Low Tech - High Effect! An overview of sustainable low-tech buildings: realized best practice examples, innovative approaches, principles and systematic solutions

In this study approaches of low-tech buildings were examined and particularly innovative and representative concepts were documented in detail. The aim was to elaborate the current state of the art and the existing know how and knowledge on the basis of realized examples as well as to show potential for further development.

LowEnergyBuildingServices - Highly efficient presence detectors and end user technologies

Highly energy efficient presence detectors, control systems for sun shades etc. are de facto not available on the market. Regarding plus-energy office buildings, the minimisation of the power consumption of these components is a central criterion to achieve the "plus" part in terms of the energy of the building. A highly energy efficient presence detector was successfully sketched in this project, which undercuts the intended standby consumption of 0,05 W.

M-DAB - Digitise, analyse and sustainably manage the city's material resources

The research project investigates how digital technologies can support us in determining the existing and future material resources in construction qualitatively (building materials and their recycling) and quantitatively (quantities of building materials).

M-DAB2: Material intensity of inner development - resource assessment and localization of urban development potentials

For the first time, the material intensity of inner development (in terms of material quantities) for different design variants was considered in the evaluation of inner development potentials. A set of methods for the holistic evaluation of potential areas and different development variants and scenarios for resource-saving inner development was created.

MADOKLI - Mannersdorf climate fit! Using local resources to combat and adapt to climate change for a climate-neutral neighbourhood

Development of a climate-neutral neighbourhood by integrating previously unused heat sources and sinks, such as the underground Mühlbach stream, to supply municipal buildings, to establish use-oriented water management and to develop solutions for climate-friendly outdoor spaces in the centre of Mannersdorf am Leithagebirge.

MAGIC

Mass redistributions from GRACE-FO using Laser Interferometry and Microwave ranging based on tailored data processing

MAHMAMT – Monitoring und Analyse von Schwermaschinen mittels berührungsloser Messverfahren und -technologien

MALware cOmmunication in cRitical Infrastructures (MALORI)

Encryption in communications networks is a positive trend, which, however, implies risks whenever malicious software (malware) can misuse encryption to rapidly propagate and coordinate attacks. The project MALORI investigates possibilities of hidden communication in critical infrastructures as well as solutions for their detection and prevention.

MANiaC DPU Prototype

Development of a DPU prototype for the MANiaC instrument on-board Comet Interceptor

MAQROsteps

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

MARGRET - Measurement of greened/non-greened objects for the adaptation of calculation models

Development of measurement methods to determine the influence of greening measures on greened versus non-greened reference objects with contemporary building standards under uniform framework conditions. Proposals for adaptations of calculation models or standards to e.g. enable an integration in the energy performance certificate.

MARGRET Bioshade - Building Physics-Based Quantification of the Shading and Cooling Performance of Building Greening

The MARGRET Bioshade project investigates the impact of building greening on energy efficiency, climate adaptation, and building assessment. Its focus is on quantifying the shading performance of vertical greening systems, analyzing the water balance and evaporative cooling effects of different greening solutions, and developing standardized parameters for planning, simulation, and technical guidelines.

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

MDL - Multimedia Documentation Lab

MDL’s primary goal was to make multimedia sources of information accessible to the Austrian Armed Forces

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

MEASURE - Monitoring Exercises using Ai-SUpport for Reliable Evaluation

The project focuses on the development of an intelligent tool to monitor and evaluate exercises in the context of fire and rescue services. Using a range of sensors and different data modelling technologies as well as artificial intelligence the tool aims to objectively measure the effectiveness of emergency forces in exercises. In this manner the tool provides a valid basis for the identification of possible improvement potential.