UWB-Fat estimates subcutaneous fat thickness with 0.63 mm RMSE using UWB radar signals and a physics-inspired model on 15 participants, as a non-intrusive caliper replacement.
IT’IS Database for Thermal and Electromagnetic Parameters of Biological Tissues, Version 4.1
2 Pith papers cite this work. Polarity classification is still indexing.
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2026 2representative citing papers
Articulatory configurations during vowel production create distinct electromagnetic transmission patterns through the vocal tract, confirmed by qualitative agreement between finite-element simulations and scattering-matrix measurements on two subjects.
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UWB-Fat: Non-Intrusive Body Fat Measurement Using Commodity Ultra-Wideband Radar
UWB-Fat estimates subcutaneous fat thickness with 0.63 mm RMSE using UWB radar signals and a physics-inspired model on 15 participants, as a non-intrusive caliper replacement.
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Articulatory movements influence electromagnetic wave transmission through the vocal tract
Articulatory configurations during vowel production create distinct electromagnetic transmission patterns through the vocal tract, confirmed by qualitative agreement between finite-element simulations and scattering-matrix measurements on two subjects.