System for Measuring Finger Force Profiles for Dexterity Assessment

System for Measuring Finger Force Profiles for Dexterity Assessment

We propose a novel system for measuring finger force profiles for dexterity assessment. The system consists of a software application and encased hardware. The sensing part of the system consists of ten high sensitivity strain gage force sensors, one for each finger. The developed application contro...

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Bibliographic Details
Main Authors: M. M. Badža, M. M. Novičić, M. Đurić-Jovičić, M. M. Janković, M. B. Popović
Format: Article
Language:English
Published: Telecommunications Society, Academic Mind 2019-12-01
Series:Telfor Journal
Subjects:
finger dexterity
finger force
strain gage force sensor
quantitative assessment
Online Access: http://journal.telfor.rs/Published/Vol11No2/Vol11No2_A6.pdf
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spelling doaj-c239542718744fd98db0fbc401ecd92e2020-11-25T03:14:22ZengTelecommunications Society, Academic MindTelfor Journal1821-32512019-12-0111210811310.5937/telfor1902108BSystem for Measuring Finger Force Profiles for Dexterity AssessmentM. M. BadžaM. M. NovičićM. Đurić-JovičićM. M. JankovićM. B. PopovićWe propose a novel system for measuring finger force profiles for dexterity assessment. The system consists of a software application and encased hardware. The sensing part of the system consists of ten high sensitivity strain gage force sensors, one for each finger. The developed application controls turning ON/OFF of the LEDs (each LED corresponds to one finger) to signalize the user which finger should press the corresponding strain gage force sensor. Linearity, repeatability, and sensitivity to position pressure of the strain gage force sensors were tested to prove the system reliability. The potential usage of the system with the assessment of quantitative parameters was demonstrated on two healthy subjects. http://journal.telfor.rs/Published/Vol11No2/Vol11No2_A6.pdf finger dexterityfinger forcestrain gage force sensorquantitative assessment
collection DOAJ
language English
format Article
sources DOAJ
author M. M. Badža
M. M. Novičić
M. Đurić-Jovičić
M. M. Janković
M. B. Popović
spellingShingle M. M. Badža
M. M. Novičić
M. Đurić-Jovičić
M. M. Janković
M. B. Popović
System for Measuring Finger Force Profiles for Dexterity Assessment
Telfor Journal
finger dexterity
finger force
strain gage force sensor
quantitative assessment
author_facet M. M. Badža
M. M. Novičić
M. Đurić-Jovičić
M. M. Janković
M. B. Popović
author_sort M. M. Badža
title System for Measuring Finger Force Profiles for Dexterity Assessment
title_short System for Measuring Finger Force Profiles for Dexterity Assessment
title_full System for Measuring Finger Force Profiles for Dexterity Assessment
title_fullStr System for Measuring Finger Force Profiles for Dexterity Assessment
title_full_unstemmed System for Measuring Finger Force Profiles for Dexterity Assessment
title_sort system for measuring finger force profiles for dexterity assessment
publisher Telecommunications Society, Academic Mind
series Telfor Journal
issn 1821-3251
publishDate 2019-12-01
description We propose a novel system for measuring finger force profiles for dexterity assessment. The system consists of a software application and encased hardware. The sensing part of the system consists of ten high sensitivity strain gage force sensors, one for each finger. The developed application controls turning ON/OFF of the LEDs (each LED corresponds to one finger) to signalize the user which finger should press the corresponding strain gage force sensor. Linearity, repeatability, and sensitivity to position pressure of the strain gage force sensors were tested to prove the system reliability. The potential usage of the system with the assessment of quantitative parameters was demonstrated on two healthy subjects.
topic finger dexterity
finger force
strain gage force sensor
quantitative assessment
url http://journal.telfor.rs/Published/Vol11No2/Vol11No2_A6.pdf
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AT mmjankovic systemformeasuringfingerforceprofilesfordexterityassessment
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