Identify key grasping-related properties based on cutaneous electrotactile stimulation

Xu, Heng; Bao, Linjun; Zhang, Dingguo; Zhu, Xiangyang

doi:10.1109/ifess.2014.7036757

Cited by 5 publications

(1 citation statement)

References 11 publications

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“…In the context of the closed loop interaction control with prosthetic hands, the most common usage is the rendering of forces as pressure and sliding feedback. In this regard, the most common feedback design is the modulation of the pulse width [6,48,49], or amplitude [5] to convey them as an increase of the strength of the tactile sensation. Moreover, to represent the sliding velocity of the falling object, such methods also consider the change of active pads, by modulating the time interval between each pad's activation.…”

Section: Forces and Contact Informationmentioning

confidence: 99%

Design and Evaluation of Electrotactile Rendering Effects for Finger-Based Interactions in Virtual Reality

Vizcay

Kourtesis

Argelaguet

et al. 2022

Proceedings of the 28th ACM Symposium on Virtual Reality Software and Technology

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Section: Forces and Contact Informationmentioning

confidence: 99%

Design and Evaluation of Electrotactile Rendering Effects for Finger-Based Interactions in Virtual Reality

Vizcay

Kourtesis

Argelaguet

et al. 2022

Proceedings of the 28th ACM Symposium on Virtual Reality Software and Technology

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Two-channel electrotactile stimulation for sensory feedback of fingers of prosthesis

Choi

Kim

et al. 2016

2016 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

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Mixed-Modality Stimulation to Evoke Two Modalities Simultaneously in One Channel for Electrocutaneous Sensory Feedback

Choi

Kim

et al. 2017

IEEE Trans. Neural Syst. Rehabil. Eng.

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One of the long-standing challenges in upper limb prosthetics is restoring the sensory feedback that is missing due to amputation. Two approaches have previously been presented to provide various types of sensory information to users, namely, multi-modality sensory feedback and using an array of single-modality stimulators. However, the feedback systems used in these approaches were too bulky to be embedded in prosthesis sockets. In this paper, we propose an electrocutaneous sensory feedback method that is capable of conveying two modalities simultaneously with only one electrode. The stimulation method, which we call mixed-modality stimulation, utilizes the phenomenon in which the superposition of two electric pulse trains of different frequencies is able to evoke two different modalities (i.e., pressure and tapping) at the same time. We conducted psychophysical experiments in which healthy subjects were required to recognize the intensity of pressure or the frequency of tapping from mixed-modality or two-channel stimulations. The results demonstrated that the subjects were able to discriminate the features of the two modalities in one electrode during mixed-modality stimulation and that the accuracies of successful recognitions (mean ± standard deviation) for the two feedback variables were 84.3 ± 7% for mixed-modality stimulation and 89.5 ± 6% for two-channel dual-modality stimulation, showing no statistically significant difference. Therefore, mixed-modality stimulation is an attractive method for modulating two modalities independently with only one electrode, and it could be used for implementing a compact sensory feedback system that is able to provide two different types of sensory information from prosthetics.

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Identify key grasping-related properties based on cutaneous electrotactile stimulation

Cited by 5 publications

References 11 publications

Design and Evaluation of Electrotactile Rendering Effects for Finger-Based Interactions in Virtual Reality

Design and Evaluation of Electrotactile Rendering Effects for Finger-Based Interactions in Virtual Reality

Two-channel electrotactile stimulation for sensory feedback of fingers of prosthesis

Mixed-Modality Stimulation to Evoke Two Modalities Simultaneously in One Channel for Electrocutaneous Sensory Feedback

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