市場調查報告書

工業用外骨骼設備:利用案例

Exoskeletons for Industrial Use Cases

出版商 ABI Research 商品編碼 814608
出版日期 內容資訊 英文 39 Pages, 13 Tables, 8 Charts, 4 Figures
商品交期: 最快1-2個工作天內
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工業用外骨骼設備:利用案例 Exoskeletons for Industrial Use Cases
出版日期: 2019年03月26日內容資訊: 英文 39 Pages, 13 Tables, 8 Charts, 4 Figures
簡介

穿戴式外骨骼動力服,強化安裝者的運動能力,其概念於1960年代登場,不過,到近幾年在醫療、軍事等領域嘗試實用化。今後,活用擴增實境 (AR) 和穿戴式設備,資料分析,地理定位分析,工業IoT (IIoT)等技術,預計各行業的實際應用也將取得進展。

本報告提供全球各種產業的外骨骼設備 (外骨骼動力服/外骨骼)的市場趨勢和使用案例相關分析,整體市場規模趨勢預測,及近幾年主要的產品開發、引進的動向,在技術方面的主要特徵和近幾年的開發趨勢,主要的推動及阻礙市場要素,主要供應商的概要和主要產品等資訊彙整,為您概述為以下內容。

第1章 摘要整理

第2章 分析概要

第3章 重工業用外骨骼設備市場現狀 (未來預測)

  • 主要各產業市場區隔
  • 各產業市場區隔

第4章 市場主要趨勢 (共6件)

第5章 外骨骼設備的技術和種類

  • 身體的種類
  • 動力的種類
  • 腰椎、腿部的支援
  • 上肢的支援
  • 主動式外骨骼設備馬達

第6章 策略性的實行技術

  • 工作人員的擴充
  • 外骨骼設備用網路連接技術

第7章 外骨骼設備的促進、阻礙因素

  • 推動市場要素
  • 阻礙市場要素

第8章 供應商環境 (被動式外骨骼設備)

  • Bioservo
  • Comau
  • Ekso Bionics
  • Iturri
  • Laevo
  • Levitate Technologies
  • Lockheed Martin
  • noonee
  • Ottobock
  • Skelex
  • StrongArm Technologies
  • suitX (US Bionics)

第9章 供應商環境 (主動式外骨骼設備)

  • CYBERDYNE
  • German Bionic
  • Panasonic - ATOUN
  • Sarcos Robotics

第10章 建議

  • 供應商
  • 行銷負責人/終端用戶
  • 相關產業

分析對象企業

  • Comau
  • Cray Inc
  • Cyberdryne
  • German Bionic Systems
  • Harmonic Inc.
  • Levitate Technologies
  • Lockheed Martin Corporation
  • Microsoft Corporation
  • Panasonic
  • Passive Technologies
  • Sarcos
  • United Technologies Corporation
目錄
Product Code: AN-5034

Wearable exoskeletons, that can augment and provide assistance to the wearer's performance, are an old technology concept stretching back to the sixties, but in recent years interest in their application has been reinvigorated. Although much of the long term research for these devices has been focused on applications in the military and medical fields, there is a growing appetite in manufacturing and wider industries to deploy these suits to improve worker performance at the individual and strategic level. This is being driven by demand (especially in aging highly developed countries) to get the most out of skilled production workers in an increasingly tight labor market.

Exoskeletons can be divided into roughly two categories, passive and active. Passive suits are fully mechanical and have no motors, and are intended to improve ergonomics and effectively distribute weight for wearers. They are currently seeing widespread adoption across multiple verticals and with big companies in automotive, aerospace, logistics, and construction. Active robotic exoskeletons is a more ambitious technology that uses some form of motors for actuation, enabling them to provide significant lift assistance to workers. They are being trialed in various use-cases and will be deployed in notable numbers for the first time in 2019.

Beyond the exoskeletons themselves, technologies like AR, smart wearables, data analytics, location technologies, and Industrial Internet of Things (IIoT) are developing at an accelerating rate. A key challenge for exoskeleton companies will be building adjacency with these capabilities and incorporating them into their solution, as value continues to shift towards value-added services.

Table of Contents

1. EXECUTIVE SUMMARY

2. KEY TAKEAWAYS

3. CURRENT MARKET FOR EXOSKELETONS IN HEAVY INDUSTRY (FORECASTS)

  • 3.1. Key Vertical Breakdown
  • 3.2. Regional Breakdown

4. KEY MARKET DEVELOPMENTS

  • 4.1. Toyota Mandates Use for Small Percentage of Workers
  • 4.2. Ekso Bionics Moves for the Chinese Market
  • 4.3. Fourier Intelligence Promotes Open-Source Exoskeletons
  • 4.4. Sarcos Robotics Bringing out the First Major Commercial Suit Deployments in 2019
  • 4.5. Iturri Making a European Passive Ecosystem Play
  • 4.6. Differences in Emphasis between the United States and Europe

5. EXOSKELETON TECHNOLOGY AND TYPES

  • 5.1. Body Type
  • 5.2. Power Type
  • 5.3. Lumbar and Leg Support
  • 5.4. Upper Body Support
  • 5.5. Motors for Active Exoskeletons

6. STRATEGIC ENABLING TECHNOLOGIES

  • 6.1. Workforce Augmentation
  • 6.2. Connectivity for Exoskeletons

7. DRIVERS AND INHIBITORS FOR EXOSKELETONS

  • 7.1. Drivers
  • 7.2. Inhibitors

8. VENDOR LANDSCAPE (PASSIVE)

  • 8.1. Bioservo
  • 8.2. Comau
  • 8.3. Ekso Bionics
  • 8.4. Iturri
  • 8.5. Laevo
  • 8.6. Levitate Technologies
  • 8.7. Lockheed Martin
  • 8.8. noonee
  • 8.9. Ottobock
  • 8.10. Skelex
  • 8.11. StrongArm Technologies
  • 8.12. suitX (US Bionics)

9. VENDOR LANDSCAPE (ACTIVE)

  • 9.1. CYBERDYNE
  • 9.2. German Bionic
  • 9.3. Panasonic ATOUN
  • 9.4. Sarcos Robotics

10. RECOMMENDATIONS

  • 10.1. For Suppliers
  • 10.2. For Marketing and End Users
  • 10.3. Build Adjacency

Companies Mentioned

  • Comau
  • Cray Inc
  • Cyberdryne
  • German Bionic Systems
  • Harmonic Inc.
  • Levitate Technologies
  • Lockheed Martin Corporation
  • Microsoft Corporation
  • Panasonic
  • Passive Technologies
  • Sarcos
  • United Technologies Corporation