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テレオペレーション(遠隔操作)とテレロボティクス(遠隔操作ロボット):産業自動化の技術とソリューション 2018-2023年

Teleoperation and Telerobotics: Technologies and Solutions for Enterprise and Industrial Automation 2018 – 2023

 

出版社 出版年月電子版価格 ページ数図表数
Mind Commerce
マインドコマース
2018年9月US$995
シングルユーザライセンス
81 23

サマリー

米国調査会社マインドコマース(Mind Commerce)の調査レポート「テレオペレーション(遠隔操作)とテレロボティクス(遠隔操作ロボット):産業自動化の技術とソリューション 2018-2023年」は、インダストリー4.0時代におけるテレオペレーション(遠隔操作)とテレロボティクス(遠隔操作ロボット)の新たな役割について調査している。様々な産業垂直市場や技術セクターでのテレオペレーションとテレロボティクスのソリューションの影響を分析している。産業用モノのインターネット(IIoT)のテレオペレーションとテレロボティクスのシステムやサービス、ソリューションの市場を予測している。テレオペレーションとテレロボティクスにおけるデジタルツイン(ツイニング)技術の役割についても評価している。

目次(抜粋)

  • 産業用モノのインターネット(IIoT)の自動化とロボット技術
  • テレオペレーションとテレロボティクス
  • 自動化におけるテレオペレーションとテレロボティクスの役割
  • テレオペレーションとテレロボティクスの影響
  • エッジネットワークにおけるテレオペレーションとテレロボティクス
  • 2018-2023年のテレオペレーションとテレロボティクスの市場分析と予測

Overview:

Teleoperation represents the ability to operate equipment or a machine from a distance. A specific form of teleoperation involving remote control of a robot from a distance is referred to as telerobotics. Teleoperation and telerobotics are both supported by ICT infrastructure including broadband communications, sensors, machine to machine (M2M) communications, and various Internet of Things (IoT) technologies. Enhancements in wireless broadband are untethering teleoperation. Prior to 5G and Mobile Edge Computing (MEC), Teleoperation is largely relegated to fixed communications connections.  5G and MEC will enable Teleoperation anywhere there is 5G coverage, enabling many new consumer and industrial automation scenarios involving robotics.

Advanced IoT systems will also utilize Digital Twin technology to enable next generation teleoperation. Digital Twinning refers to the mapping of the physical world to the digital world. Coupled with Haptic Internet technologies and Virtual Reality (VR), the teleoperation and telerobotics market will take a major leap as user interfaces are democratized. No longer will special equipment (often located in special locations and controlled by proprietary systems) be required for control. In addition, the field of Cloud Robotics enables a teleoperation/telerobotics as a service model, allowing fractional ownership and/or usage on demand. This will greatly expand the availability and usage of machines for industrial as well as enterprise applications.

This report evaluates the emerging role of Teleoperation and Telerobotics in the era of Industry 4.0. The report analyzes the impact of Teleoperation and Telerobotics solutions in different industry verticals and technology sectors. The report also provides market forecasts for IIoT Teleoperation and Telerobotics systems, services, and solutions. The report also evaluates the role of Digital Twin technology in teleoperation and telerobotics.

Target Audience:

  • ICT infrastructure suppliers
  • Industrial robotics companies
  • Embedded systems companies
  • Systems integration companies
  • Wireless device manufacturers
  • Sensors and actuators suppliers


目次

1.0          Executive Summary

 

2.0          Overview

 

3.0          Automation and Robotics in Industrial IoT (IIoT)

3.1          Industrial IoT in Context

3.2          Technology Transformation: Broadband Communications

3.3          Industrial Productivity and IIoT Economic Contribution

3.4          Industrial Efficiency and IIoT

3.5          IIoT Adoption Trends Globally

3.6          Smart Factories, Intelligent Manufacturing, and Industry 4.0

3.7          Industrial Revolution and Migration

3.8          IIoT Building Blocks

3.9          Industrial Automation and IIoT

3.10        Human Aspect of IIoT

3.11        Integrated Digital and Human Workforce

3.12        Wearable Technology and IIoT

3.13        Workforce Augmentation

3.14        Hybrid Industry and Robotics

3.15        Drone Logistics

 

4.0          Teleoperation and Telerobotics

4.1          Telerobotics

4.1.1      Agile Robots: Move like Humans in Dangerous Environments

4.1.2      Collaborative Industrial Robots (CoBots)

4.2          Telepresence

4.3          Teleoperation

4.4          Telemanipulation

4.5          Internet Telerobotics

4.6          The Web and Telerobotics

4.7          Real-time Transport Protocol (RTP)

4.8          Technical Architecture of Telerobitcs System

4.8.1      Telerobot

4.8.2      Web Client

4.8.3      Communications

4.8.4      Transmission Protocol

4.9          Bilateral Control and Haptic Feedback

4.9.1      The Robonaut Case

4.10        Unilateral vs. Bilateral Model

4.10.1    Performance Matrix

 

5.0          Role of Teleoperation and Telerobotics in Automation

5.1          The Role of Telerobotics in Industrial Automation

5.2          Impact on Logistics and Supply Chain

5.3          Industrial Producer/Consumer (Prosumer) Value Chain

5.4          Employment Transformation and the Future for Factory Workers

5.5          Clear Production

5.6          Manufacturing Supply Chain and Robotics

5.7          Connected Service and Teleoperation

5.8          Benefits and Drawbacks

5.9          Edge Computing for IoT

5.10        Swarm Computing

 

6.0          Impact of Teleoperation and Telerobotics

6.1          Technologies facilitating Hyper Automation

6.2          Rise of the Hybrid Enterprise to Optimize IIoT

6.3          Intelligent Human Workforce: Augmented by AI and Robots

6.4          Drone Logistics to become Common for B2B as well as B2C

6.5          Industrial Robotics remains the Key Area of Focus

6.6          Rise of the Smart Machine driven Factory of the Future

6.7          Engaging the Consumer throughout the Product Lifecycle

6.8          A Transformation to an Outcome Economy

6.9          Information Technology (IT) & Operational Technology (OT) Convergence

6.10        New Stakeholders Emerge and New Relationships Develop

 

7.0          Teleoperation and Telerobotics in Edge Networks

7.1          Edge Computing

7.2          Multi-access Edge Computing (MEC)

7.3          Teleoperation and Telerobotics in MEC

 

8.0          Teleoperation and Telerobotics Market Analysis and Forecasts

8.1          Market for Teleoperation and Tele-robotics in IIoT 2018 – 2023

8.1.1      IIoT Teleoperation and Tele-robotics Solutions by Segment 2018 – 2023

8.1.2      IIoT Teleoperation and Tele-robotics Solutions by Region 2018 – 2023

8.1.3      IIoT Teleoperation and Tele-robotics Solutions by Tech and App 2018 – 2023

8.1.4      IIoT Teleoperation and Tele-robotics Solution by Industry Vertical 2018 – 2023

8.1.5      Artificial Intelligence in IIoT Teleoperation and Tele-robotics Solutions

8.2          Digital Twinning and Physical Asset Security

8.3          IT Process Efficiency Increase

8.4          AI to Replace Human Form Work

8.5          Enterprise AI Adoption Trends

8.6          Inclusion of AI as IT Requirement

 

9.0          Conclusions and Recommendations

9.1          Need for Enhanced Operational Support

9.2          IIoT: Don’t Forget the Consumer

 

10.0        Appendix: Digital Twin Product and Service Ecosystem

10.1        Digital Twinning Impact on Industry Segments

10.1.1    Industrial IoT

10.1.2    Consumer IoT

10.2        Application Development and Operations

10.2.1    IoT Application Programming Interfaces

1.1.1      Virtual Objects and Control of Real Assets

10.2.2    Identity Management, Authentication, and Authorization

10.2.2.1                IoT Identity Management

10.2.2.2                Virtual Identities for Digital Twinning Operations

10.2.2.3                Authentication and Authorization

10.3        Digital Twin Use Cases and Applications

10.3.1    Maintenance, Repair and Overhaul Operations

10.3.2    Digital Avatar of Consumer Assets

10.3.3    Performance/Service Monitoring

10.3.4    Inspection and Repair

10.3.5    Predictive Maintenance

10.3.6    Product Design and Development

1.1.2      Composite Assembling/Manufacturing

10.3.7    Monitoring Business Outcomes

10.4        Digital Twinning as a Service (DTaaS)

 

Figures:

Figure 1: Telerobotics System Architecture         

Figure 2: Web Based Robotic System     

Figure 3: Edge Computing Architecture 

Figure 4: AI Solution driven Enterprise Productivity Gains 2018 - 2023      

Figure 5: Global Digital Twinning Connected IoT Things 2018 – 2023          

Figure 6: AI Robo-Boss Supervision of Worker 2018 – 2023           

Figure 7: APIs support Physical to Cyber World Communications               

Figure 8: IoT Identity Database 

Figure 9: IoT Virtual Identity Database   

Figure 10: Data Fusion for MRO Operation           

Figure 11: Composite Manufacturing Model       

Figure 12: Digital Twinning Applications and Outcomes  

 

Tables:

Table 1: MEC based Teleoperation, Tele-robotics and Telepresence Market 2018 – 2023               

Table 2: Teleoperation and Tele-robotics Solution by Segment 2018 – 2023          

Table 3: Teleoperation and Tele-robotics Solution Market by Region 2018 – 2023              

Table 4: Teleoperation and Tele-robotics by Sector/Tech/App 2018 – 2023           

Table 5: Teleoperation and Tele-robotics Solution by Industry Vertical 2018 – 2023           

Table 6: AI in Teleoperation and Tele-robotics Software Market

Table 7: AI Software Conducted Economic Transaction 2018 - 2023           

Table 8: AI Empowered Building Security System 2018 – 2023     

Table 9: AI Empowered Business Analytics Software 2018 – 2023              

Table 10: AI Self Service Visual Discovery vs. Traditional IT Controlled Tools 2018 - 2023   

Table 11: AI Smart Machine Created Business Content 2018 – 2023

 

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