 Soft Robotics LabOpen OpportunitiesDesign and build dexterous human-like robotic hands with us at the Soft Robotics Lab and the ETH spin-off mimic. We will explore different possibilities of developing design features and sub-systems. The developed features shall be integrated into a fully functional robotic hand and applied to solve practical manipulation challenges. - Electrical Engineering, Mechanical Engineering
- Master Thesis, Semester Project
| Development of a linear electrostatic film actuator for soft robotic applications such as the actuation of a humanoid robotic hand. - Electrical and Electronic Engineering, Materials Engineering, Mechanical and Industrial Engineering
- Master Thesis
| Design and build dexterous human-like robotic hands with us at the Soft Robotics Lab and the spin-off mimic. We will explore different possibilities of developing design features such as tendon-driven mechanisms, lightweight structures, and complex mechanical joints of the hand. The developed features shall be integrated into a fully functional robotic hand and applied to solve practical manipulation challenges. - Mechanical Engineering
- Bachelor Thesis, Master Thesis, Semester Project
| This research aims to advance biohybrid robotics by integrating living biological components with artificial materials. The focus is on developing computational models for artificial muscle cells, a critical element in creating biohybrid robots. Challenges include modeling the complex and nonlinear nature of biological muscles, considering factors like elasticity and muscle fatigue, as well as accounting for fluid-structure interaction in the artificial muscle's environment. The research combines first principle soft body simulation methods and machine learning to improve understanding and control of biohybrid systems. - Biological Mathematics, Biomechanical Engineering, Biophysics, Mechanical Engineering, Modeling and Simulation, Robotics and Mechatronics, Simulation and Modelling
- Bachelor Thesis, Master Thesis, Semester Project
| We are enhancing soft robot modeling by developing a GPU-accelerated version of our FEM-based framework using CUDA. This research focuses on optimizing parallel computations to significantly speed up simulations, enabling larger problem sizes and real-time control. By improving computational efficiency, we aim to advance soft robotics research and facilitate more detailed, dynamic simulations. - Mechanical Engineering, Programming Techniques, Robotics and Mechatronics, Simulation and Modelling
- Bachelor Thesis, Master Thesis, Semester Project
| We are advancing soft robot simulation with FEM and energy-based methods to model complex, adaptive behaviors. This research entails developing the framework to support diverse designs, integrate new physics models, and optimize performance, enabling enhanced control and real-world applications of soft robots. - Mechanical Engineering, Robotics and Mechatronics, Simulation and Modelling
- Bachelor Thesis, Master Thesis, Semester Project
| This project aims to enhance an electrostatic actuator by improving its specific power and power density while optimizing its manufacturing process, through approaches such as mechanical redesign, materials innovation, or computational optimization. - Electrical Engineering, Mechanical Engineering, Robotics and Mechatronics
- Master Thesis
|
|
