2014
DOI: 10.1109/tbme.2014.2325948
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Power-Assistive Finger Exoskeleton With a Palmar Opening at the Fingerpad

Abstract: This paper presents a powered finger exoskeleton with an open fingerpad, named the Open Fingerpad eXoskeleton (OFX). The palmar opening at the fingerpad allows for direct contact between the user's fingerpad and objects in order to make use of the wearer's own tactile sensation for dexterous manipulation. Lateral side walls at the end of the OFX's index finger module are equipped with custom load cells for estimating the wearer's pinch grip force. A pneumatic cylinder generates assistance force, which is deter… Show more

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Cited by 32 publications
(20 citation statements)
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“…For large flexion angles, the RMSE was high, and the error increased as the angle increased. Moreover, the estimation accuracies obtained below 5 N in this study showed better performance compared with our previous study using load cells (0.653 N, RMSE for the index finger) [45] and other study (1.179 N, mean error for the index finger) [41]. For the middle finger (Figure 7b), the errors were low for all flexion angles and periods.…”
Section: Calibration To the Fingertip Forcecontrasting
confidence: 54%
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“…For large flexion angles, the RMSE was high, and the error increased as the angle increased. Moreover, the estimation accuracies obtained below 5 N in this study showed better performance compared with our previous study using load cells (0.653 N, RMSE for the index finger) [45] and other study (1.179 N, mean error for the index finger) [41]. For the middle finger (Figure 7b), the errors were low for all flexion angles and periods.…”
Section: Calibration To the Fingertip Forcecontrasting
confidence: 54%
“…The capacitive sensor on the ulnar side is placed in a more dorsal position than For each finger, the proposed sensor is placed on the dorsal side of the distal segment, where two capacitive sensors are attached to the lateral surfaces of the finger. Although the sensor is placed on the dorsal side, we found that the installation of the fingertip sensors on the human finger did Sensors 2020, 20, 4 3 of 15 not affect a person's ability to catch objects from our previous research [45]. There are openings on the palmar surfaces of the fingers of the glove so that the fingers can make contact with the object being manipulated, as shown in Figure 1c.…”
Section: Design Of the Fingertip Force Sensormentioning
confidence: 81%
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“…Many authors have developed peripheral devices and exoskeletons, but these should be positioned on the upper limb to operate properly (Dovat et al, 2008;Hasegawa et al, 2012;Heo and Kim, 2014). The peripheral device proposed in this paper does not use any sensor positioned for the upper limb of the volunteer, which gave more freedom of movement.…”
Section: Discussionmentioning
confidence: 99%