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of prototypes integrating physiological sensors and non-invasive actuation systems. Setup of experimental test benches for functional characterization. Wireless control of actuators via
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degree (or near completion) in Electrical Engineering, Computer Science, or a closely related subject. Research experience in wireless communications and deep learning is essential. The project will also
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degree (or near completion) in Electrical Engineering, Computer Science, or a closely related subject. Research experience in wireless communications and deep learning is essential. The project will also
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, seeks a postdoctoral candidate in wireless sensor networks and the Internet of Things. The successful candidate will join the group of Prof. Youssef Iraqi. Context Wireless sensor networks (WSNs) and
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theory, radiofrequency (RF) analysis/design for wireless systems, wave scattering and propagation, and wave-particle dynamics in accelerator physics, among others. Preferred skills and qualifications
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include cognitive and adaptive spectrum use as well as localization of targets or signal sources in passive-sensing settings. This is central to future 6G wireless communications applications, where radio
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of developing wireless, implantable sensor technologies aimed at transforming orthopedic care and regenerative medicine. The lab specializes in engineering battery-free, resonance sensors, such as inductive
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. The scholar will conduct research in cell modulation using magnetogenetic techniques, with a focus on Alzheimer’s disease. The scholar will investigate magnetogenetic techniques for wireless, non-invasive, and
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wireless networks. For further information about potential research directions, please visit: https://people.cs.vt.edu/boji https://ece.vt.edu/people/profile/liul.html Required Qualifications - Ph.D. in
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potentiostat for wireless readout via smartphone. More info on candididate's requirements, documents for applications and selection process stages are available at https://docs.google.com/document/d/e/2PACX