The satellites have 'eye contact'
Over the last three months, the space operations centre has successfully demonstrated safe and precise formation flying of TerraSAR-X and TanDEM X with a distance of 20 kilometres between them. Now, we have approval for close formation flight and, for the first time, simultaneous radar observations are possible – without which the joint mission objective, a 3D elevation model of Earth's land surface, cannot be achieved.
The change in the formation change, which was implemented within a period of three days, is shown in the diagram above: both satellites are flying away from the observer – into the image plane – and Earth's surface is 514 kilometres below them. Once per orbit around Earth, which takes about 95 minutes, TanDEM-X (TDX) moves in a counter-clockwise elliptical path relative to TerraSAR-X (TSX). The green ellipse shows the initial formation, which was used during the period of 22 July to 10 October. The third dimension – the separation of the satellites in the direction of flight – is not shown; this was 20 kilometres. As a result of the orbital manoeuvres performed by TanDEM X, the relative path changed first to the red ellipse, then to the black, the to the magenta, and finally to the blue curve. The horizontal separation was gradually reduced from 1305 to 362 metres and the vertical separation increased from 300 to 400 metres.
During the first manoeuvre (green-red transition), the orbit altitude was changed so that the orbital period of TanDEM-X was shortened by 87 milliseconds. TanDEM-X was therefore moving slightly faster than TerraSAR-X and eliminated the 20-kilometre lead held by TerraSAR-X within two days. The approach was made at a 'snail's pace', with a relative speed of about 0.4 kilometres per hour; by comparison, a pedestrian moves at about five kilometres per hour. The path show by the blue ellipse will now be maintained for the duration of the bistatic instrument calibration phase.
Special attention was paid during the approach to the Inter-Satellite Link (ISL), a data transfer connection between TerraSAR-X and TanDEM-X. At the beginning of the approach phase, the ISL was activated in order to experimentally determine at what distance the first data could be transmitted – an interesting task for the team in the control room. On 13 October at 03:00 hrs, the first connection was achieved; while TanDEM-X was in contact with the DLR ground station at Inuvik, data sent from TSX to TDX could be viewed for the first time. At that time, the satellites were five kilometres were apart. With decreasing distance, the data transmission has become more stable and the link's full functionality was demonstrated.
This laid the foundation for a further innovation – the TanDEM X Autonomous Formation Flying (TAFF) system could finally be activated. The TAFF flight software, which was developed at DLR / German Space Operations Center, continuously obtains orbit information from TerraSAR-X over ISLs, which it filters, together with orbital parameters from TanDEM-X and thus determines the relative orbital position – in the simplest case, a distance measurement. Deviations from the target formation are determined and communicated via telemetry to the operations team. In a long test phase, TAFF must now be proven. If it functions reliably and accurately, in future TAFF will carry out the daily manoeuvres that are performed using the cold gas thrusters for precise alignment of the satellite formation.
Top image: Relative orbits during the formation changes.
Middle image: Colleagues Jaap Herman and Sebastian Löw (front), responsible for Attitude and Orbit Control System (AOCS), examine TanDEM X telemetry during contact with the Weilheim ground station and activate the TanDEM-X Autonomous Formation Flying (TAFF) system.
Bottom image: Thursday, 14 October at 10:00 – the TanDEM-X Autonomous Formation Flying (TAFF) system worked right away; the telemetry shows very good agreement between the TAFF solution and commanded target parameters, much to the delight of the staff of the Spaceflight Technology Department: (from left to right) Oliver Montenbruck, Simone D'Amico, Martin Wermuth, Ralph Kahle and Jean-Sebastien Ardaens. Image credits: DLR).
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