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This academic work by You Chang focuses on the development and validation of a finite element (FE) model of the human head, known as the LiUHead, for simulating bone-conducted sound. The model, based on cryosectional images of a female, includes various anatomical structures and materials mimicking real human tissues. The study aims to enhance the understanding of bone conduction (BC) sound transmission, which is crucial for improving hearing aids and bone-conduction devices (BCDs). The author evaluates different types of BCDs using the LiUHead model, providing insights into their effectiveness and offering a unique opportunity for comparative analysis. This research is particularly relevant for audiologists, biomedical engineers, and researchers in auditory sciences.
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Ear, Middle --- Reflex, Acoustic --- Auditory Perception --- Bone Conduction --- physiology --- physiology
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Brain Stem --- Evoked Potentials, Auditory --- Bone Conduction --- Acoustic Stimulation --- physiology --- methods
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Anatomy. --- Science --- Technology --- Engineering --- Mathematics --- Bone conduction. --- Hearing. --- Robotics. --- Military education. --- Study and teaching. --- United States.
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Armed Forces --- Bone conduction. --- Radio --- Sound --- Equipment. --- Receivers and reception --- Diversity systems. --- Equipment and supplies.
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