Projects

MAQROsteps

Increase the Technology Readiness Levels (TRLs) of key technologies for testing the foundations of physics with macroscopic quantum resonators (MAQRO)

MATSIM Phase-A - Numerical Simulation of the Radiation Exposure of the MATROSHKA Phantom

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).

MCE - Mobile City Explorer

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.

MCGS

Development of a Multipurpose Cooperative GNSS Server

MDS - MARS 500 - Multifunctional Dynamometer for Application in Space - Training and Diagnostics in the MARS 500 Project

The MDS project aims to develop a training and diagnostic device for application in space.

MDS - Multifunctional Dynamometer for Application in Space

MEDNAV - Management of Emergency Devices Based on Navigation Technologies

The goal of the MEDNAV-Project is to determine the exact present position of Automated External Defibrillators (AEDs) and forward this information in real-time to Emergency Dispatch Centres in order to minimize the time between sudden cardiac arrest and resuscitation.

MEDUSA - Model Error Detection by Using Simulated Satellite Images

The project MEDUSA aims at an objective quantitative decision tool to judge simulated imagery vis-à-vis reality, enabling a profound selection of the most appropriate forecast model for the day.

MERMAG - Mercury Magnetometers

MERMAG 3 - BepiColombo/Mercury Magnetometers

METTRANS - ISS GO

METastable Solidification of Novel Peritectic Structures - Studies with TRANSparent Model Alloys: ISS GO

METTRANS - Metastable Solidification of Composites: Novel Peritectic Structures - Studies with Transparent Model Alloys

METTRANS is a complementary project that will assist the ESA-MAP project METCOMP to further study the technical requirements that have to be fulfilled, in order to perform micro gravity experiments in the DIRSOL facility of the Microgravity Science Laboratory, MSL, located in the European Columbus Model on board the ISS.

METTRANS-ISS FP - Metastable Solidification of Novel Peritectic Structures - Studies With Transparent Model Alloys: ISS Flight Preparation

The METTRANS-ISS FP project is especially dedicated to in-situ observations of morphological changes occurring near the peritectic temperature.

MGM – Mobile Geo Memory (Feasibility Study) - Searchable Mobile Memory for Geo-Referenced Personal Information Retrieval

The Mobile Geo-Memory (MGM) would, for the first time, create an integrated, interactive system for mobile users that will not only deliver to basic geo-referenced information, but will also offer the opportunity for everybody to become a provider of geo-referenced data – for personal use and to share within a content community: memories captured with different media, hints and personal experience will be geo-referenced, time-stamped and annotated with text and keyword information.

MICO - Mission Critical Controller

The aim of the project is to theoretically derive and design an innovative fault tolerant controller function for mission critical applications to be introduced into the already existing processor module.

MIDAS

The MIDAS AFM - modelling and calibration of a space-born atomic force microscope

MMEGG

Exploring GOOSE platform for Galileo Mass-Market Carrier Phase Positioning

MMS-DFG 2 - Flight Model Development of the Digital Fluxgate Magnetometer for NASA's MMS Mission

The ASAP 7 MMS-DFG 2 project covered the assembly, calibration and integration of a total of four Flight Models and one Spare Model. Calibration showed that the flight models fully met all performance requirements. The intrinsic noise of the magnetometer at 1 Hz is 5 pT/sqrt(Hz) and thus a factor of two lower than required for the MMS mission.

MMS-DFG 3

DFG magnetometer aboard NASA's MMS mission: System level testing, commissioning and advanced data processing