| Literature DB >> 28008364 |
Maria Valero1, Nick Hale1, Jing Tang1, Liudi Jiang1, Mike McGrath1, Jianliang Gao1, Piotr Laszczak1, David Moser1.
Abstract
This Letter presents a capacitive-based sensor system for fingertip contact applications. It is capable of simultaneously measuring normal (pressure) and tangential (shear) stresses at the interface between a fingertip and external objects. This could be potentially exploitable for applications in the fields of upper limb prosthetics, robotics, hand rehabilitation and so on. The system was calibrated and its performance was tested using a test machine. To do so, specific test protocols reproducing typical stress profiles in fingertip contact interactions were designed. Results show the system's capability to measure the applied pressure and stresses, respectively, with high linearity between the measured and applied stresses. Subsequently, as a case study, a 'press-drag-lift' based fingertip contact test was conducted by using a finger of a healthy subject. This was to provide an initial evaluation for real-life applications. The case study results indicate that both interface pressure and shear were indeed measured simultaneously, which aligns well with the designed finger test protocols. The potential applications for the sensor system and corresponding future works are also discussed.Entities:
Keywords: capacitive based sensor system; capacitive sensors; fingertip contact applications; hand rehabilitation; interfacial pressure; pressure sensors; prosthetics; robotics; shear sensor system; tangential stresses; upper limb prosthetics
Year: 2016 PMID: 28008364 PMCID: PMC5168806 DOI: 10.1049/htl.2016.0062
Source DB: PubMed Journal: Healthc Technol Lett ISSN: 2053-3713