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市場調查報告書

行動機器人的未來

The Future of Mobile Robots

出版商 Frost & Sullivan 商品編碼 323661
出版日期 內容資訊 英文 114 Pages
商品交期: 最快1-2個工作天內
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行動機器人的未來 The Future of Mobile Robots
出版日期: 2015年01月29日 內容資訊: 英文 114 Pages
簡介

預計2020年,可能有2,600萬行動機器人,在智慧工廠、無人交通機關、連網家庭中具自動性。

本報告提供行動機器人調查分析、主要的應用、市場潛在性、優點、技術引進的層級等相關的系統性資訊。

第1章 摘要整理

第2章 調查範圍、目標、目的

第3章 調查定義

第4章 行動機器人定義、種類、產業價值鏈

第5章 行動機器人(各應用):物流、流通

  • 物流、倉庫、流通
  • 無人運輸車(AGV)的成本效益分析
  • 引進層級:入境物流、流通
  • 案例研究:Seegrid

第6章 行動機器人(各應用):國防、安全

  • 無人國防系統概要
  • 無人飛機(UAV)
  • 技術準備層級
  • UAV的成本效益分析
  • 案例研究:美國的國防部
  • UAS現況
  • UAS的未來
  • 其他新興國防設備:無人海軍艦艇
  • 無人偵察機的未來

第7章 行動機器人(各應用):汽車(無人汽車)

  • 自動駕駛車輛
  • 完全自動駕駛車的目的與機能必要條件
  • 自動駕駛的分類和定義
  • NHTSA自動駕駛定義
  • 自動駕駛司機參與的宏觀層面預測
  • 導入自動駕駛車輛技術的經濟利益
  • 成本效益分析:保險費
  • 自動駕駛車輛的引進層級
  • 市場規模分析
  • OEM比較分析:整體性自動駕駛策略
  • 自動駕駛車的價值主張
  • 自動駕駛的經營模式
  • 非公路用全自動駕駛車
  • 國防用全自動駕駛車
  • 案例研究:Google車輛感測器及技術

第8章 行動機器人(各應用):海洋探勘

  • 朝向資源的新道路:深海採礦
  • UUV的成本效益分析
  • AUV的引進層級
  • 案例研究:Bluefin

第9章 行動機器人(各應用):家庭(個人用機器人)

  • 行動機器人:個人用
  • 個人機器人的成本效益分析
  • 個人機器人的引進層級
  • 個人助手的引進率
  • 個人助手市場:目前商務環境
  • 個人助手的關注領域
  • 個人機器人:課題與主要解決方案供應商
  • 案例研究:GeckoSystems

第10章 市場魅力

  • 行動機器人(各主要應用)

第11章 未來的行動機器人技術的影響:主要趨勢

  • 行動機器人的引進推動因素
  • 行動機器人革命I使ndustry 4.0成為可能
  • Industry 4.0行動機器人,產生出雲端機器人技術的必要性
  • 傳統的機器人技術 vs. 雲端機器人技術
  • HRC與行動機器人
  • HRC和行動機器人的未來
  • 自規則認識系統

第12章 結論與策略性建議

第13章 附錄

目錄
Product Code: NE5C-01-00-00-00

In 2020, 26 Million Mobile Robots Will Enable Autonomy in Smart Factories, Unmanned Transportation, and Connected Homes

Technological innovations such as delivery drones, autonomous driverless cars, and smart factories that have robotic co-workers are already having a profound effect on the way industries function. Widespread adoption of advanced mobile technologies and new platforms and systems are expected. Although it is difficult to predict exactly what advances will occur, the failure to embrace new technologies may put firms behind their industry competitors. This research service will highlight new opportunities for mobile robots and automation across important applications as they start to gain commercial momentum. It will explore industry trends and highlight the potential benefits of incorporating such technologies.

Key Questions the Study will Answer

  • What are the major applications in which mobile robots are likely to play a key role moving to 2020?
  • What is the market potential in terms of shipments across these applications?
  • What are the major benefits associated with introducing mobile robots, in terms of ROI and payback period, across the major applications under study?
  • What level of technological adoption is expected in key mobile robotic applications?
  • What is Industry 4.0? How do mobile robots play a critical role in the 4th Industrial Revolution?
  • Traditional robots to cloud robots: How are smart mobile applications leading to this transition?
  • How do mobile robots enable better human-machine interaction in a smart factory/environment?
  • What are the likely growth developments across the major applications under study?

Table of Contents

1. EXECUTIVE SUMMARY

  • 1. Executive Summary-Key Findings of the Study
  • 2. Executive Summary-Key Findings of the Study (continued)
  • 3. Mega Trends Driving Adoption of Mobile Robots to 2030
  • 4. Mobile Robot Revolution Enabling Industry 4.0
  • 5. Mobile Robot Revolution Enabling Industry 4.0 (continued)
  • 6. Mobile Robots Definition and Scope
  • 7. Scope of Research Service by Type of Mobile Robot
  • 8. Mobile Robot Types and Applications
  • 9. Mobile Robot Technology Roadmap
  • 10. Mobile Robot Timeline by Major Application
  • 11. Mobile Robots by Major Applications
  • 12. Traditional Robotics vs. Cloud Robotics
  • 13. Human-Robot Collaboration (HRC) and Mobile Robots
  • 14. Executive Summary-Strategic Recommendations

2. RESEARCH SCOPE, AIMS, AND OBJECTIVES OF THE STUDY

  • 1. Research Scope
  • 2. Research Aims and Objectives
  • 3. Key Questions the Study will Answer
  • 4. Research Background
  • 5. Research Methodology-From Macro to Micro
  • 6. Research Methodology

3. DEFINITIONS USED IN THE STUDY

  • 1. Definitions
  • 2. Definitions (continued)

4. DEFINITION, TYPES, AND INDUSTRY VALUE CHAIN OF MOBILE ROBOTS

  • 1. Mobile Robots Definition and Scope
  • 2. Working/Functioning of Mobile Robots
  • 3. Mobile Robot Technology Roadmap
  • 4. Industry Value Chain
  • 5. Major Mobile Robot Solution Providers
  • 6. Scope of Research Service by Type of Mobile Robot
  • 7. UGVs
  • 8. UGVs (continued)
  • 9. Humanoid/Legged Robots
  • 10. UAVs
  • 11. UMVs
  • 12. Mobile Robot Types and Applications

5. MOBILE ROBOTS BY APPLICATION-LOGISTICS AND DISTRIBUTION

  • 1. Logistics, Warehouse, and Distribution
  • 2. Cost-Benefit Analysis of AGVs
  • 3. Level of Adoption-Inbound Logistics and Distribution
  • 4. Case Study-Seegrid
  • 5. Case Study-Seegrid (continued)

6. MOBILE ROBOTS BY APPLICATION-DEFENSE AND SECURITY

  • 1. Unmanned Defense Systems Overview
  • 2. Unmanned Defense Systems Overview (continued)
  • 3. UAVs
  • 4. Technology Readiness Levels
  • 5. Cost Benefit Analysis of UAVs
  • 6. Case Study-US Department of Defense
  • 7. Current State of UASs
  • 8. Current State of UASs (continued)
  • 9. Future of UASs
  • 10. Future of UASs (continued)
  • 11. Other Emerging Defense Mechanisms-Unmanned Naval Vessels
  • 12. Future of Drones to 2025

7. MOBILE ROBOTS BY APPLICATION-AUTOMOTIVE (DRIVERLESS CARS)

  • 1. Autonomous Vehicles
  • 2. Purpose and Functional Requirements of Fully Automated Vehicles
  • 3. Classification and Definition of Automated Driving
  • 4. NHTSA Automated Driving Definitions
  • 5. Macro-level Outlook of Automated Driving-Driver Involvement
  • 6. Economic Benefits of Implementing Autonomous Car Technology
  • 7. Cost-Benefit Analysis-Insurance Premiums
  • 8. Autonomous Car Adoption Level
  • 9. Market Size Analysis
  • 10. OEM Comparative Analysis-Overall Automated Driving Strategy
  • 11. Value Proposition of Automated Cars
  • 12. Automated Driving Business Models
  • 13. Off-highway Applications for Autonomous Driving Vehicles
  • 14. Defense Applications for Autonomous Driving Vehicles
  • 15. Case Study-Google Car Sensors and Technologies

8. MOBILE ROBOTS BY APPLICATION-OCEANIC EXPLORATION

  • 1. New Avenues for Resources-Deep Sea Mining
  • 2. Cost-Benefit Analysis of UUVs
  • 3. Level of Adoption of AUVs
  • 4. Case Study-Bluefin
  • 5. Case Study-Bluefin (continued)

9. MOBILE ROBOTS BY APPLICATION-HOUSEHOLD (PERSONAL ROBOTS)

  • 1. Mobile Robots-Personal Applications
  • 2. Cost-Benefit Analysis of Personal Robots
  • 3. Level of Adoption of Personal Robots
  • 4. Adoption Rate of Personal Assistants
  • 5. Personal Assistant Market-Current Business Climate
  • 6. Personal Assistant Focus Areas
  • 7. Personal Robots-Challenges and Major Solution Providers
  • 8. Case Study-GeckoSystems
  • 9. Case Study-GeckoSystems (continued)

10. MARKET ATTRACTIVENESS IN UNITS

  • 1. Mobile Robots by Major Applications

11. MOBILE ROBOTICS IMPLICATIONS TO OUR FUTURE-KEY TRENDS

  • 1. Mega Trends Driving Adoption of Mobile Robots to 2030
  • 2. Mobile Robot Revolution Enabling Industry 4.0
  • 3. Mobile Robot Revolution Enabling Industry 4.0 (continued)
  • 4. Mobile Robots in Industry 4.0 Create Need for Cloud Robotics
  • 5. Traditional Robotics vs. Cloud Robotics
  • 6. HRC and Mobile Robots
  • 7. Future of HRC and Mobile Robots
  • 8. Autonomous Cognitive Systems

12. CONCLUSIONS AND STRATEGIC RECOMMENDATIONS

  • 1. Conclusions and Recommendations-Most Attractive Applications
  • 2. Key Challenges
  • 3. Strategic Recommendations
  • 4. Legal Disclaimer

13. APPENDIX

  • 1. Robot Applications
  • 2. Immobile vs. Mobile Robots
  • 3. Future of Drones to 2025
  • 4. Future of Drones to 2025 (continued)
  • 5. Future of Drones to 2025 (continued)
  • 6. Future of Drones to 2025 (continued)
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