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Automated, optimized planning of transportation to reduce costs and environmental effects, to increase profits, and to improve customer service. Read more: Transportation planning...

Optimization of personnel rostering and surgery scheduling to improve the quality and efficiency in health care services. Read more: Decision support in health care...

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. Read...

To avoid airplane accidents, opening up airport bottlenecks and harvesting offshore wind potential. Read more: Wind Modeling...

Development of floating point based algorithms for algebraic geometry challenges facilitate industrial use. Read more: Approximate algebraic geometry...

The railway sector is undergoing changes in the whole of Europe (EU, EER, Eastern Europe). The EU Commission is both a driving force and monitor, and its target is to increase the proportion of...

Faster, better and cheaper are challenges that IT companies face every day. The customer's expectations shall be met in a world where constant change in environment, organization and technology...

The vision of smart cities is to facilitate better-informed and optimal preparation and use of the infrastructure services by means of ICT. This provides a potential for significant savings both...

SINTEF and NTNU have developed a new method for agile programming named SafeScrum. The method will be further developed in the next years. Read more: SafeScrum...

We specialize in tool, methodologies and technologies that promote inclusion of and collaboration among the stakeholders in ICT implementation and digitalization processes. We have a long and...

SINTEF has extensive experience in the manufacture of a variety of porous materials. Equipment for the preparation of these materials range from gram- to kg scale. In addition, SINTEF has...

Porous materials such as zeolites, metal-organic framework and functionalized porous materials can selectively absorb carbon dioxide from gas mixtures. SINTEF develops new carbon capture...

Department of Biotechnology and Nanomedicine has for the last ten years worked with microbial processes related to environmental technology....

Production of Ferroalloys (i.e. Ferrosilicon/Silicon- and Ferromanganese) is a strong and significant land-based industry in Norway. The results from the cooperation between the industry and...

Industrial biotechnology is a key research area at SINTEF Materials and Chemistry. Industrial biotechnology uses enzymes and micro-organisms to make biobased products in sectors such as...

Department of Biotechnology and Nanomedicine at SINTEF, has several projects focusing on increased value creation and generation of novel products from marine biomass and marine organisms....

By Functional Metagenomics R&D, SINTEF aims at identifying new and improved enzymes for industrial bioprocesses and novel bioactive compounds for pharmaceutical applications (e.g. new antibiotics...

SINTEF Materials and Chemistry, Department of Biotechnology and Nanomedicine has worked on food and feed related projects for the last 40 years, mostly but not exclusively on project where the...

SINTEF performs characterisation and production of biopharmaceuticals, mainly development of microbial production processes. Within medical technology and Nanomedicine, SINTEF focus on development...

Failure analysis can provide valuable information, helping prevent future events. An unbiased investigation of the failure can be useful in determining responsibility for the failure, minimizing...