There are 454 results.
The project prepares for the operational and scientific utilization of new high frequency imaging radar (SAR) missions: the X-band SAR missions TerraSAR-X and COSMO-SkyMed, both launched in June 2007, and the TanDEM-X mission (scheduled for launch in 2009).
Integration of Geo-Wiki and LACOVAL
Improved LAI estimation for weather forecasts
Optical quality assurance in laser beam melting (LBM) using a camera and photodiode
Earth observation missions in general and gravity field sensors in particular are naturally designed as low Earth orbiting spacecraft (LEO) with orbit heights of about 200-500 km. In order to fulfil the challenging mission objectives, the precise knowledge of the satellite orbit in space becomes a crucial concern. For these missions precise orbit information is normally provided by GPS / SST observations supported by satellite laser ranging (SLR).
The objective of LISA is to achieve a consensus on a new Austrian land cover data base and demonstrate its benefits offering improved spatial and thematic content.
The development of the Land Information System Austria (LISA) was initiated within ASAP 6 and continued within ASAP 7 to overcome the shortcomings of the existing LC/LU datasets for regional, national as well as European management and reporting requirements.
The LOPT-GNSS (Hose Line Optimisation by GNSS) project set out to develop a demo system which guarantees fast and efficient advancement of hose lines.
EO-based landslide mapping: from methodological developments to automated web-based information delivery
Towards the exploitation of next generation satellite missions for operational land monitoring
Land dynamics and statistical information as a cloud service for Austrian governmental agencies
This project aimed to improve the quality of land cover information by vastly increasing the amount of in-situ data available for calibration and validation of satellite-derived land cover.
A Lean Operating System for Xentium-based platforms
Mass redistributions from GRACE-FO using Laser Interferometry and Microwave ranging based on tailored data processing
Development of a DPU prototype for the MANiaC instrument on-board Comet Interceptor
Increase the Technology Readiness Levels (TRLs) of key technologies for testing the foundations of physics with macroscopic quantum resonators (MAQRO)
The main aim of the MATSIM-Phase A project is to perform the full numerical simulation of the MATROSHKA phantom with the use of a Monte Carlo radiation transport code. The project is carried out within the framework of the already existing and acknowledged ESA ELIPS project MATROSHKA, an international collaboration of more than 18 research institutes from all over the world.
MATSIM Phase-B - Verification of the Numerical MATROSHKA Model and Monte Carlo Simulations in the ISS Radiation Environment
The aim of MATSIM Phase-B is the validation of the numerical simulation model of MATROSHKA for photon and neutron reference radiation fields, which are available in Austria. The project MATSIM is a co-investigation of the ESA ELIPS-project MATROSHKA, a world wide collaboration that comprises 21 research institutes. MATROSHKA is a facility designed to determine the radiation exposure of an astronaut during an intra- and extravehicular activity at the International Space Station (ISS).
The project aimes at developing and demonstrating a pilot system of an intelligent mobile GPS/GALILEO-based travel assistant, which both guides tourists to interesting routes and provides them with information on the sights they see or photograph.