Sort by
Refine Your Search
-
Listed
-
Employer
-
Field
-
Heating Technology «, we design and construct various prototype machines for laser-based and laser-assisted processes. Within the scope of your thesis, you will develop the laser-assisted heating processes
-
hardware issues Perform design validation and troubleshooting during prototype and production phases Data reporting and troubleshooting: Reporting on measurement data to identify performance bottlenecks and
-
. What you will do You will program a metrological application in medical technology using methods and libraries from image processing. You will also support us in programming the acquisition of spectra
-
existing technologies, right through to the tested prototype. The Data-based Methods team at Fraunhofer ENAS develops real-world applications using AI, machine learning and computer vision. The main focus is
-
What you will do You will develop, investigate and optimize processes for the realization of fiber preforms using MCVD technology as well as gas-phase or solution-doping techniques for active fibers
-
the Research Group DynaDeep, our subproject estimates global fluxes of groundwater through beaches. Biogeochemical processes in these ‘subterranean estuaries’ (STEs) change composition of the water and control
-
right through to the tested prototype. The Data-based Methods team at Fraunhofer ENAS develops real-world applications using AI, machine learning, and computer vision. The main focus is on semiconductor
-
hydrogen storage to maximize energy efficiency while keeping the grid reliable and secure. Our research method is engineering-oriented, prototype-driven, and highly interdisciplinary. Our typical research
-
and industry, Fraunhofer plays a central role in the innovation process. As a pioneer and catalyst for groundbreaking developments and scientific excellence, Fraunhofer helps shape society now and in
-
hydrogen storage to maximize energy efficiency while keeping the grid reliable and secure. Our research method is engineering-oriented, prototype-driven, and highly interdisciplinary. Our typical research