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will have an extensive background in one or more of the following areas: Information theory, structured statistics, reinforcement learning, and/or wireless communications. The candidate should hold a
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, including 5G networks (required). Expertise in wireless communication and 5G networks (required). Proficiency in software development and programming (required). Strong problem-solving and analytical skills
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the following – vehicular networks, wireless communication protocols, belief frameworks, cooperative perception and should demonstrate a strong background in mathematical principles and analytical
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a great potential for ultra-high-speed wireless communication, with data rates far surpassing those of current 5G systems. We are currently hiring a post-doc with expertise in finite-element
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for vehicle-to-vehicle (V2V), vehicle-to-grid (V2G) and their potential impact on grid stability and energy management; · Evaluation of wireless communication technologies and cybersecurity measures
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contingent upon funding. Candidates with experience in the development of wireless power transfer and energy harvesting systems, quantum energy harvesting is preferred, skills in diode, electronics, antennas
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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
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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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of behavioral data collection and wireless stimulation and electrophysiological data recording technologies. The project will involve: Help design the neuromodulation platform, integrate the different components
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fundamentals and applications of phased arrays and beamforming algorithms Knowledge of modern digital modulation methods (QPSK, QAM, OFDM, etc.) and their applications in wireless communications Ability