Localization Performance of Multiple Vibrotactile Cues on Both Arms

To present information using vibrotactile stimuli in wearable devices, it is fundamental to understand human performance of localizing vibrotactile cues across the skin surface. In this paper, we studied human ability to identify locations of multiple vibrotactile cues activated simultaneously on bo...

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Veröffentlicht in:	IEEE transactions on haptics 2018-01, Vol.11 (1), p.97-106
Hauptverfasser:	Wang, Dangxiao, Peng, Cong, Afzal, Naqash, Li, Weiang, Wu, Dong, Zhang, Yuru
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Sprache:	eng
Schlagworte:	Adult Arm correct rate Cues Elbow Elbow (anatomy) Equipment Design Error correction Female Haptic interfaces Human performance Humans Layout Legged locomotion Localization Localization performance location identification Male Man-Machine Systems Motors perception Physical Stimulation Shoulder simultaneous activation of multiple cues Skin Touch Touch Perception Vibration Vibrations vibrotactile cues Wearable Electronic Devices Young Adult
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container_title	IEEE transactions on haptics
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creator	Wang, Dangxiao Peng, Cong Afzal, Naqash Li, Weiang Wu, Dong Zhang, Yuru
description	To present information using vibrotactile stimuli in wearable devices, it is fundamental to understand human performance of localizing vibrotactile cues across the skin surface. In this paper, we studied human ability to identify locations of multiple vibrotactile cues activated simultaneously on both arms. Two haptic bands were mounted in proximity to the elbow and shoulder joints on each arm, and two vibrotactile motors were mounted on each band to provide vibration cues to the dorsal and palmar side of the arm. The localization performance under four conditions were compared, with the number of the simultaneously activated cues varying from one to four in each condition. Experimental results illustrate that the rate of correct localization decreases linearly with the increase in the number of activated cues. It was 27.8 percent for three activated cues, and became even lower for four activated cues. An analysis of the correct rate and error patterns show that the layout of vibrotactile cues can have significant effects on the localization performance of multiple vibrotactile cues. These findings might provide guidelines for using vibrotactile cues to guide the simultaneous motion of multiple joints on both arms.
doi_str_mv	10.1109/TOH.2017.2742507
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In this paper, we studied human ability to identify locations of multiple vibrotactile cues activated simultaneously on both arms. Two haptic bands were mounted in proximity to the elbow and shoulder joints on each arm, and two vibrotactile motors were mounted on each band to provide vibration cues to the dorsal and palmar side of the arm. The localization performance under four conditions were compared, with the number of the simultaneously activated cues varying from one to four in each condition. Experimental results illustrate that the rate of correct localization decreases linearly with the increase in the number of activated cues. It was 27.8 percent for three activated cues, and became even lower for four activated cues. An analysis of the correct rate and error patterns show that the layout of vibrotactile cues can have significant effects on the localization performance of multiple vibrotactile cues. 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subjects	Adult Arm correct rate Cues Elbow Elbow (anatomy) Equipment Design Error correction Female Haptic interfaces Human performance Humans Layout Legged locomotion Localization Localization performance location identification Male Man-Machine Systems Motors perception Physical Stimulation Shoulder simultaneous activation of multiple cues Skin Touch Touch Perception Vibration Vibrations vibrotactile cues Wearable Electronic Devices Young Adult
title	Localization Performance of Multiple Vibrotactile Cues on Both Arms
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