Postdoc position in light multiplexed, fiber-based artificial sensorimotor network — ETH Zürich
CHF 73'500 - 111'500
ETH Zürich · Zurich (ZH)
- Location
- Zurich
- Contract
- fixed-term
- Posted
- 48 days ago
SalaryCHF 73'500 - 111'500
Role overview
Postdoc position in light multiplexed, fiber-based artificial sensorimotor network 100%, Zurich, fixed-term print Drucken The Robotic Materials group is looking for a highly motivated postdoc for the topic of light multiplexed artificial sensorimotor network .
This position is funded by our ERC Starting Grant .
Project background The introduction of fiber optics in the 1970s has revolutionized the telecommunications industry upon the replacement of copper wires and played a major role in the advent of the Information Age
- Postdoc position in light multiplexed, fiber-based artificial sensorimotor network 100%, Zurich, fixed-term print Drucken The Robotic Materials group is looking for a highly motivated postdoc for the topic of light multiplexed artificial sensorimotor network .
- This position is funded by our ERC Starting Grant .
Application process
- Applications are evaluated on a rolling basis until the position is filled. Profile
- PhD degree in Robotics, Mechanical Engineering, Materials Science and Engineering or related fields from a top university
- Strong research track records in one or more of the following: micro robots, soft robotics, fiber-based robots, or related
- Hands-on experience in robot design, prototyping, experimental characterization, and TRL 3-5 demonstration
- Knowledge of reconfigurable/multifunctional microrobots, small-scale soft robotics, feedback controlled soft robotic systems is highly desirable
- Excellent problem-solving abilities and a passion for interdisciplinary research Workplace Workplace We offer
- A productive working environment with training and guidance from the PI on a regular basis
- Competitive salary according to ETH standards (fully funded, full-time, fixed term position)
Additional details
- The second part will study grouped behavior of these “muscle bundles” to enable muscle coordination for complex/adaptive/efficient movements.
- Investigate emergent coordinated bundle behavior and motion patterns arising from biologically similar redundancy with collaborations of control and learning Demonstrate for advanced robotic functions Supervise master/bachelor students
- Applications are evaluated on a rolling basis until the position is filled.
Notes and original content
- Job description
- Investigate emergent coordinated bundle behavior and motion patterns arising from biologically similar redundancy with collaborations of control and learning
- Demonstrate for advanced robotic functions
- Supervise master/bachelor students
