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Field
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for vehicular communications, with a focus on wave propagation characterization and radio channel modeling. • Contributing to the implementation and preparation of measurement campaigns. • Analyzing measurements
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to understand the spatio-temporal radio characteristics, i.e. what, when, and from where signals are transmitted. Applications of the envisioned research results include cognitive and adaptive spectrum use as
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management Cognitive radio or adaptive communication systems, including dynamic spectrum access, band selection Heterogeneous network architectures, including terrestrial and non-terrestrial networks Deep
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following research topics: Resource allocation for wireless networks Radio resource management and mobility management Cognitive radio or adaptive communication systems, including dynamic spectrum access
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/radio astronomy technology 3. Knowledge of radio observatory science operations 4. Work effectively both independently and as part of an interdisciplinary research team 5. A demonstrated
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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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requirements include Expertise in several areas among the following is desired: radio system modeling, electromagnetics, antennas, propagation, RF frontends, radar. Demonstrated expertise in channel modeling and
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addition, it conducts research on digital signal processors for software-defined radio, aiming to balance flexibility with energy efficiency. The team also develops innovative tools such as TTool, an open
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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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communications (ISaC) to network design using O-RAN; from statistical learning theory to software defined radio (e.g., USRP) prototypes. The Bradley Department of Electrical and Computer Engineering has both