11-552: TerraSAR-X is an imaging radar Earth observation satellite , a joint venture being carried out under a public-private-partnership between the German Aerospace Center (DLR) and EADS Astrium . The exclusive commercial exploitation rights are held by the geo-information service provider Astrium . TerraSAR-X was launched on 15 June 2007 and has been in operational service since January 2008. With its twin satellite TanDEM-X , launched 21 June 2010, TerraSAR-X acquires
22-517: A few hundred metres and record data synchronously. This twin satellite constellation will allow the generation of WorldDEM, the global digital elevation models (DEMs). With higher accuracy, coverage and quality – WorldDEM is a consistent DEM of the Earth's land surface is envisaged to be acquired and generated within three years after launch. Available from 2014, WorldDEM is to feature a vertical accuracy of 2 m (relative) and 10 m (absolute), within
33-638: A horizontal raster of approximately 12×12 square meters, slightly varying depending on the geographic latitude. Radar stands for Radio Detection and Ranging and traditionally contains: Satellite radar systems came into operation over fifteen years after the adoption of optical camera systems. The resolution is lower than optical imaging, but radar can gather information at any time of the day or night and independent of cloud cover . Early radar satellite techniques were altimetry (measuring height over sea level), NASA's SEASAT (launched in 1978), study of waves/wind or soil data. The military has used radar since
44-721: The Earth's surface ( plate tectonics , volcanism , earthquake) are further scientific fields of application. To ensure the commercial success of the mission, EADS Astrium founded its 100% subsidiary Infoterra in 2001; the company being responsible for establishing a commercial market for TerraSAR-X data as well as TerraSAR-X-based geo-information products and services. Radars on the Space Shuttle : (the TerraSAR-X authors were involved in SRL and SRTM missions) Imaging radar Too Many Requests If you report this error to
55-689: The Institute for High-Frequency Engineering and Radar Systems (HR) which are all part of the DLR. Applications of the high-resolution TerraSAR-X radar imagery include: The scientific use of the TerraSAR-X data will be coordinated through the TerraSAR-X Science Service System by the DLR. The new-quality data records, as provided by TerraSAR-X, will offer a vast amount of new research incentives, for instance in ecology, geology, hydrology and oceanography . The smallest movements of
66-472: The data basis for the WorldDEM , the worldwide and homogeneous DEM available from 2014. Using a phased array synthetic aperture radar (SAR) antenna ( X-band wavelength 31mm, frequency 9.65 GHz), TerraSAR-X provides radar images of the entire planet from an Earth polar orbit of 514km altitude. This is selected so that the satellite follows a Sun-synchronous orbit . This specific orbit means that
77-611: The following three main imaging modes: In addition, the design of TerraSAR-X's SAR antenna allows a variety of polarimetric combinations: single or dual polarization, or full polarimetric data takes. Depending on the desired application, one of four different processing levels is selected: TanDEM-X (TerraSAR-X add-on for Digital Elevation Measurements) is a second, similar spacecraft launched on 21 June 2010 from Baikonur Cosmodrome in Kazakhstan. Since October 2010, TerraSAR-X and TanDEM-X have orbited in close formation at distances of
88-424: The late 1930s and radar satellites at least since 1978. TerraSAR X introduced some technical-industrial novelties. One of these innovations is a kind of zoom shot, with the resolution and scanning field vice versa changeable in a 1:10 relationship, either a larger area to grasp or a small area with the highest possible resolution. Furthermore, the antenna can be aligned by electronics within an angle range so that
99-423: The point of view is adjustable. Earlier radar satellites could radiate the antenna only in one direction. With the adjustable angle radar sensor – along with other course refinements ( precession by the earth flattening) – any place on earth can be observed preferentially within 1 to 3 days. For a specific point on the Earth's equator, TerraSAR X has a revisit cycle of 11 days. The revisit time decreases towards
110-928: The poles, e.g. Northern Europe has a revisit time of typically 3–4 days. The ground operating mechanism and controls for the TerraSAR X is developed by the DLR in Oberpfaffenhofen . It consists of Mission Operating Equipment, the Payload ground segment and the Instrument Operation and Calibration Segment. At the base of the ground segment lies the German Space Operation Center (GSOC), the German Remote Sensing Datum Center (DFD) as well as Institutes for Methodology of Remote Sensing (MF) and
121-453: The satellite moves along the day–night boundary of the Earth and allows it to present the same face to the Sun, thus providing the best solar incidence angles to its solar cells for power. TerraSAR-X was designed to carry out its task for five years, independent of weather conditions and illumination, and provides radar images with a resolution of up to 1 m. TerraSAR-X acquires radar data in
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