Short description
The HighAR project is investigating how augmented reality can be used to specifically control visual attention, e.g., through color changes. This can lead to faster data acquisition by the user.
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ongoing projects
The HighAR project is investigating how augmented reality can be used to specifically control visual attention, e.g., through color changes. This can lead to faster data acquisition by the user.
Dr. Kai Melde conducts research into the formation of complex sound fields and their interaction with particles and cells. He studied mechatronics at TU Dresden and worked at the Palo Alto Research Center in California. Most recently, he worked at the Max Planck Institute for Medical Research in Heidelberg.
The Prisma grant enables Prof. Dr. Doris Aschenbrenner, Professor of Digital Methods in Production at Aalen University, to expand her research on Industry 4.0 to include important socio-economic aspects.
By combining various artificial intelligence methods, the aim is to develop intelligent sensors and actuators that adapt autonomously to changes and thus enable more flexible production.
Prof. Claudia Nass Bauer, Professor of Design Strategy at Mainz University of Applied Sciences, is researching the development of methods for value-oriented interdisciplinary collaboration in the development processes of data-intensive software systems.
HYMMS investigates the interaction between two different types of chirality with the aim of combining the stability of chiral magnetic structures and the manipulability of chiral molecules. Among other things, this could lead to the development of more efficient data storage devices.
People of the same chronological age often differ greatly in biological age. The aim of the project is to better understand the causes of biological ageing and to be able to measure them as accurately as possible using biomarkers.
Prof. Dr. Lena Keller, Professor of Oenology and Process Engineering at the HS Kaiserslautern Wine Campus Neustadt, is researching antibacterial and antifungal natural substances from and for grapevines (Vitis vinifera) in the project.
In the project, the energy supply of electromobility is considered holistically across all areas (distribution network, charging station, battery). The overall system is tested and optimized using a digital twin and in the laboratory.
At the Ilmenau School of Green Electronics (ISGE), young scientists are working on green microelectronics in an interdisciplinary manner. This is not only sustainable and climate-neutral in operation, but also along the entire value chain and in the entire material cycle.