|
|
Applied mathematics
We focus on innovative use of mathematics and numerical methods within science and engineering and offer leading expertise in geometry, optimization, simulation, and visualization methods. Our funding is through contracts with industry, the public sector, the European Union, and the Research Council of Norway.
The future is parallel
 Multicore computers and graphics cards will revolutionize the way we compute in the future.
Read more
|
| |
CO2 storage
 New methods for mathematical modelling and risk analysis.
Read more
|
| |
Local Wind Prediction
 To avoid airplane accidents, opening up airport bottlenecks and harvesting offshore wind potential.
Read more
|
| |
Approximate algebraic geometry
Development of floating point based algorithms for algebraic geometry challenges facilitate industrial use.
Read more
|
|
Isogeometric Analysis
Efficient integration of CAD and FEM analysis.
Read more |
|
Multiscale reservoir simulation
 Direct simulation of geocellular models or superfast computation of flow responses.
Read more
|
| |
Transportation planning
 Automated, optimized planning of transportation to reduce costs and environmental effects, to increase profits, and to improve customer service.
Read more
|
| |
Geometry toolkits
 Over many years, SINTEF has developed many software libraries for computational geometry as part of research and industrial projects. These libraries are available under the GPL license.
Read more
|
| |
Computational Geometry
 Computational geometry is the research field that relates to the shape, description, and properties of physical objects. SINTEF Oslo has been a key player in this field for five decades. domains.
Read more..
|
| |
Decision support in health care
Optimization of personnel rostering and surgery scheduling to improve the quality and efficiency in health care services.
Read more |
|
|
|
