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, including developing standardized protocols, assisting in facility design, and training cellular agriculture operators; support the training and development of research scientists and technical staff
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spared from injury into personalized musculoskeletal models to enable robust neural control of robotic assistance in stroke survivors. Real-time characterization of the effect that electrical stimulation
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platform that can help to answer important questions in clinical and drug research, such as predicting response in cancer immune therapy. This platform will ultimately become part of a new start-up company
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with help of the International Service Desk external link (ISD) of our university. Finding appropriate housing in or near Utrecht is your own responsibility, but the ISD may be able to advise you
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with help of the International Service Desk external link (ISD) of our university. Finding appropriate housing in or near Utrecht is your own responsibility, but the ISD may be able to advise you
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auxiliary information to enhance small area estimates of attitudes towards LGBTQ+ communities in Europe. We consider the following research questions (RQ): RQ1: which variables obtained from big data may help
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of the interventions, as they are team efforts carried out by a large team of scholars and curators. You will be primarily responsible for incorporating a critical heritage and museology perspective. You will assist in
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walking. Apply the novel controller across other assistive systems developed as part of the SWAG Project . Your tasks will be: As a postdoctoral researcher, you will lead the development and integration
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including interplanetary cruise, aero assistance, precision landing, ascent, rendezvous and docking, re-entry, formation flying and drag-free systems. Special emphasis is placed on the following areas
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forefront of neuromechanics and assistive robotics. Our work bridges neuroscience, biomechanics, and robotics to develop real-time models of joint biomechanics and adaptive control strategies for wearable