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academic and industrial partners, addressing topics such as cooperative automated driving, connected mobility systems, and intelligent transportation technologies. You will take a leading role in research
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methodologies in urban planning. This PostDoc position focuses on AI-based recommender systems to guide stakeholders in choosing a mobility system design. Specifically, the research builds on RLHF techniques
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National Aeronautics and Space Administration (NASA) | Hampton, Virginia | United States | 3 days ago
observations by the end of the decade as other sensors are phased-out. The SAGE Mission is seeking qualified candidates to conduct research activities that advance the maturity of this increasingly important
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interaction, contact-rich manipulation, and force-aware behaviors Integrate robotic manipulators with mobile bases, perception systems, and onboard sensors Program and deploy robotic systems for experimental
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redox balance. Our studies explore how p53 integrates metabolic cues by acting as both a sensor and regulator of cellular metabolism. In parallel, we are identifying metabolic changes that promote tumor
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project will include working with wearable sensors for continuous monitoring of mobility, neuromechanical assessments of balance during standing and walking, and physical therapy interventions to improve
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project will include working with wearable sensors for continuous monitoring of mobility, neuromechanical assessments of balance during standing and walking, and physical therapy interventions to improve
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of the lysosomal surface. Our goal is to reconstitute these signaling events in vitro to determine how physical changes in the membrane bilayer coordinate with biochemical signals to control cell fate. This work