Projects

There are 454 results.

Austria in Space

C-CUBE

Feasibility study of a CubeSat mission for advanced telemetry, communications and signal monitoring

Austria in Space

CAFS - Commercial ASIC Foundries for Space Applications

The main goal is to optimise the cost function of such a commercial ASIC component qualification for space use by understanding all technological constraints. The results enable us to guide and support a subcontractor, which is inexperienced in space technologies, due to its background in the terrestrial market.

Austria in Space

CAKAO

Combined analysis of kinematic orbits and loading observations to determine mass redistribution

Austria in Space

CARNIVALS

Cute data reduction pipeline: Validation and Support

Austria in Space

CASIMO2 - Carrier Signal Monitoring

CASIMO2 is a seamless enhancement of the carrier monitoring system based on and driven by customer requirements concerning the implementation of DSP based polarization discrimination measurements combined with enhanced demodulation functionality and satellite performance measurements.

Austria in Space

CDPP - Configurable Data Processing Platform

The project comprised the identification of existing technologies such as signal processors, general purpose microprocessors as well as ASICs and FPGAs, and the design of possible DSP architectures, two of which were evaluated in the course of the project.

Austria in Space

CDSM Consolidation

Consolidation of the preliminary Coupled Dark State Magnetometer (CDSM) design for the European JUICE mission

Austria in Space

CDSM FM

Delivery, test and in space operation of the Coupled Dark State magnetometer in the frame of the Chinese CSES mission

Austria in Space

CDSM TRL-Uplift - Uplift of the Technology Readiness Level of the Coupled Dark State Magnetometer

The aim of this project was to raise the Technology Readiness Level (TRL) of a new type of scalar magnetometer called Coupled Dark State Magnetometer (CDSM). Advantages of the CDSM are the uncomplicated sensor design, the high dynamic range of more than 6 decades and the omni-directional measurement capability without additional design complexity.

Austria in Space

CDSM for CSES 2

Participation in the Second China Seismo Electromagnetic Satellite Mission with the Coupled Dark State Magnetometer

Austria in Space

CDSM-FS - Feasibility Study of a Coupled Dark State Magnetometer (CDSM)

In the frame of this project a feasibility study of a new type of scalar magnetometer called Coupled Dark State Magnetometer (CDSM) was carried out. It included the investigation of its technical readiness and scientific merit for space applications, the concept for a TRL 5 (component and/or breadboard validation in relevant environment) compliant design, a detailed investigation of key components as well as the identification of possible challenges for a reliable operation in space.

Austria in Space

CHAMPCLIM - Climate Monitoring Based on the CHAMP/GPS Radio Occultation Experiment

The overall aim of CHAMPCLIM is to exploit research satellite CHAMPsradio occultation data in the best possible manner for their most challenging application, which is climate monitoring.

Austria in Space

COALA.NT - Conflict Avoiding Low Cost Application by using New Technologies

The clue idea of COALA.NT is to stronger involve the engine driver in the decisions of the operational traffic management. COALA.NT is a bi-directional, detection-based, innovative information system for operators and enginedrivers on railroad lines with small traffic volume.

Austria in Space

COMPARE

Competitive GNSS-Receiver Front End Alternative

Austria in Space

CONFIRM

Copernicus Data for Novel High-resolution Wildfire Danger Services in Mountain Regions

Austria in Space

CONTROL

Cute autonomous data Reduction pipeline

Austria in Space

CORD - Commodity GPS Receiver Development

The CORD activity aims at preserving the competitiveness of RUAG Space in the context of GPS receivers for future missions by performing the delta developments necessary to obtain a commodity GPS receiver, compliant with most of the future precise orbit determination (POD) receivers’ requirements.