Digital assay development
We will enable scalability in number of robust high-quality assays to be developed for SpinChip's diagnostics platform by combining microfluidic simulations, advanced computer vision and state-of-the-art machine learning.
General computational modelling
Advanced mathematics and computational methods are essential across all of SINTEF’s business areas. What distinguishes us from domain experts is our emphasis on enabling technology and cross-cutting expertise, which often allows us to operate seamlessly across diverse fields that share similar mathematical models. This approach enables us to solve complex problems with adapted versions of the same numerical methods.
Contact persons
We regularly contribute to activities that are not within the main application areas we usually work in. Examples include using our expertise in finite-volume methods and fluid dynamics to develop microfluidics simulations for digital assay development, using our expertise in continuous optimization methods to guide the development of AI-supported software for urban development (the forerunner of AutoDesk Forma), and using our expertise in finite-element methods (FEM) and meshing for applications in digital manufacturing.
Projects
OptiSite
SINTEF was the research partner in the innovation project OptiSite, led by Spacemaker (now part of Autodesk). The project contributed to developing Spacemaker from a start-up idea to an established product with international presence.
CPS Plant
The research project CPS Plant will develop a framework for the Norwegian approach for the digital manufacturing industry. The consortium consists of 3 Norwegian industry partners, Norsk Hydro, Benteler Automotive and Hycast, and SINTEF Digital and...