-
through online surveys and interviews, prototype development for accessible setup and operation of nanoservers (both on web and mobile platforms), and longitudinal evaluation of the prototypes through live
-
-collar workplaces. The project combines fieldwork in real-world settings with the design and evaluation of AI-driven tools. You will join an active, collaborative team in a supportive research environment
-
sensitivity study to reliably assess the impacts of key sub-models (e.g., green fuel combustion mechanisms, radiative heat transfer, turbulence mixing models) and to evaluate the effects of key operation
-
candidate, you will develop methods that combine data-driven autonomy with formal safety guarantees and validate them in real time through simulation and experimental evaluation. The position is hosted
-
: Conducting harbor and offshore trials to evaluate localization system performance under real-world operating conditions. Experiments will assess positioning accuracy, communication reliability, and the ability
-
, evaluating, and improving LLM robustness. The positions are embedded in an active and rapidly growing research environment, including ongoing projects on, e.g., AI security, linguistically motivated NLP, and