Tomorrow, ESA astronaut Tim Peake will drive a rover named Bridget in the UK from the International Space Station, as part of ESA’s Meteron umbrella project that is preparing for future human-robotic missions to the Moon, Mars and beyond. In this blog post, we’ll review the basic facts of what’s happening and provide the links you’ll need to follow live.

Tim Peake at the rover-control workstation in ESA's Columbus science module on board the ISS. Credit: ESA/NASA

Tim Peake at the rover-control workstation in ESA’s Columbus science module on board the ISS. Credit: ESA/NASA

SUPVIS-M Experiment – Live Rover Control from space 29 April 2016

About Meteron

METERON (Multipurpose End-To-end Robotics Operations Network) is a European project to prepare for human-robotic missions to the Moon, Mars and other celestial bodies. The project is led by ESA in partnership with NASA, German Aerospace Center DLR and the Russian space agency Roscosmos. METERON is organised around a series of experiments, testing technologies and adapting traditional ways of working.

METERON is implementing an infrastructure to test operations, communications and robotic control strategies. Operational considerations such as which tasks are robotic and which human, and what data are needed to support the monitoring and control of assets, will feed directly into plans for future exploration initiatives and the design of mission systems. A variety of ground-based and flight-based tests have been performed with different rovers, communication paths and operations concepts.

Bridget Rover that Tim Peake will drive from space (false colours). Credits: Airbus

Bridget the rover that Tim Peake will drive from space (false colours). Credits: Airbus

As part of METERON, British ESA astronaut Tim Peake will operate, from the International Space Station, a UK-built rover – named Bridget – located in the Airbus Mars Yard in Stevenage.

Building on previous test and experiment campaigns, ESA, the UK Space Agency and Airbus Defence and Space UK are working together to investigate distributed control of robots in a simulated planetary environment. This experimental activity is dubbed SUPVIS-M (Supervisory Control of Mars Yard Rover), and it follows the SUPVIS-E (Supervisory Control of Eurobot Rover) experiment, in which Tim Peake controlled the Eurobot rover at ESA’s ESTEC establishment in The Netherlands in March 2016.

Where is this happening? Who’s involved?

Mars Yard, Stevenage, UK: Airbus UK’s Mars Yard, in Stevenage, Hertfordshire, was built to develop the locomotion and navigation systems for ESA’s ExoMars rover and provides a realistic Mars-like environment to test systems.

European Space Operations Centre (ESOC), Darmstadt, Germany: Location of the mission control centre for the SUPVIS-E and –M experiments. Controllers here set up and monitor progress of the experiment and maintain experimental data and voice links between the Mars Yard and B.USOC, Brussels.

B.USOC (Belgium’s ISS User Support and Operation Centre), Brussels: One of the centres responsible for using and implementing European payloads on the ISS; will provide support to METERON operations with the ISS.

International Space Station (ISS): Columbus module, in which British ESA astronaut Tim Peake will use the two METERON work stations and the METERON Delay Tolerant Network (DTN) to control the rover via video and data links.

How can I watch live?

Follow live on Friday via Twitter (@esaoperations):


The official hashtag is #meteron:


Webstream

There will be a webstream produced by Airbus in cooperation with ESA available via this URL:

https://airbusdefenceandspace.com/astronaut-tim-peake-drives-mars-rover-bridget-from-space

When should you follow?

29 April 2016 – Timeline below

Note all times subject to change, and the experiment itself may be delayed or postponed due to operational reasons.

UTC BST CEST Comments
10:00:00 11:00:00 12:00:00 Teams on console at all sites
10:30:00 11:30:00 12:30:00 Checkout of DTN network on ground
10:55:00 11:55:00 12:55:00 Setup of Monitoring and Control system at the ground sites – first data reception from ISS laptops
11:35:00 12:35:00 13:35:00 Bridget power-on
11:50:00 12:50:00 13:50:00 Start of Rover Control System (RCS) on ISS laptops – first reception of rover and RCS telemetry
12:25:00 13:25:00 14:25:00 Voice loop ESOC/Airbus audio stream available
12:35:00 13:35:00 14:35:00 Start of rover commanding from ESOC, followed by handover to B.USOC
13:15:00 14:15:00 15:15:00 Go/NoGo
14:00:00 15:00:00 16:00:00 ISS crew operations: Laptop setup
14:10:00 15:10:00 16:10:00 ISS crew operations: Reading of crew message
14:20:00 15:20:00 16:20:00 ISS crew operations: Start of rover driving
15:23:44 16:23:44 17:23:44 Expected loss of datalink due to ISS orbit
15:36:18 16:36:18 17:36:18 Expected acquisition of datalink
15:55:00 16:55:00 17:55:00 ISS crew operations: Post-experiment questionnaire
16:05:00 17:05:00 18:05:00 End of ISS crew operations
16:05:00 17:05:00 18:05:00 Rover operations performed by ESOC
16:20:00 17:20:00 18:20:00 End of rover operations

What does this experiment aim to achieve?

A representative mission scenario of the future will be set up in which the rover is commanded to go from a lit environment into a challenging dark location (simulating a cave or a shaded crater) and identify a number of science targets. The Mars Yard (30 metres by 13 metres) will be split into two areas, one lit and one in the dark.

From one end of the yard, the Airbus rover, Bridget, will be commanded from ESOC, ESA’s European Space Operations Centre, Darmstadt, Germany, until it reaches the edge of the shaded area. Then, at the edge of the ‘cave’, control will be passed to astronaut Tim Peake, on board the International Space Station, who will control Bridget to drive across the yard, avoiding obstacles and identifying potential science targets, which will be marked with a distinctive UV fluorescent marker.

Once the targets have been identified and mapped, Tim will drive the rover out of the shaded area and hand control back to ESOC to drive the rover back to its starting point.

What has Tim done to get ready?

In addition to earlier training/preparation on rovers in general, he’s also had a chance to control another rover during his Principia mission, ESA’s car-sized EuroBot rover at ESTEC, Noordwijk, The Netherlands. Specifically for tomorrow’s SUPVIS-M experiment, he also watched this video:

Where to find more info?

Airbus Rover ‘Bridget’

B.USOC, Brussels

ESA-ESOC, Darmstadt, Germany

Meteron, SUPVIS-E/M and rover controlling by Tim Peake

ESA Meteron blog

Meteron at ESA: https://www.esa.int/esa_meteron

About ISS control centres