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News Archive Space until 2007

TerraSAR-X - German radar satellite launch successful

15 June 2007

 Lauch of a Dnepr rocket
zum BildLauch of a Dnepr rocket

The successful launch of the German radar satellite TerraSAR-X on Friday 15 June 2007 at 08:14 local time (04:14 CEST) from the Russian Cosmodrome in Baikonur (Kazakhstan) represents the start of a new level of quality in the mapping of Earth. Over the next five years, new and high-quality radar images of our planet's surface will be collected.

"The aim of the five-year mission is to use radar to collect new, high-quality data of Earth's surface," says Prof. Johann-Dietrich Wörner, Chairman of the German Aerospace Center (DLR). He continues: "TerraSAR-X is the first German satellite developed within the framework of a public-private partnership (PPP) between government and industry."

The total costs for the building and launch of the satellite amount to 130 million euros. From this, DLR is responsible for 102 million euros and the space company Astrium for 28 million euros.

The development of the ground segment and the ongoing costs for the five year mission cost an extra 55 million euro for which DLR is responsible for 45 million euros. The remainder of this cost is taken up by Infoterra GmbH, a subsidiary of Astrium founded specifically for the commercial marketing of the data.

 TerraSAR-X is being built by EADS Astrium, Friedrichshafen, Germany
zum Bild TerraSAR-X is being built by EADS Astrium, Friedrichshafen, Germany

The use of the data for scientific purposes will be the task of DLR, which is also responsible for the mission concept and implementation, as well as control of the satellite. Astrium is contributing towards the costs of development, construction and use of the satellite. Infoterra GmbH takes over the commercial marketing of the data. 50% of the available data will benefit the scientific community and the other half is made commercially available to industry .

TerraSAR-X has built upon the technical knowledge learned from previous radar missions, and scientists have developed new techniques to be used by the satellite. For instance, Earth’s vegetation is of vital importance to human life. Precise and current information about the distribution, composition and change of kinds of vegetation forms the basis for many applications. One of the outstanding characteristics of TerraSAR-X is its high spatial resolution, exceeding conventional radar systems. This makes it possible for scientists to study detailed soil characteristics and be able to observe and better classify different arable crops.

TerraSAR-X will also offer completely new perspectives for the observation of urban areas. The high resolution of TerraSAR-X will enable individual buildings, urban structures and infrastructure such as roads and railway lines to be accurately mapped.

Another scientific application for TerraSAR-X is the observation of Earth’s oceans and coastal regions which are subject to human activities such as offshore drilling, shipping and fishing. Global climate change is affected by the expansion, contraction and distribution of sea ice as well as by the volume of icebergs. In observing the polar regions using radar, the freeing of TerraSAR-X from the vagaries of the weather, and also independence from whether or not the Sun is shining, are great advantages.

 TerraSAR-X over Europe
zum Bild TerraSAR-X over Europe

The satellite will circle Earth at a height of 514 kilometres in a polar orbit, using its active antenna to gather radar data day and night, at a resolution of up to one metre, regardless of weather conditions or cloud coverage.

Beside the radar, there are also two secondary payloads on board:

The Laser Communication Terminal (LCT) is a technology demonstrator to be used in orbit, for the verification of fast optical data communication in space. With financing from DLR and built by the company TESAT, the instrument is a connection between TerraSAR-X and a future ground station. Over this new laser system, large datasets can be sent to Earth.

The Tracking, Occultation and Ranging Experiment (TOR) was built for TerraSAR-X in a cooperation between the  GeoForschungsZentrum Potsdam (GFZ) and the Center for Space Research at the University of Texas (UT-CSR). It consists of a dual-frequency GPS (Global Positioning System) as well as a laser reflector unit. TOR allows the satellite to perform highly-accurate course changes as little as 10 centimetres, which improves the quality of the radar images.

Dr. Niklas Reinke
Deutsches Zentrum für Luft- und Raumfahrt (DLR) - German Aerospace Center

Corporate Communications

Tel.: +49 228 447-394

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Rolf Werninghaus
German Aerospace Center

Space Administration
, Project Support
Tel.: +49 228 447-587

Fax: +49 228 447-700

Created: 15/06/2007 05:10:00