Morphing in periodic tactile signals

Humans naturally use both categorical and continuous structures when classifying perceptual experiences. However, design of haptic information displays is eased by the availability of design parameters that can be smoothly modulated along a continuous dimension. Taking guidance from visual and audit...

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Main Authors: MacLean, K.E., Enriquez, M.J., Tian Lim
Format: Conference Proceeding
Language:English
Subjects:
Cities and towns
Computer science
Displays
Frequency
Haptic interfaces
Human-computer interaction
Humans
Perception and psychophysics
Psychology
Tactile devices and display
Teleoperators
Virtual environment
Visualization
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Enriquez, M.J.
Tian Lim
description Humans naturally use both categorical and continuous structures when classifying perceptual experiences. However, design of haptic information displays is eased by the availability of design parameters that can be smoothly modulated along a continuous dimension. Taking guidance from visual and auditory media design, we identified and validated a perceptually successful ldquomorphrdquo function that modulates a tactile vibration between two disparate endpoints (a square and a triangle or sine wave), by varying the magnitude of the vertical (highest frequency content) component of the waveform. This finding suggests a specific psychonomic function related to frequency perception, points towards a practical utility in haptic information design, and supports reflections on further possibilities for haptic morphing.
doi_str_mv 10.1109/WHC.2009.4810844
format conference_proceeding
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identifier ISBN: 9781424438587
ispartof World Haptics 2009 - Third Joint EuroHaptics conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems, 2009, p.178-183
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Cities and towns
Computer science
Displays
Frequency
Haptic interfaces
Human-computer interaction
Humans
Perception and psychophysics
Psychology
Tactile devices and display
Teleoperators
Virtual environment
Visualization
title Morphing in periodic tactile signals
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