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the advent of the Internet of Things (IoT), any sensor can be interfaced with a local network or the Internet. This massive deployment has created many security issues and associated solutions
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distributed systems and AI-enhanced automation for critical infrastructure monitoring and control. Your primary focus will be on designing and validating IoT sensor networks with long-range wireless
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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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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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. AI-driven technology to achieve optimal performance Integrate developed PA techniques into practical active antenna array demonstrators. Conduct experiment with existing USRP platform for wireless end
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processing, convex optimization, distributed processing, machine learning, and tensor analysis. Our applications span various domains, including audio and acoustics, wireless communication, radio astronomy
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decision-making in smart farming. The Postdoctoral scholar should have expertise in wireless communication technologies, IoT systems, and a keen interest in applying these technologies to improve
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structures for composite infrastructures: Wireless surface gauges and integrated sensors, SHM/NDT/Inline/Online. The Composites Lab develops and authenticates techniques to achieve better designs of composite
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macroscopic response: Toughing mechanism using surface on involume spatial variations. Structural health monitoring (SHM) and smart structures for composite infrastructures: Wireless surface gauges and
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variations. Structural health monitoring (SHM) and smart structures for composite infrastructures: Wireless surface gauges and integrated sensors, SHM/NDT/Inline/Online. The Composites Lab develops and