Skip to main content
European Commission logo
English English
CORDIS - EU research results
CORDIS
CORDIS Web 30th anniversary CORDIS Web 30th anniversary

European Space Robot Control Operating System

Objective

The ESROCOS activity is devoted to the design of a Robot Control Operating Software (RCOS) that can provide adequate features and performance with space-grade Reliability, Availability, Maintainability and Safety (RAMS) properties. The goal of the ESROCOS proposal is to provide an open source framework which can assist in the generation of flight software for space robots. By providing an open standard which can be used by research labs and industry, it is expected that the elevation of TRL levels can be made more efficient, and vendor lock-in through proprietary environments can be reduced.
Current state-of-the-art robotic frameworks are already addressing some of these key aspects, but mostly fail to deliver the degree of quality expected in the space environment. Terrestrial RCOS developed by industrial robot companies (e.g. VxWorks, PikeOS) are not usable for space robotics because their Intellectual Property Rights (IPR) enforce the vendor’s dependency on space development. Other open-source frameworks do not have sufficient RAMS properties for its use in space missions.
The ESROCOS objectives are to:
1. Develop a Space-oriented RCOS including space-grade RAMS attributes, formal verification and qualification of industrial drivers.
2. Integrate advanced modelling technologies, separating the model from the platform
3. Focus on the space robotics community, with requirements coming from actors leading robotics missions
4. Allow integration of complex robotics applications by including the Time and Space partitioning approach
5. Avoid vendor-lock in situations by delivering an open-source solution
6. Leverage on existing assets, such as already existing frameworks properly extended, mature toolsets and libraries)
7. Ease the development of robotics systems by providing a solution interoperable with other robotics frameworks (e.g. Rock/ROS third-party libraries and visualizers/simulator)
8. Cross-pollinate with non-space solutions and applications

Coordinator

GMV AEROSPACE AND DEFENCE SA
Net EU contribution
€ 978 100,00
Address
CALLE ISAAC NEWTON PARQUE TECNOLOGICO DE MADRID
28760 Tres Cantos
Spain

See on map

Region
Comunidad de Madrid Comunidad de Madrid Madrid
Activity type
Private for-profit entities (excluding Higher or Secondary Education Establishments)
Links
Total cost
€ 978 125,00

Participants (10)