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市場調查報告書

工業機器人的全球市場 2015-2021年:市場佔有率、策略、預測

Industrial Robots: Market Shares, Strategies, and Forecasts, Worldwide, 2015 to 2021

出版商 WinterGreen Research, Inc. 商品編碼 317867
出版日期 內容資訊 英文 1002 Pages
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工業機器人的全球市場 2015-2021年:市場佔有率、策略、預測 Industrial Robots: Market Shares, Strategies, and Forecasts, Worldwide, 2015 to 2021
出版日期: 2015年07月09日 內容資訊: 英文 1002 Pages
簡介

機器人有助於削減整體製造成本。預計工業機器人市場到2021年以年率11.5%的成長。工業機器人市場預計達到2014年220億美金,至2021年達489億美元。

本報告以工業機器人的全球市場為焦點,提供市場佔有率、市場策略及市場預測資料、市場現狀、發展的影響要素、產品及技術、主要企業等相關的調查、分析資訊彙整。

除了探聽

摘要整理

第1章 工業機器人概論、市場動態

  • 工業機器人市場
    • 機器人提高生產效率
    • 進入機器人的產業
    • 利用工業機器人時的課題
  • 機器人達成人事費用的削減
  • 落伍者
  • 全球經濟

第2章 工業機器人的市場佔有率及市場預測

  • 機器人市場促進要素
  • 工業機器人的市場佔有率
  • 工業機器人的市場佔有率預測
  • 工業機器人市場區隔
  • 工業機器人的ROI
  • 工業機器人的價格
  • 工業機器人的地區市場區隔

第3章 工業機器人的產品說明

  • 機器人製造設備
  • ABB
  • Kuka Robots
  • Fanuc
  • DENSO WAVE
  • Yaskawa Motoman
  • Staubli Robotics
  • 物流服務機器人
  • Adept Technology Inc.
  • Aurotek Corp.
  • Axium Inc.
  • Daihen Corp.
  • Ellison Technologies.
  • 三菱電機
  • Nachi Fujikoshi Corp.
  • 愛普生
  • Pari Robotics
  • Reis Robotics
  • Rockwell Automation Inc.
  • Schunk GmbH
  • 東芝機械
  • Yamaha
  • 川崎
  • Universal Robots 、其它

第4章 產業用機器人技術

  • SCARA機器人 (水平多關節機器人)
  • 奈米技術
  • 感應技術
  • 焊接機器人
  • 物料輸送機器人
  • 噴塗機器人
  • 電漿切割機器人
  • 機器人支援:Co-Robots
  • 工業機器人的自由度
  • 機器人技術及自動化技術的範圍、標準

第5章 機器人企業的說明

  • ABB Robotics
  • Adept Technology
  • American Robot Corporation
  • Anhui Efort Intelligent Equipment
  • Apex Automation
  • Arotech
  • Apex Automation and Robotics
  • Association for Advancing Automation (A3)
  • Aurotek
  • Axium
  • BAE Systems
  • Changzhou Mingseal Robotic Technology 、另外

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目錄
Product Code: SH26391964

Worldwide Industrial Robot markets are poised to achieve significant growth as the automotive early adopter base provides a way for other industries to leverage economies of scale. Industrial Robot infrastructure in one industry makes it easier to extend product sets so that they are more available across all industries, remaking all manufacturing everywhere. Controllers permit leveraging industrial robot technology to improve automated process via iteration of work cells. Using controllers to leverage efficiencies is an evolving art, extending the current state of the art. Robots can perform tasks at less cost, and do work in a manner that cannot be replicated with human manufacturing workers. Information technology is used to implement the services provided by controllers.

Worldwide Industrial Robot markets are poised to achieve significant growth as the automotive early adopter base provides a way for other industries to leverage economies of scale. Industrial Robot infrastructure in one industry makes it easier to extend product sets so that they are more available across all industries, remaking all manufacturing everywhere.

Controllers permit leveraging industrial robot technology to improve automated process via iteration of work cells. Using controllers to leverage efficiencies is an evolving art, extending the current state of the art. Robots can perform tasks at less cost, and do work in a manner that cannot be replicated with human manufacturing workers. Information technology is used to implement the services provided by controllers.

Growth prospects for the industrial robotics industry depend on market opportunity metrics relative to the different industries. Automotive investment levels globally have remained at historical highs. Increasing usage of robotic automation by non-automotive companies is driving the usage of industrial robot automation to a new level.

Increased adoption of industrial robots coupled with a huge push from the industry for collaborative robots, opens opportunities for robotic solutions. In the immediate future industrial robots strengthen the position of every industry, promising more manufacturing efficiency at every level.

The industrial robots have not yet achieved economies of scale, illustrating the market opportunity that will come quickly after economies of scale are achieved. New technology and improved controllers open the path to economies of scale for industrial robots. As this occurs a new industrial revolution will occur. There are massive numbers of products offered by each major industrial robot vendor. Product consolidation is occurring in the market. Customization of a few products to increase product volume hold the promise of changing the market so it functions at a level that means devices that basically have eluded economies of scale in the past, will now be able to be mass produced.

A few leading vendors profiled in the report lead the market. ABB provides a comprehensive range of robots to help manufacturers improve productivity, product quality and worker safety. Regardless of application ABB has a robot to meet needs of the customer in any industry. ABB has installed 250,000 robots worldwide.

ABB's small IRB 120 multipurpose industrial robot weighs 25kg and can handle a payload of 3kg (4kg for vertical wrist) with a reach of 580mm. It is a cost-effective and reliable choice for generating high production outputs in return for low investment. A white finish Clean Room ISO 5 (Class 100) version, certified by IPA, is available.

With a global install base of nearly 300,000 industrial robots, Yaskawa Motoman has over 150 robot arm models currently in production. Well defined criteria help users find a robotic arm that suits industrial applications. Required payload, reach and repeatability specifications are market aspects. Each robotic arm model is paired with a robot controller that enables workers to program and control tasks of a single robot or coordinate multiple robot arms.

Yaskawa. Motoman offers 40 fully integrated, pre-engineered work cell solutions. These work cells include robots, process equipment, and safety equipment. Cost-effective world solutions are available to meet requirements for safety and easy of use. Customers look for industrial robots that are easy to set up and operate. Industrial robots automate manufacturing, starting with automotive factories providing automated process stat is cheaper, more reliable, and proven. Industrial robots are changing the economics of manufacturing and materials handling in all industries. Industrial robots are poised to change every aspect of modern business.

Robots bring a new industrial revolution. Adoption of industrial robots in non-automotive applications is occurring in the electronics, chemicals, pharmaceutical, and food & beverages industries. Industrial robots have opened up new market opportunities. High installation costs have been largely overcome, making industries in developing markets available to vendors. The adoption of robots in underdeveloped countries occurs because of the unavailability of skilled labor.

Industrial robots are set to bring a new industrial revolution more important than anything seen before. Industrial robots perform repetitive tasks efficiently, they do not eat, they do not make mistakes, they do not get tired, they do what they are told.

Manufacturing plants are frequently long aisles of nothing but robots, no human in sight. Beyond industrial robots that repeat actions, more intelligent robots loaded with sensors, cameras, and intelligent software are able to automate process using controllers to manage action. Use of microprocessors provides a measure of intelligent control over the activity of the robot based on input from the sensors and the cameras.

Think about the current industrial revolution. Before the invention of the automobile, buggy whip manufacturing was a thriving business. No longer. In the same vein, industrial robots hold the promise of eliminating many of the existing jobs in manufacturing. Innovation, centers of excellence. New enterprises promise to replace many of the existing jobs. People need to be flexible, to develop new industries.

Increased adoption of industrial robots coupled with a huge push from the industry for collaborative robots, opens opportunities for robotic solutions. In the immediate future industrial robots strengthen the position of every industry, promising more manufacturing efficiency at every level.

The issue becomes creating jobs and building economies worldwide so people can afford to support a family and a lifestyle and buy the goods that are manufactured so efficiently. This new job creation market thrust will come from industry and government investment in innovation and centers of excellence.

Industrial robots promise to replace 70 to 90% of existing manufacturing jobs. People will learn new ways to achieve an economy, to achieve economic development. An economy needs to adjust, to be flexible if you gave pink slips to more than half the labor force.

According to Susan Eustis, principal author of the market research study, “Industrial robot vendors have discovered that with intelligent use of new technology, they can dominate an aspect of some manufacturing automated process for a particular sector. As the early adopters in the auto industry have proven, robots do the work cheaper and better than humans once a repetitive process has been evolved. Industrial robots make the difference between winning competitive advantage or losing it. Solutions offered by vendors are creating market growth opportunities .”

Industrial robots can perform tasks faster and more accurately than humans. Increases in productivity are provided by industrial robots. Robots help reduce overall manufacturing costs in developing and developed countries. Markets are expected to rise 11.5% annually through 2021. Industrial robot markets at $22 billion in 2014 are anticipated to reach $48.9 billion by 2021.

Table of Contents

INDUSTRIAL ROBOT MARKET EXECUTIVE SUMMARY

  • Robot Market Driving Forces
    • Robots Bring A New Industrial Revolution
    • Industrial Robot Target Markets
    • Industrial Robots Third Wave Of Automated Process
  • Industrial Robot Market Shares
    • Industrial Robots Market Shares
  • Industrial Robot Market Forecasts

1. INDUSTRIAL ROBOT DESCRIPTION AND MARKET DYNAMICS

  • 1.1. Industrial Robot Markets
    • 1.1.1. Robots Make Production More Efficient
    • 1.1.2. Robots Find A Place in Industry
    • 1.1.3. Challenges to the Use Of Industrial Robots
  • 1.2. Robots Achieve Reduced Labor Costs
  • 1.3. Buggy Whips
    • 1.3.1. Industrial Robots Promise To Replace 70 To 90% Of Existing Manufacturing Jobs
    • 1.3.2. Industrial Robots In Auto Factories Multi-Tasking: Welding, Riveting, Bonding And Installing A Component
    • 1.3.3. Advent Of Low-Cost Automation
    • 1.3.4. Tesla's factory
    • 1.3.5. Everyone Will Have Access To A Personal Robot
  • 1.4. Global Economy
    • 1.4.1. Robotics as Key Economic Enabler
    • 1.4.2. US Economy

2. INDUSTRIAL ROBOTS MARKET SHARE AND MARKET FORECASTS

  • 2.1. Robot Market Driving Forces
    • 2.1.1. Robots Bring A New Industrial Revolution
    • 2.1.2. Industrial Robot Target Markets
    • 2.1.3. Industrial Robots Third Wave Of Automated Process
  • 2.2. Industrial Robot Market Shares
    • 2.2.1. Industrial Robots Market Shares
    • 2.2.2. ABB
    • 2.2.3. Kuka
    • 2.2.4. Fanuc
    • 2.2.5. Denso
    • 2.2.6. Kawasaki Robotics
    • 2.2.7. Yaskawa
    • 2.2.8. Mitsubishi Electric Corp.
    • 2.2.9. Nachi Fujikoshi Corp.
    • 2.2.10. Pari Robotics
    • 2.2.11. Kuka / Reis Robotics
    • 2.2.12. Automotive Robotics and Systems
    • 2.2.13. Rockwell Automation
    • 2.2.14. Schunk GmbH
    • 2.2.15. Staubli International AG
    • 2.2.16. Toshiba TM Robotics
    • 2.2.17. Yamaha Robotics
    • 2.2.18. Comau
    • 2.2.19. Epson
    • 2.2.20. Industrial Robot Market Share Segment Shipments by Cell Size
    • 2.2.21. Industrial Robot Market Installed Base
    • 2.2.22. General Industrial Robot Markets
    • 2.2.23. Automotive Robot Market Shares
    • 2.2.24. Systems Body-In-White Market Shares,
    • 2.2.25. SCARA Industrial Robot Market Shares,
  • 2.3. Industrial Robot Market Forecasts
    • 2.3.1. Industrial Robots Market Unit Forecasts
    • 2.3.2. Robotic Trends
  • 2.4. Industrial Robots Market Segments
    • 2.4.1. Industrial Robot Market Forecasts, Market Segments: Automotive, Body In White, Food, Beverages, Packaging, Metals, Heavy Machinery, Plastics And Rubber, And Solar / Other
    • 2.4.2. Automobile Industry Industrial Robots
    • 2.4.3. Robot Density in Automotive and General Industry
    • 2.4.4. Industrial Robot Market Forecasts, Market Segments: Welding, Painting, Material Handling, Logistical, Packaging, Palletizing
    • 2.4.5. Industrial Paint Robots
    • 2.4.6. Industrial Paint Robot ROI
    • 2.4.7. Industrial Robot Market Forecasts, Market Segments: Welding Segments,
    • 2.4.8. Industrial Robot Market Forecasts, General Manufacturing and Other Segments
    • 2.4.9. Industrial Robot Market Forecasts, Market Segments: Articulated, Cylindrical, Cartesian, And Scara 136
    • 2.4.10. Articulated Industrial Robots
    • 2.4.11. Industrial 6-Axis, 5-Axis, and 4-Axis SCARA Robots
    • 2.4.12. Cartesian Industrial Robots
    • 2.4.13. Advanced Industrial Robotics Market Penetration
    • 2.4.14. Industrial Robot Welding
    • 2.4.15. Yaskawa Motoman Robotic Welding and Cutting
    • 2.4.16. Industrial Robot Palletizing
    • 2.4.17. Robotics End User Trends
    • 2.4.18. Foxcomm Doubles Total Robotics Installed Base
    • 2.4.19. Industrial Robot Automated Material Handling
  • 2.5. Industrial Robots ROI
  • 2.6. Industrial Robots Pricing
  • 2.7. Industrial Robots Regional Market Segments
    • 2.7.1. US
    • 2.7.2. Europe
    • 2.7.3. Asia Pacific
    • 2.7.4. Japan
    • 2.7.5. Japan
    • 2.7.6. Chinese Industrial Robots Market
    • 2.7.7. Leading Chinese Mainland Industrial Robot Players
    • 2.7.8. Chinese Industrial Robot Companies
    • 2.7.9. ABB Developing Markets Opportunities

3. INDUSTRIAL ROBOT PRODUCT DESCRIPTION

  • 3.1. Robotic Manufacturing Equipment
    • 3.1.1. ABB
    • 3.1.2. Kawasaki Robotics
    • 3.1.3. Kuka Automotive Production Complexity
    • 3.1.4. Yaskawa Motoman
    • 3.1.5. Fanuc
    • 3.1.6. Global Industrial Robotics Market Segmentation
  • 3.2. ABB
    • 3.2.1. ABB Process Industry Control Robots
    • 3.2.2. ABB Comprehensive Range Of Robots
    • 3.2.3. ABB IRB 120 For Flexible And Compact Production
    • 3.2.4. ABB IRB 140
    • 3.2.5. ABB IRB 140 Small, Powerful And Fast 6-Axes Robot
    • 3.2.6. ABB IRB 6660 For Press Tending
    • 3.2.7. ABB IRB 6650S Full Vertical And Horizontal Stroke Motion
    • 3.2.8. ABB IRB 360 FlexPicker™
    • 3.2.9. ABB IRB 5500 - FlexPainter
    • 3.2.10. ABB IRB 5500 - FlexPainter
    • 3.2.11. ABB Material Handling Robots
    • 3.2.12. ABB IRB 1200 Material Handling And Machine Tending
    • 3.2.13. ABB Power IRB 7600 Built To Handle Work-Pieces Weighing 500 kg
    • 3.2.14. ABB Symphony Plus
    • 3.2.15. ABB IRB 2600ID Arc Welding
    • 3.2.16. ABB IRB 1520ID Lean Arc Welder
    • 3.2.17. ABB IRB Cost of Ownership Reductions
    • 3.2.18. ABB YuMi
    • 3.2.19. ABB YuMi Robotic Co-Worker
    • 3.2.20. ABB Human - Robot Collaboration
    • 3.2.21. ABB Human - Robot Collaboration
    • 3.2.22. ABB YuMi Dual Arm Robots
  • 3.3. Kuka Robots
    • 3.3.1. Kuka LBR IIWA
    • 3.3.2. Kuka LBR IIWA 7 R800
    • 3.3.3. Kuka LBR IIWA 7 R820
    • 3.3.4. Kuka KR 5 ARC
    • 3.3.5. Kuka KR 16 L6-2
    • 3.3.6. Kuka KR 5-2 ARC HW Specialist Arc Welding
    • 3.3.7. Kuka KR 16-2 F for Tasks In The Glass Industry
    • 3.3.8. Kuka KR 16-2 CF For Industry Including the Cleanroom
    • 3.3.9. Kuka KR 90 R2700 PRO (KR QUANTEC PRO)
    • 3.3.10. Kuka KR 40 PA Palletizing Robot
    • 3.3.11. Kuka 120 R3200 PA
    • 3.3.12. Kuka 1000 1300 TITAN PA
    • 3.3.13. Kuka 1000 L950 TITAN PA
    • 3.3.14. Kuka Customer Production Focus
    • 3.3.15. Kuka Robots in the Industry
    • 3.3.16. Kuka Robots in the Food Processing Industry
    • 3.3.17. Kuka Automation in Agriculture
  • 3.4. Fanuc
    • 3.4.1. Fanuc ARC Mate
    • 3.4.2. Fanuc LR Mate Series
    • 3.4.3. Fanuc F-200iB
    • 3.4.4. Fanuc M-1iA
    • 3.4.5. Fanuc M-2iA
    • 3.4.6. Fanuc M-3iA
    • 3.4.7. Fanuc M-10iA
    • 3.4.8. Fanuc M-20iA
    • 3.4.9. Fanuc M-410iA
    • 3.4.10. Fanuc M-410iC
    • 3.4.11. Fanuc M-420iA
    • 3.4.12. Fanuc M-430iA
    • 3.4.13. Fanuc M-710iA
    • 3.4.14. Fanuc M-900iA
    • 3.4.15. Fanuc M-900iB
    • 3.4.16. Fanuc M-2000iA
    • 3.4.17. Fanuc Paint Robots
    • 3.4.18. Fanuc R-1000iA
    • 3.4.19. Fanuc R-2000iB
    • 3.4.20. Fanuc R-2000iC
    • 3.4.21. FANUC
    • 3.4.22. Fanuc Vegetable Sorting Robot
    • 3.4.23. FANUC Robodrill DiA5 Series
  • 3.5. Denso Wave
    • 3.5.1. Denso HS-G Series
    • 3.5.2. Denso HM-G Series
    • 3.5.3. Denso VM-G Series
    • 3.5.4. Denso VS-G Series
    • 3.5.5. Denso New VS-G Series
    • 3.5.6. Denso VP-G Series
    • 3.5.7. Denso XR-G Series
  • 3.6. Yaskawa Motoman
    • 3.6.1. Yaskawa Motoman Arc Welding Robots
    • 3.6.2. Yaskawa Motoman 7-Axis Robotic Welding Arm
    • 3.6.3. Yaskawa Motoman Spot Welding Robots
    • 3.6.4. Yaskawa Motoman Assembly Robots
    • 3.6.5. Yaskawa Motoman Material Cutting Robot
    • 3.6.6. Yaskawa Motoman Die Casting Robots
    • 3.6.7. Yaskawa Motoman Dispensing Robots
    • 3.6.8. Yaskawa Motoman Machining Robots
    • 3.6.9. Yaskawa Motoman Material Removal Robots
    • 3.6.10. Yaskawa Motoman Press Tending Robots
    • 3.6.11. Yaskawa Motoman Robots for Warehouse Distribution Centers
    • 3.6.12. Yaskawa Motoman Machine Tending Robots
    • 3.6.13. Yaskawa Motoman Robotic Palletizer Models
    • 3.6.14. Yaskawa Motoman Part Transfer Robots
    • 3.6.15. Yaskawa Motoman Robots for Primary and Secondary Packaging
    • 3.6.16. Yaskawa Motoman Clinical Lab Robots
    • 3.6.17. Yaskawa Motoman Analytic Specimen Capabilities
    • 3.6.18. Yaskawa Motoman AutoSorter™
    • 3.6.19. Yaskawa Motoman Painting Robots
    • 3.6.20. Yaskawa Motoman Robot Painting to Specifications
  • 3.7. Stäubli Robotics: Innovative SCARA and 6-Axis Robots And Software Solutions
    • 3.7.1. Staubli TP80 Fast Picker Robot
    • 3.7.2. Staubli TS40 SCARA robot
    • 3.7.3. Staubli TS60 SCARA robot
    • 3.7.4. Staubli TS80 SCARA robot
    • 3.7.5. Staubli TX40 6-Axis Industrial Robot
    • 3.7.6. Staubli TX2-40 6-Axis Industrial Robot
    • 3.7.7. Staubli TX60 6-Axis Industrial Robots
    • 3.7.8. Staubli TX2-60 6-Axis Industrial Robots
    • 3.7.9. Staubli TX90 6-Axis Industrial Robot
    • 3.7.10. Staubli TX2-90 6-Axis Industrial Robot
    • 3.7.11. Staubli RX160 6-Axis Industrial Robot
    • 3.7.12. Staubli TX200 6-Axis Heavy Payload Robot
    • 3.7.13. Staubli TX340 SH Industrial Robot
    • 3.7.14. Staubli Painting Robots
  • 3.8. Logistics Services Robots
    • 3.8.1. Amazon Kiva Mobile-Robotic Fulfillment System
    • 3.8.2. Swisslog WarehouseRunner for Storage and Retrieval: Increase Efficiency Throughout the Warehouse 557
    • 3.8.3. C&D Robotics ATL Automatic Truck Loading
    • 3.8.4. Motoman Robotic Truck Unloading and Mixed-Case Depalletizing
    • 3.8.5. Yaskawa Motoman Packaging
    • 3.8.6. Yaskawa Motoman Palletizing
  • 3.9. Adept Technology Inc.
    • 3.9.1. Adept SCARA Robot - Adept Cobra ePLC800 Inverted SCARA 4-Axis Robot
    • 3.9.2. Adept Parallel Robot (Delta Robot): Adept Quattro ePLC800H
    • 3.9.3. Adept Six-Axis Robot - Adept Viper ePLC850
    • 3.9.4. Adept Linear Modules - Adept Python
  • 3.10. Aurotek Corp.
    • 3.10.1. Aurotek Automation & Robotics
    • 3.10.2. Aurotek Actuator
    • 3.10.3. Aurotek Motion Controller
  • 3.11. Axium Inc.
    • 3.11.1. Axium Palletizing Solutions - Axium IxOFlex - Scalable
    • 3.11.2. Axium IxOFlex - T - Tissue Palletizing Solution
    • 3.11.3. Axium EOP - End of Press Robotic Palletizing
    • 3.11.4. Axium RRFlex - Rail Mounted Palletizing Solution
    • 3.11.5. Axium ROP - Mixed Load Palletizing
    • 3.11.6. Axium WrapBotic - Palletizing and Wrapping Solution For Unstable Loads
    • 3.11.7. Axium Depalletizing Solutions: Axium DP500 Sorter - Robotic Folding Carton Sorter
    • 3.11.8. Axium DP240 - Layer Depalletizer
    • 3.11.9. Axium DP500 Feeder - Robotic Folding Carton Feeder
    • 3.11.10. Axium CIS - Case Measuring & Inspection System
    • 3.11.11. Axium Case Packing Solutions: Axium BD-X-65 - Tissue Box Collating Solution
    • 3.11.12. Axium CP-4X - Case Packer 4 axis
    • 3.11.13. Axium CP-6X - Case Packer 6 Axis
    • 3.11.14. Axium MP900 - Mixed Case Packing
  • 3.12. Daihen Corp.
    • 3.12.1. Daihen FD-V6 STANDARD ARC WELDING ROBOT
    • 3.12.2. Daihen FD-V6L Long Reach Arc Welding Robot
    • 3.12.3. Daihen FD-B4 Through-Arm Cable ARC Welding Robot
    • 3.12.4. Daihen FD-B4L EXTENDED REACH THROUGH-ARM CABLE ARC WELDING ROBOT
    • 3.12.5. Daihen FD-H5 Compact ARC Welding Robot
    • 3.12.6. Daihen FD-V20 LONG REACH ARC WELDING ROBOT
  • 3.13. Ellison Technologies.
    • 3.13.1. Ellison Bulk Mail Handling
    • 3.13.2. Ellison Robot Swing Boom
    • 3.13.3. Ellison Tilt/Rotate Table
    • 3.13.4. Ellison Headstock/Tailstock
    • 3.13.5. Ellison Index Tables
    • 3.13.6. Fanuc/Ellison Vision
    • 3.13.7. Ellison Gripper Systems
  • 3.14. Mitsubishi Electric Corp.
    • 3.14.1. Mitsubishi Vertical Type Robots
  • 3.15. Nachi Fujikoshi Corp.
    • 3.15.1. Nachi SRA100/166/210/166L/120EL
    • 3.15.2. Nachi SRA166/210-01A
    • 3.15.3. Nachi SRA100H/SRA133HL
    • 3.15.4. Nachi SRA100B/100J
    • 3.15.5. Nachi Arc Welding NB/NV Series
    • 3.15.6. Nachi SC series SC700
    • 3.15.7. Nachi SC series SC500
    • 3.15.8. Nachi SC series SC400L
    • 3.15.9. Nachi MC350/MC280/MC470P
    • 3.15.10. Nachi SC series SC400LC
    • 3.15.11. Nachi ST133CF/166CF/210CF-01
    • 3.15.12. Nachi SJ80C-18D/24D, SJ120C-28D/28S
    • 3.15.13. Nachi Compact and Super Fast Robot - MZ04
    • 3.15.14. Nachi MZ07 - the World's Fastest Lightweight, Compact Robot
    • 3.15.15. Nachi ST210TP
    • 3.15.16. Nachi LP130/180/210-01
    • 3.15.17. Nachi MR35/50
    • 3.15.18. Nachi MR20/20L
    • 3.15.19. Nachi MC35/50/70
    • 3.15.20. Nachi MC20/MC10L
    • 3.15.21. Nachi MC12S
    • 3.15.22. Nachi SRA100/166/210/166L/120EL
  • 3.16. Epson Robots
  • 3.17. Pari Robotics
    • 3.17.1. Pari Gantry Robots
    • 3.17.2. Pari Portal Robots
    • 3.17.3. Pari Robot Transporters
  • 3.18. Reis Robotics
    • 3.18.1. Reis VERTICAL ARTICULATED ARM
    • 3.18.2. Reis Linear Kinematics
    • 3.18.3. Reis Horizontal Articulated Arm
    • 3.18.4. Reis Hybrid Kinematics
    • 3.18.5. Reis ROBOTSTAR VI - THE STAR AMONG ROBOT CONTROLS
  • 3.19. Rockwell Automation Inc.
    • 3.19.1. Rockwell Robotic Solutions
    • 3.19.2. Rockwell Packaging
    • 3.19.3. Rockwell Cartoner
    • 3.19.4. Rockwell Case Packer
    • 3.19.5. Rockwell Horizontal Flow Wrapper
    • 3.19.6. Rockwell Vertical Form, Fill & Seal
    • 3.19.7. Rockwell Material Handling
    • 3.19.8. Rockwell Conveyors
    • 3.19.9. Developments by Cisco and Rockwell Automation
    • 3.19.10. Rockwell Palletizing
    • 3.19.11. Rockwell Sortation
    • 3.19.12. Rockwell Factory Machines
  • 3.20. Schunk GmbH
    • 3.20.1. SCHUNK Mobile Gripping Systems.
    • 3.20.2. SCHUNK Clamping Technology
    • 3.20.3. SCHUNK Gripping Systems
  • 3.21. Toshiba Machine TM Robotics
    • 3.21.1. Toshiba Machine TM SCARA THP550
    • 3.21.2. TM SCARA THP700
    • 3.21.3. TM SCARA TH1050A
    • 3.21.4. TM SCARA THL1000
  • 3.22. Yamaha Robotics
    • 3.22.1. Yamaha YK600XGL
    • 3.22.2. Yamaha YK500TW
    • 3.22.3. Yamaha YK1200X
    • 3.22.4. Yamaha YK1000XGS
    • 3.22.5. Yamaha YK1000XC
  • 3.23. Kawasaki Robotics
  • 3.24. Universal Robots
  • 3.25. MIT Autonomous Gardener Equipment Mounted On The Base of a Roomba

4. INDUSTRIAL ROBOT TECHNOLOGY

  • 4.1. SCARA Robots
  • 4.1. Nanotechnology
  • 4.2. Sensor Technology
    • 4.2.1. Robot System Architecture
    • 4.2.2. Automation Technology Replaces Manual Labor Tasks
    • 4.2.3. Behavior-Based Robotics
    • 4.2.4. Proprietary Sensor Technology
    • 4.2.5. System Design & Architecture
  • 4.3. Welding Robots
  • 4.4. Material Handling Robots:
  • 4.5. Painting Robots
    • 4.5.1. Paint Robots
  • 4.6. Plasma Cutting Robots:
  • 4.7. Robotic Assistants: Co-Robots
    • 4.7.1. Low-Cost Robots Baxter, UR5 and UR10 for Small And Medium Business (SMEs)
  • 4.8. Industrial Robots Degrees-Of-Freedom
    • 4.8.1. Motion characteristics
    • 4.8.2. Continuous Path Robots
    • 4.8.3. Accuracy and repeatability
  • 4.9. Robotics and Automation Scope and Standards
    • 4.9.1. Use Of Standard Industrial Robots
    • 4.9.2. IEEE Standards Initiatives Affecting Industrial Robots

5. ROBOT COMPANY DESCRIPTION

  • 5.1. ABB Robotics
    • 5.1.1. ABB and IO Deliver Direct Current-Powered Data Center Module
    • 5.1.2. ABB / Validus DC Systems DC Power Infrastructure Equipment
    • 5.1.3. ABB Technology
    • 5.1.4. ABB Global Lab Power
    • 5.1.5. ABB Global Lab Automation
    • 5.1.6. ABB Strategy
    • 5.1.7. ABB Global Leader In Power And Automation Technologies
    • 5.1.8. ABB Power Products
    • 5.1.9. ABB Power Systems
    • 5.1.10. ABB Customers
    • 5.1.11. ABB Partners
    • 5.1.12. ABB Discrete Automation and Motion
    • 5.1.13. ABB Low Voltage Products
    • 5.1.14. ABB Process Automation
  • 5.2. Adept Technology
    • 5.2.1. Adept Technology Leading Provider Of Intelligent Vision-Guided Robotics
  • 5.3. American Robot Corporation
  • 5.4. Anhui Efort Intelligent Equipment
  • 5.5. Apex Automation
  • 5.6. Arotech
    • 5.6.1. Arotech's Power Systems Division (APSD)
  • 5.7. Apex Automation and Robotics
  • 5.8. Association for Advancing Automation (A3)
  • 5.9. Aurotek
    • 5.9.1. Aurotek's Training and Simulation Division (ATSD)
    • 5.9.2. Aurotek Target Markets
  • 5.10. Axium
  • 5.11. BAE Systems
    • 5.11.1. BAE Systems Organization
    • 5.11.2. BAE Systems Performance
    • 5.11.3. BAE Systems Key Facts
    • 5.11.4. BAE Systems Strategy
    • 5.11.5. BAE Systems Operational Framework
    • 5.11.6. Key Performance Indicators (KPIs)
    • 5.11.7. BAE Systems Risk Management
  • 5.12. Changzhou Mingseal Robotic Technology
  • 5.13. Daimler AG/Mercedes-Benz
    • 5.13.1. Daimler AG Revenue
  • 5.14. Denso Wave **
    • 5.14.1. Denso Development Network
  • 5.15. DJI Innovation
  • 5.16. DMG Mori Ellison Technologies**
    • 5.16.1. DMG Mori Ellison Technologies Brings Mastery Of Advanced Manufacturing Technology
  • 5.17. Durr
  • 5.18. EBZ
  • 5.19. ECA Robotics
  • 5.20. Elbit Systems
    • 5.20.1. Elbit Systems Principal Market Environment
    • 5.20.2. Elbit Systems
  • 5.21. Epson
    • 5.21.1. Epson Automation on Assembly Lines Using Robots
  • 5.22. Evatran Group
  • 5.23. Fanuc
    • 5.23.1. FANUC Corporation
    • 5.23.2. Fanuc Revenue
    • 5.23.3. Fanuc Joint Venture With General Electric in the FA field
  • 5.24. Fiat / Comau
  • 5.25. Fuji Heavy Industries
    • 5.25.1. Subaru Automotive Business
    • 5.25.2. Subaru of America
  • 5.26. GSK
  • 5.27. Harbin BOSHI Automation
  • 5.28. Harbin Haier & HIT Robot Technology
  • 5.29. Harmonic Drive Systems
    • 5.29.1. Applications for Harmonic Drive products:
    • 5.29.2. Harmonic Drive Servo Actuators
    • 5.29.3. Harmonic Drive Gearheads
    • 5.29.4. Harmonic Planetary® Gearhead
  • 5.30. HuaHeng Welding
  • 5.31. Hyundai Heavy Industries
  • 5.32. International Federation of Robotics (IFR)
  • 5.33. Kawasaki Robotics
  • 5.34. Kuka
    • 5.34.1. KUKA Dominant Customer Segment, Automotive Industry
    • 5.34.2. Kuka Revenue
    • 5.34.3. Kuka Competition
    • 5.34.4. Kuka Innovative Technology
    • 5.34.5. Kuka Well Positioned With A Broad Product Portfolio In Markets With Attractive Growth Prospects 856
    • 5.34.6. Kuka Strategy
    • 5.34.7. Kuka Corporate Policy
    • 5.34.8. Kuka Customers
    • 5.34.9. KUKA Acquires 51% of Reis Robotics
    • 5.34.10. Kuka Positioning in Robotics and Systems
  • 5.35. MESNAC
  • 5.36. Mitsubishi
    • 5.36.1. Mitsubishi Electric Corp.
  • 5.37. Nabtesco
  • 5.38. Nachi Fujikoshi Corp.
    • 5.38.1. Nachi Fujikoshi Business
  • 5.39. National Institute of Standards and Technology
  • 5.40. Osaka Transformer Company OTC / Daihen
    • 5.40.1. Daihen Innovative Technology
    • 5.40.2. Daihen
  • 5.41. Panasonic
    • 5.41.1. Sanyo
    • 5.41.1. SANYO 2011 Sales Of Solar Photovoltaic Systems
    • 5.41.2. Panasonic / Sanyo Solar Ark
    • 5.41.3. Panasonic /Sanyo Solar Stone Brewing Company Reference Account
    • 5.41.4. Panasonic / Sanyo Solar LumenHAUS Reference Account
    • 5.41.5. I nSpec / SANYO
    • 5.41.6. SANYO and InSpec Group Partnership Generates Multiple Solar Installations in Oregon
  • 5.42. Pari Robotics
  • 5.43. Pedsco
  • 5.44. Re2, Inc
    • 5.44.1. Re Leading Developer
    • 5.44.2. Re2 Forerunner High Speed Inspection Robot
    • 5.44.3. Re2 ForeRunner RDV
    • 5.44.4. Re2 HST - High-Speed Teleoperation
  • 5.45. ReconRobotics
    • 5.45.1. ReconRobotics Tactical, Micro-Robot Systems
  • 5.46. Reis Robotics
    • 5.46.1. Reis Robotics Foundry Systems, Laser Applications, Arc Welding, And Photovoltaics
    • 5.46.1. Reis Robot Systems And Process-Oriented System Solutions
  • 5.47. Rethink Robotics
  • 5.48. Robosoft
  • 5.49. Robotic Industries Association (RIA)
  • 5.50. Rockwell Automation
    • 5.50.1. Rockwell Automation Operating Segments
    • 5.50.2. Rockwell Automation Long-term Strategy
    • 5.50.3. Rockwell Automation Acquisitions
    • 5.50.4. Rockwell Automation Profile
  • 5.51. Schunk GmBH
  • 5.52. Shanghai STEP Electric
    • 5.52.1. Step Industrial Automation, Electric Drive, Energy, And Environmental Protection
  • 5.53. Shenzhen Jasic Technology
    • 5.53.1. Jasic Integrated Welding Solution Provider
    • 5.53.2. Jasic Integrated Welding Solution Target Markets
    • 5.53.3. Jasic Integrated Welding Solutions
  • 5.54. Shibuya Seiki
    • 5.54.1. Shibuya Kogyo Pharmaceutical Application Examples
    • 5.54.2. Shibuya Kogyo Robotic System For Handling Soft Infusion Bags
    • 5.54.3. Shibuya Kogyo Robotic Cell Culture System "CellPRO"
    • 5.54.4. Shibuya Kogyo Robotic System For Leaflet & Spoon Placement
    • 5.54.5. Shibuya Kogyo Robotic Collating System
    • 5.54.6. Shibuya Kogyo Automated Aseptic Environmental Monitoring System
  • 5.55. SDR Tactical Robot
  • 5.56. SIASUN Robot & Automation
  • 5.57. Stäubli 933
    • 5.57.1. Stäubli Industrial Robots
    • 5.57.2. Stäubli Controllers
    • 5.57.3. Stäubli Software
    • 5.57.4. Typical applications of Stäubli robots
    • 5.57.5. Staubli International AG
  • 5.58. Tangshan Kaiyuan Group / Tangshan Kaiyuan Welding (TKSW)
  • 5.59. Thyssen
  • 5.60. Toshiba
    • 5.60.1. Toshiba Machine
    • 5.60.2. TM Robotics Europe
    • 5.60.3. TM Robotics Americas
  • 5.61. Universal Robots
  • 5.62. VDE
  • 5.63. Yamaha
    • 5.63.1. Yamaha Robotics
  • 5.64. Yaskawa
    • 5.64.1. Yaskawa Revenue
    • 5.64.2. Yaskawa Business
    • 5.64.3. YASKAWA Electric Motion Control
    • 5.64.4. YASKAWA Electric Robotics
    • 5.64.5. YASKAWA Electric System Engineering
    • 5.64.6. YASKAWA Electric Information Technology
    • 5.64.7. Yaskawa / Motoman
    • 5.64.8. Yaskawa Motoman
  • 5.65. Selected Robot Companies
    • 5.65.1. Selected Robot Companies

WINTERGREEN RESEARCH, WinterGreen Research Research Methodology

WINTERGREEN RESEARCH, WinterGreen Research Research Methodology

List of Tables and Figures:

  • Figure ES-1: ABB IRB 140 Industrial Robot
  • Figure ES-2: Kuka Industrial Robot
  • Table ES-3: Robots Poised To Change Manufacturing Economics
  • Table ES-4: Robots Bring A New Industrial Revolution
  • Table ES-5: Industrial Robot Target Markets
  • Table ES-6: Industrial Robotic Market Opportunity
  • Table ES-7: Industrial Robot Market Challenges
  • Table ES-8: Industrial Robot Technical Challenges
  • Table ES-9: Industrial Robot Market Driving Forces
  • Table ES-10: Industrial Robot Market Shares, Dollars, Worldwide, 2014
  • Figure ES-11: Industrial Robot Market Forecasts, Dollars, Worldwide, 2015-2021
  • Table 1-1: Aspects of Manufacturing Sector Modernization
  • Figure 1-2: Industrial Robots in Auto Factories Multi-Tasking: Welding, Riveting, Bonding And Installing A Component
  • Figure 1-3: Differences in Global Demand for Electrification Developed vs. Underdeveloped Economies
  • Table 1-4: Critical Capabilities In Robotics Needed To Take Robotics To The Next Level
  • Figure 1-5: Global Demand for Productivity and Energy Efficiency Driving Robot Markets
  • Figure 1-6: ABB Developed and Emerging Market Robot Perspective
  • Figure 2-1: ABB IRB 140 Industrial Robot
  • Figure 2-2: Kuka Industrial Robot
  • Table 2-3: Robots Poised To Change Manufacturing Economics
  • Table 2-4: Robots Bring A New Industrial Revolution
  • Table 2-5: Industrial Robot Target Markets
  • Table 2-6: Industrial Robotic Market Opportunity
  • Table 2-7: Industrial Robot Market Challenges
  • Table 2-8: Industrial Robot Technical Challenges
  • Table 2-9: Industrial Robot Market Driving Forces
  • Table 2-10: Industrial Robot Market Shares, Dollars, Worldwide, 2014
  • Table 2-11: Industrial Robot Market Shares, Dollars, Worldwide, 2014
  • Figure 2-12: Kuka Positioning in Automotive Robotics and Systems
  • Table 2-13: Industrial Robot Market Segment Shipments by Cell Size, Low End, Mid Range, and High End, Dollars, Worldwide, 2014
  • Table 2-14: Industrial Robot Market Segment Shipments by Work Cell Size, Low End, Mid Range, and High End, Percent Dollars Shipments, Worldwide, 2014
  • Table 2-15: Industrial Robot Market Installed Base Shares, Number of Robot Cells, Worldwide, 2014
  • Figure 2-16: Articulated Robot Sales
  • Table 2-17: General Industrial Robot Market Shares, Market Shares, Dollars, Worldwide, 2014
  • Table 2-18: Automotive Robot Market Shares, Dollars, Worldwide, 2014
  • Table 2-19: Systems Body-In-White Market Shares, Market Shares, Dollars, Worldwide, 2014
  • Table 2-20: SCARA Industrial Robot Market Shares, Dollars, Worldwide, 2014
  • Figure 2-21: Industrial Robot Market Forecasts, Dollars, Worldwide, 2015-2021
  • Table 2-22: Industrial Robot Market Forecasts, Worldwide, 2015-2021
  • Table 2-23: Industrial Robot Market Totals, Shipped Units and Dollars, Average Cost and Installed Base, Low End, Mid Range, and High End, Dollars, Worldwide, 2014
  • Table 2-24: Industrial Robot Market Forecasts, Units, Worldwide, 2015-2021
  • Figure 2-25: Robotics Market Growing by 22,000 Units in 2012
  • Table 2-26: Industrial Robotic Trends
  • Table 2-27: Industrial Robot Market Forecasts, Market Segments: Automotive, Body in White, Food, Beverages, Packaging, Metals, Heavy Machinery, Plastics and Rubber, and Solar / Other, Dollars, Worldwide, 2015-2021
  • Table 2-28: Industrial Robot Market Forecasts, Market Segments: Automotive, Body in White, Food, Beverages, Packaging, Metals, Plastics and Rubber, and Solar / Other, Percent, Worldwide, 2015-2021
  • Figure 2-29: Global Automotive Production
  • Table 2-30: Industrial Robot Market Forecasts, Welding, Painting, Material Handling, Logistical, Packaging, Palletizing Market Segments, Dollars, Worldwide, 2015-2021
  • Table 2-31: Industrial Robot Market Forecasts, Market Segments: Welding, Painting, Material Handling, Logistical, Packaging, Palletizing, Percent, Worldwide, 2015-2021
  • Table 2-32: Industrial Robot Market Forecasts, Market Segments: Welding Segments, Dollars, Worldwide, 2015-2021
  • Table 2-33: Industrial Robot Market Forecasts, Market Segments: Welding Segments, Percent, Worldwide, 2015-2021
  • Table 2-34: Industrial Robots General Manufacturing and Other Segments
  • Table 2-35: Industrial Robot Market Forecasts, Market Segments: Articulated, Cylindrical, Cartesian, and Scara, Dollars, Worldwide, 2015-2021
  • Table 2-36: Industrial Robot Market Forecasts, Market Segments: Articulated, Cylindrical, Cartesian, and Scara, Percent, Worldwide, 2015-2021
  • Figure 2-37: Market Potential for Industrial Robots
  • Figure 2-38: Articulated Robot Sales
  • Figure 2-39: Robot Strategy: Increased Share In General Industry
  • Figure 2-40: Global Sales of Industrial Robots
  • Figure 2-41: Industrial Automation Market Opportunity
  • Figure 2-42: Global Automotive Production
  • Figure 2-43: Robotics Market Growing by 22,000 Units
  • Table 2-44: Countries That Are Fast Adopters Of Technology And Advanced Industrial Robotics
  • Table 2-45: Yaskawa Motoman Robotic Welding Functions
  • Table 2-46: Industrial Robotic Automated Palletizing Platform Functions
  • Table 2-47: Robotic Palletizer Features And Benefits:
  • Figure 2-48: Robotics End User Trends
  • Table 2-49:
  • Figure 2-50: Industrial Robot Welder
  • Table 2-51: Advantages of Robot Welding Over Manual Welding
  • Figure 2-52: Cycle Time Market Potential for Industrial Robots
  • Figure 2-53: Industrial Robot Regional Market Segments, Dollars, 2014
  • Table 2-54: Industrial Robot Regional Market Segments, 2014
  • Table 2-55: Industrial Robotic Market Factors for Accelerated Growth in North America
  • Figure 2-56: Chinese Industrial Robots
  • Figure 2-57: Chinese Vendor Growing Force in Industrial Robot Markets
  • Figure 2-58: Mainland China Industrial Robot
  • Figure 3-1: Robot Based Assembly
  • Figure 3-2: Automotive Production Complexity
  • Table 3-3: Global Industrial Robotics Market Segmentation
  • Figure 3-4: ABB Remote Service of Factories
  • Figure 3-5: ABB IRB 120
  • Figure 3-6: ABB IRB 140
  • Table 3-7: ABB IRB 6660 Press Tending Industrial Robot Features
  • Table 3-8: ABB IRB 6660 for Press Tending Benefits
  • Figure 3-9: ABB IRB 6650S Full Vertical And Horizontal Stroke Motion
  • Table 3-10: ABB IRB 6650S Features
  • Figure 3-11: ABB IRB 360 FlexPicker™
  • Table 3-12: ABB FlexPainter IRB 5500 Benefits
  • Figure 3-13: ABB IRB 5500 - FlexPainter
  • Table 3-14: ABB FlexPainter IRB 5500 Non-Batch Painting And Multiple Colors Benefits
  • Figure 3-15: ABB Material Handling Robots
  • Figure 3-16: ABB FlexPicker
  • Figure 3-17: ABB IRB 7600
  • Figure 3-18: ABB Welding Robots
  • Figure 3-19: ABB IRB 2600ID Arc Welding
  • Table 3-20: ABB IRB 2600ID Industrial Robot High Output Applications
  • Figure 3-21: ABB IRB 1520ID Lean Arc Welder
  • Figure 3-22: ABB YuMi
  • Table 3-23: ABB Collaborative Robotic Co-Worker YuMi Functions
  • Figure 3-24: ABB Human - Robot Collaboration
  • Figure 3-25: ABB Human - Robot Collaboration
  • Table 3-26: ABB YuMi Robot Functions
  • Table 3-27: ABB YuMi Collaborative, Dual-Arm Small Parts Assembly Robot Functions
  • Figure 3-28: ABB Cross Division Collaboration
  • Figure 3-29: Kuka Line of Industrial Robots
  • Table 3-30: Kuka Industrial Robot Innovations
  • Table 3-31: Kuka Competitive Advantage
  • Figure 3-32: Kuka LBR IIWA 7 R800
  • Figure 3-33: Kuka LBR IIWA 7 R820 Robots Used In The Vicinity Of Humans
  • Figure 3-34: Kuka KR 5 ARC
  • Figure 3-36: Kuka KR 5-2 ARC HW Specialist Arc Welding
  • Figure 3-37: Kuka KR 16-2 F for Tasks In The Glass Industry
  • Figure 3-38: Kuka KR 16-2 CF For Industry Including the Cleanroom
  • Figure 3-39: Kuka Quantec
  • Figure 3-40: KukaSize and Versatility Advantages of Quantec Industrial Robot
  • Figure 3-41: Kuka KR 40 PA Palletizing Robot
  • Figure 3-42: Kuka 1000 1300 TITAN PA
  • Figure 3-43: Kuka 1000 L950 TITAN PA
  • Figure 3-44: Kuka Customer Production Focus
  • Figure 3-45: Kuka Automotive Stages of Implementation
  • Figure 3-46: Kuka US Auto Initiatives
  • Figure 3-47: Kuka Product Strategy
  • Figure 3-48: Kuka Robots
  • Figure 3-49: Kuka Material Handling Robots
  • Figure 3-50: Kuka Industry Standard Robots Used in Agriculture
  • Figure 3-51: Kuka Welding Robots in the Industry
  • Figure 3-52: Kuka Robots in Industry
  • Figure 3-53: Kuka Robots in the Food Processing Industry
  • Figure 3-54: Kuka Robots
  • Figure 3-55: Kuka Plasma Cutting Robot
  • Figure 3-56: FANUC Pick-And-Place Robot
  • Figure 3-57: Fanoc Robotic Manufacturing Technology
  • Figure 3-58: Robotic Manufacturing
  • Figure 3-59: Fanuc Robot Factories
  • Figure 3-60: Fanuc M-3iA Robots Sorting Boxes
  • Figure 3-61: FANUC Robodrill DiA5 Series
  • Figure 3-62: FANUC Welding Robots
  • Figure 3-63: FANUC Material Handling Robots
  • Figure 3-64: FANUC Plasma Cutting Robot
  • Figure 3-65: Denso Wave Industrial Robot Categories
  • Figure 3-66: Yaskawa Motoman Robots
  • Figure 3-67: Stäubli 4-Axis And 6-Axis Robots
  • Figure 3-68: Staubli TP80 Fast Picker Robot 3.8 Logistics Services Robots
  • Figure 3-69: Motoman Robots Pick, Pack, and Palletize
  • Figure 3-70: Yaskawa Motoman Picking
  • Figure 3-71: Yaskawa Motoman Packaging
  • Figure 3-72: Yaskawa Motoman Palletizing
  • Figure 3-73: Motoman Partners in Logistics and Warehousing
  • Figure 3-74: Epson Industrial Robots
  • Table 3-76: Kawasaki Industrial Robot Applications:
  • Figure 3-77: Universal Robots UR3
  • Table 78: Universal Robots Applications
  • Figure 3-79: MIT Smart Gardener Robot
  • Figure 4-1: Technological Innovation in Industrial Robots
  • Table 4-2: Sensor Technology Functions
  • Table 4-3: Robot System Architecture
  • Table 4-4: Proprietary Sensor Technology
  • Table 4-5: System Design & Architecture
  • Figure 4-6: Tracks Followed By The Atomiser In The Engine Compartment Of A Vehicle
  • Figure 4-7: EcoBell 2 HD Atomiser
  • Table 4-8: Tight Scientific Collaboration Between Different Disciplines
  • Figure 5-1: Key Facts ABB Robotics
  • Table 5-2: ABB Product Launches
  • Figure 5-3: ABB Technology and Innovation
  • Table 5-4: ABB Global Lab Target Technologies
  • Figure 5-5: ABB PetroChemical Customer
  • Figure 5-6: ABB Disruptive Technologies
  • Figure 5-7: ABB Data Center Efficiency
  • Table 5-8: ABB's Global Lab Automation Target Solutions
  • Table 5-9: ABB Active Current Research Areas
  • Figure 5-10: Driving PIIE IN Utilities, Industry and Transport
  • Figure 5-11: ABB Division Structure and Portfolio
  • Figure 5-12: ABB Power Systems
  • Figure 5-13: ABB In Oil, Gas, and Chemicals
  • Figure 5-14: ABB Discrete Automation and Motion
  • Figure 5-15: ABB Process Automation
  • Table 5-15: Adept Technology Fiscal 2014 Segments With Increase In The Robotics Revenues
  • Table 5-16: Apex Automation and Robotics Customer Base
  • Table 5-17: Apex Automation and Robotics Positioning
  • Table 5-18: Axium Target Markets
  • Table 5-19: BAE Systems Company Positioning
  • Figure 5-20: BAE Systems Strategy
  • Table 5-21: BAE Systems Standards
  • Table 5-22: ECA Robotics Range Of Products
  • Table 5-23: Elbit Systems Activities:
  • Table 5-24: Elbit Systems Activities:
  • Figure 5-25: Fanuc Welding Robot
  • Figure 5-26: Fanuc Industrial Robots
  • Figure 5-27: Fanuc Global Network
  • Figure 5-28: Fanuc's Organization
  • Figure 5-29: Fanuc Revenue
  • Figure 5-30: Fanuc Revenue
  • Figure 5-31: Fiat / Comau Body Welding
  • Figure 5-32: Fuji Industrial Robots
  • Figure 5-32: Kuka Vision for Expansion of Robotic Markets
  • Figure 5-33: Kuka Customers
  • Figure 5-34: Kuka Regional (10) and Segment (7) Focus
  • Figure 5-35: Kuka Positioning with Smart Tools
  • Figure 5-36: Kuka Positioning in Robotics and Systems
  • Table 5-37: Mitsubishi Electric FA Core Competencies
  • Figure 5-38: Nabtesco Cycloidal Gearbox
  • Figure 5-39: Nabtesco Cycloidal Gearboxes
  • Table 5-40: NACHI-FUJIKOSHI Group Management Policies
  • Figure 5-41: Nachi Fujikoshi Tools And Bearing Based On Its Quality Materials
  • Figure 5-42: Nachi Fujikoshi Manufacturing Process Assembly - Machining Division Priorities
  • Table 5-43: Nachi Fujikoshi Robot Market Sectors
  • Table 5-44: NIST Performance Measurements
  • Figure 5-45: Panasonic / Sanyo Solar HIT Garage Roof Panels
  • Figure 5-46: Panasonic / Sanyo Solar HIT Roof Panels
  • Figure 5-47: Panasonic / Sanyo Solar HIT Panels
  • Figure 5-47: Re Core Technologies
  • Figure 5-48: Re Unmanned Ground Vehicles
  • Figure 5-49: Re Forerunner Key Features
  • Figure 5-50: Re2 Open Architecture for Robots
  • Table 5-51: Rockwell Automation Long-term Strategy Positioning
  • Figure 5-52: Step Industrial Automation
  • Table 5-53: Jasic Integrated Welding Solution Target Markets
  • Figure 5-54: Jasic Integrated Welding Solutions
  • Table 5-55: Shibuya Kogyo Robotic System
  • Figure 5-56: Shibuya Kogyo Robotic System For Leaflet & Spoon Placement
  • Figure 5-57: Shibuya Kogyo Robotic Collating System
  • Figure 5-58: Shibuya Kogyo Automated Aseptic Environmental Monitoring System
  • Table 5-56: Typical Applications of Stäubli Robots
  • Table 5-57: Target Markets for Stäubli Robots
  • Table 5-58: Stäubli Product Range Of Robots
  • Figure 5-59: Universal Industrial Robot
  • Figure 5-60: UC Davis Using Yahama Helicopter Drones For Crop Dusting
  • Figure 5-61: Yamaha Crop Dusting Initiatives
  • Figure 5-62: YASKAWA Electric Group Businesses
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