시장보고서
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1369847

원격 운영 및 원격 로보틱스 시장(2023-2028년) : 엔터프라이즈 및 산업 자동화용 기술, 솔루션, 용도별

Teleoperation and Telerobotics Market by Technologies, Solutions, and Applications for Enterprise and Industrial Automation 2023 - 2028

발행일: | 리서치사: Mind Commerce | 페이지 정보: 영문 151 Pages | 배송안내 : 1-2일 (영업일 기준)

    
    
    


※ 본 상품은 영문 자료로 한글과 영문 목차에 불일치하는 내용이 있을 경우 영문을 우선합니다. 정확한 검토를 위해 영문 목차를 참고해주시기 바랍니다.

이 보고서는 산업 4.0 시대의 원격 운영 및 원격 로보틱스의 새로운 역할을 평가합니다. 이 보고서는 다양한 업계 및 기술 분야에서 원격 운영 및 원격 로봇 솔루션의 영향을 분석합니다. 평가 대상이 되는 주요 업계는 교육, 의료, 제조, 광업, 원자력/유해 폐기물 관리, 운송 등입니다.

또한 IIoT, 클라우드 로봇 기술, 원격 운영 및 원격 로보틱스 시스템, 서비스, 솔루션에 대한 시장 예측을 실시하고 있습니다. 또한 원격 운영 및 원격 로보틱스 시스템의 통합 및 운영에서 디지털 트윈 기술의 역할에 대해서도 평가합니다.

보고서의 주요 조사 결과:

  • 북미가 2028년까지 원격 운영 및 원격 로보틱스 시장을 선도
  • 원격 운영을 지원하는 AI 소프트웨어의 시장 규모는 세계에서 59억 달러에 달할 전망
  • 원격 유지 보수 솔루션은 예측 기간 동안 세계에서 가장 높은 CAGR로 성장
  • 세계의 원격 운영 및 원격 로보틱스 시장은 2028년에는 926억 달러에 달할 전망
  • 원격 운영 솔루션으로 클라우드 RaaS (Robotics as a Service) 사용 사례가 90% 이상 증가할 전망

목차

제1장 주요 요약

제2장 서문

  • 원격 운영 및 원격 로보틱스
    • 텔레프레즌스
    • 원격 매니퓰레이터 및 협동 로봇
  • 원격 운영 제어 방식
  • VR 및 텔레프레즌스
  • 원격 조작 차량
  • 산업용 IoT 도입, 생산성, 경제 공헌
  • 스마트 팩토리, 산업 자동화, 산업 4.0
  • 노동력 증강
  • 하이브리드 엔터프라이즈
  • 드론 물류
  • COVID-19의 영향 및 원격 운영의 보급
  • 시장 촉진 요인·과제
  • 밸류체인 분석
    • 하드웨어 제공자
    • 장비 제공자
    • 플랫폼 제공자
    • 소프트웨어 및 서비스 제공자

제3장 기술 및 용도 분석

  • 인프라 기술
    • 커넥티드/성형기
    • 원격 로보틱스/텔레매니퓰레이터
    • HMI 컴퓨팅/비디오 회의 디바이스
    • 서버 스토리지
    • 원격 유지 보수 스테이션
    • 하드웨어 기기
  • 소프트웨어 기술
    • 디지털 트위닝 및 제어
    • 회의 및 커뮤니케이션
    • 네트워크 관리 및 보안
    • 아이덴티티 및 인증
    • 원격 모니터링 및 분석
    • 실시간 스트리밍
    • AI 소프트웨어
  • 잠재적 용도의 분석
    • 화상 회의
    • 텔레프레즌스
    • 라이브 스트리밍
    • 원격 수술·운영
    • 드론 물류
    • 파이프라인 검사
    • 광고·판매
    • 위험 환경
    • 해저 공사
    • 커뮤니티 구축
    • 우주 탐사
  • 사용 사례의 분석
    • 제조
    • 헬스케어·의료
    • 자동차
    • 물류
    • 교육
    • 엔터테인먼트
    • 선박·해양
    • 석유·가스·광업
    • 광고
    • 농업
    • 공간 관리
  • 커넥티비티 및 클라우드 전개
  • 양방향 제어 및 촉각 피드백
    • 단방향 모델 및 양방향 모델의 성능
    • 촉각 로보틱스 및 인간과 같은 민첩함
    • 원격 로봇 인터페이스
  • IT와 OT의 컨버전스
  • 멀티 액세스 에지 컴퓨팅과 5G 네트워크
  • 인더스트리얼 프로슈머
  • 커넥티드 서비스 및 원격 오퍼레이션

제4장 기업 분석

  • AppFolio
  • ABB Group
  • AGT Robotics
  • ARM Holdings
  • Bosch
  • Buildium
  • Console
  • Calvary Robotics
  • Cisco
  • CloudMinds
  • Contiki
  • H Robotics
  • Digi International
  • Entrata
  • Ekso Bionics
  • General Electric
  • Google
  • IBM
  • iRobot
  • Intuitive Surgical
  • Kuka AG
  • London Computer Systems
  • MRI Software
  • Nachi Fujikoshi
  • Omron Corporation
  • Property Boulevard
  • RealPage
  • Rockend
  • TOPS Software
  • Yardi Systems

제5장 원격 운영 및 원격 로보틱스 시장의 분석 및 예측

  • 세계 IIoT 원격 운영 및 원격 로보틱스 시장
    • 총시장
    • 부문별
    • 용도별
    • 산업별
    • 도입 구분별
    • 커넥티비티별
  • 지역의 IIoT 원격 운영 및 원격 로보틱스 시장
    • 지역별 시장
    • 북미
    • 유럽
    • 아시아태평양
    • 중동
    • 라틴아메리카

제6장 총론·제안

AJY 23.11.06

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. Key industry verticals evaluated include education, medical, manufacturing, mining, nuclear/hazardous waste management, and transportation.

The report also provides market forecasts for IIoT, cloud robotics technologies, teleoperation and telerobotics systems, services, and solutions. The report also evaluates the role of digital twin technology in teleoperation and telerobotics systems integration and operations.

Select Report Findings:

  • North America will lead the teleoperations and telerobotics market through 2028
  • AI software in support of the teleoperations market will reach $5.9 billion globally
  • Tele-maintenance solutions will grow at highest CAGR during forecasted period globally
  • The global teleoperation and telerobotics market are poised to reach $92.6 billion by 2028
  • Cloud robotics as a service use cases will increase over 90% due to teleoperations solutions

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. Key teleoperations and telerobotics systems include:

  • Movement: By putting robotic arms on mobile platforms and using teleoperation to control them, robots can be used in places where they could not be used before. These new mobile applications of robots allow them to access areas that are hazardous to humans, while still performing with human-like accuracy.
  • Interaction: Mobile robots need to be lightweight, compact, portable, power-dense, rugged, and efficient. These bots are designed to perform tasks as a human would in an array of difficult environments. By performing tasks once only accessible to humans, mobile robots can be implemented and automated nearly anywhere in the world.
  • Analytics: Using AI and machine learning, mobile manipulators are becoming increasingly autonomous. These machines use algorithms to course correct and learn over time. As mobile robotics become more efficient, they can surpass humans in terms of reliability and risk assessment/management.
  • Vision Technologies: Robots need to be able to visualize and process the world around them. These mobile robots do this through LIDAR, stereo vision, and monocular vision, with sensors for both 2D and 3D imaging. Modern vision systems can locate and track a target in nearly any environment, regardless of traffic or weather.
  • Advanced Communications: Teleoperation requires communication between a human and a robot. This communication needs to be extremely fast with minimal latency to achieve optimal results. 5G technologies are enabling teleoperation with lightning-fast speeds, and new solutions can be developed as a result.

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. The combination of teleoperations, M2M/IoT, and 5G communications will enable entirely new use cases for robotics, supported by cloud-based robotics as a service business models.

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. In particular, we anticipate realization of substantial benefits as a result of the teleoperation market embracing cloud robotics deployment in conjunction with 5G in private wireless environments.

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), 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, cloud robotics enables 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. As a result, many smaller companies within a given industry vertical value chain will be able to leverage telerobotics and teleoperation solutions without large capital expenditures.

Companies in Report:

  • ABB Group
  • AGT Robotics
  • AppFolio
  • ARM Holdings
  • Bosch
  • Buildium
  • Calvary Robotics
  • Cisco
  • CloudMinds
  • Console
  • Contiki
  • Digi International
  • Ekso Bionics
  • Entrata
  • General Electric
  • Google
  • H Robotics
  • IBM
  • Intuitive Surgical
  • iRobot
  • Kuka AG
  • London Computer Systems
  • MRI Software
  • Nachi Fujikoshi
  • Omron Corporation
  • Property Boulevard
  • RealPage
  • Rockend
  • TOPS Software
  • Yardi Systems

Table of Contents

1.0. Executive Summary

2.0. Introduction

  • 2.1. Teleoperation and Telerobotics
    • 2.1.1. Telepresence
    • 2.1.2. Telemanipulator and Collaborative Robots
  • 2.2. Teleoperation Control Scheme
  • 2.3. Virtual Reality and Telepresence
  • 2.4. Remotely Operated Vehicles
  • 2.5. Industrial IoT Adoption, Productivity, and Economic Contribution
  • 2.6. Smart Factories, Industrial Automation and Industry 4.0
  • 2.7. Workforce Augmentation
  • 2.8. Hybrid Enterprise
  • 2.9. Drone Logistics
  • 2.10. Coronavirus Impact and Teleoperation Uptake
  • 2.11. Market Drivers and Challenges
  • 2.12. Value Chain Analysis
    • 2.12.1. Hardware Providers
    • 2.12.2. Equipment Providers
    • 2.12.3. Platform Providers
    • 2.12.4. Software and Service Providers

3.0. Technology and Application Analysis

  • 3.1. Infrastructure Technology
    • 3.1.1. Connected/Molding Machine
    • 3.1.2. Telerobot/Telemanipulator
      • 3.1.2.1. Technical Architecture
        • 3.1.2.1.1. Telerobot
        • 3.1.2.1.2. Web Client
        • 3.1.2.1.3. Communications
        • 3.1.2.1.4. Transmission Protocol
      • 3.1.2.2. Real-Time Transport Protocol
    • 3.1.3. HMI Computing/Video Conferencing Device
    • 3.1.4. Servers and Storage
    • 3.1.5. Tele-maintenance Station
    • 3.1.6. Hardware Equipment
  • 3.2. Software Technology
    • 3.2.1. Digital Twinning and Controlling
      • 3.2.1.1. Virtual Objects and Control of Real Assets
      • 3.2.1.2. Digital Twinning as a Service
    • 3.2.2. Conferencing and Communication
    • 3.2.3. Network Management and Security
    • 3.2.4. Identity and Authentication
    • 3.2.5. Remote Monitoring and Analytics
    • 3.2.6. Real-Time Streaming
    • 3.2.7. AI Software
      • 3.2.7.1. Machine Learning
      • 3.2.7.2. Context-Based Processing
      • 3.2.7.3. Cognitive Computing
      • 3.2.7.4. Swarm Computing
  • 3.3. Potential Application Analysis
    • 3.3.1. Videoconferencing
    • 3.3.2. Telepresence
    • 3.3.3. Live Streaming
    • 3.3.4. Remote Surgery and Operation
    • 3.3.5. Drone Logistics
    • 3.3.6. Pipeline Inspection
    • 3.3.7. Advertising and Sales
    • 3.3.8. Hazardous Environments
    • 3.3.9. Subsea Work
    • 3.3.10. Building Communities
    • 3.3.11. Space Exploration
  • 3.4. Use Case Analysis
    • 3.4.1. Manufacturing
    • 3.4.2. Healthcare and Medical
    • 3.4.3. Automotive
    • 3.4.4. Logistics
    • 3.4.5. Education
    • 3.4.6. Entertainment
    • 3.4.7. Marine
    • 3.4.8. Oil, Gas, and Mining
    • 3.4.9. Advertising
    • 3.4.10. Agriculture
    • 3.4.11. Space Management
  • 3.5. Connectivity and Cloud Deployment
  • 3.6. Bilateral Control and Haptic Feedback
    • 3.6.1. Unilateral vs. Bilateral Model Performance
    • 3.6.2. Tactile Robotics and Human-Like Dexterity
    • 3.6.3. Telerobotic Interface
  • 3.7. Convergence between IT and OT
  • 3.8. Multi-Access Edge Computing and 5G Network
  • 3.9. Industrial Prosumer
  • 3.10. Connected Service and Teleoperation

4.0. Company Analysis

  • 4.1. AppFolio
  • 4.2. ABB Group
  • 4.3. AGT Robotics
  • 4.4. ARM Holdings
  • 4.5. Bosch
  • 4.6. Buildium
  • 4.7. Console
  • 4.8. Calvary Robotics
  • 4.9. Cisco
  • 4.10. CloudMinds
  • 4.11. Contiki
  • 4.12. H Robotics
  • 4.13. Digi International
  • 4.14. Entrata
  • 4.15. Ekso Bionics
  • 4.16. General Electric
  • 4.17. Google
  • 4.18. IBM
  • 4.19. iRobot
  • 4.20. Intuitive Surgical
  • 4.21. Kuka AG
  • 4.22. London Computer Systems
  • 4.23. MRI Software
  • 4.24. Nachi Fujikoshi
  • 4.25. Omron Corporation
  • 4.26. Property Boulevard
  • 4.27. RealPage
  • 4.28. Rockend
  • 4.29. TOPS Software
  • 4.30. Yardi Systems

5.0. Teleoperations and Telerobotics Market Analysis and Forecast 2023-2028

  • 5.1. Global IIoT Teleoperation and Telerobotics Market 2023-2028
    • 5.1.1. Consolidated IIoT Teleoperation and Telerobotics Market
    • 5.1.2. IIoT Teleoperation and Telerobotics Market by Segment
      • 5.1.2.1. IIoT Teleoperation and Telerobotics Market by Hardware
      • 5.1.2.2. IIoT Teleoperation and Telerobotics Market by Equipment
      • 5.1.2.3. IIoT Teleoperation and Telerobotics Market by Software
        • 5.1.2.3.1. IIoT Teleoperation and Telerobotics Market by AI Software Technology
      • 5.1.2.4. IIoT Teleoperation and Telerobotics Market by Service
        • 5.1.2.4.1. IIoT Teleoperation and Telerobotics Market by Professional Service
    • 5.1.3. IIoT Teleoperation and Telerobotics Market by Application
    • 5.1.4. IIoT Teleoperation and Telerobotics Market by Industry Vertical
    • 5.1.5. IIoT Teleoperation and Telerobotics Market by Deployment
    • 5.1.6. IIoT Teleoperation and Telerobotics Market by Connectivity
  • 5.2. Regional IIoT Teleoperation and Telerobotics Market 2023-2028
    • 5.2.1. IIoT Teleoperation and Telerobotics Market by Region
    • 5.2.2. North America IIoT Teleoperation and Telerobotics Market 2023-2028
    • 5.2.3. Europe IIoT Teleoperation and Telerobotics Market 2023-2028
    • 5.2.4. Asia Pacific IIoT Teleoperation and Telerobotics Market 2023-2028
    • 5.2.5. Middle East IIoT Teleoperation and Telerobotics Market 2023-2028
    • 5.2.6. Latin America IIoT Teleoperation and Telerobotics Market 2023-2028

6.0. Conclusions and Recommendations

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