Free and Forced Vibration Modes of the Human Fingertip
2021
Article
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Computational analysis of free and forced vibration responses provides crucial information on the dynamic characteristics of deformable bodies. Although such numerical techniques are prevalently used in many disciplines, they have been underutilized in the quest to understand the form and function of human fingers. We addressed this opportunity by building DigiTip, a detailed three-dimensional finite element model of a representative human fingertip that is based on prior anatomical and biomechanical studies. Using the developed model, we first performed modal analyses to determine the free vibration modes with associated frequencies up to about 250 Hz, the frequency at which humans are most sensitive to vibratory stimuli on the fingertip. The modal analysis results reveal that this typical human fingertip exhibits seven characteristic vibration patterns in the considered frequency range. Subsequently, we applied distributed harmonic forces at the fingerprint centroid in three principal directions to predict forced vibration responses through frequency-response analyses; these simulations demonstrate that certain vibration modes are excited significantly more efficiently than the others under the investigated conditions. The results illuminate the dynamic behavior of the human fingertip in haptic interactions involving oscillating stimuli, such as textures and vibratory alerts, and they show how the modal information can predict the forced vibration responses of the soft tissue.
Author(s): | Gokhan Serhat and Katherine J. Kuchenbecker |
Journal: | Applied Sciences |
Volume: | 11 |
Number (issue): | 12 |
Pages: | 5709 |
Year: | 2021 |
Month: | June |
Day: | 20 |
Department(s): | Haptic Intelligence |
Research Project(s): |
Dynamic Models and Wearable Tactile Devices for the Fingertips
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Bibtex Type: | Article (article) |
Paper Type: | Journal |
DOI: | 10.3390/app11125709 |
State: | Published |
BibTex @article{Serhat21-AS-Fingertip, title = {Free and Forced Vibration Modes of the Human Fingertip}, author = {Serhat, Gokhan and Kuchenbecker, Katherine J.}, journal = {Applied Sciences}, volume = {11}, number = {12}, pages = {5709}, month = jun, year = {2021}, doi = {10.3390/app11125709}, month_numeric = {6} } |