Sort by
Refine Your Search
-
Listed
-
Country
-
Field
-
process. The project will involve the fabrication and characterisation of 3D multi-material metal structures, with emphasis on understanding interactions between dissimilar materials at the microscale
-
real-world case study. Unlike most research limited to simulations, this PhD will deploy and validate control strategies in real buildings over long periods. The supervision team is Prof. Laurent Georges
-
cognition. Under the guidance of Prof. Jutzeler, a dedicated postdoctoral researcher, and collaborators, you will have access to unique clinical datasets, wearable sensing technology, and state-of-the-art
-
, there may be groups of different parameters producing the same output as the true system parameters, making it almost impossible to uniquely recover the actual ones. AI:Wind-Lab aims to develop a set of
-
respond over time (e.g. changing shape, releasing medicines), controlled by the arrangement of the various dissimilar materials within them. The goal of this project will be to develop responsive 4D-printed
-
postdoctoral fellowships included in the centre. There will be four PhD's and postdocs within marine hydrodynamics. There will be additional directly relevant activities at SINTEF Ocean. Duties of the position
-
fields, spanning from marine technology, cybernetics to biology, biotechnology and product development. NTNU is responsible for supervising the PhD and postdoctoral fellowships included in the centre
-
the similarities between parents’ and children’s networks, the mechanisms through which network connections and resources are inherited, and whether these processes differ across socioeconomic groups. You will
-
collaboration with Philips Medical Systems. You will be part of a diverse and passionate research team of academic staff, PhD candidates and Postdoctoral researchers in the Computer Engineering group. Curious
-
for wireless communication systems. You will work closely with PhD students, postdoctoral researchers, and senior scientists within the ERC Synergy DISRUPT project, and collaborate with international academic