There will be an addition on the ISS' Bartolomeo platform, the first high capacity space-to-ground laser communication system, as part of a collaboration between Airbus Defence and Space, the Institute of Communications and Navigation of DLR (German Aerospace Center) and Tesat-Spacecom GmbH & Co. KG. The system called OSIRIS will provide direct to Earth (DTE) technology with a data rate of 10 Gbps over range of about 1.500 km.
DLR’s design, optimized for high performance, small size and low complexity, combined with Tesat’s long-term in orbit experience of laser communications, have resulted in OSIRIS having very high data rates and an affordable price point.
OSIRIS is both small and lightweight, and will directly link to several ground stations providing data downlink capacity to Bartolomeo and its experimental payloads. The goal is to make OSIRIS an operational system embedded in the ISS infrastructure. This new European capability will enhance the utilization opportunities on the European Columbus module and make Bartolomeo the go-to platform for data-intensive payloads on the ISS.
Oliver Juckenhöfel, Head of On-Orbit Services and Exploration at Airbus said that laser communications using Bartolomeo will pave the way for digitalization of ISS operations enabling direct access to huge volumes of data to benefit customers.
Airbus is developing “Bartolomeo”, the new European external payload platform on the ISS, a commercial partnership between ESA and Airbus. The platform hardware is in development at Airbus' Bremen site and is currently undergoing a design review with the European Space Agency and NASA. Bartolomeo will be operated by Airbus and attached to the outside of the Columbus European module ready for commercial operations from 2019. Bartolomeo will be able to host a wide range of different payloads e.g. for Earth Observation or in-orbit validation and demonstration.
DLR and Tesat-Spacecom have entered into a long-term cooperation regarding research, development and industrialization of systems for optical space-to-ground links.