A Soft Anthropomorphic & Tactile Fingertip for LowCost Prosthetic & Robotic Applications

Authors

  • E. L. Secco Liverpool Hope University image/svg+xml
  • C. Moutschen HELMo-Gramme University

DOI:

https://doi.org/10.4108/eai.28-2-2018.155078

Keywords:

Anthropomorphic Design, Biologically Inspired Design, Sensor Integration, Sensor Optimization

Abstract

Nowadays, prosthetic and robotic hands have reached an amazing dexterity and grasping capability. However, to enhance a proper tactile 'experience', dexterity should be supported by proper sensation of daily life objects which such devices are supposed to manipulate. Here we propose a low cost anthropomorphic solution for the integration of a force sensor within a biologically inspired fingertip. A commercial force resistive sensor is embedded within a human-like soft fingertip made of silicone: the housing of the sensor - a 3D printed bay embedded within the fingertip - is analyzed via Finite Element Analysis and optimized to enhance sensor response. Experiments validate the design and proposed solution.

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Published

23-07-2018

How to Cite

1.
Secco EL, Moutschen C. A Soft Anthropomorphic & Tactile Fingertip for LowCost Prosthetic & Robotic Applications. EAI Endorsed Trans Perv Health Tech [Internet]. 2018 Jul. 23 [cited 2024 Dec. 22];4(14):e1. Available from: https://publications.eai.eu/index.php/phat/article/view/1289