2017 IEEE Biomedical Circuits and Systems Conference (BioCAS) 2017
DOI: 10.1109/biocas.2017.8325118
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Evaluation of tactile sensors as an alternative to force sensors in an assistive haptic handlebar

Abstract: This paper shows experimental results that confirm that tactile sensors are appropriate to provide information about the caregiver intention in an assistive haptic handlebar. Preliminary tests have been performed to identify possible control inputs. Specifically, experiments have been carried out with a rear handlebar that incorporates tactile sensors and a force/torque sensor mounted on a powered wheelchair. An overall strong correlation is found between variables obtained from the tactile sensors output and … Show more

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“…Both of them are illustrated in Figure 3. The sum and subtraction of the centers of mass of the left (CoM L ) and right (CoM R ) handles computed as shown in Equation 2 are highly correlated with F y and T z , respectively [37]. This way, pushing, pulling and turning maneuvers may be identified and quantified using exclusively these two parameters extracted from the tactile sensors.…”
Section: B Control Variablesmentioning
confidence: 99%
“…Both of them are illustrated in Figure 3. The sum and subtraction of the centers of mass of the left (CoM L ) and right (CoM R ) handles computed as shown in Equation 2 are highly correlated with F y and T z , respectively [37]. This way, pushing, pulling and turning maneuvers may be identified and quantified using exclusively these two parameters extracted from the tactile sensors.…”
Section: B Control Variablesmentioning
confidence: 99%