Sort by
Refine Your Search
-
Listed
-
Employer
- University of Oslo
- University of Bergen
- UiT The Arctic University of Norway
- University of South-Eastern Norway
- NTNU - Norwegian University of Science and Technology
- The Norwegian Polar Institute
- Western Norway University of Applied Sciences
- BI Norwegian Business School
- NTNU Norwegian University of Science and Technology
- University of Agder
-
Field
-
/Scandinavian equivalent level to CEFR level A1 or higher Extensive experience in experimental modelling in at least two different hydraulic laboratories Basic experience in CFD modelling Extensive knowledge in
-
first 2-photon intravital imaging system for immunology. A novel, rapid AAV-mediated technology for generating transgenic mouse models. Comprehensive core facilities for advanced flow cytometry, genomics
-
should be used to transform today's linear business models into future business models with the principles of a circular economy, and finally to investigate how such technologies can be integrated in
-
properties, and how these are controlled by geological processes, will be essential when developing theoretical rock physics models for shales. At macroscale, these models will be important for evaluating seal
-
package that centers on laboratory testing of a newly discovered human genetic knockout model population, as well as data analysis of large-scale registry data comparing mutation carriers to non-carriers
-
. Complement experimental work with system-level modeling and simulation to bridge cell-level insights with broader system performance. Plan and conduct experiments using national and European research
-
generating transgenic mouse models. Comprehensive core facilities for advanced flow cytometry, genomics, and single-cell sequencing. Responsibilities Perform intravital surgery to implant optical imaging
-
be placed on Representation Learning techniques, Transformer-based architectures, Large Language Models (LLMs), Natural Language Processing (NLP), etc. The research will also explore distributed data
-
mountain catchments. The goal is to understand long-term changes in runoff regimes and flood hazards by combining climate-driven (glacier-)hydrological modelling with reconstructions of past flood events
-
floods—in mountain catchments. The goal is to understand long-term changes in runoff regimes and flood hazards by combining climate-driven (glacier-)hydrological modelling with reconstructions of past