Projekte (in englischer Sprache)
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The Power Subsystem Special Check-Out Equipment (SCOE) is a central component of the Electrical Ground Support Equipment. It provides power and control signals to the satellite during assembly, testing and launch preparation until just a few seconds prior to lift-off. The activity aims at reducing the manufacturing complexity of the overall Power SCOE system emphasising standardised components (leading to reduced costs and improved reliability) and making the system operator’s user interface more intuitive (leading to easier operations procedures and to a high acceptance by the test engineers).
The ONE-SAT-ILS project aimed to select one or two of the discussed solutions with the potential for implementation in a product. Potential was defined to mean technical feasibility in terms of effort (time and money) but also in terms of accuracy and performance. Furthermore, the chosen solutions were implemented in a prototype in order to evaluate the potential described above. The results obtained from ONE-SAT-ILS will be integrated in the Siemens ILS system in a subsequent project.
The instrument PICAM is an ion mass spectrometer operating as an all-sky camera for charged particles to study the chain of processes by which neutrals are ejected from the soil, eventually ionised and transported through the environment of Mercury.
This project aimed at the development of information products and service structures supporting critical decision-making processes in flood disaster management for the Austrian disaster relief organisations. Time-critical data and information generation are a major factor in successful disaster management.
The analysis of the electric field sensors on board the satellites of the Russian mission Resonance, which will be launched in the next decade, is the focus of this project. The aim of this mission is the investigation of wave-particle interactions and plasma dynamics in the inner magnetosphere of Earth, with the focus on phenomena occurring along the same magnetic field line and within the very same flux tube of the Earth's magnetic field. Amongst a variety of instruments and probes, several low- and high frequency electric and magnetic sensors will be on-board.
So called Radio Frequency Suitcases (RF-suitcases) are required for every spacecraft, in order to assure compatibility of the spacecraft and every groundstation delivering support to the mission. An RF-suitcase contains a simplified, yet representative configuration of the satellite flight hardware in order to make these tests representative.
The aim of the project is the integration of general-purpose PCI sample cards in SIECAMS for supporting standard spectrum monitoring and demodulation measurement tasks on a highly competitive level in terms of performance and price as well as a reduction of the required equipment space. Furthermore, it is the aim to provide a generic interface to import digitized data of different resolution and sampling rates in order to support standard digitization equipment from different manufacturers. The current SIECAMS Client Server architecture will be enhanced by an additional Web-Server hosting the web-application.
The most important indicators for the flight performance of a ski jumper are the flight trajectory itself and the corresponding velocity. Due to the fact that an accurate position and velocity information along the flight trajectory is available for coaches and athletes shortly after the jump, new and important analysis methods of the jump performance are made possible. Therefore, the main objective of the project SKISPRUNG is the precise determination of these two indicators - the position and the velocity along the flight trajectory at each epoch.
The present emulation facility allows for efficient testing of the software running on a micro-processor that controls the Application Specific Integrated Circuit (ASIC) while the ASIC is still being manufactured at the foundry.
The aim of the SPICE project was firstly to develop sensors andtechniques suitable for in-situ measurements of soil strength ona surface platform on Mars. A second goal was the establishmentof a soil model for dry granular materials which can typically befound on Mars.
The objective of the activity is to evaluate the feasibility and pinpoint the critical areas of new, high-performance signal processing concepts, which are necessary to fulfil future spacemission requirements in the area of science, earth observation, and telecom applications.
The project is dedicated to analyze the antennas of the WAVES instrument on board of the two STEREO spacecraft.
The present activity aims at supporting inevitable product evolution by providing a framework for Software Verification and Qualification (VQ), implementing it in Austrian Aerospace’s (AAE’s) GNSS receiver software and demonstrating its suitability by applying it to the transition from a receiver providing on-board spacecraft navigation functionality to a qualified scientific precise orbit determination instrument.
TM/TC Modem - Telemetry and Telecommand Modem and Interface Processing Equipment for EGSE and Ground Stations
This ASAP 8 project is designed to enhance the flexibility and functionality of our TT&C SCOE and Payload EGSE (Electrical Ground Support Equipment) solutions, but also to extend our business to the ground station area by elaborating the detailed requirements, system and detail design for a modem, both for EGSE and ground station systems. The concepts and design will be validated by practical investigations and evaluations.
TripleM - Development of Methods for the Retrieval of Hydrology and Agricultural Parameters from Multi-temporal, Multi-sensoral and Multi-resolution Satellite Remote Sensing Data
Within this project multi-seasonal, multi-sensor and multi-resolution (TripleM) image data sets are investigated with respect to their operational and scientific utilization for agricultural and hydrological applications.