Robotics: Difference between revisions
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=== About robotics at IMS Lab === | === About robotics at IMS Lab === | ||
Human-Robot Collaboration encompasses developing usable robots that make our everyday lives easier. Collaborative robots are said to share their autonomy with human partners, thus improving the efficiency and quality of work in areas such as flexible manufacturing, logistics, domestic assistance, healthcare, and teleoperation in hazardous environments. We have extensive experience in research and technology of every aspect of robotics: designing electronics, mechanical engineering, software development, system integration, device building, education and training – our more notable activities include | Human-Robot Collaboration encompasses developing usable robots that make our everyday lives easier. Collaborative robots are said to share their autonomy with human partners, thus improving the efficiency and quality of work in areas such as flexible manufacturing, logistics, domestic assistance, healthcare, and teleoperation in hazardous environments. We have extensive experience in research and technology of every aspect of robotics: designing electronics, mechanical engineering, software development, system integration, device building, education and training – our more notable activities include | ||
=== Highlights === | |||
* TeMoto, a highly intuitive telerobotics platform, | * TeMoto, a highly intuitive telerobotics platform, | ||
* omnidirectional robotont platform for education and research in ROS, | * omnidirectional robotont platform for education and research in ROS, |
Revision as of 16:36, 6 September 2018
About robotics at IMS Lab
Human-Robot Collaboration encompasses developing usable robots that make our everyday lives easier. Collaborative robots are said to share their autonomy with human partners, thus improving the efficiency and quality of work in areas such as flexible manufacturing, logistics, domestic assistance, healthcare, and teleoperation in hazardous environments. We have extensive experience in research and technology of every aspect of robotics: designing electronics, mechanical engineering, software development, system integration, device building, education and training – our more notable activities include
Highlights
- TeMoto, a highly intuitive telerobotics platform,
- omnidirectional robotont platform for education and research in ROS,
- Fits.me shape-changing mannequin,
- Self-deployable Habitat for Extreme Environments (SHEE)
- Estonian massive open online course (MOOC) about robotics (https://sisu.ut.ee/robot).
Primary contact
- Karl Kruusamäe, associate professor of robotics engineering
- Alvo Aabloo, professor, head of the IMS lab
Software
- GitHub page for Robotics at IMS Lab.
The list of potential student projects in robotics
Robots / Lab equipment
- KUKA youBot
- Universal Robot UR5
- Franka Emika Panda
- SoftBank Pepper
- Kinova 3-finger gripper
- robotont
- OSVR
- Oculus Rift
- Intel RealSense, Kinect, Leap Motion Controller