Nihon Kikai Gakkai ronbunshu (Dec 2017)

An attempt to evaluate finger load and surface texture by biometric finger sensor using ultrasonic method

  • Akitoshi TAKEUCHI

DOI
https://doi.org/10.1299/transjsme.17-00348
Journal volume & issue
Vol. 84, no. 857
pp. 17-00348 – 17-00348

Abstract

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The potential of an ultrasonic biometric finger sensor to evaluate the finger load and surface texture in contact opposition was investigated under the range of quasi-static load and low sliding speed. The ultrasonic probe, which has a respective vibration element for reception and transmission, attached to the nail plate has a transducer 5 mm in diameter with 5 MHz center frequency. The reflection echo ratio H1 from the nail bed is reduced with increment of nail bed stiffness (acoustic impedance) due to increasing finger load W. In contrast, the reflection echo ratio H2 from the finger-pad is increased with increment of finger load since the amplitude of interference wave reflected from the finger-pad is increased due to the phase decrement of the reflected wave from there by flattening of the finger pad. Therefore, the potential for the estimation of finger load W using the echo ratio H1 or H2 was cleared. Additionally, it becomes possible to evaluate the surface texture in contact opposition since the finger-pad echo ratio H2 is strongly affected by local displacement on finger-pad. Since the nail bed echo ratio H1 during catalyzed migration of the finger depends on only finger load without being influenced by the texture of the opposition surface, the potential for the substitution of tactile impression of the person by the simultaneous observation of H1 and H2 became clear.

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