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Internet of Things (IoT) Digital Twinning: Market Outlook for IoT enabled Physical to Virtual Mapping and Management 2017 - 2022

February 2017 | 104 pages | ID: IF3197A9853EN
Mind Commerce Publishing LLC

US$ 1,995.00

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Digit Twinning refers to the mapping of the physical world to the digital world in which Internet of Things (IoT) Platforms and Software are leveraged to create a digital representation of physical object or asset. The Digital Twin of a physical object can provide data about the asset such as its physical state and disposition.

There are many potential use cases for Digital Twinning including monitoring, simulation, and remote control of physical assets with virtual objects. Solutions focus on Part, Product, Process, and System Twinning. Mind Commerce sees Digital Twinning playing a key role in many IoT Operations processes including IoT Application Development, Testing and Control. The implementation of Digital Twins will also enable distributed remote control of assets, which will place an increasingly heavy burden on IoT Identity Management, Authentication, and Authorization.

This research evaluates Digital Twinning technology, solutions, use cases, and leading company efforts in terms of R&D and early deployments. The report assesses the Digital Twinning product and service ecosystem including application development and operations. The report also analyzes technologies supporting and benefiting from Digital Twinning. The report also provides detailed forecasts covering Digital Twinning in many market segments and use cases including manufacturing simulations, predictive analytics, and more.

Report Benefits:
  • Virtual Twinning forecasts 2017 – 2022
  • Understand the different types of Digital Twinning
  • Identify market challenges and opportunities for virtual twinning
  • Understand the role of virtual twinning in development, simulations, and PLM
  • Understand how virtual objects (software programs) function as an abstract of real-world things
  • Understand how virtual reality will support Digital Twinning and vice versa for advanced simulations and control
Select Report Findings:
  • Up to 85% of all IoT Platforms will contain some form of Digit Twinning capability by 2022
  • Digital Twinning will become standard feature/functionality for IoT Application Enablement by 2021
  • Over 90% of software player recognize the need for IoT APIs and Platform integration with Digital Twinning functionality
  • Nearly 20% of executives across a broad spectrum of industry verticals understand the benefits of Digital Twinning and 75% of them plan to incorporate within their operations by 2020
Target Audience:
  • Network service providers
  • Data analytics service providers
  • IoT application and service providers
  • Virtual and augmented reality companies
  • Application developers and software OEMs
  • Managed communications service providers
  • Enterprise companies across all industry verticals
1 EXECUTIVE SUMMARY

2 INTRODUCTION

2.1 Understanding Digital Twinning
  2.1.1 Importance of Digital Twinning
  2.1.2 Mapping Real World to Virtual World
2.2 Important Concepts
  2.2.1 Cognitive Digital Twining
  2.2.2 Digital Threading
  2.2.3 Convergence of Sensors and Simulations
  2.2.4 Software Modules and Elements
  2.2.5 Digital Twinning Types
  2.2.6 Digital Twinning Work Processes

3 SUPPORTING TECHNOLOGIES

3.1 Industrial IoT and Industry 4.0
3.2 Pairing Technology
3.3 Cyber Physical Systems
3.4 Augmented, Virtual, and Mixed Reality
3.5 Artificial Intelligence Technologies
3.6 Additive Manufacturing and 3D Printing
3.7 Digital Thread for Additive Manufacturing

4 DIGITAL TWIN PRODUCT AND SERVICE ECOSYSTEM

4.1 Digital Twinning Impact on Industry Segments
  4.1.1 Industrial IoT
  4.1.2 Consumer IoT
4.2 Application Development and Operations
  4.2.1 IoT Application Programming Interfaces
  4.2.2 Virtual Objects and Control of Real Assets
  4.2.3 Identity Management, Authentication, and Authorization
    4.2.3.1 IoT Identity Management
    4.2.3.2 Virtual Identities for Digital Twinning Operations
    4.2.3.3 Authentication and Authorization
4.3 Digital Twin Use Cases and Applications
  4.3.1 Maintenance, Repair and Overhaul Operations
  4.3.2 Digital Avatar of Consumer Assets
  4.3.3 Performance/Service Monitoring
  4.3.4 Inspection and Repair
  4.3.5 Predictive Maintenance
  4.3.6 Product Design and Development
  4.3.7 Composite Assembling/Manufacturing
  4.3.8 Monitoring Business Outcomes
4.4 Digital Twinning as a Service (DTaaS)

5 IOT DIGITAL TWINNING MARKET FORECAST 2017 - 2022

5.1 Global Market Forecast 2017 – 2022
  5.1.1 Aggregate Market for Digital Twinning
  5.1.2 Market for Software Module
  5.1.3 Market for Software Type
  5.1.4 Market for Software Category
  5.1.5 Market for Industry Segment
  5.1.6 Market for Business Model
  5.1.7 Market for Industry Vertical
5.2 Regional Market Forecast 2017 – 2022
  5.2.1 Digital Twining Market by Region
  5.2.2 North America IoT Digital Twinning Market
  5.2.3 Europe IoT Digital Twinning Market
  5.2.4 APAC IoT Digital Twinning Market
5.3 Digital Twinning Connected IoT Things Forecast 2017 – 2022
  5.3.1 Aggregate Digital Twinning Connected IoT Things
  5.3.2 Digital Twinning IoT Things by Type
  5.3.3 Digital Twinning IoT Things by Region
    5.3.3.1 North America Digital Twinning IoT Things
    5.3.3.2 Europe Digital Twinning IoT Things
    5.3.3.3 APAC Digital Twinning IoT Things

6 VENDOR ANALYSIS

6.1 Google
  6.1.1 Physical Web
6.2 General Electric
  6.2.1 Predix Platform and Digital Twinning
  6.2.2 Software Modeling Platform
  6.2.3 Microsoft Partnership for Industrial Cloud
  6.2.4 Partnership with Maana to Extend Digital Twin across All Enterprise Assets
6.3 PTC
  6.3.1 ThingWorx IoT Solution
  6.3.2 Product Lifecycle Management
6.4 Siemens PLM Software
6.5 Computer Science Corporation
  6.5.1 Manufacturing Simulation Process
  6.5.2 Hybrid Car Manufacturing Model
6.6 SAP SE
6.7 Sight Machine Inc.
6.8 Eclipse Software
  6.8.1 Eclipse Ditto
6.9 Amazon Web Services
6.10 Oracle Corporation
  6.10.1 Digital Twin Approach
6.11 Dassault Systemes
  6.11.1 3DEXPERIENCE platform
6.12 ANSYS Inc.
  6.12.1 Pervasive Engineering Simulation
6.13 Arrayent Inc.
  6.13.1 Device Virtualization Model
6.14 Autodesk Inc.
6.15 Sysmex Corporation
6.16 Core Systems

7 CONCLUSIONS AND RECOMMENDATIONS

APPENDIX

Connected IoT Devices 2017 - 2022
Connected IoT Devices by Type 2017 – 2022
Connected Sensor Enabled Objects 2017 – 2022
Global IoT Simulation Market by Software Type 2017 – 2022
IoT Things Management System Market 2017 – 2022
IoT Smart Building Market for Software and System 2017 – 2022
Vehicle to Everything Module Deployment 2017 – 2022

LIST OF FIGURES

Figure 1: Digital Twinning Model
Figure 2: Building Blocks of Cognitive Digital Twinning
Figure 3: Digital Thread Model in Digital Manufacturing Transformation Process
Figure 4: Types of Digital Twinning
Figure 5: Industrial Internet Building Block and Digital Twinning
Figure 6: IoT Orchestration and Mediation Ecosystem
Figure 7: Additive Manufacturing Impacts
Figure 8: Digital Thread for Additive Manufacturing in AM Process
Figure 9: APIs support Physical to Cyber World Communications
Figure 10: IoT Identity Database
Figure 11: IoT Virtual Identity Database
Figure 12: Data Fusion for MRO Operation
Figure 13: Plataine Composite Manufacturing Model
Figure 14: Digital Twinning Application and Outcome
Figure 15: Global IoT Digital Twining Market 2017 - 2022
Figure 16: Global Digital Twinning Connected IoT Things 2017 – 2022
Figure 17: GE Predix Software Platform
Figure 18: CSC Digital Twinning as Manufacturing Insight
Figure 19: CSC Perspective Insight Process of Data Streams
Figure 20: Digital Twin Simulation Performance of Hybrid Car
Figure 21: Digital Twinning Simulation for Hybrid Car
Figure 22: Contextualize Dashboard for Plant Floor Operation
Figure 23: Eclipse Ditto IoT Integration Framework
Figure 24: Role of Software in IoT Integration Landscape
Figure 25: Oracle Digital Twinning Strategy
Figure 26: ANSYS Digital Twin Modeling for Pump
Figure 27: Autodesk SeeControl Dashboard
Figure 28: Global Connected IoT Device Deployment 2017 -2022
Figure 29: Global Connected Sensor Enabled Objects 2017 - 2022

LIST OF TABLES

Table 1: Global IoT Digital Twining Market by Software Module 2017 – 2022
Table 2: Global IoT Digital Twining Market by Software Type 2017 - 2022
Table 3: Global IoT Digital Twining Market by Software Category 2017 - 2022
Table 4: Global IoT Digital Twining Market by Industry Segment 2017 - 2022
Table 5: Global IoT Digital Twining Market by Business Model 2017 - 2022
Table 6: Global IoT Digital Twining Market by Industry Vertical 2017 - 2022
Table 7: IoT Digital Twining Market by Region 2017 - 2022
Table 8: North America IoT Digital Twining Market by Software Module 2017 – 2022
Table 9: North America IoT Digital Twining Market by Software Type 2017 - 2022
Table 10: North America IoT Digital Twining Market by Software Category 2017 - 2022
Table 11: North America IoT Digital Twining Market by Industry Segment 2017 - 2022
Table 12: North America IoT Digital Twining Market by Business Model 2017 - 2022
Table 13: North America IoT Digital Twining Market by Industry Vertical 2017 - 2022
Table 14: North America IoT Digital Twining Market by Country 2017 - 2022
Table 15: Europe IoT Digital Twining Market by Software Module 2017 – 2022
Table 16: Europe IoT Digital Twining Market by Software Type 2017 - 2022
Table 17: Europe IoT Digital Twining Market by Software Category 2017 - 2022
Table 18: Europe IoT Digital Twining Market by Industry Segment 2017 - 2022
Table 19: Europe IoT Digital Twining Market by Business Model 2017 - 2022
Table 20: Europe IoT Digital Twining Market by Industry Vertical 2017 - 2022
Table 21: Europe IoT Digital Twining Market by Country 2017 - 2022
Table 22: APAC IoT Digital Twining Market by Software Module 2017 – 2022
Table 23: APAC IoT Digital Twining Market by Software Type 2017 - 2022
Table 24: APAC IoT Digital Twining Market by Software Category 2017 - 2022
Table 25: APAC IoT Digital Twining Market by Industry Segment 2017 - 2022
Table 26: APAC IoT Digital Twining Market by Business Model 2017 - 2022
Table 27: APAC IoT Digital Twining Market by Industry Vertical 2017 - 2022
Table 28: APAC IoT Digital Twining Market by Country 2017 - 2022
Table 29: Global Digital Twinning Connected IoT Things by Type 2017 - 2022
Table 30: Digital Twinning Connected IoT Things by Region 2017 - 2022
Table 31: North America Digital Twinning Connected IoT Things by Types 2017 - 2022
Table 32: North America Digital Twinning Connected IoT Things by Country 2017 - 2022
Table 33: Europe Digital Twinning Connected IoT Things by Type 2017 - 2022
Table 34: Europe Digital Twinning Connected IoT Things by Country 2017 - 2022
Table 35: APAC Digital Twinning Connected IoT Things by Type 2017 - 2022
Table 36: APAC Digital Twinning Connected IoT Things by Country 2017 - 2022
Table 37: Global Connected IoT Device by Type 2017 - 2022
Table 38: Global IoT Simulation Market by Software Type 2017 - 2022
Table 39: Global IoT Things Management System Market by Software Deployment 2017 - 2022
Table 40: Global IoT Smart Buildings Market by Automation Software and System Type 2017 - 2022
Table 41: Global V2X Module Deployment 2017 - 2022


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