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100%, Zurich, fixed-term The Sensing, Interaction & Perception Lab invites applications for a PhD position in Computational Interaction, focusing on sensor-based input detection for Augmented and
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extend to the structural scale, examining the composite action between 3D printed concrete and cast concrete infill under axial compression. This will be achieved through a combination of finite element
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enables label-free trapping and sensing of single proteins in solution for up to hours. Now, we leverage the unique abilities of nanopore trapping to detect proteins and their conformations, dynamics
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-effector that incorporates a milling spindle a feed axis and integrated force-torque sensing capabilities. A key objective is to redesign the final axis of the system to embed strain gauges that can
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quantum sensing and information processing, molecular magnetism, spin chemistry, renewable energy conversion and storage, or sustainable chemical production. We seek candidates with an outstanding research
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technical matters and data analysis Comfortable formulating questions and proactively seeking guidance as needed Curious and self-motivated, with a strong sense of ownership over their work Fluency in English
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(Polymechanikerin / Polymechaniker, Metallbauerin / Metallbauer) and must hold a Swiss Federal Certificate of Competence (EFZ) You have a strong affinity for tools, machinery, and hands-on work You feel confident
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a full design–build–evaluate cycle: (1) co-design and prototyping; (2) technical validation of passive sensing and analytics; (3) an field-based observational study; and (4) feasibility and
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expertise in material science, engineering, and computing. The lab focuses on sensing technologies for electronic textiles, with applications in sports and health. To strengthen its operations, the BMHT Lab
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to contribute to this effort. The envisioned research will tackle the broad topic of “Process control and digital twin development for extrusion 3D printing”: Development and improvement of novel in-situ sensing