A Thermal Pattern Design for Providing Dynamic Thermal Feedback on the Face with Head Mounted Displays

This paper presents our preliminary exploration of providing dynamic thermal haptic feedback on the face. We have designed a thermal feedback prototype that integrates Peltier modules directly with a head mounted display which is able to provide thermal output directly on users' faces. We explored the possibility of providing dynamic thermal feedback which could present information and enhance user experience through designing four initial dynamic thermal patterns of our prototype. We also conducted a preliminary user experiment and analysis of the design of different patterns ("dynamic information") to evaluate the design on three aspects, the accuracy of recognition of dynamic stimuli, smoothness of the movement and comfort level. Our results indicate that the accuracy of recognition of dynamic stimuli was approximately 71.84%.

[1]  I. Darian‐Smith,et al.  Thermal sensibility and thermoreceptors. , 1977, The Journal of investigative dermatology.

[2]  Hsin-Ni Ho,et al.  Contribution of thermal cues to material discrimination and localization , 2006, Perception & psychophysics.

[3]  Suguru Higashino,et al.  "Hiya-Atsu" media: augmenting digital media with temperature , 2009, CHI Extended Abstracts.

[4]  Haibo Li,et al.  Turn Your Mobile Into the Ball: Rendering Live Football Game Using Vibration , 2008, IEEE Transactions on Multimedia.

[5]  Pattie Maes,et al.  GyroVR: Simulating Inertia in Virtual Reality using Head Worn Flywheels , 2016, UIST.

[6]  Anderson Maciel,et al.  Localized Magnification in Vibrotactile HMDs for Accurate Spatial Awareness , 2016, EuroHaptics.

[7]  Wei Peng,et al.  ThermoVR: Exploring Integrated Thermal Haptic Feedback with Head Mounted Displays , 2017, CHI.

[8]  A. Kheddar,et al.  Thermal feedback model for virtual reality , 2003, MHS2003. Proceedings of 2003 International Symposium on Micromechatronics and Human Science (IEEE Cat. No.03TH8717).

[9]  Kouta Minamizawa,et al.  Thermocons: Evaluating the Thermal Haptic Perception of the Forehead , 2016, UIST.

[10]  K. O. Johnson,et al.  Peripheral neural determinants of temperature discrimination in man: a correlative study of responses to cooling skin. , 1973, Journal of neurophysiology.

[11]  Wonjun Lee,et al.  Thermo-message: exploring the potential of heat as a modality of peripheral expression , 2010, CHI Extended Abstracts.

[12]  Lawrence E. Marks,et al.  Temporal summation at the warmth threshold , 1973 .

[13]  Pedro Lopes,et al.  Impacto: Simulating Physical Impact by Combining Tactile Stimulation with Electrical Muscle Stimulation , 2015, UIST.

[14]  Dhruv Jain,et al.  Immersive Scuba Diving Simulator Using Virtual Reality , 2016, UIST.

[15]  Lynette A. Jones,et al.  Warm or Cool, Large or Small? The Challenge of Thermal Displays , 2008, IEEE Transactions on Haptics.

[16]  D. Kenshalo CORRELATIONS OF TEMPERATURE SENSITIVITY IN MAN AND MONKEY, A FIRST APPROXIMATION , 1976 .

[17]  Banks Wp Areal and temporal summation in the thermal reaction time. , 1976 .

[18]  W P Banks Areal and temporal summation in the thermal reaction time. , 1976, Sensory processes.

[19]  Anthony Dunnigan,et al.  ThermoTouch: Design of a High Dynamic Temperature Range Thermal Haptic Display , 2016, CHI Extended Abstracts.