Projects within the framework of open4innovation
There are 1230 results.
BIOCOOL - Bio-inspired Surfaces for the Evaporation Cooling of Building Envelopes
The BIOCOOL project will explore the transfer of morphological principles from leaves of deciduous trees, with optimized thermal properties and efficiency of evaporation to the parametric design of form-optimized architectural ceramic surfaces for climate control of building envelopes. The study paves the way for an industrial research project.
BIOENERGY-combined heat power and cooling-SUPPLY
The creation of models for the development of optimized energy supply concepts for Bio energy combined heat power and cooling systems, to increase the capacity of energy supply systems in summer and to allow an all-year neutral CO2 energy supply.
BMon
A Cloud-Based System for High-Resolution Soil Moisture Monitoring over Austria
BONSEI! Optimal use of existing buildings – energy efficient implementation of renovation!
The project BONSEI! would like to support an energy efficient and socially acceptable densification of privately owned residential buildings in urban space and to develop a methodological basis for resource efficient urban areas. The results are used for the conception of an innovative service in order to provide a neutral consulting regarding private densification plans.
BREATHE
Basic Research on the Vertical Distribution of Air Quality Constituents in the Earth’s Atmosphere
BRITE-AUSTRIA - Development of the First Austrian Nanosatellite - Phase 1 & 2
The purpose of the BRITE-AUSTRIA / TUGSAT-1 project, funded by the Austrian Space Program, is the development of the first Austrian satellite. The scientific goal of this nanosatellite mission is the investigation of the brightness oscilla tions of massive luminous stars by differential photometry.
BRITE-AUSTRIA - Development, Test, Launch and Operations of the Nanosatellite TUGSAT-1/BRITE-Austria for Asteroseismology
In 2011 the TUGSAT-1/BRITE-Austria nanosatellite successfully completed its flight readiness review. The BRITE (BRIght Target Explorer) mission has the scientific aim to investigate the brightness variations of massive luminous stars with unprecedented precision.
BRITE-AUSTRIA - Operations Phase IIb & III
The BRITE (BRIght Target Explorer) mission aims at the long-term investigation of the brightness variation of massive, luminous stars by differential photometry.
Balancing Energy Demand with Buildings
The project BED aimed to the development of new concepts for the operation and application of building automation systems in non residential buildings to reduce the maximal energy consumption and to ensure a stable and high-quality power supply.
Basic research on the load bearing capacity and high thermal insulation properties of foam glass granulate
The aim of the scientific investigations is to find the characteristic parameters of foam glass granulate applied as load transfer layer and thermal insulation, to provide the base for the application of a multi functional and economical insulation material at the interface between building and ground for buildings of the future.
Best at roadmap
Digital information, information systems, and related applications now influence privacy, society, and the economy more than ever before. Information and communication technologies (ICT) are found in smart homes, automotive engineering, cities of the future, industrial production lines, and agriculture.
Beyond - Virtual Reality enabled energy services for smart energy systems
The Beyond project addressed two different energy services through the interaction of various technologies: state-of-the-art virtual reality (VR), the Internet of Things (IoT), energy simulation and machine learning (ML). Energy service 1 immerses VR users in energy-efficient and sustainable building design through an educational VR game, while energy service 2 improves the maintenance of building systems, particularly heating, ventilation and air conditioning (HVAC) systems, through the application of ML models for predictive maintenance.
Bi-directional integration of buildings with heat sources in thermal networks
This project analyzed the integration of decentralized heat sources into domestic heat grids technically, but also economically.
BiBi-TGA, Potential for the ecological optimization of technical building equipment through the usage of biogenic materials
Assessment of the substitution potential of conventional components of technical building equipment by biogenic materials. The aim is to provide new data on the ecological improvement potential of the usage of biogenic resources in the technical building equipment in office buildings. The potentials are analyzed by means of LCA screenings and technical feasibility studies.
Big Data in Austria
The amount of available data in different domains and companies has been increasing steadily. Recent studies expect a yearly revenue growth of 33.5%. The Austrian market volume of EUR 22 million in 2013 is predicted to reach EUR 73 million in 2017. Due to this enormous growth of available data new challenges emerge in efficiently creating value.