The Global Robot Operating System Market size is expected to reach $954.2 Million by 2028, rising at a market growth of 11.6% CAGR during the forecast period.
The ROS acronym stands for Robot Operating System, a group of free and open-source robotics middleware. ROS is a set of software frameworks for developing robot software; it is not an operating system (OS). As a result, it provides services for a heterogeneous computer cluster, including hardware abstraction, low-level device control, the implementation of commonly used functionality, message-passing between processes, and package management.
To put it another way, ROS is a collection of programming tools and scripts that help projectors execute the computer code required to carry out the action and the supporting infrastructure, including messages passing between processes. The ROS is designed to work with various components and systems that use different programming languages.
As a result of the growing usage of industrial automation in business operations throughout the world, ROS is in great demand. Additionally, the growing usage of collaborative modular robots and the increase in industrial automation research and development funding are essential factors projected to drive the robot operating system market growth throughout the forecast period.
Some of the leading brands in robotics have embraced ROS. However, most businesses either use ROS, which everyone can install, or a ROS fork in some way. The use cases are also still expanding. In addition to vacuum cleaners and medical equipment, ROS is employed in many other sectors, including agriculture and software-defined dynamic use cases. These are only a few businesses that publicly use ROS today; as time goes on, the list expands and becomes more diverse.
Over time, only a few people were permitted to operate in factories. However, the market for robot operating systems has shown rapid expansion in recent years. This is attributable to the majority of governments implementing lockdowns and closing down workplaces, schools, universities, and other institutions to stop the spread of the virus. Robot operating systems are widely employed in the industrial sector to clear backlog orders. Manufacturing businesses can accurately and on-time satisfies client demand thanks to the employment of robotic operating systems. As a result, it has been determined that the need for robot operating systems has greatly grown among end users worldwide since COVID-19, and this demand is anticipated to drive the market throughout the projection period.
Introducing new digital technology by manufacturers has improved worker safety, reliability, and quality of products, as well as shorter lead times and cheaper operating costs. Industrial automation and the use of ROS may assist with several benefits. In a manufacturing context, ROS automation might seem like a daunting strategy to implement. Still, it is more likely than ever and can pack a strong punch to increase a firm's competitive edge. The production of robots has risen significantly during the 1990s, which has resulted in a fall in the price of such equipment. The economic benefit of deploying ROS robots is particularly noticeable compared to growing labor costs. This supports the growth of the regional market.
Although Open Robotics paved the way for ROS 2.0, ROS and ROS-Industrial continue to be great alternatives for creating various new technology robotic applications, products, and services. The latest ROS framework increased the digitization of industrial settings using the Industrial Internet of Things (IIoT), the Cloud, and Artificial Intelligence. ROS 2.0 is designed to handle multi-robot systems, real-time control, enhanced security, and more in addition to becoming cross-platform compatible, opening the door to more complex industrial applications. As a result, there are significant possibilities for the robot operating market in the next years.
Several safety concerns accompany industrial robots. Some robots are fast and agile, especially those used in typical industrial settings. This raises the risk of danger since, for example, one swing from a robotic arm might result in catastrophic physical trauma. When a robot breaks down or needs repair, there are extra hazards. A malfunctioning robot may hurt workers since these devices are often unreliable. If a robotic arm in a vehicle assembly line develops a jammed motor, the worker repairing the jam can be struck by the arm when it gets unjammed. This supports the growth of the regional market.
Based on type, the Robot Operating System Market is divided into SCARA Robots, Parallel Robots, Articulated Robots, Collaborative Robots, and Others. The articulated robots segment accounted for the prominent revenue share in the market in 2021. For several reasons, articulating robots are excellent for assembly applications. They can move in ways other robots cannot, owing to their joints. They can also transfer items other robot kinds couldn't lift due to their payload capacity. Even simple assembly chores may be done with their accuracy. Because of this, articulated robots are often used to carry out assembly tasks.
Based on application, the robot operating system market is categorized into Co-Packing & end-Of-Line Packaging, Plastic Injection & Blow Moulding, Pick & Place, Testing & Qualitative Inspection, PCB Handling & ICT, Metal Stamping & Press Tending, and Others. The pick and place segment registered the prominent revenue share in the robot operating system market in 2021. Pick and place robots have a focus on consistency and speed. Robots are readily programmable, allowing them to be utilized in various applications, and they may be tailored to fit specific manufacturing needs. Pick and place robots come in various shapes, but they are often lightweight and tiny, making them perfect for situations where there is a lack of room.
Based on the industry vertical, the robot operating system market is segmented into Food & Beverage, Automotive, Metal & Machinery, Electrical & Electronics, Healthcare, Rubber, Plastic, & Others. The metal & machinery segment procured the considerable revenue share in 2021. The metal and equipment sector mainly depends on automation and robots to reduce costs, increase output, and protect employees from unnecessary dangers. Metal product manufacturers are always searching for innovative methods to optimize their business processes and efficiently distribute their human workforce in the competitive market for metal and industrial items and structural components of today.
Report Attribute | Details |
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Market size value in 2021 | USD 442.7 Million |
Market size forecast in 2028 | USD 954.2 Million |
Base Year | 2021 |
Historical Period | 2018 to 2020 |
Forecast Period | 2022 to 2028 |
Revenue Growth Rate | CAGR of 11.6% from 2022 to 2028 |
Number of Pages | 287 |
Number of Tables | 440 |
Report coverage | Market Trends, Revenue Estimation and Forecast, Segmentation Analysis, Regional and Country Breakdown, Companies Strategic Developments, Company Profiling |
Segments covered | Application, Type, Vertical, Region |
Country scope | US, Canada, Mexico, Germany, UK, France, Russia, Spain, Italy, China, Japan, India, South Korea, Singapore, Malaysia, Brazil, Argentina, UAE, Saudi Arabia, South Africa, Nigeria |
Growth Drivers |
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Restraints |
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Based on region, the robot operating system market is categorized into North America, Europe, Asia Pacific, and LAMEA. In 2021, the Asia Pacific region garnered the highest revenue share in the robot operating system market. This is due to the expansion of the manufacturing industry, which is likely to boost demand for industrial safety and drive market development in this area. The expanding growth in the surrounding nations is anticipated to open up several new chances for ROS providers in APAC. In countries like China and Japan, the demand for robots is being driven by an elderly population on the rise. In addition, the rising use of robotics in various sectors, such as healthcare and education, is a further driver of the ROS market's expansion in APAC.
Free Valuable Insights: Global Robot Operating System Market size to reach USD 954.2 Million by 2028
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Kuka AG (Midea Investment Holding Co., Ltd.), FANUC Corporation, Yaskawa Electric Corporation, Microsoft Corporation, OMRON Corporation, Clearpath Robotics, Inc., iRobot Corporation (Amazon.com, Inc.), ABB Group, Denso Corporation, and Teradyne, Inc. (Universal Robots A/S).
By Application
By Type
By Vertical
By Geography
The global Robot Operating System Market size is expected to reach $954.2 Million by 2028.
Increased use of automobiles across a variety of industries are driving the market in coming years, however, Safety concerns related to robotic systems restraints the growth of the market.
Kuka AG (Midea Investment Holding Co., Ltd.), FANUC Corporation, Yaskawa Electric Corporation, Microsoft Corporation, OMRON Corporation, Clearpath Robotics, Inc., iRobot Corporation (Amazon.com, Inc.), ABB Group, Denso Corporation, and Teradyne, Inc. (Universal Robots A/S).
The Plastic Injection & Blow Molding segment is leading the Global Robot Operating System Market by Application in 2021 thereby, achieving a market value of $241 million by 2028.
The Asia Pacific market dominated the Global Robot Operating System Market by Region in 2021, and would continue to be a dominant market till 2028; thereby, achieving a market value of $382.7 million by 2028.
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