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adaptable object handling in complex real-world scenarios, including those involving deformable objects and uncertain conditions.. Semantic Navigation & Mapping – Designing solutions for robot navigation
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has been a focus on individual imaging modalities (e.g., fMRI, diffusion imaging) at the exclusion of combining information across modalities. Our long-term objective is to develop a “phenotypic
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interaction, adapt to new tasks, and generalize across environments. Dexterous Manipulation – Advancing robotic grasping, in-hand manipulation, and adaptable object handling in complex real-world scenarios
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imaging) at the exclusion of combining information across modalities. Our long-term objective is to develop a “phenotypic fingerprint” from multimodal imaging data in healthy controls to be used as an early
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information across modalities. Our long-term objective is to develop a “phenotypic fingerprint” from multimodal imaging data in healthy controls to be used as an early predictor of adverse neurologic events
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, Lyapunov stability, and safety for human-robot collaboration. Advanced Manipulation and Navigation: Enabling robots to handle complex, dynamic environments, including those involving deformable objects and
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contributions to the field. The researcher is expected to have (i) strong engineering skills to find innovative and cost-effective means to improve our research, and (ii) exemplary passion and motivation
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, the candidate will find many international experts and postdocs with whom to interact. Weekly seminars are in place across the various research areas represented at NYUAD. The successful applicant will also
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Sabri. The Mathematics Program at NYUAD is quickly expanding, the candidate will find many international experts and postdocs with whom to interact. Weekly seminars are in place across the various