Global Robot Operating System Market by Robot Type (Articulated, SCARA, Parallel, Cartesian, Collaborative), Industry (Automotive, Electrical and Electronics, Metals and Machinery, Food and Beverages, Healthcare), and Region - Global Forecast to 2024

2019-09-23
Report Code: BWC19283
Available Format: PDF PDF Icon
Pages: 120

Robot Operating System Market: Overview

The Robot Operating System (ROS) market is a kind of robotics middle ware, a lot of programming libraries and apparatuses after that robotic applications and systems can be created. It isn't only an operating framework and is intended to work with various segments and subsystems that work on different programming languages. The market considered is encountering a huge change. Industrial automation crosswise over business operations is going on at a quick pace about the globe and is making a worthwhile interest for ROS with robots developing past being the workhorses of industrial shop floors and starting to adopt the roles of surgical assistants, personal assistants, delivery vehicles, exoskeletons, autonomous vehicles, and unmanned aerial vehicles, among other uses.

 

The increasing adoption rate of Robot Operating System (ROS) market is anticipated to grow during the forecast period, owing to the increasing Research and Development (R&D) funds for rising execution of the collaborative modular robots, industry automation, along with the rising demand for the Robotics-as-a-Service (RaaS) based model. The increasing adoption of low-cost industrial robots is one of the major factors for the growth of the Robot Operating System (ROS) market. The global robot operating system market is projected to grow from USD million in 2019 to USD  million by the year 2024, at a CAGR over 8% during the forecast period. 

 

Robot Operating System Market: Type Insight

 

The Robot Operating System (ROS) Market is segmented based on its end-user industry, type, and regional demand. The market segmented on the basis of its end-user industry, where the market is bifurcated into healthcare, manufacturing, aerospace & defence, and others. By type of robots, the market is segmented into commercial robots and industrial robots. Industrial robots are generally used in most of the manufacturing industries, whereas commercial robots help human beings, in performing tasks. The types of commercial robots are divided into portable robots and stationary robots. Whereas, the industrial robots are further classified as SCARA, Articulated Robots, Cartesian Robots, Linear Robots, Other Industrial Robots. The market for collaborative and industrial robots is extending at a fast pace, and the ROS market is rapidly taking action accordingly. The development of robotic innovation has changed the manner in which organizations are doing their activities. The reception of modern industrial robots in the manufacturing business is because of their capacity to perform risky and monotonous undertakings with predictable exactness and accuracy.

 

Robot Operating System Market: Regional Insights

 

The top nations adding to the development of the robot operating system market incorporate Japan, China, and South Korea. APAC is anticipated to have the most astounding development rate in the ROS market. The high reception pace of advanced innovations and mechanization, particularly in China, Japan, and South Korea, has made APAC a worthwhile market. The developing improvement in these nations is relied upon to give a few new changes to the ROS merchants in APAC. The rising maturing populace is driving the interest of robots in countries, for example, China and Japan. The expanded use of robots in assorted enterprises, including instruction and medicinal services, further supplements the development of the ROS market in the APAC region.

 

Robot Operating System Market: Competitive Landscape

 

The emerging key players in the Robot Operating System (ROS) market include companies like Denso (Japan), Microsoft (US), Omron Corporation (Japan), Universal Robotics (Denmark), ABB Ltd. (Switzerland), FANUC (Japan), KUKA AG (Germany), Yaskawa Electric Corporation (Japan), Clearpath Robots (Canada), iRobot Corporation (US),  Stanley Innovation (US), Husarion (Poland), and Rethink Robotics (Germany). They have received natural and inorganic systems, for example, new item dispatches, acquisitions, business developments, and associations, to extend their business reach and drive their business revenue development.

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