Suchergebnisse
sustAIn4Build - AI competence for sustainable building management in climate neutral cities
The objective of the project sustAIn4Build is to increase energy efficiency and sustainability in the building sector by using artificial intelligence (AI). Industry-specific training programs support Austrian companies to develop a workflow for integrating AI technologies into their processes, enabling them to develop resource-saving, cost-effective and sustainable solutions. This strengthens their competitiveness and contributes to the achievement of European decarbonisation goals.
GeoDatKlim - Geo Data and Satellite Data for Carbon Neutral Cities
The Vienna Geospace Hub innovation lab will help optimize the application of geospatial and satellite data to solve complex urban challenges. The innovation lab serves as a networking platform for administration, science, economy, as well as a development and test environment for innovative use cases.
QualitySysVillab - Sicherung nachhaltiger Qualitäten in Quartiersentwicklungen durch Prozesssteuerung und neue digitale Methoden
Entwicklung eines Prozess-Konzeptes um nachhaltige Qualitäten in der Quartiersentwicklung von der Absichts- und Ankündigungsebene in die gebaute Realität zu bringen. Der Prozessablauf wird durch digitale Methoden der Energie- und Tragwerksplanung unterstützt und im Rahmen einer Case-Study evaluiert.
Urban Sky – Satellitengestützte Planungs- und Analyseanwendungen für klimaneutrale und resiliente Städte
Im Projekt wird untersucht, wie Satellitendaten Städte und Gemeinden z.B. in der Stadtentwicklung, Energieraumplanung und Mobilitätswende unterstützen können. Basierend auf Bedarfs- und Potenzialanalysen sowie rechtlichen Rahmenbedingungen werden Servicekonzepte abgeleitet, die bestehende Daten mit Satellitenanwendungen integrieren. Die Ergebnisse werden in einer Studie und Space4Cities-Umsetzungs-Roadmap präsentiert.
Autology - the automated ontology generator
Ontologien bilden die Basis für die Erfassung, Analyse/Verarbeitung, Verwertung, Dokumentation und Archivierung von Gebäude- und Bauteildaten in allen Phasen des Lebenszyklus. Aktuell ist die semantische Beschreibung und Strukturierung der Daten nur mit großem manuellem Aufwand möglich. Genau an dieser Stelle setzt das Projekt Autology durch die Anwendung Künstlicher Intelligenz an. Übergeordnetes Projektziel ist die automatisierte Gewinnung und Erzeugung von Metadaten zur Erstellung von Ontologien aus dem Gebäudeautomationssystem unter Anwendung innovativer, KI-basierter Ansätze.
sustAIn4Build – KI-Kompetenz für nachhaltiges Gebäudemanagement in klimaneutralen Städten
Das Projekt sustAIn4Build zielt darauf ab, die Energieeffizienz und Nachhaltigkeit im Gebäudetechniksektor durch den gezielten Einsatz von Künstlicher Intelligenz (KI) zu steigern. Durch branchenspezifische Weiterbildungsmaßnahmen werden österreichische Unternehmen befähigt, KI-Technologien effektiv in ihre Prozesse zu integrieren, um ressourcenschonende, kosteneffiziente und nachhaltige Lösungen zu entwickeln. Dies stärkt deren Wettbewerbsfähigkeit und trägt zur Erreichung der europäischen Dekarbonisierungsziele bei.
Vienna Geospace Hub - Geoinformationen und Satellitendaten für klimaneutrale Städte
Das Innovationslabor Vienna Geospace Hub wird dazu beitragen, die Anwendung von Geo- und Satellitendaten für die Lösung komplexer städtischer Herausforderungen zu optimieren. Das Innovationslabor dient dabei als Vernetzungsplattform für Verwaltung, Wissenschaft, Wirtschaft, sowie als Entwicklungs- und Testumgebung für innovative Use-Cases.
Digital transformation of the Austrian construction industry and its impact on employment
What are the impacts of the digital transformation of the Austrian construction industry on this sector’s labour market? By looking at the next five to ten years it will be analysed whether and to what extent digital applications lead to an increasing, falling or stagnant demand for employees in the construction industry and in construction occupations.
BIM2BEM Flow - Continuous BIM-based energy efficient planning
Automated integration and assignment of exchange requirements between the design and simulation programs, based on the elaborated exchange information requirements, should enable continuous energy efficiency planning along the design phase.
TWIN - Digital twins for sustainable buildings
Digital building twins have hardly been used in practice due to an often unfavourable cost-benefit ratio. The aim of the TWIN project is to bring together use cases of digital building twins with a high ecological and economic impact in order to prepare application scenarios with great implementation potential.
CO2-Demobau - Exploration of the feasibility of carbon-neutral model construction sites
By highlighting green innovations, networking with stakeholders in the construction industry and applying the findings of the previous study "CO2 neutrale Baustelle", the foundation is set for future carbon-neutral model construction sites. These construction sites will serve as best-practice examples in the fields of contracting, construction operations organization and technology.
OctoAI: The next generation of high-performance edge AI for smart buildings
Current IoT (Internet of Things) solutions for buildings depend almost exclusively on cloud infrastructure and cloud-based services. In the OctoAI project, we are developing the next generation of high-performance Edge AI (Artificial Intelligence) for smart buildings. In OctoAI, we combine the concept of edge AI with user-centric energy services and test two edge-ready applications.
Beyond - Virtual Reality enabled energy services for smart energy systems
Collaborative R&D project to develop the next generation energy services with the interplay of various technologies: Virtual Reality (VR), machine learning, physical simulation and Internet of Things (IoT) platforms.
baubehoerde.at - Development of a Vision 2030 for a Digital Building Authority and Recommendations for Action in Austria
In Austria, planning permission applications are submitted and managed largely manually. The aims of the baubehoerde.at project are to evaluate the potential and limitations of digitizing building approval processes and to create a Vision 2030 strategy for a digital building authority.
3D*3B - 3D-Concret Printing, Reinforcement for low carbon and bending stressed structures.
The project is about 3D printed structural elements and their integration in building structures. The focus is predominantly set on bending stresses structural elements like panels and slabs. Results will point out technical, logistic and climate relevant aspects.
VR4UrbanDev - Virtual Reality as an innovative, digital tool for the integrative urban development of the future
Virtual reality (VR) has the potential to make complex issues more quickly comprehensible and directly tangible. In the VR4UrbanDev project, we are using this potential for energy planning processes for buildings and urban districts. On the basis of test areas, we develop methods for importing and visualising energy-related real-time data and simulation data in the VR environment.
DiCYCLE - Reconsidering digital deconstruction, reuse and recycle processes using BIM and Blockchain
DiCYCLE aims at identifying, analysing and mapping current End-of-Life processes in the building industry, as well as optimizing those for digitalization, using BIM, Blockchain and Smart Contracts. The goal is to enable sustainable digital planning, construction and deconstruction workflows for reuse and recycling of building materials and components along the life cycle.
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).
KityVR - Artificial intelligence techniques to implement CityGML models and VR visualization
The goal of the project is to link 3D city models and virtual reality for energy-relevant applications as key-enabler for digital planning, construction and operational management. Missing data will be calculated using statistical enrichment methods.
Green BIM - Green building infrastructure as part of BIM-based planning and maintenance
Fusion of greenery and BIM planning to achieve a friction-free conducting and maintenance. By analysing the case studies, “Green BIM” examined to what extent typical steps in planning regarding greened buildings can be edited by characteristic software programs in a BIM-equitable way. The expected outcomes are supplements to international standards for data structures in civil engineering (IFC / ISO 16739) which are further on added to BIM applications by the software industry.