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コラボレーティブロボットの世界市場分析

Analyzing the Global Market for Collaborative Robots 2018

発行 Aruvian Research 商品コード 656032
出版日 ページ情報 英文 130 Pages
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コラボレーティブロボットの世界市場分析 Analyzing the Global Market for Collaborative Robots 2018
出版日: 2018年06月01日 ページ情報: 英文 130 Pages
概要

当レポートでは、世界のコラボレーティブロボット市場について調査分析し、コラボレーティブロボットの特徴、ロボットとヒトのコラボレーション、業界の収益、今後数年間の業界展望、コボットと従来型ロボットの分析、コボットの購入前に検討すべき様々な要因、現在使用されている多様なコラボレーティブロボット、および主要企業のプロファイルなどをまとめています。

A.エグゼクティブサマリー

B.イントロダクション

  • コボットとは?
  • フォースリミテッドロボットとは?
  • ペイロードとは?
  • ロボット重量とは?
  • 再現性とコボット
  • コボットの安全性
  • コボットの部品とプレゼンテーション
  • ロボットとヒトのコラボレーションのタイプ
  • ヒューマンロボットコラボレーションの様々なレベル

C.世界のコラボレーティブロボット市場

D.コボット vs. 従来型の産業用ロボット

  • 概要
  • セーフティコンポーネント
  • コボットの理想的なアプリケーション
  • コボットのプログラムは簡単か?
  • アジリティはコボットの基本的価値

E.ビジネスに最適なコボットを購入する方法

  • イントロダクション
  • 値札を見ないこと - 価値を求める
  • ソフトウェアの重要性
  • 展開速度
  • アプリケーションのフレキシビリティ
  • ユーザーインターフェースはシンプルであることが求められる
  • 第1段階としての安全性
  • ベンダーには何を求めるべきか?

F.現在使用されているコボット

G.主要企業

  • ABB
  • Aubo Robotics
  • Bionic Robotics GmbH
  • Bosch
  • Carbon Robotics
  • Comau
  • デンソーウェーブ
  • F&P Personal Robotics
  • ファナック
  • 川田工業
  • 川崎重工業
  • KUKA
  • 三菱電機
  • Precise Automation
  • Productive Robotics Inc.
  • Rethink Robotics
  • Staubli
  • Universal Robots
  • 安川電機
目次

In an age where robots are fast becoming an integral part of any workforce, collaborative robots, or robots, are becoming the support humans need in any shared workspace. Cobots are different from industrial robots, in that they are designed to operate with limited guidance or in some cases, completely autonomously. Many companies have jumped on the bandwagon of collaborative robots, incorporating them into their workforce to make the process more streamlined and safer.

Cobots are generally used for performing a function in the place of a human worker. They work at the same pace and even continue to do the process non-stop, thus increasing the productivity of the overall process. Cobots are also well capable of working in any environment that humans can work in, even facing extreme temperatures or noise. Companies stand to gain significantly with the use of cobots as these robots can help increase benefits and returns.

KUKA, a Germany-based robot manufacturer, was the first company to release a cobot in 2004. Market statistics estimate that cobots are likely to account for nearly 35% of all industrial robots sold by the year 2025. With the market expected to grow substantially by 2025, one of the main factors contributing to this growth will be a decrease in their price tags and an advancement of their capabilities in edge computing.

Aruvian Research presents an analysis of the global cobots market in its research report Analyzing the Global Market for Collaborative Robots 2018. The report begins with an introduction to collaborative robots. We look at the various attributes associated with cobots, such as exploring what is force limited robots, what is the payload of cobots, what is the significance of robot weight, and also the parts and presentation of cobots. This section also looks at the types of robot-human collaboration that exist and also at the levels of human-robot collaboration.

Section C of the report looks at the global market for collaborative robots including industry revenue and a brief look at how the industry is likely to shape up in the coming years.

Cobots versus traditional industrial robots are analyzed and the sections look at how cobots are a step above industrial robots when it comes to getting the work done. The section also looks at the safety component, ease of programming, agility factor of cobots, and also the ideal applications for cobots as opposed to industrial robots.

The report also provides a section dedicated to helping buyers to buy the perfect cobot for their business. Various factors that need to be considered before buying a cobot are discussed in section E.

Section F analyzes the various collaborative robots that are in use today. The section analyzes over 30 of the popular cobots available in the market today including, ABB's Yumi, BioRob by Bionic Robotics, several cobots manufactured by Fanuc, the Speedy series by MABI, and many others.

The report concludes with an analysis of several of the major players who are involved in the manufacturing of collaborative robots. Players analyzed include ABB, Bionic Robotics, FANUC, Kawasaki, Kawada Industries, KUKA, Universal Robots, and many others. Nearly 20 players are analyzed in the report.

Table of Contents

A. Executive Summary

B. Introduction to Collaborative Robots or Cobots

  • B.1. What are Cobots?
  • B.2. What are Force Limited Robots?
  • B.3. What is the Payload?
  • B.4. What is Robot Weight?
  • B.5. Repeatability and Cobots
  • B.6. Safety of Cobots
  • B.7. Parts and Presentation of Cobots
  • B.7.1. Connectivity & Integration
  • B.7.2. Grippers and End Effectors
  • B.7.3. Mounting & Fencing
  • B.7.4. Programming & Logic
  • B.8. Types of Robot-Human Collaboration
  • B.9. Various Levels of Human-Robot Collaboration

C. Global Market for Collaborative Robots

D. Cobots versus Traditional Industrial Robots

  • D.1. Overview
  • D.2. Safety Component
  • D.3. Ideal Applications for Cobots
  • D.4. Is it Easy to Program Cobots?
  • D.5. Agility is the Core Value of Cobots

E. How do you buy the Perfect Cobot for your Business?

  • E.1. Introduction
  • E.2. Don't Go on the Price Tag - Look for Value
  • E.3. Importance of Software
  • E.4. Deployment Speed
  • E.5. Flexibility of Applications
  • E.6. User Interface need to be Simple
  • E.7. Safety as the First Step
  • E.8. What to look for in a Vendor?

F. Cobots in Use Today

  • F.1. AUBO-i5
  • F.2. ABB - Roberta
  • F.3. ABB - Yumi
  • F.4. Bionic Robotics - BioRob
  • F.5. Bosch APAS Assistant
  • F.6. Comau Aura
  • F.7. CORO
  • F.8. DUARO1 WD002N
  • F.9. Fanuc - CR 4iA
  • F.10. Fanuc - CR 7iA & CR 7iA/L
  • F.11. Fanuc - CR 35iA
  • F.12. FRANKA - EMIKA
  • F.13. Kuka LBR IIWA
  • F.14. MABI - Speedy Series
  • F.15. MRK Systeme - KR 5 SI
  • F.16. Kawada Industries - Nextage
  • F.17. Precise Automation - PAVP6
  • F.18. Precise Automation - PF400
  • F.19. Precise Automation - PP100
  • F.20. F&P Personal Robotics - PRob 1R
  • F.21. F&P Personal Robotics - PRob 2R
  • F.22. Productive Robotics - OB7
  • F.23. Rethink Robotics - BAXTER
  • F.24. Rethink Robotics - SAWYER
  • F.25. Stäubli - TX2-60 & TX2-60L
  • F.26. Stäubli - TX2-90, TX2-90L & TX2-90XL
  • F.27. Techman Robot - TM5-700 & TM5-900
  • F.28. Universal Robots - UR3
  • F.29. Universal Robots - UR5
  • F.30. Universal Robots - UR10
  • F.31. Yaskawa Motoman - HC10

G. Major Players

  • G.1. ABB
  • G.2. Aubo Robotics
  • G.3. Bionic Robotics GmbH
  • G.4. Bosch
  • G.5. Carbon Robotics
  • G.6. Comau
  • G.7. Denso Wave
  • G.8. F&P Personal Robotics
  • G.9FANUC
  • G.10. Kawada Industries
  • G.11. Kawasaki Heavy Industries
  • G.12. KUKA
  • G.13. Mitsubishi Electric
  • G.14. Precise Automation
  • G.15. Productive Robotics Inc.
  • G.16. Rethink Robotics
  • G.17. Stäubli
  • G.18. Universal Robots
  • G.19. Yaskawa Motoman

List of Figures

  • Figure 1: A Collaborative Robot or Cobot
  • Figure 2: What can be automated with Cobots?
  • Figure 3: Human-Robot Collaboration - Safety Monitored Stop
  • Figure 4: Human-Robot Collaboration - Hand Guiding
  • Figure 5: Human-Robot Collaboration - Speed and Separation Monitoring
  • Figure 6: Human-Robot Collaboration - Power and Force Limiting
  • Figure 7: Different Levels of Human-Robot Collaboration
  • Figure 8: Sales of Cobots (in Thousand Units), 2018-2020
  • Figure 9: Units of Cobots Shipped Worldwide, 2014-2020
  • Figure 10: Example of Traditional Industrial Robots
  • Figure 11: AUBO-i5
  • Figure 12: ABB - Roberta
  • Figure 13: Roberta Payload
  • Figure 14: IRB 1400 YUMI
  • Figure 15: BioRob Arm
  • Figure 16: Bosch APAS Assistant
  • Figure 17: Bosch APAS at Work
  • Figure 18: Comau Aura
  • Figure 19: CORO from Life Robotics
  • Figure 20: Kawasaki DUARO1 WD002N
  • Figure 21: Fanuc - CR 4iA
  • Figure 22: Fanuc - CR 7iA
  • Figure 23: Fanuc - CR 35iA
  • Figure 24: FRANKA - EMIKA
  • Figure 25: Kuka LBR IIWA
  • Figure 26: MABI Speedy 6
  • Figure 27: MABI Speedy-10
  • Figure 28: KR 5 SI
  • Figure 29: Nextage by Kawada Industries
  • Figure 30: PAVP6
  • Figure 31: PF400
  • Figure 32: PP100
  • Figure 33: F&P Personal Robotics - PRob 1R
  • Figure 34: PRob 2R
  • Figure 35: OB7
  • Figure 36: BAXTER
  • Figure 37: SAWYER
  • Figure 38: Cobot by Stäubli
  • Figure 39: TX2-90 from Stäubli
  • Figure 40: Cobot from Techman Robot
  • Figure 41: UR3 by Universal Robots
  • Figure 42: UR5 by Universal Robots
  • Figure 43: UR10
  • Figure 44: HC-10

List of Tables

  • Table 1: Revenue Forecast for the Global Market for Collaborative Robots
  • Table 2: Outlook for the Global Core Robots Industry, 2015-2025
  • Table 3: Comparison Chart Showing Differences between Traditional Robots versus Cobots
  • Table 4: Features of AUBO i5
  • Table 5: Features of ABB's YUMI
  • Table 6: Features of Bosch APAS Assistant
  • Table 7: Features of Comau Aura
  • Table 8: Features of CORO
  • Table 9: Features of Kawasaki DUARO1 WD002N
  • Table 10: Fanuc - CR 4iA
  • Table 11: Features of Fanuc - CR 7iA & CR 7iA/L
  • Table 12: Features of Fanuc - CR 35iA
  • Table 13: Features of Emika
  • Table 14: Features of LBR IIWA 7 R800
  • Table 15: Features of Speedy 6 & Speedy 12
  • Table 16: Features of KR 5 SI
  • Table 17: Features of Nextage
  • Table 18: Features of PAVP6
  • Table 19: Features of PF400
  • Table 20: Features of PROB 2R 24V and PROB 2R 48V
  • Table 21: Features of OB7
  • Table 22: Features of BAXTER
  • Table 23: Features of SAWYER
  • Table 24: Features of TX2-60 & TX2-60L
  • Table 25: Features of TX2-90, TX2-90L & TX2-90XL
  • Table 26: Features of TM5-700 & TM5-900
  • Table 27: Features of UR3
  • Table 28: Features of UR5
  • Table 29: Features of UR10
  • Table 30: Features of Yaskawa Motoman - HC10
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