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energy networks more efficient, mathematical models that assist medical doctors, schedules that make hospitals more efficient and numerical schemes to study multiscale fluid problems and wave propagation
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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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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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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
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Regieorgaan Onderwijsonderzoek (NRO) that focuses on the use of two VR applications in medical education: OK Ready!, which trains surgical and anesthesiology assistants in operating room preparation (Study 1