Data-relay system connects astronauts direct to Europe

Mon, 17 Jan 2022 01:41:00 GMT
ESA Top News

Astronauts on board the International Space Station are connecting straight to Europe at light speed...

Astronauts on board the International Space Station are connecting straight to Europe at light speed, thanks to the European Data Relay System.

An upgrade to the communications system is delivering broadband internet speeds similar to those enjoyed by families on Earth.

Until now, data from investigations into the effects of radiation on seeds and biomining research had to be stored on hard drives and returned to Earth many months later.

Astronauts on board the International Space Station are connecting via a radio link to one of the two geostationary satellites that form the European Data Relay System.

The satellite picks up signals from the Station as it loops around the Earth every 90 minutes and relays them straight back to its European base station.

The state-of-the-art system provides speeds of up to 50 Mbit/s for downlink and up to 2 Mbit/s for uplink.

ESA astronaut Matthias Maurer will help to test the new radio link and be the first astronaut to use it during a live conversation with ground control as part of his ongoing Cosmic Kiss mission.

ColKa uses the European Data Relay System, which was developed as an ESA Partnership Project with satellite manufacturer Airbus, as part of ESA's efforts to federate industry around large-scale commercial telecommunication programmes, stimulating innovative service developments to achieve economic benefits.

ESA and Airbus signed a two-year contract on 29 November 2021 to deliver data from the Station to Europe.

The knowledge gained from designing, building and running ColKa will be instrumental for ESA's telecommunications package under the ESPRIT telecommunications and refuelling module that is being designed for the lunar Gateway - an outpost over 1000 times farther from Earth than the International Space Station that will provide vital support for a sustainable, long-term human return to the lunar surface.