Convergence of big data, context-aware computing and sensors will bring new applications for cloud robotics

LONDON – 6 May, 2015 – Cloud robotics, which involves the integration of cloud computing technology in robots, has been gaining prominence globally. End users have begun to recognise the benefits of this novel concept, which uses the Internet to augment a robot’s capabilities, mainly by off-loading computation and providing services on demand. With this concept set to make future robots more productive and efficient, the diverse requirements of end users will be met with no compromise made to the quality of services.

New analysis from Frost & Sullivan, Innovations in Cloud Robotics, finds that cloud robotics will lead to the development of smart robots that have higher computing efficiency and consume less power. These attributes will drive down the cost of manufacturing as there is less hardware and also result in lower emissions.

Innovations in cloud robotics have gained significant momentum, with initiatives by large companies such as Google and IBM and the engagement of research institutes in several active projects around the world. The need to develop robots that rank high on performance and accessibility has been the key focus in research activities.

“As cloud robotics moves beyond its nascent stage, numerous applications of these technologies will come to the fore,” noted Technical Insights Research Analyst Debarun Guha Thakurta. “For the moment, healthcare, transportation, consumer robotics and manufacturing are areas that can benefit from the use of shared resources and the elimination of the need to manage or update robotics software.”

Considering the prevalence of cloud computing technology and smart phones/tablets, the consumer robotics market will witness strong growth. In fact, cloud robotics will be a catalyst for the emergence of a mainstream consumer robot marketplace.

The major challenge for market participants, however, is the high dependence of cloud robotics on active Internet connectivity for processing any function. In areas of limited or no connectivity, robots powered by the cloud are unable to function effectively and respond promptly in critical situations.

“The convergence of cloud robotics with big data, context-aware computing and high-speed ubiquitous wireless networks, along with the use of advanced wireless sensors, could solve connectivity issues that slow response times,” said Technical Insights Research Analyst Mousumi Dasgupta. “Operations that require the execution of tasks in real-time will also need service-oriented robots with on-board processing capabilities.”

For more information on this study, please email Edyta Grabowska, Corporate Communications, at edyta.grabowska@frost.com.

Innovations in Cloud Robotics, a part of the Technical Insights subscription, offers insights on nine dimensions of cloud robotics: year of impact, market potential, global footprint, IP intensity, funding, breadth of industries, megatrend impact, potential points of convergence, and size of the innovation ecosystem. Further, this research service includes detailed technology analysis and industry trends evaluated following extensive interviews with market participants.

Technical Insights is an international technology analysis business that produces a variety of technical news alerts, newsletters, and research services.

About Frost & Sullivan

For six decades, Frost & Sullivan has been world-renowned for its role in helping investors, corporate leaders and governments navigate economic changes and identify disruptive technologies, Mega Trends, new business models and companies to action, resulting in a continuous flow of growth opportunities to drive future success.

Frost & Sullivan

For six decades, Frost & Sullivan has been world-renowned for its role in helping investors, corporate leaders and governments navigate economic changes and identify disruptive technologies, Mega Trends, new business models and companies to action, resulting in a continuous flow of growth opportunities to drive future success.

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