Tibial compressive force correlates linearly with the frequency location of peaks in flexural wave acceleration spectra, allowing non-invasive proxy measurement via skin-mounted transducers and accelerometers.
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Non-invasive load measurement in the human tibia via spectral analysis of flexural waves
Tibial compressive force correlates linearly with the frequency location of peaks in flexural wave acceleration spectra, allowing non-invasive proxy measurement via skin-mounted transducers and accelerometers.