Global Robot Operating System Market was valued at USD 407.89 Mn in 2022 and is expected to reach ta USD 779.82 Mn by 2029 at a CAGR of 9.7% over forecast period 2023-2029.Global Robot Operating System Market Dynamics:
The Robot Operating System (ROS) is a flexible framework for writing robot software. It is a collection of tools, libraries, and conventions that aim to simplify the task of creating complex and robust robot behaviour across a wide variety of robotic platforms. Various factors such as rising R&D funds for industry automation, increasing implementation of collaborative modular robots, growing participation of SMES in developing countries, increasing demand for robotics-as-a-service model and rising adoption of low-cost industrial robots are driving the market growth over forecast period. Moreover, an increasing demand for robotics-as-a-service model and rising adoption of low-cost industrial robots are expected to create lucrative opportunities over forecast period.To know about the Research Methodology :- Request Free Sample Report However, factors such as complex design of modular robots & controlling electronics, and high installation cost of low-volume production applications are restraining the market growth over forecast period. Global Robot Operating System Market segmented by Robot Type, by Application, by End User and by Region. By robot type, collaborative robots segment held 27.79% of market share in 2019 and is expected to keep its dominance over forecast period. Collaborative robots, are robots intended to interact with humans in a shared space or to work safely in close proximity. Cobots stand in contrast to traditional industrial robots which are designed to work autonomously with safety assured by isolation from human contact. The safety features and the benefits of collaborative robots (Cobot’s) over the others to perform certain light-duty tasks, is driving the adoption of collaborative robots across the robot operating system market. By end user, metal and machinery segment dominating the global market with xx% of market share over forecast period. The metal and machinery industry relies heavily on automation and robotics to control costs, boost productivity, and insulate workers from undue risks. In today’s challenging market for metal and machinery products and structural components, metal product manufacturers continue to look for new ways to streamline their operations and allocate their human workers effectively. By geography, market is segmented into North America, APAC, Europe, MEA & Africa and South America. Among all of these North America dominated global market with a market share of more than 42.45% in 2019 and is expected to keep its dominance over forecast period. Various factors such as an increasing demand of ROS from various end users fast adoption of technology combined with worthwhile initiatives taken, development of more advance version of ROS platform, and rising awareness for the same are driving the market growth in this region over forecast period. North America is followed by APAC and Europe. APAC is expected to hold xx% of market share over forecast period. The number of registered ROS users are increasing rapidly in China, Japan, South Korea and Australia. In addition, ROS market in India is expected to see growth owing to rapid industrialization, safety prospects, improved quality & reliability. Europe is expected to hold xx% of market share over forecast period. By transforming from a utility-based middleware to the engine that drives the future development of robotics and allied software tools, ROS would be filled with new developments over the forecast period. In addition, ROS market in Asia Pacific countries including India and China are anticipated to see growth owing to rapid industrialization, safety prospects, improved quality & reliability. Report covers in depth analysis of key development, marketing strategies, value chain, supply chain and company profiles of market leaders, potential players and new entrants. Some of the key players covered in this report are ABB Ltd. (Switzerland), FANUC (Japan), KUKA AG (Germany), Yaskawa Electric Corporation (Japan), Denso (Japan), Microsoft (US), Omron Corporation (Japan), Universal Robotics (Denmark), Clearpath Robots (Canada) and iRobot Corporation (US) among others. These key players are adopting various organic and inorganic growth strategies such as merger& acquisitions, joint venture’s, collaborations, expansion, strategic alliances, new product launches, patent and diversification to increase their regional presence and business opeartions. For instance, in 2017, ABB Group and Kawasaki announced collaborative robot automation cooperation which was for the creation of common industry approaches for safety and programming. The objective of the report is to present a comprehensive analysis of the Global Robot Operating System Market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all the aspects of the industry with a dedicated study of key players that includes market leaders, followers and new entrants. PORTER, SVOR, PESTEL analysis with the potential impact of micro-economic factors of the market have been presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analysed, which will give a clear futuristic view of the industry to the decision-makers. The report also helps in understanding Global Robot Operating System Market dynamics, structure by analyzing the market segments and project Global Robot Operating System Market. Clear representation of competitive analysis of key players by price, financial position, Product portfolio, growth strategies, and regional presence in the Global Robot Operating System Market make the report investor’s guide.
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Global Robot Operating System Market Report Coverage Details Base Year: 2022 Forecast Period: 2023-2029 Historical Data: 2018 to 2022 Market Size in 2022: US $ 407.89 Mn. Forecast Period 2023 to 2029 CAGR: 9.7% Market Size in 2029: US $ 779.82 Mn. Segments Covered: by Robot Type Articulated Robots SCARA Robots Parallel Robots Cartesian Robots Collaborative Robots by End User Automotive Electrical and Electronics Metals and Machinery Plastic, Rubber, and Chemicals Food and Beverages Healthcare Others (Agriculture, Education, and Logistics and Warehouse) by Application Pick and Place Plastic Injection and Blow Molding PCB Handling and ICT Testing and Quality Inspection Metal Stamping and Press Tending CNC Machine Tending Co-packing and End Of Line Packaging by Region:
North America (United States, Canada and Mexico) Europe (UK, France, Germany, Italy, Spain, Sweden, Austria and Rest of Europe) Asia Pacific (China, South Korea, Japan, India, Australia, Indonesia, Malaysia, Vietnam, Taiwan, Bangladesh, Pakistan and Rest of APAC) Middle East and Africa (South Africa, GCC, Egypt, Nigeria and Rest of ME&A) South America (Brazil, Argentina Rest of South America)Global Robot Operating System Market Major Players:
1. ABB Ltd. (Switzerland) 2. FANUC (Japan) 3. KUKA AG (Germany) 4. Yaskawa Electric Corporation (Japan) 5. Denso (Japan) 6. Microsoft (US) 7. Omron Corporation (Japan) 8. Universal Robotics (Denmark) 9. Clearpath Robots (Canada) 10.iRobot Corporation (US) 11.Rethink Robotics (Germany) 12.Stanley Innovation (US) 13.Husarion, Inc. 14.Cyberbotics Ltd. 15.Toshiba Corporation 16.Panasonic Corporation 17.Staubli Mechatronics Company 18.Yamaha Robotics 19.Epson Robots 20.Comau Spa Frequently Asked Questions: 1. Which region has the largest share in Global robot operating system Market? Ans: North America region held the highest share in 2022. 2. What is the growth rate of Global robot Operating system Market? Ans: The Global Market is expected to grow at a CAGR of 9.7% during forecast period 2023-2029. 3. What is scope of the Global Market report? Ans: Global Market report helps with the PESTEL, PORTER, COVID-19 Impact analysis, Recommendations for Investors & Leaders, and market estimation of the forecast period. 4. What is the study period of this Global market? Ans: The Global Market is studied from 2022 to 2029.
Global Robot Operating System Market 1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 2.3. Research Methodology 2.3.1. Secondary Research 2.3.2. Secondary data 2.3.3. Secondary Sources 2.3.4. Primary Research 2.3.5. Data from Primary Sources 2.3.6. Breakdown of Primary Sources 3. Executive Summary: Global Robot Operating System Market, by Market Value (US$ Bn) 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7. Industry Trends and Emerging Technologies 5. Supply Side and Demand Side Indicators 6. Global Robot Operating System Market Analysis and Forecast 6.1. Global Robot Operating System Market Size & Y-o-Y Growth Analysis 6.1.1. North America 6.1.2. Europe 6.1.3. Asia Pacific 6.1.4. Middle East & Africa 6.1.5. South America 7. Global Robot Operating System Market Analysis and Forecast, By Robot Type 7.1. Introduction and Definition 7.2. Key Findings 7.3. Global Robot Operating System Market Value Share Analysis, By Robot Type 7.4. Global Robot Operating System Market Size (US$ Bn) Forecast, By Robot Type 7.5. Global Robot Operating System Market Analysis, By Robot Type 7.6. Global Robot Operating System Market Attractiveness Analysis, By Robot Type 8. Global Robot Operating System Market Analysis and Forecast, By Application 8.1. Introduction and Definition 8.2. Key Findings 8.3. Global Robot Operating System Market Value Share Analysis, By Application 8.4. Global Robot Operating System Market Size (US$ Bn) Forecast, By Application 8.5. Global Robot Operating System Market Analysis, By Application 8.6. Global Robot Operating System Market Attractiveness Analysis, By Application 9. Global Robot Operating System Market Analysis and Forecast, by End User 9.1. Introduction and Definition 9.2. Key Findings 9.3. Global Robot Operating System Market Value Share Analysis, by End User 9.4. Global Robot Operating System Market Size (US$ Bn) Forecast, by End User 9.5. Global Robot Operating System Market Analysis, by End User 9.6. Global Robot Operating System Market Attractiveness Analysis, by End User 10. Global Robot Operating System Market Analysis, by Region 10.1. Global Robot Operating System Market Value Share Analysis, by Region 10.2. Global Robot Operating System Market Size (US$ Bn) Forecast, by Region 10.3. Global Robot Operating System Market Attractiveness Analysis, by Region 11. North America Robot Operating System Market Analysis 11.1. Key Findings 11.2. North America Robot Operating System Market Overview 11.3. North America Robot Operating System Market Value Share Analysis, By Robot Type 11.4. North America Robot Operating System Market Forecast, By Robot Type 11.4.1. Articulated Robots 11.4.2. SCARA Robots 11.4.3. Parallel Robots 11.4.4. Cartesian Robots 11.4.5. Collaborative Robots 11.5. North America Robot Operating System Market Value Share Analysis, By Application 11.6. North America Robot Operating System Market Forecast, By Application 11.6.1. Pick and Place 11.6.2. Plastic Injection and Blow Molding 11.6.3. PCB Handling and ICT 11.6.4. Testing and Quality Inspection 11.6.5. Metal Stamping and Press Tending 11.6.6. CNC Machine Tending 11.6.7. Co-packing and End Of Line Packaging 11.7. North America Robot Operating System Market Value Share Analysis, by End User 11.8. North America Robot Operating System Market Forecast, by End User 11.8.1. Automotive 11.8.2. Electrical and Electronics 11.8.3. Metals and Machinery 11.8.4. Plastic, Rubber, and Chemicals 11.8.5. Food and Beverages 11.8.6. Healthcare 11.8.7. Others (Agriculture, Education, and Logistics and Warehouse) 11.9. North America Robot Operating System Market Value Share Analysis, by Country 11.10. North America Robot Operating System Market Forecast, by Country 11.10.1. U.S. 11.10.2. Canada 11.11. North America Robot Operating System Market Analysis, by Country 11.12. U.S. Robot Operating System Market Forecast, By Robot Type 11.12.1. Articulated Robots 11.12.2. SCARA Robots 11.12.3. Parallel Robots 11.12.4. Cartesian Robots 11.12.5. Collaborative Robots 11.13. U.S. Robot Operating System Market Forecast, By Application 11.13.1. Pick and Place 11.13.2. Plastic Injection and Blow Molding 11.13.3. PCB Handling and ICT 11.13.4. Testing and Quality Inspection 11.13.5. Metal Stamping and Press Tending 11.13.6. CNC Machine Tending 11.13.7. Co-packing and End Of Line Packaging 11.14. U.S. Robot Operating System Market Forecast, by End User 11.14.1. Automotive 11.14.2. Electrical and Electronics 11.14.3. Metals and Machinery 11.14.4. Plastic, Rubber, and Chemicals 11.14.5. Food and Beverages 11.14.6. Healthcare 11.14.7. Others (Agriculture, Education, and Logistics and Warehouse) 11.15. Canada Robot Operating System Market Forecast, By Robot Type 11.15.1. Articulated Robots 11.15.2. SCARA Robots 11.15.3. Parallel Robots 11.15.4. Cartesian Robots 11.15.5. Collaborative Robots 11.16. Canada Robot Operating System Market Forecast, By Application 11.16.1. Pick and Place 11.16.2. Plastic Injection and Blow Molding 11.16.3. PCB Handling and ICT 11.16.4. Testing and Quality Inspection 11.16.5. Metal Stamping and Press Tending 11.16.6. CNC Machine Tending 11.16.7. Co-packing and End Of Line Packaging 11.17. Canada Robot Operating System Market Forecast, by End User 11.17.1. Automotive 11.17.2. Electrical and Electronics 11.17.3. Metals and Machinery 11.17.4. Plastic, Rubber, and Chemicals 11.17.5. Food and Beverages 11.17.6. Healthcare 11.17.7. Others (Agriculture, Education, and Logistics and Warehouse) 11.18. North America Robot Operating System Market Attractiveness Analysis 11.18.1. By Robot Type 11.18.2. By Application 11.18.3. By End User 11.19. PEST Analysis 11.20. Key Trends 11.21. Key Development 12. Europe Robot Operating System Market Analysis 12.1. Key Findings 12.2. Europe Robot Operating System Market Overview 12.3. Europe Robot Operating System Market Value Share Analysis, By Robot Type 12.4. Europe Robot Operating System Market Forecast, By Robot Type 12.4.1. Articulated Robots 12.4.2. SCARA Robots 12.4.3. Parallel Robots 12.4.4. Cartesian Robots 12.4.5. Collaborative Robots 12.5. Europe Robot Operating System Market Value Share Analysis, By Application 12.6. Europe Robot Operating System Market Forecast, By Application 12.6.1. Pick and Place 12.6.2. Plastic Injection and Blow Molding 12.6.3. PCB Handling and ICT 12.6.4. Testing and Quality Inspection 12.6.5. Metal Stamping and Press Tending 12.6.6. CNC Machine Tending 12.6.7. Co-packing and End Of Line Packaging 12.7. Europe Robot Operating System Market Value Share Analysis, by End User 12.8. Europe Robot Operating System Market Forecast, by End User 12.8.1. Automotive 12.8.2. Electrical and Electronics 12.8.3. Metals and Machinery 12.8.4. Plastic, Rubber, and Chemicals 12.8.5. Food and Beverages 12.8.6. Healthcare 12.8.7. Others (Agriculture, Education, and Logistics and Warehouse) 12.9. Europe Robot Operating System Market Value Share Analysis, by Country 12.10. Europe Robot Operating System Market Forecast, by Country 12.10.1. Germany 12.10.2. U.K. 12.10.3. France 12.10.4. Italy 12.10.5. Spain 12.10.6. Rest of Europe 12.11. Europe Robot Operating System Market Analysis, by Country 12.12. Germany Robot Operating System Market Forecast, By Robot Type 12.12.1. Articulated Robots 12.12.2. SCARA Robots 12.12.3. Parallel Robots 12.12.4. Cartesian Robots 12.12.5. Collaborative Robots 12.13. Germany Robot Operating System Market Forecast, By Application 12.13.1. Pick and Place 12.13.2. Plastic Injection and Blow Molding 12.13.3. PCB Handling and ICT 12.13.4. Testing and Quality Inspection 12.13.5. Metal Stamping and Press Tending 12.13.6. CNC Machine Tending 12.13.7. Co-packing and End Of Line Packaging 12.14. Germany Robot Operating System Market Forecast, by End User 12.14.1. Automotive 12.14.2. Electrical and Electronics 12.14.3. Metals and Machinery 12.14.4. Plastic, Rubber, and Chemicals 12.14.5. Food and Beverages 12.14.6. Healthcare 12.14.7. Others (Agriculture, Education, and Logistics and Warehouse) 12.15. U.K. Robot Operating System Market Forecast, By Robot Type 12.15.1. Articulated Robots 12.15.2. SCARA Robots 12.15.3. Parallel Robots 12.15.4. Cartesian Robots 12.15.5. Collaborative Robots 12.16. U.K. Robot Operating System Market Forecast, By Application 12.16.1. Pick and Place 12.16.2. Plastic Injection and Blow Molding 12.16.3. PCB Handling and ICT 12.16.4. Testing and Quality Inspection 12.16.5. Metal Stamping and Press Tending 12.16.6. CNC Machine Tending 12.16.7. Co-packing and End Of Line Packaging 12.17. U.K. Robot Operating System Market Forecast, by End User 12.17.1. Automotive 12.17.2. Electrical and Electronics 12.17.3. Metals and Machinery 12.17.4. Plastic, Rubber, and Chemicals 12.17.5. Food and Beverages 12.17.6. Healthcare 12.17.7. Others (Agriculture, Education, and Logistics and Warehouse) 12.18. France Robot Operating System Market Forecast, By Robot Type 12.18.1. Articulated Robots 12.18.2. SCARA Robots 12.18.3. Parallel Robots 12.18.4. Cartesian Robots 12.18.5. Collaborative Robots 12.19. France Robot Operating System Market Forecast, By Application 12.19.1. Pick and Place 12.19.2. Plastic Injection and Blow Molding 12.19.3. PCB Handling and ICT 12.19.4. Testing and Quality Inspection 12.19.5. Metal Stamping and Press Tending 12.19.6. CNC Machine Tending 12.19.7. Co-packing and End Of Line Packaging 12.20. France Robot Operating System Market Forecast, by End User 12.20.1. Automotive 12.20.2. Electrical and Electronics 12.20.3. Metals and Machinery 12.20.4. Plastic, Rubber, and Chemicals 12.20.5. Food and Beverages 12.20.6. Healthcare 12.20.7. Others (Agriculture, Education, and Logistics and Warehouse) 12.21. Italy Robot Operating System Market Forecast, By Robot Type 12.21.1. Articulated Robots 12.21.2. SCARA Robots 12.21.3. Parallel Robots 12.21.4. Cartesian Robots 12.21.5. Collaborative Robots 12.22. Italy Robot Operating System Market Forecast, By Application 12.22.1. Pick and Place 12.22.2. Plastic Injection and Blow Molding 12.22.3. PCB Handling and ICT 12.22.4. Testing and Quality Inspection 12.22.5. Metal Stamping and Press Tending 12.22.6. CNC Machine Tending 12.22.7. Co-packing and End Of Line Packaging 12.23. Italy Robot Operating System Market Forecast, by End User 12.23.1. Automotive 12.23.2. Electrical and Electronics 12.23.3. Metals and Machinery 12.23.4. Plastic, Rubber, and Chemicals 12.23.5. Food and Beverages 12.23.6. Healthcare 12.23.7. Others (Agriculture, Education, and Logistics and Warehouse) 12.24. Spain Robot Operating System Market Forecast, By Robot Type 12.24.1. Articulated Robots 12.24.2. SCARA Robots 12.24.3. Parallel Robots 12.24.4. Cartesian Robots 12.24.5. Collaborative Robots 12.25. Spain Robot Operating System Market Forecast, By Application 12.25.1. Pick and Place 12.25.2. Plastic Injection and Blow Molding 12.25.3. PCB Handling and ICT 12.25.4. Testing and Quality Inspection 12.25.5. Metal Stamping and Press Tending 12.25.6. CNC Machine Tending 12.25.7. Co-packing and End Of Line Packaging 12.26. Spain Robot Operating System Market Forecast, by End User 12.26.1. Automotive 12.26.2. Electrical and Electronics 12.26.3. Metals and Machinery 12.26.4. Plastic, Rubber, and Chemicals 12.26.5. Food and Beverages 12.26.6. Healthcare 12.26.7. Others (Agriculture, Education, and Logistics and Warehouse) 12.27. Rest of Europe Robot Operating System Market Forecast, By Robot Type 12.27.1. Articulated Robots 12.27.2. SCARA Robots 12.27.3. Parallel Robots 12.27.4. Cartesian Robots 12.27.5. Collaborative Robots 12.28. Rest of Europe Robot Operating System Market Forecast, By Application 12.28.1. Pick and Place 12.28.2. Plastic Injection and Blow Molding 12.28.3. PCB Handling and ICT 12.28.4. Testing and Quality Inspection 12.28.5. Metal Stamping and Press Tending 12.28.6. CNC Machine Tending 12.28.7. Co-packing and End Of Line Packaging 12.29. Rest of Europe Robot Operating System Market Forecast, by End User 12.29.1. Automotive 12.29.2. Electrical and Electronics 12.29.3. Metals and Machinery 12.29.4. Plastic, Rubber, and Chemicals 12.29.5. Food and Beverages 12.29.6. Healthcare 12.29.7. Others (Agriculture, Education, and Logistics and Warehouse) 12.30. Europe Robot Operating System Market Attractiveness Analysis 12.30.1. By Robot Type 12.30.2. By Application 12.30.3. By End User 12.31. PEST Analysis 12.32. Key Trends 12.33. Key Development 13. Asia Pacific Robot Operating System Market Analysis 13.1. Key Findings 13.2. Asia Pacific Robot Operating System Market Overview 13.3. Asia Pacific Robot Operating System Market Value Share Analysis, By Robot Type 13.4. Asia Pacific Robot Operating System Market Forecast, By Robot Type 13.4.1. Articulated Robots 13.4.2. SCARA Robots 13.4.3. Parallel Robots 13.4.4. Cartesian Robots 13.4.5. Collaborative Robots 13.5. Asia Pacific Robot Operating System Market Value Share Analysis, By Application 13.6. Asia Pacific Robot Operating System Market Forecast, By Application 13.6.1. Pick and Place 13.6.2. Plastic Injection and Blow Molding 13.6.3. PCB Handling and ICT 13.6.4. Testing and Quality Inspection 13.6.5. Metal Stamping and Press Tending 13.6.6. CNC Machine Tending 13.6.7. Co-packing and End Of Line Packaging 13.7. Asia Pacific Robot Operating System Market Value Share Analysis, by End User 13.8. Asia Pacific Robot Operating System Market Forecast, by End User 13.8.1. Automotive 13.8.2. Electrical and Electronics 13.8.3. Metals and Machinery 13.8.4. Plastic, Rubber, and Chemicals 13.8.5. Food and Beverages 13.8.6. Healthcare 13.8.7. Others (Agriculture, Education, and Logistics and Warehouse) 13.9. Asia Pacific Robot Operating System Market Value Share Analysis, by Country 13.10. Asia Pacific Robot Operating System Market Forecast, by Country 13.10.1. China 13.10.2. India 13.10.3. Japan 13.10.4. ASEAN 13.10.5. Rest of Asia Pacific 13.11. Asia Pacific Robot Operating System Market Analysis, by Country 13.12. China Robot Operating System Market Forecast, By Robot Type 13.12.1. Articulated Robots 13.12.2. SCARA Robots 13.12.3. Parallel Robots 13.12.4. Cartesian Robots 13.12.5. Collaborative Robots 13.13. China Robot Operating System Market Forecast, By Application 13.13.1. Pick and Place 13.13.2. Plastic Injection and Blow Molding 13.13.3. PCB Handling and ICT 13.13.4. Testing and Quality Inspection 13.13.5. Metal Stamping and Press Tending 13.13.6. CNC Machine Tending 13.13.7. Co-packing and End Of Line Packaging 13.14. China Robot Operating System Market Forecast, by End User 13.14.1. Automotive 13.14.2. Electrical and Electronics 13.14.3. Metals and Machinery 13.14.4. Plastic, Rubber, and Chemicals 13.14.5. Food and Beverages 13.14.6. Healthcare 13.14.7. Others (Agriculture, Education, and Logistics and Warehouse) 13.15. India Robot Operating System Market Forecast, By Robot Type 13.15.1. Articulated Robots 13.15.2. SCARA Robots 13.15.3. Parallel Robots 13.15.4. Cartesian Robots 13.15.5. Collaborative Robots 13.16. India Robot Operating System Market Forecast, By Application 13.16.1. Pick and Place 13.16.2. Plastic Injection and Blow Molding 13.16.3. PCB Handling and ICT 13.16.4. Testing and Quality Inspection 13.16.5. Metal Stamping and Press Tending 13.16.6. CNC Machine Tending 13.16.7. Co-packing and End Of Line Packaging 13.17. India Robot Operating System Market Forecast, by End User 13.17.1. Automotive 13.17.2. Electrical and Electronics 13.17.3. Metals and Machinery 13.17.4. Plastic, Rubber, and Chemicals 13.17.5. Food and Beverages 13.17.6. Healthcare 13.17.7. Others (Agriculture, Education, and Logistics and Warehouse) 13.18. Japan Robot Operating System Market Forecast, By Robot Type 13.18.1. Articulated Robots 13.18.2. SCARA Robots 13.18.3. Parallel Robots 13.18.4. Cartesian Robots 13.18.5. Collaborative Robots 13.19. Japan Robot Operating System Market Forecast, By Application 13.19.1. Pick and Place 13.19.2. Plastic Injection and Blow Molding 13.19.3. PCB Handling and ICT 13.19.4. Testing and Quality Inspection 13.19.5. Metal Stamping and Press Tending 13.19.6. CNC Machine Tending 13.19.7. Co-packing and End Of Line Packaging 13.20. Japan Robot Operating System Market Forecast, by End User 13.20.1. Automotive 13.20.2. Electrical and Electronics 13.20.3. Metals and Machinery 13.20.4. Plastic, Rubber, and Chemicals 13.20.5. Food and Beverages 13.20.6. Healthcare 13.20.7. Others (Agriculture, Education, and Logistics and Warehouse) 13.21. ASEAN Robot Operating System Market Forecast, By Robot Type 13.21.1. Articulated Robots 13.21.2. SCARA Robots 13.21.3. Parallel Robots 13.21.4. Cartesian Robots 13.21.5. Collaborative Robots 13.22. ASEAN Robot Operating System Market Forecast, By Application 13.22.1. Pick and Place 13.22.2. Plastic Injection and Blow Molding 13.22.3. PCB Handling and ICT 13.22.4. Testing and Quality Inspection 13.22.5. Metal Stamping and Press Tending 13.22.6. CNC Machine Tending 13.22.7. Co-packing and End Of Line Packaging 13.23. ASEAN Robot Operating System Market Forecast, by End User 13.23.1. Automotive 13.23.2. Electrical and Electronics 13.23.3. Metals and Machinery 13.23.4. Plastic, Rubber, and Chemicals 13.23.5. Food and Beverages 13.23.6. Healthcare 13.23.7. Others (Agriculture, Education, and Logistics and Warehouse) 13.24. Rest of Asia Pacific Robot Operating System Market Forecast, By Robot Type 13.24.1. Articulated Robots 13.24.2. SCARA Robots 13.24.3. Parallel Robots 13.24.4. Cartesian Robots 13.24.5. Collaborative Robots 13.25. Rest of Asia Pacific Robot Operating System Market Forecast, By Application 13.25.1. Pick and Place 13.25.2. Plastic Injection and Blow Molding 13.25.3. PCB Handling and ICT 13.25.4. Testing and Quality Inspection 13.25.5. Metal Stamping and Press Tending 13.25.6. CNC Machine Tending 13.25.7. Co-packing and End Of Line Packaging 13.26. Rest of Asia Pacific Robot Operating System Market Forecast, by End User 13.26.1. Automotive 13.26.2. Electrical and Electronics 13.26.3. Metals and Machinery 13.26.4. Plastic, Rubber, and Chemicals 13.26.5. Food and Beverages 13.26.6. Healthcare 13.26.7. Others (Agriculture, Education, and Logistics and Warehouse) 13.27. Asia Pacific Robot Operating System Market Attractiveness Analysis 13.27.1. By Robot Type 13.27.2. By Application 13.27.3. By End User 13.28. PEST Analysis 13.29. Key Trends 13.30. Key Development 14. Middle East & Africa Robot Operating System Market Analysis 14.1. Key Findings 14.2. Middle East & Africa Robot Operating System Market Overview 14.3. Middle East & Africa Robot Operating System Market Value Share Analysis, By Robot Type 14.4. Middle East & Africa Robot Operating System Market Forecast, By Robot Type 14.4.1. Articulated Robots 14.4.2. SCARA Robots 14.4.3. Parallel Robots 14.4.4. Cartesian Robots 14.4.5. Collaborative Robots 14.5. Middle East & Africa Robot Operating System Market Value Share Analysis, By Application 14.6. Middle East & Africa Robot Operating System Market Forecast, By Application 14.6.1. Pick and Place 14.6.2. Plastic Injection and Blow Molding 14.6.3. PCB Handling and ICT 14.6.4. Testing and Quality Inspection 14.6.5. Metal Stamping and Press Tending 14.6.6. CNC Machine Tending 14.6.7. Co-packing and End Of Line Packaging 14.7. Middle East & Africa Robot Operating System Market Value Share Analysis, by End User 14.8. Middle East & Africa Robot Operating System Market Forecast, by End User 14.8.1. Automotive 14.8.2. Electrical and Electronics 14.8.3. Metals and Machinery 14.8.4. Plastic, Rubber, and Chemicals 14.8.5. Food and Beverages 14.8.6. Healthcare 14.8.7. Others (Agriculture, Education, and Logistics and Warehouse) 14.9. Middle East & Africa Robot Operating System Market Value Share Analysis, by Country 14.10. Middle East & Africa Robot Operating System Market Forecast, by Country 14.10.1. GCC 14.10.2. South Africa 14.10.3. Rest of Middle East & Africa 14.11. Middle East & Africa Robot Operating System Market Analysis, by Country 14.12. GCC Robot Operating System Market Forecast, By Robot Type 14.12.1. Articulated Robots 14.12.2. SCARA Robots 14.12.3. Parallel Robots 14.12.4. Cartesian Robots 14.12.5. Collaborative Robots 14.13. GCC Robot Operating System Market Forecast, By Application 14.13.1. Pick and Place 14.13.2. Plastic Injection and Blow Molding 14.13.3. PCB Handling and ICT 14.13.4. Testing and Quality Inspection 14.13.5. Metal Stamping and Press Tending 14.13.6. CNC Machine Tending 14.13.7. Co-packing and End Of Line Packaging 14.14. GCC Robot Operating System Market Forecast, by End User 14.14.1. Automotive 14.14.2. Electrical and Electronics 14.14.3. Metals and Machinery 14.14.4. Plastic, Rubber, and Chemicals 14.14.5. Food and Beverages 14.14.6. Healthcare 14.14.7. Others (Agriculture, Education, and Logistics and Warehouse) 14.15. South Africa Robot Operating System Market Forecast, By Robot Type 14.15.1. Articulated Robots 14.15.2. SCARA Robots 14.15.3. Parallel Robots 14.15.4. Cartesian Robots 14.15.5. Collaborative Robots 14.16. South Africa Robot Operating System Market Forecast, By Application 14.16.1. Pick and Place 14.16.2. Plastic Injection and Blow Molding 14.16.3. PCB Handling and ICT 14.16.4. Testing and Quality Inspection 14.16.5. Metal Stamping and Press Tending 14.16.6. CNC Machine Tending 14.16.7. Co-packing and End Of Line Packaging 14.17. South Africa Robot Operating System Market Forecast, by End User 14.17.1. Automotive 14.17.2. Electrical and Electronics 14.17.3. Metals and Machinery 14.17.4. Plastic, Rubber, and Chemicals 14.17.5. Food and Beverages 14.17.6. Healthcare 14.17.7. Others (Agriculture, Education, and Logistics and Warehouse) 14.18. Rest of Middle East & Africa Robot Operating System Market Forecast, By Robot Type 14.18.1. Articulated Robots 14.18.2. SCARA Robots 14.18.3. Parallel Robots 14.18.4. Cartesian Robots 14.18.5. Collaborative Robots 14.19. Rest of Middle East & Africa Robot Operating System Market Forecast, By Application 14.19.1. Pick and Place 14.19.2. Plastic Injection and Blow Molding 14.19.3. PCB Handling and ICT 14.19.4. Testing and Quality Inspection 14.19.5. Metal Stamping and Press Tending 14.19.6. CNC Machine Tending 14.19.7. Co-packing and End Of Line Packaging 14.20. Rest of Middle East & Africa Robot Operating System Market Forecast, by End User 14.20.1. Automotive 14.20.2. Electrical and Electronics 14.20.3. Metals and Machinery 14.20.4. Plastic, Rubber, and Chemicals 14.20.5. Food and Beverages 14.20.6. Healthcare 14.20.7. Others (Agriculture, Education, and Logistics and Warehouse) 14.21. Middle East & Africa Robot Operating System Market Attractiveness Analysis 14.21.1. By Robot Type 14.21.2. By Application 14.21.3. By End User 14.22. PEST Analysis 14.23. Key Trends 14.24. Key Development 15. South America Robot Operating System Market Analysis 15.1. Key Findings 15.2. South America Robot Operating System Market Overview 15.3. South America Robot Operating System Market Value Share Analysis, By Robot Type 15.4. South America Robot Operating System Market Forecast, By Robot Type 15.4.1. Articulated Robots 15.4.2. SCARA Robots 15.4.3. Parallel Robots 15.4.4. Cartesian Robots 15.4.5. Collaborative Robots 15.5. South America Robot Operating System Market Value Share Analysis, By Application 15.6. South America Robot Operating System Market Forecast, By Application 15.6.1. Pick and Place 15.6.2. Plastic Injection and Blow Molding 15.6.3. PCB Handling and ICT 15.6.4. Testing and Quality Inspection 15.6.5. Metal Stamping and Press Tending 15.6.6. CNC Machine Tending 15.6.7. Co-packing and End Of Line Packaging 15.7. South America Robot Operating System Market Value Share Analysis, by End User 15.8. South America Robot Operating System Market Forecast, by End User 15.8.1. Automotive 15.8.2. Electrical and Electronics 15.8.3. Metals and Machinery 15.8.4. Plastic, Rubber, and Chemicals 15.8.5. Food and Beverages 15.8.6. Healthcare 15.8.7. Others (Agriculture, Education, and Logistics and Warehouse) 15.9. South America Robot Operating System Market Value Share Analysis, by Country 15.10. South America Robot Operating System Market Forecast, by Country 15.10.1. Brazil 15.10.2. Mexico 15.10.3. Rest of South America 15.11. South America Robot Operating System Market Analysis, by Country 15.12. Brazil Robot Operating System Market Forecast, By Robot Type 15.12.1. Articulated Robots 15.12.2. SCARA Robots 15.12.3. Parallel Robots 15.12.4. Cartesian Robots 15.12.5. Collaborative Robots 15.13. Brazil Robot Operating System Market Forecast, By Application 15.13.1. Pick and Place 15.13.2. Plastic Injection and Blow Molding 15.13.3. PCB Handling and ICT 15.13.4. Testing and Quality Inspection 15.13.5. Metal Stamping and Press Tending 15.13.6. CNC Machine Tending 15.13.7. Co-packing and End Of Line Packaging 15.14. Brazil Robot Operating System Market Forecast, by End User 15.14.1. Automotive 15.14.2. Electrical and Electronics 15.14.3. Metals and Machinery 15.14.4. Plastic, Rubber, and Chemicals 15.14.5. Food and Beverages 15.14.6. Healthcare 15.14.7. Others (Agriculture, Education, and Logistics and Warehouse) 15.15. Mexico Robot Operating System Market Forecast, By Robot Type 15.15.1. Articulated Robots 15.15.2. SCARA Robots 15.15.3. Parallel Robots 15.15.4. Cartesian Robots 15.15.5. Collaborative Robots 15.16. Mexico Robot Operating System Market Forecast, By Application 15.16.1. Pick and Place 15.16.2. Plastic Injection and Blow Molding 15.16.3. PCB Handling and ICT 15.16.4. Testing and Quality Inspection 15.16.5. Metal Stamping and Press Tending 15.16.6. CNC Machine Tending 15.16.7. Co-packing and End Of Line Packaging 15.17. Mexico Robot Operating System Market Forecast, by End User 15.17.1. Automotive 15.17.2. Electrical and Electronics 15.17.3. Metals and Machinery 15.17.4. Plastic, Rubber, and Chemicals 15.17.5. Food and Beverages 15.17.6. Healthcare 15.17.7. Others (Agriculture, Education, and Logistics and Warehouse) 15.18. Rest of South America Robot Operating System Market Forecast, By Robot Type 15.18.1. Articulated Robots 15.18.2. SCARA Robots 15.18.3. Parallel Robots 15.18.4. Cartesian Robots 15.18.5. Collaborative Robots 15.19. Rest of South America Robot Operating System Market Forecast, By Application 15.19.1. Pick and Place 15.19.2. Plastic Injection and Blow Molding 15.19.3. PCB Handling and ICT 15.19.4. Testing and Quality Inspection 15.19.5. Metal Stamping and Press Tending 15.19.6. CNC Machine Tending 15.19.7. Co-packing and End Of Line Packaging 15.20. Rest of South America Robot Operating System Market Forecast, by End User 15.20.1. Automotive 15.20.2. Electrical and Electronics 15.20.3. Metals and Machinery 15.20.4. Plastic, Rubber, and Chemicals 15.20.5. Food and Beverages 15.20.6. Healthcare 15.20.7. Others (Agriculture, Education, and Logistics and Warehouse) 15.21. South America Robot Operating System Market Attractiveness Analysis 15.21.1. By Robot Type 15.21.2. By Application 15.21.3. By End User 15.22. PEST Analysis 15.23. Key Trends 15.24. Key Development 16. Company Profiles 16.1. Market Share Analysis, by Company 16.2. Competition Matrix 16.2.1. Competitive Benchmarking of key players by price, presence, market share, Applications and R&D investment 16.2.2. New Product Launches and Product Enhancements 16.2.3. Market Consolidation 16.2.3.1. M&A by Regions, Investment and Applications 16.2.3.2. M&A Key Players, Forward Integration and Backward Integration 16.3. Company Profiles: Key Players 16.3.1. ABB Ltd. (Switzerland) 16.3.1.1. Company Overview 16.3.1.2. Financial Overview 16.3.1.3. Product Portfolio 16.3.1.4. Business Strategy 16.3.1.5. Recent Developments 16.3.1.6. Company Footprint 16.3.2. FANUC (Japan) 16.3.3. KUKA AG (Germany) 16.3.4. Yaskawa Electric Corporation (Japan) 16.3.5. Denso (Japan) 16.3.6. Microsoft (US) 16.3.7. Omron Corporation (Japan) 16.3.8. Universal Robotics (Denmark) 16.3.9. Clearpath Robots (Canada) 16.3.10. iRobot Corporation (US) 16.3.11. Rethink Robotics (Germany) 16.3.12. Stanley Innovation (US) 16.3.13. Husarion, Inc. 16.3.14. Cyberbotics Ltd. 16.3.15. Toshiba Corporation 16.3.16. Panasonic Corporation 16.3.17. Staubli Mechatronics Company 16.3.18. Yamaha Robotics 16.3.19. Epson Robots 16.3.20. Comau Spa