Project duration: 2024-04-01 - 2026-03-31

Freiraum 2023_Feedback based on Analytics of Teaching and Studying meets Individual Coaching (FANTASTIC)

The FANTASTIC project combines AI-generated feedback with the pedagogy of learning and teaching and the didactics as three essential levels of support in order to improve the learning behavior and thus the and thus the academic success of students in a forward-looking way. Übergreifend Digitale Transformation Lehre Pädagogik Übergreifend

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Project duration: 2024-04-01 - 2025-01-31

Innovation management Inn_Salzach

Identifying the needs and requirements of regional SMEs with regard to transformation processes (sustainability, circular economy, artificial intelligence, etc.) Digitale Transformation Change Management Digitale Transformation Gesundheit Gesundheitsmanagement KMU 4.0 Kreislaufwirtschaft Nachhaltigkeit Sozialer Wandel und Wohlergehen

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Project duration: 2024-03-01 - 2029-02-28

Process and system technology for the multifunctional impregnation of flat semi-finished fiber products made from renewable raw materials

Rosenheim University of Applied Sciences is planning a process technology for the CO2-neutral production of semi-finished fiber products from renewable raw materials. The aim is to optimize the production chain for sustainable lightweight construction, whereby gaps to conventional reinforcing fibres are to be closed. Bioökonomie und Holztechnologie Bioökonomie und Holztechnologie Produkte und Produktion Prozess- und Verfahrenstechnik Werkstofftechnik und Materialwissenschaft

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Project duration: 2024-01-01 - 2028-12-31

Spitzenprofessuren

Produkte und Produktion 3D Druck Additive Fertigung Materialwissenschaft Produkte und Produktion ROCkET

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Project duration: 2024-01-01 - 2028-12-31

RO-BERTA4: Continuation of RO-BERTA

The RO-BERTA project supports the Rosenheim hail defense by processing weather data from the German Weather Service as a "hail navigator" for the pilots. Digitale Transformation Digitale Transformation Hagelabwehr Hagelflieger

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Project duration: 2024-01-01 - 2027-12-31

Climate-resilient bioeconomy in the value-added cycle of wood and other renewable raw materials

The Rosenheim Technical University of Applied Sciences is researching the material use of climate-resilient wood and biomass. The focus here is on the processing of new types of wood and waste wood as well as the recycling of the products obtained from them and their recyclability using digital methods and AI. Bioökonomie und Holztechnologie Bioökonomie und Holztechnologie Holztechnik Kreislaufwirtschaft Nachhaltigkeit

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Project duration: 2024-01-01 - 2027-12-31

FSP II_Energy transition in the neighborhood

The energy transition requires structural changes in the energy, industry, building and transportation sectors. Reducing energy demand and using new technologies creates opportunities for cross-sector networking. Bauen, Planen und Energie Bauen, Planen und Energie energieeffiziente Gebäude Energieeffizienz nachhaltiges Bauen Nachhaltigkeit

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Project duration: 2024-01-01 - 2026-10-31

Danubians Cradle-to-Cradle Architecture and construction processes

DECORATOR promotes the transformation of the construction sector towards a circular economy in the Danube region. This combines ecological, technical, social and economic aspects. Digitale Transformation Bauen Bautechnik Bioökonomie Bioökonomie und Holztechnologie Holztechnologie Kreislaufwirtschaft nachhaltiges Bauen Nachhaltigkeit

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Project duration: 2024-01-01 - 2026-07-31

Opti-Zent: Investigation of pomace digestion in centrifugation via experiment and simulation with innovative screw geometry to increase the yield

When producing vegetable oils or fruit juices with 2-phase decanters, approx. 80-90% of the oil or juice can be extracted in high quality. To significantly reduce the loss, the processes involved in dehydrating the marc, the rheological behavior of the liquid and the powder flow of the pile will be investigated. Simulations of the discrete element method coupled with flow simulation and thus a new screw geometry for improved extraction of the marc. Produkte und Produktion Produkte und Produktion Prozesstechnik

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Project duration: 2024-01-01 - 2026-03-31

Robot-based wall cladding supported by artificial intelligence

The aim of the research project "RoWaPla - Robot-based wall cladding supported by artificial intelligence" is to develop an intelligent, robot-assisted production unit for the cladding of timber frame walls. Übergreifend Automatisierung digitale Transformation Digitale Transformation KI neue Technologien Produkte und Produktion Roboter Übergreifend

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