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Materials science and technology are our passion. With our cutting-edge research, Empa's around 1,100 employees make essential contributions to the well-being of society for a future worth living. Empa is a research institution of the ETH Domain. Our Laboratory for Mechanics of Materials and...
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center. The Translational Musculoskeletal Biodynamics initiative aims to uncover key biomechanical markers and profiles specific to degenerative musculoskeletal diseases. This ambitious project combines in
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machine learning to develop an automated design process of mechanical walking aids, analyse gait patterns and make biomechanical simulations embedded in the generative mechanism design process. In
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advanced machine learning to develop an automated design process of mechanical walking aids, analyse gait patterns and make biomechanical simulations embedded in the generative mechanism design process. As a
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(e.g. advanced in vivo imaging) and the improvement of the repair process based on biological/biomechanical information. Candidates with an interest in translating fundamental understandings
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embedded with sensing filaments to monitor movement and health. We developed strain-, capacitive- and inductive-based filaments and validated they can be used to reconstruct biomechanics as well as capture
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filaments to monitor movement and health. We developed strain-, capacitive- and inductive-based filaments and validated they can be used to reconstruct biomechanics as well as capture bio-signals such as
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(including software and hardware teams) – preferably rehabilitation robotics Research exposure in biomechanical, biomedical, or related fields Previous experience in working and/or coordinating with research