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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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field, laboratory, and analytical research related to (1) electrically conductive concrete (ECON) for heated transportation infrastructure, wireless electric vehicle charging, and structural health
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. Strong technical background in optimization in wireless communications/networking. Experience with programming languages, especially MATLAB and Python. Excellent written and verbal communication skills in
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Mechanical Engineering. Preferred Qualifications Expertise in developing wireless communication modulus for piezoelectric sensors including SAW and BAW sensors. Demonstrated strong experience in
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research group funded by the University of Connecticut and the NIH Institute of Deafness and Communication Disorders that aims to uncover fundamental principles of computation in neural circuits. We
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to the EPSRC programme grant "Terahertz frequency devices and systems for ultrahigh capacity wireless communications (TERACOM)" (teracom.uk), EP/W028921/1. This is a collaborative project involving the
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on the physical layer design of programmable metasurfaces enabled wireless communication systems. The candidate will investigate the role of programmable metasurfaces as reconfigurable holographic surfaces (RHSs
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experience with deep learning frameworks (e.g., PyTorch) Experience in working with time-series data Good understanding of Internet of Things, wireless communication network and systems Strong publication
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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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systems, intelligent and autonomous systems; machine learning; environmental sensing; and wireless communications. The EE department has strong support from the College of Engineering and UTA administration