Comparison of Saltation, Amplitude Modulation, and a Hybrid Method of Vibrotactile Stimulation

Illusory vibrotactile movement can be used to provide directional tactile information on the skin. Our research question was how the presentation method affects the perception of vibrotactile movement. Illusion of vibrotactile mediolateral movement was elicited to a left dorsal forearm to investigate cognitive and emotional experiences to vibrotactile stimulation. Eighteen participants were presented with stimuli delivered to a linearly aligned row of three vibrotactile actuators. Three presentation methods were used--saltation, amplitude modulation, and a hybrid method--to form 12 distinct patterns of movement. First, the stimuli were compared pairwise using a two-alternative forced-choice procedure (same-different judgments). Second, the stimuli were rated using three nine-point bipolar scales measuring the continuity, pleasantness, and arousal of each stimulus. The stimuli presented with the amplitude modulation method were rated significantly more continuous and pleasant, and less arousing. Strong correlations between the cognition-related scale of continuity and the emotion-related scales of pleasantness and arousal were found: More continuous stimuli were rated more pleasant and less arousing.

[1]  Georg v. Békésy,et al.  Neural Funneling along the Skin and between the Inner and Outer Hair Cells of the Cochlea , 1959 .

[2]  Paul Lemmens,et al.  A body-conforming tactile jacket to enrich movie viewing , 2009, World Haptics 2009 - Third Joint EuroHaptics conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems.

[3]  Roope Raisamo,et al.  Emotional and behavioral responses to haptic stimulation , 2008, CHI.

[4]  Leonardo Bonanni,et al.  TapTap: a haptic wearable for asynchronous distributed touch therapy , 2006, CHI Extended Abstracts.

[5]  F. A. Geldard Adventures in tactile literacy. , 1957 .

[6]  R W Cholewiak,et al.  The generation of vibrotactile patterns on a linear array: Influences of body site, time, and presentation mode , 2000, Perception & psychophysics.

[7]  Roope Raisamo,et al.  Evaluating the effect of temporal parameters for vibrotactile saltatory patterns , 2009, ICMI-MLMI '09.

[8]  Koji Yatani,et al.  SemFeel: a user interface with semantic tactile feedback for mobile touch-screen devices , 2009, UIST '09.

[9]  Y. Lamarre,et al.  Unmyelinated tactile afferents signal touch and project to insular cortex , 2002, Nature Neuroscience.

[10]  F A Geldard,et al.  Saltation in somesthesis. , 1982, Psychological bulletin.

[11]  Lynette A. Jones,et al.  Localization and Pattern Recognition with Tactile Displays , 2008, 2008 Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems.

[12]  Roope Raisamo,et al.  Vibrotactile information for intuitive speed regulation , 2009, BCS HCI.

[13]  M. Bradley,et al.  Measuring emotion: the Self-Assessment Manikin and the Semantic Differential. , 1994, Journal of behavior therapy and experimental psychiatry.

[14]  Lorna M. Brown,et al.  Multidimensional tactons for non-visual information presentation in mobile devices , 2006, Mobile HCI.