Wearable Haptic Pneumatic Device for Creating the Illusion of Lateral Motion on the Arm

This paper presents the design of a novel haptic wearable device capable of creating the illusion of a continuous lateral motion on the forearm to mimic a stroking gesture commonly used in social touch. The device is composed of a fabric sleeve with a linear array of thermoplastic pneumatic actuators. The actuators are sequentially inflated and deflated, carefully controlling the amount of inflation of each actuator using an electronic pressure regulator. The travelling wave of pressure up the arm creates the illusion of lateral motion, even though no physical lateral motion occurs. We evaluate the device in a human-subject study to determine the optimal actuation parameters that create the most continuous and pleasant sensation. The results of the study indicate that short inflation times create a more continuous and pleasant sensation, but the pressure change during inflation does not affect continuity and pleasantness.

[1]  Ding Xu,et al.  PneuHaptic: delivering haptic cues with a pneumatic armband , 2015, SEMWEB.

[2]  D. Keltner,et al.  The communication of emotion via touch. , 2009, Emotion.

[3]  Vincent Hayward,et al.  Wearable Haptic Systems for the Fingertip and the Hand: Taxonomy, Review, and Perspectives , 2017, IEEE Transactions on Haptics.

[4]  Robin I. M. Dunbar,et al.  Topography of social touching depends on emotional bonds between humans , 2015, Proceedings of the National Academy of Sciences.

[5]  Allison M. Okamura,et al.  HapWRAP: Soft Growing Wearable Haptic Device , 2018, 2018 IEEE International Conference on Robotics and Automation (ICRA).

[6]  Robert W. Lindeman,et al.  Towards full-body haptic feedback: the design and deployment of a spatialized vibrotactile feedback system , 2004, VRST '04.

[7]  Ali Israr,et al.  A social haptic device to create continuous lateral motion using sequential normal indentation , 2018, 2018 IEEE Haptics Symposium (HAPTICS).

[8]  Jeremy N. Bailenson,et al.  Virtual Interpersonal Touch: Expressing and Recognizing Emotions Through Haptic Devices , 2007, Hum. Comput. Interact..

[9]  Lynette A. Jones,et al.  Development of a tactile vest , 2004, 12th International Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems, 2004. HAPTICS '04. Proceedings..

[10]  Warren S. Grundfest,et al.  Fabrication and Characterization of a Balloon Actuator Array for Haptic Feedback in Robotic Surgery , 2008 .

[11]  Jonathan Steuer,et al.  Defining virtual reality: dimensions determining telepresence , 1992 .

[12]  Mario J. Enriquez,et al.  A pneumatic tactile alerting system for the driving environment , 2001, PUI '01.

[13]  Hiroyuki Kajimoto,et al.  Development of a Wearable Haptic Device that Presents the Haptic Sensation Corresponding to Three Fingers on the Forearm , 2018, SUI.

[14]  Mehdi Ammi,et al.  Haptic communication of dimensions of emotions using air jet based tactile stimulation , 2015, Journal on Multimodal User Interfaces.

[15]  Ryuta Okazaki,et al.  HALUX: projection-based interactive skin for digital sports , 2016, SIGGRAPH Emerging Technologies.

[16]  Ali Israr,et al.  Tactile brush: drawing on skin with a tactile grid display , 2011, CHI.

[17]  E. Pfeiffer Electrical stimulation of sensory nerves with skin electrodes for research, diagnosis, communication and behavioral conditioning: A survey , 1968, Medical and biological engineering.

[18]  Roope Raisamo,et al.  Comparison of Saltation, Amplitude Modulation, and a Hybrid Method of Vibrotactile Stimulation , 2013, IEEE Transactions on Haptics.

[19]  Alexander Toet,et al.  Social Touch in Human–Computer Interaction , 2015, Front. Digit. Humanit..

[20]  Allison M. Okamura,et al.  WRAP: Wearable, restricted-aperture pneumatics for haptic guidance , 2017, 2017 IEEE International Conference on Robotics and Automation (ICRA).

[21]  Jonathan Rossiter,et al.  The Tickler: A Compliant Wearable Tactile Display for Stroking and Tickling , 2015, CHI Extended Abstracts.

[22]  Kwang-Seok Yun,et al.  Three-axis tactile display using PDMS pneumatic actuator for robot-assisted surgery , 2011, 2011 16th International Solid-State Sensors, Actuators and Microsystems Conference.

[23]  Aduén Darriba Frederiks,et al.  Simulating Affective Touch: Using a Vibrotactile Array to Generate Pleasant Stroking Sensations , 2016, EuroHaptics.

[24]  Eva Hornecker,et al.  A stroking device for spatially separated couples , 2008, Mobile HCI.

[25]  Matthew J. Hertenstein,et al.  Nonverbal channel use in communication of emotion: how may depend on why. , 2011, Emotion.