Fields of competence
ROBOTNOR represents a unique synergy of academic and industrial expertise which allows us to counsel and comprehend a wide variety of tasks and projects. Our fields of competence are numerous and diverse.
ROBOTNOR represents a unique synergy of academic and industrial expertise which allows us to counsel and comprehend a wide variety of tasks and projects. Our fields of competence are numerous and diverse.
To understand, simulate and design controllers for complex mechanical systems, it is necessary to have […]
It is not always possible to control inherently nonlinear systems by linear control methods throughout […]
Bestowing our machines with intelligence has been an ambitious goal for scientists since the birth […]
Mainly aiming at automatic control systems within manufacturing and production, the integration of planning, scheduling, […]
Often one sensor or one measurement principle can not capture all the information needed to […]
Machine vision is an essential part of most robotic system and is generally described as […]
Motion planning is a central topic in most of our research activities. In particular, motion […]
The ability to describe the motion of an object, i.e. the change of position and […]
These webpages have just been launched and will be continuously updated during the coming weeks. […]
These webpages have just been launched and will be continuously updated during the coming weeks. […]
Collision detection and avoidance are crucial components in any moving system that needs to interact […]
When working with robotic systems, mechatronics is an important tool in your toolbox. If you […]
Guidance and navigation is an essential part of the on-board systems of any device capable […]
These webpages have just been launched and will be continuously updated during the coming weeks. […]
In order for robots to navigate and interact more like humans in complex environments, manipulating […]
Grasping is an essential part of most modern production systems. ROBOTNOR is developing new grasping solutions aimed towards increased flexibility in production lines of tomorrow and significant savings in production costs.
These webpages have just been launched and will be continuously updated during the coming weeks. […]
Our fascination for robotics span a wide range of robotic mechanisms, and our research on these systems targets both theoretical and practical topics.
Industrial robots are the relentless workforce of the industries. They pick, place, paint, and weld […]
SINTEF ICT has cooperated with the Norwegian oil & gas company Statoil since 2005 on […]
In a few years, snake robots will assist in search and rescue missions after earthquakes and carry out maintenance operations inside process pipes. ROBOTNOR has conducted research on snake robots for several years and is getting closer to realizing the potential of these mechanisms.
Liquid water covers 71% of the Earth’s surface, and waterways have been the lifeline of […]
European countries have vast coasts and economic zones which go far into the Atlantic and […]
Biped locomotion is a highly efficient method of locomotion, which allows robots to move over […]
Wheeled robots are excellent tools for simple tasks such as moving objects from one place […]
Nanorobotics is an emerging and wide-spanning field. It can either be defined as a system […]
Vision sensors are necessary for the robots to understand and interact with their surroundings. Depending […]
These webpages have just been launched and will be continuously updated during the coming weeks. […]
Experimental investigations are an important part of our research activities. Our lab infrastructure is the backbone of these investigations.
In cooperation with Statoil, ROBOTNOR has developed a robotics lab devoted to remote controlled oil […]
The industrial robotics lab is an arena where the challenges of robot manipulation are tackled. […]
NTNU has recently established the Applied Underwater Robotics Laboratory (AUR lab). The lab is being used for applied research on subsea robotics.
The snake robot laboratory at ROBOTNOR got a significant upgrade in 2013. The lab now […]
The robot learning laboratory is not confined to any specific robot system, but acts as […]
A lab facility for research on nanopositioning has been established at the Department of Engineering […]
The Norwegian and European sewing industry has to a large extent been outsourced to low […]
The unmanned aerial vehicles laboratory is a test facility for NTNU’s Research on unmanned aerial […]
Reliable and efficient production holds the key to a brighter future. Robotics is delving deeper and flying higher for our future.
Stronger than the human body, more robust and no wear and tear. Robots present a potential boost in efficiency and quality.
Precision, productivity and perfection. Advanced algorithms and groundbreaking design paves the way for the modern manufacturing robots.
Challenging conventional form and function, robotics is innovation incarnate in the marine industries.
Precision, productivity and perfection. Advanced algorithms and groundbreaking design paves the way for the modern manufacturing robots.
The modern age presents a challenge. There is an ever growing variety of things that need to be assembled, welded, picked and placed. To handle these problems, robots are rapidly becoming smarter and more flexible with advanced algorithms and modular solutions. Adaptable machines, able to tackle a variety of tasks with both general and task-specific software will be essential for the future of manufacturing. Streamlining production with intelligent, relentless workers with superhuman senses and precision.