Department of Mathematics and Cybernetics
We are the robotics and control group at SINTEF. Main field of research: Real time control and communication, sensor fusion, 3D sensing, motion planning, synchronised robots, hybrid force/motion control, manipulation learning, motion estimation and...
Today humans are surrounded by breakthroughs within the field of Artificial Intelligence. Algorithms based on artificial intelligence recognises text, speech, sounds and images - and they are changing the shape of our common future.
Digital twins and mixed reality are reshaping the future of employment.
Mathematics and technology are inextricably linked, with advances in one field driving innovation in the other. Mathematics underpins algorithms and data analysis techniques used across a diverse range of industries, while technology has...
Robotics and autonomy are pawing its way into new usage areas. SINTEF contributes with expertise, technology and infrastructure to create sustainable robotic solutions for both industry and the public sector.
The objective of the BreathSense project is to create an innovative clinical workflow and a portable breath diagnostics device that can provide real-time, in-home monitoring of patients, allowing for the early prediction of exacerbations in Chronic...
Privacy@Edge: Privacy-aware Edge and Data Subjects
The Privacy@Edge project aims to enhance individual privacy awareness and control in the IoT landscape by developing intuitive tools that simplify complex privacy policies and offer personalized privacy recommendations.
Gode pasientforløp (Good Patient Pathways)
The aim of the initiative "Gode pasientforløp" is to support municipalities and hospitals in improving transitions in patient pathways and ensuring users' needs for integrated, safe, and coordinated services.
QC4DS - Quantum computing for the defence sector
We explore the potential of quantum computing in solving optimization challenges in the defense sector, collaborating with NeQst to exchange methods.
RESILIAGE - Advancing holistic understanding of community RESILIence and heritAGE drivers through community-based methodologies
RESILIAGE will unlock Europe's hidden resource: community resilience. Through digital tools and soft solutions, it will revolutionise DRM, co-create resilient communities, inclusion, and more, with a holistic approach.
RIGHT BALANCE – can an increased level of activity reduce fatigue in individuals with ABI?
The overall aim of RIGHT BALANCE is to establish new knowledge about the relationship between physical activity, sleep and self-perceived fatigue, and to develop advice on how alterations in activity and sleep can reduce fatigue and increase mastery...
Automated task planning for autonomous multi-robot teams (ATAM)
In the ATAM project we will build collaboration between the partners and develop and demonstrate AI-based methods for automated planning and acting – AI planning – in autonomous multi-robot operations needed for the defence sector and for...
PERTINENCE – Physics-informed artificial intelligence for autonomy
The PERTINENCE project is dedicated to transferring knowledge and results in the field of physics-informed AI, which combines traditional physics-based modeling methods with AI approaches, from ongoing research in civilian application to defense...
AI POCUS AAA - Artificial Intelligence guided Point-Of-Care UltraSound in remote areas on Abdominal Aortic Aneurysm
We will enable medical imaging in remote areas by using artificial intelligence to guide ultrasound in real-time. Thereby improving remote health care services and its environmental and economic sustainability.
Mathematics and Cybernetics
P.O. Box 124 Blindern
N-0314 Oslo, Norway
Mathematics and Cybernetics
P.O. Box 4760 Sluppen
N-7465 Trondheim, Norway
Forskningsveien 1, 0373 Oslo, Norway
Strindveien 4, 7034 Trondheim, Norway
Klæbuveien 153, 7031 Trondheim, Norway