Projects within the framework of open4innovation
There are 1230 results.
AAA4ATM - Analysis of Available Airspace for ATM
The goal of the project is the development of an analysis/forecast system for the prediction of available airspace within the next 6 hours based on the current distribution of convective weather phenomena that are obstructive to air traffic. To solve this issue, computer vision algorithms for object detection, feature extraction, tracking and extrapolation, as well as down/upsampling strategies in meteorological image processing and forecaster intervention are used.
AALuis - Ambient Assisted Living user interfaces
In the European Active and Assisted Living (AAL)-project AALuis applications and user interfaces can be flexibly combined and adapted to the needs of end users.
ABC - DisposaL - Assessment of Building and Construction - Disposal LCA Indicators for the disposal performance of construction
A framework of assessment for the disposal of building materials, constructions and buildings will be developed. The results will be included in the OI3-indicator and in the building assessment tool Total Quality Building. Demonstration projects of the programme Building of Tomorrow will be assessed with the new method.
AC-GMES - Austrian Settlement and Alpine Environment Cluster for GMES
The Austrian Cluster for GMES (Global Monitoring of Environment and Security) combines the forces of industry, applied research, university institutes and user organisations to develop sustainable Earth Observation (EO) based services in the settlement and alpine environment context.
AC/DC Office Buildings - Implementation of Electricity Networks with Alternating and Direct Current in Office Buildings - Feasibility and Energy Efficiency Potentials
Based on a literature and technology review this projects aimed to document and demonstrate already available and reasonable concepts for the implementation of electricity networks with alternating and direct current in modern office buildings. Focus of the study was to assess the feasibility in general and the energy efficiency potential in particular but it also documents necessary technical equipment and expected advantages and disadvantages. Additionally, important research questions for energy supply, energy distribution and application of direct current technologies were formulated.
ACAP - Global Gravity Field Modelling From Orbit Data Based on the Acceleration Approach
The main purpose of the ACAP project was to compute a global gravity field based on precise orbit information using the so-called acceleration approach. This method is based on Newton's second law of gravitation, which states that the acceleration of a mass is related to the forces acting on it.
ACCU-Clouds - Preparing a Key Dimension of ACCURATE Climate Utility: Cloud sensing and Greenhouse Gas Profiling in Cloudy Air
Overall ACCU-Clouds represents a crucial milestone on the way towards realizing an ACCURATE mission for the benefit of monitoring the changing atmospheric composition and climate in the 21st century.
ACCURAID - Aid to ACCURATE Climate Satellite Mission Preparations for Backing the Austrian Leading Role
ACCURATE (Atmospheric Climate and Chemistry in the UTLS Region And climate Trends Explorer) is a next generation climate mission concept.
ACOSTA - Advanced Concepts for Structure Analysis of Large Lightweight Structures
The ACOSTA project intended to develop new tools for the numerical analysis and reliability analysis of large launcher structures. Its main work packages comprised: Domain decomposition/branching analysis, reliability and sensitivity, new shell elements.
ACTRESS - Advanced Composite Technologies for Extreme Lightweight Space Structures
The objectives of the ACTRESS project funded by the Austrian Research Promotion Agency under ASAP 7 were to initiate a long-term sustainable programme in Austria for the design, analysis and manufacture of extremely lightweight structures on the basis of advanced nano-modified composite materials, especially carbon fibre-reinforced carbon nanotube-filled thermoset polymer composite materials.
ADAM - Analytical Nonlinear Damper Modelling
The ADAM project was aimed at investigating the case that both the damping rate and the spring rate are non-linear and a function of the deflection, and that the damping rates and eigenfrequencies of the damper and the adjacent structure are different. This involved the development of a transient, non-linear finite element analysis model and correlation with a non- linear test specimen, a cable shock damper presenting highly non-linear behaviour.
ADECELL - The future of solar cells with improved light management
A new generation of solar cells and modules significantly increase efficiency. This is made possible by a technology developed to enable flexible, low-cost manufacturing of embossing tools for optimal surface structuring.
AI4Buildings - Artificial Intelligence for Digital Planning of Buildings
The quality of a digitally designed building is determined as early as the planning stage. It starts with a preliminary design, and extends to the detailed design of the architecture and building services.
AI@Work
The AI@Work project developed a technical concept for optimized collaboration between humans and AI. Through the use of knowledge graphs and machine learning, a flexible solution was created that paved the way for the European project TEAMING.AI. This promotes an ethically sound, human-centered integration of AI into the workplace.
AIDA – Affirmative Integrated Energy Design Action
The AIDA project aimed to increase the number of nearly-zero-energy-buildings, the number of building professionals trained on integrated energy design and the number of municipalities starting to build/refurbish buildings to nZEB levels.
AIM4X - Advanced INSAR Methods for TanDEM-X
The AIM4X project exploits the innovative capabilities of recent high-resolution SAR and radar altimeter missions.
AIMetSat
Introduction of Artificial Intelligence in Satellite-Related Meteorological Forecasting Procedures
ALS-X - Combination and Evaluation of Airborne Laser Scanning Data and TerraSAR-X Data for Glacier and Snow Monitoring
The project aims at analysing and evaluating time synchronous airborne laser scanning data and Terra SAR-X satellite data under glaciological and snow hydrological aspects.