by Technology Application 2020 - 2025
Table 22: North America Wireless IIoT 5G Deployment by Device Type 2020 - 2025
Table 23: North America Wireless IIoT 5G Device Deployment by Industry Vertical 2020 - 2025
Table 24: APAC IIoT 5G Automation Market by Segment 2020 - 2025
Table 25: APAC IIoT 5G Hardware & Equipment Market by Device Type 2020 - 2025
Table 26: APAC IIoT 5G Automation Market by Industry Vertical 2020 - 2025
Table 27: APAC IIoT 5G Automation Market by Technology Application 2020 - 2025
Table 28: APAC Wireless IIoT 5G Device Deployment by Device Type 2020 - 2025
Table 29: APAC Wireless IIoT 5G Device Deployment by Industry Vertical 2020 - 2025

5G and Robotics: Emerging Technologies, Solutions, Market Outlook and Forecasts

1 Introduction
1.1 5G Network Requirements and Roadmap
1.2 5G Mobile Services
1.3 Robots
1.3.1 Industrial Robotics
1.3.2 Consumer Robotics
1.4 Generation of Robotics
1.5 5G Enabled Autonomous Robots
2 5G Robot Services
2.1 Robot Based Service
2.1.1 Cyber Physical System
2.2 5G Robot Service Types
2.2.1 Teleoperation Service
2.2.2 Smart Industrialization Service
2.3 5G Robot Service Requirements
3 Market Dynamics Analysis
3.1 Growth Factors
3.1.1 Proliferation of Connected Devices
3.1.2 IoT Use Cases
3.1.3 Software Defined Infrastructure
3.1.4 Processing and Storage in Cloud
3.1.5 Remote Operation
3.1.6 Cognition as a Services
3.1.7 Robot Sensors
3.1.8 Use of Artificial Intelligence
3.1.9 Mobile Cloud Robotics
3.1.10 Robotics APIs 22
3.1.11 Investment in 5G and Robotics
3.2 Technology and Market Limitations
4 5G Enabled Robotics Applications
4.1 Healthcare Services
4.2 Manufacturing Processes and Logistics
4.3 Autonomous Vehicles
4.4 Smart Factories
4.5 Agriculture
4.6 Private Security and Public Safety
4.7 Retail Services
4.8 Transportation
4.9 Military Services
5 5G Enabled Robotics Solution Providers
5.1 Intel
5.2 Asus
5.3 Samsung
5.4 Ericsson
5.5 Nokia
5.6 Honda Motors
5.7 Adept Technology
5.8 Lely Group
5.9 Google
5.10 Northrop Grumman Corporation
5.11 Bluefin Robotics Corporation
5.12 ABB Ltd
5.13 Yaskawa Electric Corporation
5.14 Amazon Robotics
5.15 iRobot
5.16 Auris Surgical Robotics
5.17 3D Robotics
5.18 Paslin
5.19 KUKA
5.20 SoftBank
5.21 RealDoll
5.22 True Companion
6 5G Enabled Autonomous Robot Forecasts
6.1 Global Market Revenue
6.1.1 Autonomous Robot Market
6.1.2 5G Enabled Autonomous Robot Market
6.1.3 5G Enabled Autonomous Robot Market by Categories
6.2 Regional Market Revenue
6.2.1 5G Enabled Autonomous Robot by Region
6.2.2 North America 5G Enabled Autonomous Robot Market by Categories
6.2.3 Europe 5G Enabled Autonomous Robot Market by Categories
6.2.4 APAC 5G Enabled Autonomous Robot Market by Categories
7 Conclusions and Recommendations

Figures

Figure 1: 5G Development and Roadmap
Figure 2: 5G Mobile Service Scenario
Figure 3: Six-axis Welding Robot
Figure 4: Automatic Vacuuming Consumer Device Roomba
Figure 5: Autonomous Soccer Robots
Figure 6: 5G Mobile Services, Robots, and Network Requirements
Figure 7: 5G Enabled IoT Healthcare Service
Figure 8: 5G Enabled Mobile Cloud Robotics Scenario
Figure 9: EU Funding in Robotics PPP and Other Objectives
Figure 10: Robot Based Remote Surgery Service
Figure 11: Robots Assembling in Auto Manufacturing Plant
Figure 12: Mobile Robot Driven Autonomous Car
Figure 13: High Fidelity Robotics Simulation in Smart Parking System
Figure 14: Robots Palletizing Food Products in Bakery
Figure 15: Robotics Enabled Machine Harvesting
Figure 16: 5G Enabled Private Security and Public Safety Services
Figure 17: Four Wheeler Autonomous Pizza Delivery Robots
Figure 18: 5G and Robot Enabled Smart Transportation Services
Figure 19: 5G Based Military Drone Operating Remotely
Figure 20: Combat Robot on Ground
Figure 21: Asus Zenbo Robot
Figure 22: Samsung Robotics Arm
Figure 23: Mobile Cloud Robotics Shuttling Materials
Figure 24: Nokia NRS -15 Welding Robot
Figure 25: Honda Robotics Products
Figure 26: Cobra SCARA, Parallel and Viper Six-Axis Robots
Figure 27: Automated Milking Robots
Figure 28: The Less Skynet-Y Robot
Figure 29: Advanced Explosive Ordnance Disposal Robotics System
Figure 30: ABB Robotics Product Feature and Robot Calculator
Figure 31: Yaskawa Robotics Product Line
Figure 32: Kiva Robots in Amazon Warehouse
Figure 33: 3D Robotics Solo Drone
Figure 34: Pepper Robot Taking MasterCard Payment
Figure 35: Global Autonomous Robot Market 2018 - 2030
Figure 36: Global 5G Enabled Autonomous Robot Market 2022 - 2030
Figure 37: Global 5G Enabled Autonomous Robot Market by Category 2022 - 2030
Figure 38: 5G Enabled Autonomous Robot Market by Region 2022 - 2030
Figure 39: North America 5G Enabled Autonomous Robot Market by Category 2022 - 2030
Figure 40: Europe 5G Enabled Autonomous Robot Market by Category 2022 - 2030
Figure 41: APAC 5G Enabled Autonomous Robot Market by Category 2022 - 2030

5G and the Haptic Internet: Emerging Technologies, Solutions and Market Opportunities

1.0 INTRODUCTION
1.1 5G GLOBAL VISION
1.2 5G STANDARDIZATION AND REQUIREMENTS
1.3 5G NETWORK AND TACTILE INTERNET
1.4 TACTILE INTERNET ARCHITECTURE
1.5 EMERGENCE OF HAPTIC COMMUNICATION
1.6 CONTENT TO CONTROL FRAMEWORK
1.7 MOVING TO VIRTUAL HAPTIC NETWORK
2.0 HAPTIC INTERNET AND TECHNOLOGY
2.1 HAPTIC INTERNET VISION
2.2 REQUIRED INFRASTRUCTURE
2.2.1 CONNECTIVITY
2.2.2 LATENCY AND RELIABILITY
2.2.3 SYSTEM ARCHITECTURE
2.2.4 HIGH SECURITY 16
2.2.5 SENSORS AND ACTUATORS
2.2.6 NETWORK ACCESS
2.2.7 MOBILE EDGE AND CLOUD
2.3 HAPTIC INTERNET ECOSYSTEM AND IMPACT
2.4 SMARTRAN
2.5 MOBILE EDGE COMPUTING (MEC)
2.6 CONNECTED THINGS
2.7 NFV, SDN, AND SON
2.8 HIGHLY ADAPTIVE ENERGY EFFICIENT COMPUTING (HAEC)
3.0 SOCIETAL IMPACT OF HAPTIC COMMUNICATIONS
3.1 LIFELONG LEARNING ECOSYSTEM
3.2 SELF DETERMINED LIFE ECOSYSTEM
3.3 COMFORT SAFE ZONE
3.4 COOPERATIVE TRAFFIC NETWORK
3.5 ENERGY EFFICIENT CITY
4.0 HAPTIC INTERNET ENABLERS
4.1 REMOTE CONTROL
4.2 EVERYWHERE TOUCH TRANSMISSION
4.3 AUDIO, VIDEO AND TOUCH TOGETHER
4.4 AUTONOMOUS ROBOTS AND DRONES
4.5 SMART CITY SOLUTION
4.6 SMART SUITE SOLUTION
4.7 IOT AND M2M COMMUNICATION
4.8 MASSIVE CLOUD
5.0 HAPTIC INTERNET MARKET AND APPLICATIONS
5.1 HAPTIC APPLICATION MARKET SIZE THROUGH 2025
5.2 INDUSTRIAL IOT
5.3 ROBOTICS
5.4 TELEPRESENCE
5.5 VIRTUAL REALITY
5.6 AUGMENTED REALITY (AR)
5.7 GAMING
5.8 HEALTHCARE SOLUTIONS
5.9 SMARTGRID
5.10 TRAFFIC CONTROL
5.11 SPORTS
5.12 EDUCATION AND CULTURE
5.13 BATCH MANUFACTURING
5.14 REMOTE AIRCRAFT
6.0 HAPTIC INTERNET CHALLENGES AND SOLUTIONS
6.1 REAL-TIME CHALLENGES
6.2 HAPTIC DEVICES AND CODECS
6.3 MULTI-MODAL SENSING
6.4 CONTROL STABILITY
6.5 ULTRA-RELIABILITY
6.6 ULTRA-RESPONSIVE CONNECTIVITY
6.7 REQUIRED ALLOCATION OF RADIO RESOURCE
6.8 COLLABORATIVE MULTIUSER HAPTIC COMMUNICATIONS (CMUHC)
6.9 SENSING AND ACTUATION
6.10 QUALITY-OF-EXPERIENCE (QOE)

Figures

Figure 1: 5G Technology and Service Vision
Figure 2: 5G Standardization and Timeline 2008 - 2021
Figure 3: 5G Technological Components and Requirements
Figure 4: Tactile Internet and Haptic Communication Architecture
Figure 5: Tactile Internet Content to Control Framework
Figure 6: Virtual Haptic Network Structure
Figure 7: Human Interaction Time and Haptic Internet Vision
Figure 8: Latency Requirements for Haptic Internet
Figure 9: Haptic Network System Architecture
Figure 10: SmartRAN Architecture
Figure 11: Highly Adaptive Energy Efficient Computing (HAEC) Architecture
Figure 12: Haptic VR Simulation over Shared Haptic Virtual Environment
Figure 13: Haptic AR Assistance for Drivers
Figure 14: Haptic Training in Adaptive and Personalized Fashion
Figure 15: Smart Grid Architecture with 1 ms Latency
Figure 16: Cooperative Haptic Network of Vehicle
Figure 17: Haptic Application of Sports
Figure 18: Haptic Virtual Overlay

5G Technology Assessment, Market Outlook, and Forecasts 2015 - 2030

1.0 EXECUTIVE SUMMARY
2.0 INTRODUCTION TO 5G TECHNOLOGY
2.1 5G TECHNOLOGY AND FUNCTIONALITY
2.1.1 DIFFERENCES BETWEEN 5G AND 4G
2.2 WHAT 5G TECHNOLOGY CAN OFFER?
2.3 OSI LAYERS IN 5G
2.3.1 PHYSICAL AND MEDIUM ACCESS CONTROL LAYER
2.3.2 NETWORK LAYER
2.3.3 OPEN TRANSPORT PROTOCOL (OTA) LAYER
2.3.4 APPLICATION LAYER
2.4 5G MOTIVATION AND TIMELINE
2.5 5G SPECTRUM OPTIONS AND UTILIZATION
2.6 ELEMENTS OF 5G
2.7 5G CHALLENGES
2.7.1 TECHNOLOGY REQUIREMENTS AND SERVICE CHARACTERISTICS
2.7.2 STANDARDIZATION
2.7.3 NETWORK CHALLENGES
2.7.4 MOBILE DEVICE CHALLENGES
2.7.5 APPLICATION CHALLENGES
2.8 TECHNOLOGICAL REQUIREMENTS OF 5G
3.0 5G ENABLING TECHNOLOGIES
3.1 MASSIVE MIMO
3.2 NETWORK FUNCTIONS VIRTUALIZATION (NFV)
3.3 SDN AND VIRTUALIZATION
3.4 COGNITIVE RADIOS (CRS) AND TRANSMISSION TECHNOLOGIES
3.5 SELF-ORGANIZING NETWORKS (SONS)
3.6 COMMUNICATION, NAVIGATION, SENSING AND SERVICES
3.7 COOPERATIVE COMMUNICATION FUNCTIONS
3.7.1 MULTI-HOP
3.7.2 CACHING
3.8 AUTOMATED NETWORK ORGANIZATION 2
3.8.1 SELF-CONFIGURATION
3.8.2 AUTOMATIC NEIGHBOUR RELATION (ANR)
3.8.3 SELF-HEALING
3.8.4 SELF-ORGANIZATION
3.9 ADVANCED TRAFFIC MANAGEMENT
3.10 VISIBLE LIGHT COMMUNICATIONS (VLCS) 30
3.11 ENERGY EFFICIENCY
3.12 MILLIMETER WAVE (MMWAVE)
3.13 MASSIVE M2M COMMUNICATIONS
3.14 C-RAN ARCHITECTURE
3.15 HETNET SOLUTION
3.16 H-CRAN SOLUTION
3.17 LARGE-SCALE COOPERATIVE SPATIAL SIGNAL PROCESSING (LS-CSSP)
3.18 SDR
3.19 SPECTRUM AND SATELLITE
3.20 DRONES, ROBOTS, AND HIGH-ALTITUDE BALLOONS
3.21 NEXT GEN TECHNOLOGY
3.21.1 CROSS LAYER CONTROLLER
3.21.2 ENERGY AWARE
3.21.3 SECURITY
4.0 5G REGULATORY CONTRIBUTOR
4.1 5G ROADMAP
4.1.1 5G REQUIREMENTS 2015 - 2020
4.1.2 5G WIRELESS SUBSYSTEM 2015 - 2020
4.1.3 NETWORK VIRTUALISATION & SOFTWARE NETWORKS 2015 - 2020
4.1.4 CONVERGED CONNECTIVITY
4.2 GSMA
4.3 OFCOM UK
4.4 METIS
4.5 5G PPP
4.6 NGMN
4.7 4G AMERICAS
5.0 5G SERVICE APPLICATIONS IN M2M AND IOT ENVIRONMENT
5.1 5G BUSINESS CASE
5.1.1 SHARING SPECTRUM AND SERVICE SPECTRUM
5.2 POTENTIAL 5G APPLICATION USE CASES
5.2.1 VIRTUAL REALITY OR TACTILE INTERNET
5.2.2 AUTONOMOUS DRIVING AND CONNECTED CARS
5.2.3 WIRELESS CLOUD-BASED OFFICE AND MULTI-PERSON VIDEOCONFERENCING
5.2.4 M2M CONNECTIVITY
5.2.5 50+ MBPS EVERYWHERE
5.2.6 HIGH SPEED TRAIN
5.2.7 REMOTE COMPUTING
5.2.8 NON-STATIONARY HOT SPOTS
5.2.9 3D CONNECTIVITY: AIRCRAFT
5.2.10 SMART CLOTHING
5.2.11 SENSOR NETWORKS
5.2.12 NATURAL DISASTER
5.2.13 CONTROL NETWORK FOR ROBOTS
5.2.14 EHEALTH
5.2.15 3D CONNECTIVITY: DRONES
5.2.16 PUBLIC SAFETY
5.2.17 CONTEXT AWARE SERVICE
5.3 BRAND NEW SERVICES CAPABILITY
6.0 5G ECOSYSTEM
6.1 5G REQUIREMENT
6.1.1 USER DRIVEN REQUIREMENT
6.1.2 NETWORK DRIVEN REQUIREMENT
6.2 STAKEHOLDER ANALYSIS
6.3 STAKEHOLDER EXPECTATION: KPI'S OF 5G TECHNOLOGY
6.3.1 PERFORMANCE CHALLENGES
6.3.2 SYSTEM LEVEL CHALLENGES
6.4 5G CHANNEL MODEL
6.5 APIS AND SLAS TO EXTERNAL ACTORS
6.6 KEY DRIVERS
6.7 DISRUPTIVE CAPABILITIES
6.8 DESIGN PRINCIPLES
6.9 5G BUSINESS MODEL
6.10 5G VALUE PROPOSITION
7.0 5G STANDARDIZATION AND RESEARCH
7.1 MAJOR EVENT
7.2 RESEARCH, DEVELOPMENT AND INNOVATION
7.3 STANDARDIZATION ACTIVITIES
7.4 ITU RADIO COMMUNICATION SECTOR (ITU-R)
7.5 3GPP
7.5.1 IMT 2020
7.5.2 RAN STUDY
7.6 GSMA
7.7 NGMN ALLIANCE
7.8 TIA
7.9 EUROPEAN COMMISSION (EC)
7.9.1 METIS
7.9.2 5G PPP
7.9.3 5G PPP PROJECTS
7.9.4 5GNOW
7.10 NATIONAL GOVERNMENTS IN EASTERN ASIA
7.10.1 CHINA IMT-2020
7.10.2 JAPAN ARIB 20B AH
7.10.3 KOREA 5G FORUM
7.10.4 CHINA'S 863-5G PROJECT
7.11 MOBILE OPERATOR AND VENDORS
7.11.1 SK TELECOM AND ERICSSON
7.11.2 HUAWEI AND SAMSUNG
7.11.3 NTT DOCOMO AND MULTIPLE VENDORS
7.11.4 TURKCELL AND ERICSSON
7.11.5 5G NORMA (NOKIA AND SK TELECOM)
7.11.6 HUAWEI AND ERICSSON
7.12 FANTASTIC-5G
7.13 5GIC
7.14 NYU WIRELESS
8.0 5G VENDORS AND COMPANY ANALYSIS
8.1 ERICSSON
8.1.1 5G COLLABORATION AND COMMITMENT
8.1.2 5G STRATEGY AND USE CASES
8.1.3 5G TRIAL COMMITMENT
8.2 ALCATEL-LUCENT
8.2.1 5G RESEARCH AND CONTRIBUTIONS
8.2.2 5G STRATEGY
8.2.3 5G SOLUTIONS
8.3 FUJITSU
8.3.1 5G STRATEGY AND SOLUTIONS
8.3.2 5G CONTRIBUTION
8.3.3 5G TRIAL COMMITMENT
8.4 HUAWEI
8.4.1 5G VISION
8.4.2 5G STRATEGY
8.4.3 5G COLLABORATION AND CONTRIBUTION
8.5 INTEL
8.5.1 5G STRATEGY
8.5.2 5G COLLABORATION AND CONTRIBUTION
8.6 NEC
8.6.1 5G STRATEGY
8.6.2 5G CONTRIBUTION
8.6.3 5G TRIAL COMMITMENT
8.7 SAMSUNG
8.7.1 5G STRATEGY AND VISION
8.7.2 5G CONTRIBUTION
8.7.3 5G COLLABORATION
8.7.4 5G TRIAL COMMITMENT
8.8 ZTE
8.8.1 5G STRATEGY
8.8.2 5G CONTRIBUTION
8.8.3 5G TRIAL COMMITMENT
8.9 QUALCOMM
8.9.1 5G STRATEGY
8.9.2 5G CONTRIBUTION
8.10 NOKIA NETWORKS
8.10.1 5G VISION
8.10.2 5G STRATEGY
8.10.3 5G CONTRIBUTION AND COLLABORATION
8.10.4 5G TRIAL COMMITMENT
8.11 CHINA MOBILE
8.11.1 5G CONTRIBUTION
8.12 DEUTSCHE TELEKOM
8.12.1 5G CONTRIBUTION
8.13 NTT DOCOMO
8.13.1 5G CONTRIBUTION
8.14 SK TELECOM
8.14.1 5G CONTRIBUTION
8.15 BROADCOM
8.15.1 5G CONTRIBUTION
8.16 LG U+
8.17 SINGTEL
9.0 5G INVESTMENT AND SUBSCRIPTION FORECAST
9.1 GLOBAL 5G R&D AND TRIAL INVESTMENTS 2015 - 2030
9.1.1 5G INVESTMENT BY CATEGORY 2015 - 2020 VS. 2020 - 2030
9.2 LTE ADVANCE AND 5G SUBSCRIPTION 2020 - 2030
9.3 5G ONLY SUBSCRIPTION 2022 - 2030
9.3.1 5G ONLY SUBSCRIPTIONS BY REGIONS 2022 - 2030
9.4 MOBILE OPERATORS' 5G EXPECTATION 2015
9.4.1 NETWORK LEVEL EXPECTATION
9.4.2 SPECTRUM USAGE EXPECTATION
9.4.3 SERVICE LEVEL EXPECTATION
9.4.4 5G DEVELOPMENT BY REGIONS
9.4.5 5G COMMERCIAL LAUNCHING
9.5 DATA TRAFFIC, VIDEO, AND DOWNLOAD SPEED PROJECTION 2020 - 2030
9.6 5G INVESTMENT CASE ANALYSIS
9.6.1 EUROPEAN COMMISSION
9.6.2 HUAWEI
9.6.3 SOUTH KOREA
9.6.4 ZTE
9.6.5 HORIZON 2020
9.7 QUANTUM TECHNOLOGY AND 6G INVESTMENT ANALYSIS
10.0 5G IMPLICATION FOR TELECOM INDUSTRY
10.1 SPECTRUM AND COVERAGE IMPLICATIONS
10.2 ONE MILLISECOND LATENCY
10.3 BUSINESS OPPORTUNITIES
11.0 CONCLUSIONS AND RECOMMENDATIONS
11.1 END-TO-END ECOSYSTEM
11.2 5G CONSIDERATIONS
11.2.1 5G ARRIVAL DEPENDS ON SPECIFICATIONS AND ADOPTION
11.2.2 NEW RAN WILL IMPROVE MOBILE NETWORKS
11.2.3 IMMEDIATE TECHNOLOGICAL DEVELOPMENTS
11.2.4 LTE MAY SLOW DOWN 5G GROWTH
11.2.5 USE OF GOVERNMENTAL INTEREST AND RESOURCES
11.2.6 MORE SUSTAINABLE OPERATOR INVESTMENT MODEL IN TERMS OF CAPACITY
11.3 5G VALUE CREATION
11.3.1 FOR CONSUMERS
11.3.2 FOR ENTERPRISES
11.3.3 FOR VERTICALS
11.3.4 FOR 3RD PARTY PARTNERS
11.4 RECOMMENDATION FOR VALUE CHAIN PARTNERS
11.4.1 DISRUPTIVE NETWORK ARCHITECTURE
11.4.2 ACCESS
11.4.3 SYSTEM LEVEL PRINCIPLES
11.4.4 RIGHT BUSINESS MODEL
11.4.5 STAKEHOLDER COMMUNITY
11.4.6 POLICY AND STANDARDIZATION FRAMEWORK

Figures

Figure 1: Core Differences between 5G and 4G
Figure 2: Sample Specifications for 5G
Figure 3: Conceptual 5G Mobile Device
Figure 4: Mobile Terminal Network Layer in 5G Networks
Figure 5: 5G Timeline 2008 - 2021
Figure 6: 5G Challenges: Mobile SoC Performance vs. Energy Efficiency
Figure 7: 5G Technological Components
Figure 8: Massive MIMO Concept
Figure 9: NFV in H-RAN Solution
Figure 10: SDN Architecture
Figure 11: SDN Supporting Layers
Figure 12 Self-Organizing Networks (SONs) in H-RAN
Figure 13: H-RAN Application of 5G Systems
Figure 14: Centralized and Distribution LS-CSSP in H-CRANs
Figure 15: Software Defined Radio Network
Figure 16: Hybrid Architecture of SDN & SDR in 5G Network
Figure 17: Role of Satellite in 5G Communication System
Figure 18: METIS Regulatory Consortium
Figure 19: METIS Regulatory Framework
Figure 20: 5G Service Application Areas
Figure 21: Potential 5G Service Chart and Bandwidth & Latency Requirement
Figure 22: New Service Capabilities in 5G Environment
Figure 23: 5G Disruptive Capabilities
Figure 24: Performance Indicators of Disruptive Capabilities in 5G Network
Figure 25: 5G Network Design Architecture and Service Division
Figure 26: 5G Business Models
Figure 27: Key 5G Initiatives and Development Timeline 2012 - 2020
Figure 28: 5G Exploration to Development Phases 2014 - 2020
Figure 29: 5G Standardization Roadmap 2014 - 2024
Figure 30: 3GPP 5G Timeline
Figure 31: METIS HTs Structure
Figure 32: METIS WPs Structure
Figure 33: National 863 5G Project Phases 2013 - 2015
Figure 34: 863 5G Project Promotional Framework
Figure 35: Ericsson 5G Collaboration and Work 2013 - 2021
Figure 36: Ericsson 5G Strategy Chart
Figure 37: Ericsson 5G Vision for Broadband
Figure 38: Ericsson 5G Vision for Smart Transport and Infrastructure
Figure 39: Ericsson 5G Vision for Media
Figure 40: Ericsson 5G Vision for Remote Devices
Figure 41: Ericsson 5G Vision for IoT
Figure 42: Alcatel-Lucent 5G Timeline
Figure 43: Alcatel-Lucent 5G Programmable Networking Framework
Figure 44: Alcatel-Lucent 5G Solutions
Figure 45: Fujitsu 5G Network Configurations and WLAN
Figure 46: Huawei 5G Service and Scenario Vision
Figure 47: Huawei 5G All-spectrum access RAN
Figure 48: Intel 5G Vision
Figure 49: NEC 5G Vision
Figure 50: NEC's Virtualization of Cell Concept
Figure 51: Architecture of Massive-Element Antenna
Figure 52: Samsung's 5G Service Vision
Figure 53: Samsung Rainbow Requirements
Figure 54: Samsung's FD-MIMO Concept
Figure 55: Samsung's Reconfigurable 5G Phased-array Antenna
Figure 56: Samsung's 5G Timeline
Figure 57: Samsung's 5G Trial Drive 2014
Figure 58: ZTE's Three Dimensional 5G Vision
Figure 59: Qualcomm 5G Scalability Chart
Figure 60: Qualcomm 5G Connectivity Design
Figure 61: Qualcomm Unified Platform Dimensions
Figure 62: Qualcomm 5G Timeline 2015 - 2022
Figure 63: Qualcomm 5G Business Model
Figure 64: Qualcomm Model to Leverage 4G Investment
Figure 65: Nokia 5G Vision and Requirements
Figure 66: Nokia 5G Network Design of Functional Requirement
Figure 67: NTT DoCoMo 5G Experimental Trial
Figure 68: Global 5G Investment (R&D and Trial) in $billion 2015 - 2030
Figure 69: 5G Investments (Large Scale, Lab R&D, Test Bed) 2015/2020/2030
Figure 70: Global LTE Advance and 5G Subscription in Billion 2020 - 2030
Figure 71: Global 5G Only Subscription in Billion 2022 - 2030
Figure 72: Latency Comparison between LTE and 5G
Figure 73: End to End 5G Ecosystem
Figure 74: Total Global Mobile Operator 4G CAPEX Forecast 2009 - 2020
Figure 75: 5G Value Creation Capabilities

Tables

Table 1: OSl Layers by Category
Table 2: 5G Spectrum Band Options, Merits and Licenses
Table 3: MTC features in 3GPP Standard
Table 4: Roadmap for 5G Requirements 2015 - 2020
Table 5 Roadmap for 5G Wireless Subsystem 2015 - 2020
Table 6: Roadmap for Virtualization and Software Networks 2015 - 2020
Table 7: Roadmap for Converged Connectivity 2015 - 2020
Table 8: 5G PPP 19 Projects
Table 9: 5G Only Subscription APAC vs. NA vs. Europe vs. Others 2022 - 2030
Table 10: Mobile Operators' 5G Expectations
Table 11: Mobile Operators' Expectations of 5G Spectrum
Table 12: Mobile Operators' Expectation of 5G Service Levels
Table 13: Mobile Operators' Expectations of 5G Deployment by Region
Table 14 Mobile Operators' 5G Commercial Launch Expectations

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