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Global Industrial Robotics Market By Application And Geography: Outlook 2020

Published on: Oct 2016 | From USD $1000 | Published By: ROCKVILLE RESEARCH | Number Of Pages: 82

According to the new report by Rockville Research titled “Global Industrial Robotics Market by Application and Geography - Industry Outlook 2020”, there has been incessant rise in automation in virtually every industry. As a result of this, the market is expected to manifest exponential growth rates due to inherent benefits of higher productivity, quality, costs, etc. associated with use of robotics in various manufacturing settings.
The report “Global Industrial Robotics Market by Application and Geography - Industry Outlook 2020” provides an in-depth analysis of global industrial robotics market which is estimated to be valued at US$ 30.99 billion in the year 2016 and projected to reach US$ 44.00 billion by 2020, growing at a CAGR of 9.16% in the period 2016-20. The report focuses on analysis and forecasting of various verticals of industrial robotics market such as Automotive, Electrical/electronics, Metal and Rubber & Plastics industry. Geographical analysis of major regions encompassing key markets in the respective region is also provided in the report. It includes China and Japan in Asia Pacific, the US in Americas and Germany in Europe.
Growth of the industry is fuelled by surge in demand for robotics from automotive industry, reduction of labour cost associated with automation and rise in demand from developing and emerging nations. However, factors such as high costs involved in development and adoption of robotic technology, lower level of manual dexterity provided by robots and poor macroeconomic and industry conditions are restraining the growth industrial robotics market. Furthermore, Yaskawa Electric, Fanuc Corporation, KUKA AG and ABB Group are profiled herein based on attributes such as business overview, product segments, financial and business strategies.


Executive Summary -
Industrial robots have revolutionized manufacturing processes globally with widespread adoption in automobile and electrical/electronics industry. These are automated, programmable and movable robot system primarily used in manufacturing industry. These are designed to perform variety of chores in manufacturing and production setting which are often cited as unsuitable for human workers. Industrial robots are classified based on type of robotic arm into Articulated Robots, Cartesian Robots, Cylindrical Robots, Spherical and Scara Robots.
Global industrial robotics market by volume is contemplated to see big gains in the upcoming years by more than double its current size by end of the forecasted year 2020. However, the growth is expected to be less profound in value terms due to decreasing average selling price of industrial robots globally.
Growth of the industry is fuelled by surge in demand for robotics from automotive industry, reduction of labour cost associated with automation and rise in demand from developing and emerging nations. However, factors such as high costs involved in development and adoption of robotic technology, lower level of manual dexterity provided by robots and poor macroeconomic and industry conditions are restraining the growth industrial robotics market. Key trends prevailing in the industry includes rise in number of strategic acquisitions in the robotics industry, VC funding in the industry, human robot collaboration and advent of deep learning artificial intelligence for industrial robots. In addition to this, SWOT analysis of the industrial robotics industry is also included in the report in order to provide better picture of the industry.
The report provides information on the current scenario, detailed market outlook of the industrial robotics market focusing on major geographical regions such as Asia Pacific, Americas and Europe. Asia Pacific region is leading the robot uprising. Furthermore, market analysis of major industrial robotics destinations such as China, Japan, the US and Germany is also included in the report. Future forecasts on all prominent application areas of the industry such as Automotive, Electrical/Electronics, Metal and Rubber & Plastic industry is provided in the report till 2020.
Major industry players operating in the market include Yaskawa Electric, Fanuc Corporation, KUKA AG, ABB Group, Kawasaki Heavy Industries Ltd and Mitsubishi Electric Corp, among others. Yaskawa Electric, Fanuc Corporation, KUKA AG and ABB Group are profiled herein based on attributes such as business overview, product segments, financial and business strategies. It also compiles performance comparison of aforementioned companies and other leading companies in the segment based on various parameters in the competitive landscape section. In totality, the report provides detailed market analysis, with relevant forecasted data supported by key market dynamics. This information will be helpful in evaluating opportunities in global industrial robotics market.

1. Executive Summary
2. Research Methodology
3. Introduction
3.1 Robotics Industry Overview
3.1.1 Industrial Robots
3.1.2 Service robots
3.1.3 Industrial robots vs. service robots
4. Technological Analysis: Industrial Robots
5. Global Robotics Industry Market Analysis
5.1 Industrial Robots Market Analysis
5.1.1 Market Size by Volume
5.1.2 Market Sizing by Value
5.1.3 Market Share by Competitors
5.1.4 Market Share by Application
5.1.5 Market Share by Region
5.1.6 Market Share by Nations
5.2 Service Robots Market Analysis
5.2.1 Market Sizing by Value
6. Global Industrial Robtoics Market Regional Analysis
6.1 Asia/Australia Industrial Robotics Market
6.1.1 Industrial Robots Sales by Volume
6.1.2 Industrial Robots Installed Base
6.2 China Industrial Robotics Market
6.2.1 China Industrial Robotics Market by Sales Volume
6.2.2 China Industrial Robotics Market by Installed Base
6.2.3 China Industrial Robots Market Players
6.3 Japan Industrial Robotics Market
6.3.1 Japan Industrial Robotics Market by Sales Volume
6.3.2 Japan Industrial Robotics Market by Installed Base
6.4 Americas
6.4.1 The US
3.3 Europe
6.4.2 Germany
7. Global Industrial Robtoics Market by Application
7.1 Automotive Industry
7.2 Electrical/Electronics Industry
7.3 Metal Industry
7.4 Rubber and Plastic Industry
8. Global Industrial Robotics Market Dynamics
8.1 Growth Drivers
8.1.1 Surge in demand from Automotive Industry
8.1.2 Reduction of Labour Cost
8.1.3 Demand from Developing and Emerging economies
8.2 Challenges
8.2.1 High costs involved
8.2.2 Lower level of manual dexterity
8.2.3 Poor macroeconomic and industry conditions
8.3 Trends & Industrial Developments
8.3.1 Strategic acquisitions in the robotics industry
8.3.2 VC Funding in the Industry
8.3.3 Human Robot Collaboration
8.3.4 Deep Learning Artificial Intelligence for Industrial Robots
9. SWOT Analysis
10. Competitive Landscape
11. Company Profiles
11.1 Yaskawa Electric
11.1.1 Business Overview
11.1.2 Financial Overview
11.1.3 Business Strategies
11.2 Fanuc Corporation
11.2.1 Business Overview
11.2.2 Financial Overview
11.2.3 Business Strategies
11.3 KUKA AG
11.3.1 Business Overview
11.3.2 Financial Overview
11.3.3 Business Strategies
11.4 ABB Group
11.4.1 Business Overview
11.4.2 Financial Overview
11.4.3 Business Strategies
1. Executive Summary
2. Research Methodology
3. Introduction
3.1 Robotics Industry Overview
3.1.1 Industrial Robots
3.1.2 Service robots
3.1.3 Industrial robots vs. service robots
4. Technological Analysis: Industrial Robots
5. Global Robotics Industry Market Analysis
5.1 Industrial Robots Market Analysis
5.1.1 Market Size by Volume
5.1.2 Market Sizing by Value
5.1.3 Market Share by Competitors
5.1.4 Market Share by Application
5.1.5 Market Share by Region
5.1.6 Market Share by Nations
5.2 Service Robots Market Analysis
5.2.1 Market Sizing by Value
6. Global Industrial Robtoics Market Regional Analysis
6.1 Asia/Australia Industrial Robotics Market
6.1.1 Industrial Robots Sales by Volume
6.1.2 Industrial Robots Installed Base
6.2 China Industrial Robotics Market
6.2.1 China Industrial Robotics Market by Sales Volume
6.2.2 China Industrial Robotics Market by Installed Base
6.2.3 China Industrial Robots Market Players
6.3 Japan Industrial Robotics Market
6.3.1 Japan Industrial Robotics Market by Sales Volume
6.3.2 Japan Industrial Robotics Market by Installed Base
6.4 Americas
6.4.1 The US
3.3 Europe
6.4.2 Germany
7. Global Industrial Robtoics Market by Application
7.1 Automotive Industry
7.2 Electrical/Electronics Industry
7.3 Metal Industry
7.4 Rubber and Plastic Industry
8. Global Industrial Robotics Market Dynamics
8.1 Growth Drivers
8.1.1 Surge in demand from Automotive Industry
8.1.2 Reduction of Labour Cost
8.1.3 Demand from Developing and Emerging economies
8.2 Challenges
8.2.1 High costs involved
8.2.2 Lower level of manual dexterity
8.2.3 Poor macroeconomic and industry conditions
8.3 Trends & Industrial Developments
8.3.1 Strategic acquisitions in the robotics industry
8.3.2 VC Funding in the Industry
8.3.3 Human Robot Collaboration
8.3.4 Deep Learning Artificial Intelligence for Industrial Robots
9. SWOT Analysis
10. Competitive Landscape
11. Company Profiles
11.1 Yaskawa Electric
11.1.1 Business Overview
11.1.2 Financial Overview
11.1.3 Business Strategies
11.2 Fanuc Corporation
11.2.1 Business Overview
11.2.2 Financial Overview
11.2.3 Business Strategies
11.3 KUKA AG
11.3.1 Business Overview
11.3.2 Financial Overview
11.3.3 Business Strategies
11.4 ABB Group
11.4.1 Business Overview
11.4.2 Financial Overview
11.4.3 Business Strategies

Figure 1: Robot Industry Classification
Table 1: Industrial robots vs. service robots
Table 2: Overview of robotics actuators by energy source
Table 3: Robotics sensors at a glance
Table 4: Robot arms at a glance
Table 5: Parts of end effectors at a glance
Figure 2: Global Industrial Robots Market Size by Volume, 2005-15 (Thousand Units)
Figure 3: Global Industrial Robots Market Size by Volume Forecasted, 2016E-20E (Thousand Units)
Figure 4: Global Industrial Robots Market Size by Value, 2006-15 (US$ Billions)
Figure 5: Global Industrial Robots Market Size by Value Forecasted, 2016E-2020E (US$ Billions)
Figure 6: Global Industrial Robots Market Share by Competitors (2015)
Figure 7: Global Industrial Robots Market Share by End-Use, 2015
Figure 8: Global Industrial Robots Market Share by Region, 2015
Figure 9: Global Industrial Robots Market Share by Nations, 2015
Figure 10: Robot Density by Nations
Figure 11: Global Service Robots Market Size by Value, 2006-15 (US$ Billions)
Figure 12: Global Service Robots Market Size by Value Forecasted, 2016E-20E (US$ Billions)
Figure 13: Asia/Australia Yearly Supply of Industrial Robots, 2013-2018E (Units)
Table 6: Estimated Yearly Shipments of Multi-purpose Industrial Robots in Asia/Australia, 2013-18E (Units)
Figure 14: Asia/Australia Operational Stock of Multi-purpose Industrial Robots at year-end, 2013-2018E (Units)
Table 7: Estimated Operational Stock of Multi-purpose Industrial Robots at year-end in Asia/Australia, 2013-18E (Units)
Figure 15: Annual Supply of Industrial Robots in China, 2008-15 (‘000 units)
Figure 16: China Industrial Robots Market by Operational and New Units, 2006-15 (‘000 Units)
Figure 17: Annual Supply of Industrial Robots in Japan, 2011-18E (‘000 Units)
Figure 18: Operational Stock of Industrial Robots at year-end in Japan, 2011-18 (‘000 Units)
Figure 19: Americas Yearly Supply of Industrial Robots, 2013-2018E (Units)
Table 8: Estimated Yearly Shipments of Multi-purpose Industrial Robots in Americas, 2013-18E (Units)
Figure: Americas Operational Stock of Multi-purpose Industrial Robots at year-end, 2013-2018E (Units)
Table 9: Estimated Operational Stock of Multi-purpose Industrial Robots at year-end in Americas, 2013-18E (Units)
Figure 20: Annual Supply of Industrial Robots in the United States, 2011-15 (‘000 units)
Figure 21: Europe Yearly Supply of Industrial Robots, 2013-2018E (Units)
Table 10: Estimated Yearly Shipments of Multi-purpose Industrial Robots in Europe, 2013-18E (Units)
Figure 22: Europe Operational Stock of Multi-purpose Industrial Robots at year-end, 2013-2018E (Units)
Table 11: Estimated Operational Stock of Multi-purpose Industrial Robots at year-end in Europe, 2013-18E (Units)
Figure 23: Annual Supply of Industrial Robots in Germany, 2011-15 (‘000 units)
Figure 24: Worldwide Annual Supply of Industrial Robots at year-end in Automotive Industry, 2013-20E (‘000 Units)
Figure 25: Worldwide Annual Supply of Industrial Robots at year-end in Electrical/Electronics Industry, 2013-20E (‘000 Units)
Figure 26: Worldwide Annual Supply of Industrial Robots at year-end in Metal Industry, 2013-20E (‘000 Units)
Figure 27: Worldwide Annual Supply of Industrial Robots at year-end in Rubber and Plastic Industry, 2013-20E (‘000 Units)
Table 12: Number of Auto Production units per unit of Installed Industrial Robots in Major Nations
Figure 28: Worldwide Automobile (Passenger Cars) Production, 2007-15 (Million Units)
Figure 29: Rate of Labour cost reduction with use of Industrial Robots (2014 vs. 2025)
Figure 30: Robot Density in Automotive and General Industry (2015)
Figure 31: Robotic Technology Adoption Limitation
Table 13: Strategic Acquisitions in the Robotics industry
Table 14: VC Funding in Robotics Industry Worldwide, 2011-15 (US$ Millions)
Table 15: Leading VC Fundings in Robotics Industry Worldwide, 2015 (US$ Millions)
Table 16: List of Collaborative Robots by Leading Companies
Table 17: Global Industrial Robotics Industry SWOT Analysis
Table 18: Robotics stock in IPC Segment
Table 19: Robotics stock in Electronics and Mechanics Space
Table 20: Fanuc Corporation Products by Business Segment
Figure 32: Fanuc Corporation Net Sales by Business Segment (2015)
Figure 33: Fanuc Corporation Consolidated Revenue, FY2011-FY2015 (US$ Billions)
Figure 34: Fanuc Corporation Revenue by Region (FY2015)
Figure 35: KUKA AG Revenue by Business Segment (FY2015)
Figure 36: KUKA AG Revenue, FY2012-FY2015 (US$ Billions)
Figure 37: KUKA AG Revenue by Region (FY2015)
Figure 38: ABB Group Revenue by Business Segment (FY2015)
Figure 39: ABB Group Consolidated Revenue, FY2013-FY2015 (US$ Billions)
Figure 40: ABB Group Revenue by Region (FY2015)

SECONDARY RESEARCH
Secondary Research Information is collected from a number of publicly available as well as paid databases. Public sources involve publications by different associations and governments, annual reports and statements of companies, white papers and research publications by recognized industry experts and renowned academia etc. Paid data sources include third party authentic industry databases.

PRIMARY RESEARCH
Once data collection is done through secondary research, primary interviews are conducted with different stakeholders across the value chain like manufacturers, distributors, ingredient/input suppliers, end customers and other key opinion leaders of the industry. Primary research is used both to validate the data points obtained from secondary research and to fill in the data gaps after secondary research.

MARKET ENGINEERING
The market engineering phase involves analyzing the data collected, market breakdown and forecasting. Macroeconomic indicators and bottom-up and top-down approaches are used to arrive at a complete set of data points that give way to valuable qualitative and quantitative insights. Each data point is verified by the process of data triangulation to validate the numbers and arrive at close estimates.

EXPERT VALIDATION
The market engineered data is verified and validated by a number of experts, both in-house and external.

REPORT WRITING/ PRESENTATION
After the data is curated by the mentioned highly sophisticated process, the analysts begin to write the report. Garnering insights from data and forecasts, insights are drawn to visualize the entire ecosystem in a single report.

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