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Field
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the impact of our academic work. The co-PI on this team is Dr Helen Vossen, and the cocreation process which is scheduled for the final year of this project will be supported by Dr Lara Schreurs (KULeuven
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and physically based methodologies, which we then translate in the Lab into demonstrators and prototypes. Area of robot application is mostly in healthcare, and inspection and maintenance. The research
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and physically based methodologies, which we then translate in the Lab into demonstrators and prototypes. Area of robot application is mostly in healthcare, and inspection and maintenance. The research
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manifestations of stress are often not synchronized. People may say they don't experience stress, while their physical response shows otherwise, and vice versa. In this project, we measure emotional and
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the goal of accelerating process development for circular materials. You will generate valuable multi-scale data (micro- to mesoscopic) relevant to the manufacturing of aerospace thermoplastic composites
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, including landowner coordination and technical readiness of survey equipment (e.g., GPS, field computers, drones). Manage and process geomagnetic data; contribute to refining data analysis workflows
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US images and histopathology. Integrate multimodal data: Align histopathology slides with 3D ultrasound reconstructions. Refine imaging technology: Explore improvements in ultrasound physics
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of two academic references The interview process will consist of two online phases in October: initially with shortlisted candidates in the first round, followed by a final selection stage. The University
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ultrasound physics, reconstruction algorithms, and data acquisition techniques to ensure high-quality inputs. Collaborate with clinicians: Work with medical specialists to validate the clinical utility of your
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of survey equipment (e.g., GPS, field computers, drones). Manage and process geomagnetic data; contribute to refining data analysis workflows. Integrate geophysical results with spatial datasets (e.g., DEMs