Robot Operating System (ROS) Market: Overview
The Robot Operating System (ROS) market report provides analysis for the period 2016 – 2026, wherein the period from 2018 to 2026 is the forecast and 2017 is the base year. The report covers all the major trends and technologies playing an influential role in the market’s growth over the forecast period. It also highlights the drivers, restraints, and opportunities for the analysis of market growth during the said period. The study provides a complete perspective on the evolution of the global ROS market throughout the above mentioned forecast period in terms of revenue (US$ Mn).
The market overview section of the report demonstrates market dynamics such as drivers, restraints, and opportunities that influence the current nature and future status of this market, key indicators, challenges, end-user adoption analysis and trends of the market. Further, key market indicators included in the report provide importance of the factors which are capable of changing the market scenario. These indicators are expected to define the market position during the forecast period and provide an overview about the global ROS market. A market attractiveness analysis has also been provided for every segment in the report, in order to provide a thorough understanding of the overall scenario in the ROS market. The report also comprises cross-country analysis specific to the U.S., Germany, and China. This study additionally includes robots installed at the global as well as regional level. Similarly, information on Industrial Articulated Robots (By Payload), new installation forecast, and replacement (Replacement/refurbished/upgrades) rate (%) of robots is included in the report. The report also provides an overview of various strategies adopted by the key players present in the market.
Global Robot Operating System (ROS) Market: Scope of the Report
The report segments the market on the basis of type and application. By type, the ROS is divided into commercial robots and industrial robots. The commercial robot segment is further sub-segmented into stationary and portable robots, whereas industrial robots segment is further categorized into SCARA, articulated, Cartesian, linear and others. Based on application, ROS is categorized into commercial and industrial. Among these segments, commercial is further divided into healthcare, (hospitals and pharmaceuticals), hospitality (restaurants and hotels), retail (big and small retail stores), agriculture & farming and others (entertainment and domestic services). Healthcare is involved in developing customized products and is one of the fastest growing industries in the field of robotics. Additionally, the industrial segment is bifurcated into automotive, electronics, food & packaging, rubber & plastics, logistics and warehousing and others such as metal and energy. The report provides in-depth segment analysis of the global ROS market, thereby providing valuable insights at the macro as well as micro levels.
The report also highlights the competitive landscape of the global ROS market, positioning all the major players according to their presence in different regions of the world and recent key developments initiated by them in the ROS market. The comprehensive ROS market estimates are the result of our in-depth secondary research, primary interviews, and in-house expert panel reviews. These market estimates have been analyzed by taking into account the impact of different political, social, economic, and technological factors along with the current market dynamics affecting the ROS market growth.
This report provides all the essential information required to understand the key developments in the ROS market, and growth trends of each segment and region. It also includes companies’ strategies, financial information, SWOT analysis and developments under the company profile section. Also, the report provides insights related to trends and their impact on the market. Porter’s Five Forces analysis explains the five forces namely buyers bargaining power, suppliers bargaining power, threat of new entrants, threat of substitutes, and degree of competition in the ROS market. This report also provides comprehensive ecosystem analysis of the ROS market. It explains the various participants including software & platform vendors, system integrators, solution providers, and channel partners within the ecosystem of the market.
Global Robot Operating System (ROS) Market: Research Methodology
The research methodology is a perfect combination of primary research, secondary research, and expert panel reviews. Secondary research sources such as annual reports, company websites, broker reports, financial reports, SEC filings and investor presentations, national government documents, internal and external proprietary databases, statistical databases, relevant patent and regulatory databases, market reports, government publications, statistical databases, World Bank database, and industry white papers are referred.
Primary research involves telephonic interviews, e-mail interactions, and face-to-face interviews for detailed and unbiased reviews on the ROS market, across geographies. Primary interviews are usually conducted on an ongoing basis with industry experts and participants in order to get latest market insights and validate the existing data and analysis. Primary interviews offer firsthand information on important factors such as market trends, market size, competitive landscape, growth trends and outlook etc. These factors help to validate and strengthen secondary research findings and also help to develop the analysis team’s expertise and market understanding. Moreover, the data collected and analyzed from secondary and primary research is again discussed and examined by our expert panel.
Global Robot Operating System (ROS) Market: Competitive Dynamics
The research study includes profiles of leading companies operating in the global robot operating system (ROS) market. Major vendors that provides robot operating systems across the globe for manufacturing robots are ABB Ltd., Omron Adept Technologies Inc, Clearpath Robotics, Cyberbotics Ltd, Fanuc Corporation, Husarion, Kuka AG, iRobot Corporation, Rethink Robotics, Stanley Innovation, and Yaskawa Motoman.
