Projects within the framework of open4innovation
There are 412 results.
RA-PPP - Innovative Algorithms for Rapid Precise Point Positioning
Is there a chance to achieve dm accuracy in positioning, just by means of an isolated single-frequency GNSS receiver? Which further external data has this isolated receiver to be provided with and within what time frame does the position determination converge to the requested accuracy? These are the crucial questions of Precise Point Positioning (PPP). In the project RA-PPP we show that there are several limiting factors to existing PPP algorithms and services, which rely on highly precise orbit and clock parameters.
RADIS Austria - Radiation dose distribution within the Matroshka human phantom torso onboard ISS
RAPIDEM - Rapid Assessment Provision for Intelligent Disaster and Emergency Management
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.
RASEN
RAyleigh Scattering as a tool to study the compactness of transiting small-mass ExoplaNets
REBECCA - Real-time Blending EPS-METEOSAT by Canonical Correlation Analysis
The goal of this project is to develop a standardized procedure of merging potential synergistic combination of satellite data of the geostationary orbit and those of the low earth orbit which at first sight appear rather incompatible in terms of content, spatial and temporal availability.
RF-Suitcase - Generic RF-Suitcase Core
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.
RONCALLI - Real time traffic information
The RONCALLI principle is based on linking centrally available information with current vehicle data. Key components from RONCALLI are GPS-positioning (later Galileo) and traffic relevant information from a central server which communicates with amobile device (PDA) over a GPRS connection. The permanent availability of positioning signals from satellites and efficient mobile radio connections form the central theme of the project.
RPOD - Real-Time Precise Orbit Determination
The present activity supports RSA’s on-going GNSS receiver product development and aims at establishing real-time navigation algorithms, which enable the RSA receiver to reach a navigation performance in the range of one meter.
RT-PPP - Development of a Real-time PPP Processing Facility
The overall goal of the RT-PPP project, was to develop PPP techniques suitable for various real-time or near real-time applications. The main focus was placed on the production of real-time clock, orbit and atmospheric corrections as well as their transmission via Ntrip to a user client.
ReKlaSat 3D
Three-dimensional reconstruction and classification of high-resolution optical satellite data.
Resonance - Electric Field Sensors
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.
S1S2Crops
Exploring the Sentinel-1 and Sentinel-2 Data Cubes for Supporting Crop Classification with EODC