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treatments. Based on the technologies created in the NeuBotics Lab, you will develop a platform that: 1. Decodes the activity of ankle muscle motor units in real-time link to paper . 2. Evaluates
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automatic tracking of muscle fascicle kinematics. You will be developing a proof of concept of the real-time control of a bionic ankle-foot based on online ultrasound sensing of the ankle muscle fascicle
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, spinal cord injury etc) through real-time neural control of wearable robotic exoskeletons. You will be developing next-generation (low and high-level) control algorithms for wearable exoskeletons that use
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Future-Proof Smart Logistics. It aims to contribute to the realisation of the PI concept by developing advanced machine learning-based decentralised decision-making algorithms. These algorithms will enable
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collaborate closely with a postdoctoral researcher at UMCU, medical educators, VR developers, and other researchers to ensure the real-world relevance of your work. Information and application Are you
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Responsibilities: Develop an overview of available materials and the fundamental processes that can lead to either densification or expansion upon heating in two-material multilayer. Synthesize multilayers
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diagnosis and treatment, the device must reach its intended target. In order to increase the targeting accuracy of the procedure and improve clinical outcomes, the goal of this research project is to develop