Suchergebnisse
TOPS – Topology-optimised reinforced concrete slabs with digital formwork and reinforcement
The TOPS project is investigating material-efficient ribbed concrete slabs, which save up to 50% of the concrete used in conventional flat slabs by topology-optimisation. A 'file-to-factory' process enables the automated production of formwork and reinforcement using digital technologies. The construction method reduces CO₂ emissions and contributes to the decarbonisation of the construction industry.
Vitality City - Holistic energy strategies for cities in transition
Energy simulation of any size city (municipalities) based on the data from laser scanning and satellite analysis (Geodata) to obtain dynamical energy demands and available energy resources.
Topview - Methodology for the efficient use of remote sensing data for climate change adaptation and spatial energy planning
Development of integrated approaches to sustainable energy and heat planning in urban areas by utilising remote sensing data and geo-information-based technologies for decision-making in the planning of energy infrastructures and climate adaptation measures.
FlexHP - AI-supported control models for optimising the flexibility of heat pumps to reduce the load on the electricity grid
Development of a new type of energy management system for heat pumps that enables methods for intelligent heat pump operation and thus maximises flexibility. This requires forecast-based models for control that utilise technologies such as machine learning.
MokiG: Monitoring for climate-neutral buildings
The aim is to develop and implement an innovative monitoring concept to demonstrate the achievement of climate neutrality in buildings. A central element here is the integration and linking of various data sources. The basis for this is a data mesh structure, artificial intelligence and the creation of digital twins. Finally, the methodology will be tested on real buildings and discussed with users.
GreenFDT – Green Façade Digital Twin
In an interdisciplinary framework, the possibilities for optimizing the rear ventilation distance of façade greening elements and their potential impact on indoor and urban climate are being investigated. The precise and comprehensive investigation of these relationships is made possible by the extensive deployment of sensors and measuring tools and furthermore the development and integration of a digital twin in a BIM model.
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.
Die nächste Generation hochleistungsfähiger Edge AI für intelligente Gebäude (OctoAI)
Derzeitige IoT (Internet of Things) Lösungen für Gebäude hängen großteils von Cloud-Infrastruktur und Cloud-basierten Diensten ab. Im Projekt OctoAI wird die nächste Generation hochleistungsfähiger Edge AI (Artificial Intelligence) für intelligente Gebäude entwickelt. In OctoAI verbinden wir das Konzept von Edge-AI mit nutzer:innenzentrierten Energy Services und erproben zwei Edge-Ready Anwendungen.
Schriftenreihe
57/2025
Franz Wotawa, Theresa Kohl, Christoph Siegl, Thomas Hirsch, Thomas Schwengler, Gerald Schweiger, Matej Gustin, Christina Hopfe
Herausgeber: BMIMI
Deutsch, 48 Seiten
Downloads zur Publikation
OctoAI: Die nächste Generation hochleistungsfähiger Edge AI für intelligente Gebäude
Derzeitige IoT (Internet of Things) Lösungen für Gebäude hängen großteils von Cloud-Infrastruktur und Cloud-basierten Diensten ab. Im Projekt OctoAI wird die nächste Generation hochleistungsfähiger Edge AI (Artificial Intelligence) für intelligente Gebäude entwickelt. In OctoAI verbinden wir das Konzept von Edge-AI mit nutzer:innenzentrierten Energy Services und erproben zwei Edge-Ready Anwendungen.