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市場調查報告書

機器人外骨骼:路徑規劃·影響分析

Robotic Exoskeletons: Roadmapping and Impact Analysis

出版商 Frost & Sullivan 商品編碼 769474
出版日期 內容資訊 英文 50 Pages
商品交期: 最快1-2個工作天內
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機器人外骨骼:路徑規劃·影響分析 Robotic Exoskeletons: Roadmapping and Impact Analysis
出版日期: 2018年12月31日內容資訊: 英文 50 Pages
簡介

提升人類生活與知性的機器人技術認知度擴大和各種研究舉措,為機器人外骨骼製造商在各種領域創造出廣泛的用途機會。

本報告提供醫療保健·製造·軍事·建設業的機器人外骨骼的引進趨勢調查,彙整機器人外骨骼現況,各種類型技術,成長推進因素與課題分析,主要產業部門的影響和經濟·社會·對環境的影響,專利趨勢,投資趨勢,主要革新及創新者的簡介,成長機會分析,未來展望等資料。

第1章 摘要整理

第2章 機器人外骨骼:目前方案

  • 製造部門的視覺化:sneak preview
  • 機器人外骨骼技術的各種類型
  • 市場成長的促進因素:活用機器人技術的推動趨勢
  • 推進技術開發的機器人外骨骼優點
  • 市場課題:成本·技術的誤用·研究資金投入
  • 引進的障礙:機器人外骨骼的高成本性

第3章 機器人外骨骼的影響評估:經濟·產業·社會·環境上的影響

  • 製造&建設部門:提高生產率和降低員工職業傷害
  • 復健:醫療保健·軍隊&國防部門的重要用途
  • 經濟影響
  • 社會影響

第4章 專利·資金投入趨勢

  • 全球專利趨勢分析
  • 差距分析·資金投入趨勢

第5章 主要革新·創新者的簡介

  • 主要創新者
  • 專為行動障礙而設計的醫療外骨骼
  • 復健用動力外骨骼
  • 仿生步行輔助外骨骼
  • 用於下肢支撐的仿生套裝
  • 靈巧的移動機器人外骨骼
  • 動力外骨骼具有更高的靈活性和反應性
  • 仿生膝關節支撐預防膝關節損傷
  • 下肢癱瘓用醫療外骨骼

第6章 機器人外骨骼:各部門路徑規劃

  • 機器人外骨骼:預計將長期廣泛引進
  • 醫療保健·製造部門:初期採用者
  • 軍事和國防以及建築和施工部門將採用該技術

第7章 機器人外骨骼的成長機會·總論

  • 提高勞工的效能·執行複雜的工作:重要的成長機會
  • 身體復健的進步:推動技術開發
  • 機器人解決方案的引進擴大:創造市場機會

第8章 主要聯繫資訊

目錄
Product Code: D88A

Physical Rehabilitation Enhance Opportunities for Robotic Exoskeletons

Awareness and research initiatives of robotics technologies improving human life and intelligence have created opportunities for robotic exoskeleton manufacturers to discover a wide range of applications across various sectors. Efficient human-robot interaction, reduced footprint, ease of integration, reprogram ability and creation of flexible environment are encouraging advancements of robotic exoskeletons.

Robotic platforms are expected to be pivotal role in automation. Apart from automating the working environment, the adoption of exoskeletons will ease the tasks of humans associated with dangerous and hazardous tasks. In healthcare industry, robotic exoskeletons are expected to play a quintessential role in offering effective physical rehabilitation and elderly care solutions.

The scope of this report is limited to robotic exoskeletons based on its applicability in healthcare, manufacturing, military and construction sector. This technology and innovation report focuses on providing a snapshot on the key impact of exoskeletons on sector level, social and economic front. A global patent and funding assessment on the technology development is included in the report along with key innovations and growth opportunities of robotic exoskeletons.

A global analysis on the current development of robotic exoskeleton technologies was done to assess the disruptive opportunities of exoskeletons.

Key questions addressed in the research service:

  • What are the key emerging applications which will have a high impact in the adoption of robotic exoskeletons?
  • What are the benefits and challenges of robotic exoskeletons?
  • What are the key innovations impacting technology development?
  • What are they patent trends witnessed in the robotic exoskeleton area?
  • What are the key focus areas of technology development?
  • What are future growth opportunities?

Table of Contents

1.0. EXECUTIVE SUMMARY

  • 1.1. Research Scope
  • 1.2. Research Methodology
  • 1.3. Research Methodology Explained
  • 1.4. Summary of Key Findings
  • 1.4. Summary of Key Findings (continued)

2.0. ROBOTIC EXOSKELETON-CURRENT SCENARIO

  • 2.1. Visualization in the Manufacturing Sector-A Sneak Preview
  • 2.2. Types of Robotic Exoskeleton Technologies
  • 2.3. Market Drivers: Growing Trend Toward the Utilization of Robotics Technologies
  • 2.4. Benefits of Robotic Exoskeletons Encouraging technology Development
  • 2.5. Market Challenges: Cost, Misuse of Technology and Research Funding are Considered to be the Primary Factors
  • 2.6. High Cost of Robotic Exoskeletons Hindering Adoption

3.0. IMPACT ASSESSMENT OF ROBOTIC EXOSKELETONS-ECONOMIC, SECTOR, SOCIAL, AND ENVIRONMENTAL IMPACT

  • 3.1. Manufacturing and Construction Sector Employees can Improve Productivity and Reduce Injury Risk Using Exoskeletons
  • 3.2. Rehabilitation is One of the Key Applications in Healthcare and Military and Defence
  • 3.3. Economic Impact of Robotics Exoskeletons
  • 3.4. Social Impact of Robotics Exoskeletons

4.0. PATENT AND FUNDING TRENDS

  • 4.1. Global Patent Trend Analysis
  • 4.2. Gap Analysis and Funding Trends

5.0. KEY INNOVATIONS AND INNOVATORS PROFILE

  • 5.1. Key Innovators in Robotic Exoskeleton Ecosystem
  • 5.2. Medical Exoskeletons Designed for Mobility Disorders
  • 5.3. Powered exoskeletons for Rehabilitation
  • 5.4. Bionic Walking Assistance Exoskeletons
  • 5.5. Bionic Suit for Lower Limb Support
  • 5.6. Dexterous Mobile Robotic Exoskeleton
  • 5.7. Powered Exoskeletons with Improved Flexibility and Reactivity
  • 5.8. Bionic Knee Braces to Prevent Knee Injuries
  • 5.9. Medical Exoskeletons for Lower Body Paralysis
  • 5.10. Leg Protection Bionic Suits for the Marine Industry
  • 5.11. Modular Robotic Exoskeleton for Rehabilitation of all Limbs
  • 5.12. Powered Clothing Design to Supplement Users' Everyday Strength
  • 5.13. Exoskeletons Suitable for Everyday Life

6.0. ROBOTIC EXOSKELETON-SECTOR WISE ROADMAPPING

  • 6.1. Robotic Exoskeletons to Witness Wide Adoption in the Long Term
  • 6.2. Healthcare and Manufacturing Sectors to be the Early Adopters
  • 6.3. Military & Defence and Building & Construction Sectors will Adopt the Technology

7.0. GROWTH OPPORTUNITIES OF ROBOTIC EXOSKELETONS AND CONCLUSION

  • 7.1. Improvement in Worker Performance and Performing Complicated Tasks are Some of the Key Opportunities
  • 7.2. Advancement in Physical Rehabilitation Will Encourage Technology Development
  • 7.3. Increased Adoption of Robotics Solutions Creates Opportunities

8.0. INDUSTRY CONTACTS

  • 8.1. Industry Contacts
  • Legal Disclaimer
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