Abstract
We studied the subjectively perceived intensity of the haptic feedback and the effects of the integration of the audio and haptic feedback. The purpose of the study was to specify design principles for haptic feedback on a piezo actuator enhanced mobile touch display device. The results of the study showed that the best corresponding physical parameter to perceived feedback intensity was the acceleration of the haptic stimulus pulse. It was also noticed that the audio stimuli was biasing the perception of the haptic stimuli intensity. These results clarify the principles behind haptic feedback design and imply that the multisensory integration should be stressed when designing haptic interaction.
Access provided by Autonomous University of Puebla. Download to read the full chapter text
Chapter PDF
Similar content being viewed by others
Keywords
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
References
Poupyrev, I., Maruyama, S.: Tactile Interfaces for Small Touch Screens. In: Proceedings of UIST 2003, pp. 217–220. ACM Press, New York (2003)
Fukumoto, M., Sugimura, T.: Active Click: Tactile Feedback for Touch Panels. In: CHI 2001, Extended Abstracts, pp. 121–122. ACM Press, New York (2001)
MacLean, K.E.: Designing with Haptic Feedback. In: Proceedings of the 2000 IEEE International Conference of Robotics & Automation, pp. 783–788 (2000)
de Gelder, B., Bertelson, P.: Multisensory Integration, Perception and Ecological Validity. Trends in Cognitive Neurosciences 7(10), 460–467 (2003)
Bertelson, P., de Gelder, B.: The Psychology of Multimodal Perception. In: Spence, C., Driver, J. (eds.) Crossmodal Space and Crossmodal Attention, pp. 141–177. Oxford University Press, New York (2004)
Pavani, F., Spence, C., Driver, J.: Visual Capture of Touch: Out-of-the-Body Experiences with Rubber Gloves. Psychological Science 11(5), 353–359 (2000)
Caclin, A., Soto-Faraco, S., Kingstone, A., Spence, C.: Tactile Capture of Audition. Perception & Psychophysics 64(4), 616–630 (2002)
Lederman, S., Klatzky, R.: Multisensory Texture Perception. In: Calvert, G., Spence, C., Stein, B. (eds.) The Handbook of Multisensory Processes, pp. 107–122. The MIT Press, Cambridge (2004)
Jousmäki, V., Hari, R.: Parchment-Skin Illusion: Sound Biased Touch. Current Biology 8(6), R190 (1998)
Zampini, M., Guest, S., Spence, C.: The Role of Auditory Cues in Modulating the Perception of Electric Toothbrushes. Journal of Dental Research 82(11), 929–932 (2003)
Bresciani, J.-P., Ernst, M.O., Drewing, K., Bouyer, G., Maury, V., Kheddar, A.: Feeling What You Hear: Auditory Signals Can Modulate Tactile Tap Perception. Experimental Brain Research 162, 172–180 (2005)
Lloyd, D., Merat, N., McGlone, F., Spence, C.: Crossmodal Links Between Audition and Touch in Covert Endogenous Spatial Attention. Perception & Psychophysics 65(6), 901–924 (2003)
Driver, J., Spence, C.: Crossmodal Spatial Attention: Evidence from Human Performance. In: Spence, C., Driver, J. (eds.) Crossmodal Space and Crossmodal Attention, pp. 180–220. Oxford University Press, New York (2004)
Schürmann, M., Caetano, G., Jousmäki, V., Hari, R.: Hands Help Hearing: Facilitatory Audiotactile Interaction at Low Sound-Intensity Levels. Journal of Acoustical Society of America 115(2), 830–832 (2004)
Tuovinen, J.: Piezoelectric User Interface, EP1449267 (2002)
Poupyrev, I., Maruyama, S., Rekimoto, J.: Ambient Touch: Designing Tactile Interfaces For Handheld Devices. In: Proceedings of the 15th annual ACM Symposium on User Interface Software and Technology, pp. 51–60 (2002)
DeVoe, D., Pisano, A.J.: Modeling and Optimal Design of Piezoelectric Cantilevermicroactuators. Microelectrical Systems 6(3), 266–270 (1997)
Giurgiutiu, V., Chaudhry, Z., Rogers, C.A.: Stiffness Issues in the Design of ISA Displacement Amplification Devices: A Case Study of a Hydraulic Displacement Amplifier. In: Chopra, I. (ed.) Proceedings of SPIE, Smart Structures and Materials 1995: Smart Structures and Integrated Systems, vol. 2443, pp. 105–119 (1995)
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2006 Springer-Verlag Berlin Heidelberg
About this paper
Cite this paper
Tikka, V., Laitinen, P. (2006). Designing Haptic Feedback for Touch Display: Experimental Study of Perceived Intensity and Integration of Haptic and Audio. In: McGookin, D., Brewster, S. (eds) Haptic and Audio Interaction Design. HAID 2006. Lecture Notes in Computer Science, vol 4129. Springer, Berlin, Heidelberg. https://doi.org/10.1007/11821731_4
Download citation
DOI: https://doi.org/10.1007/11821731_4
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-37595-1
Online ISBN: 978-3-540-37596-8
eBook Packages: Computer ScienceComputer Science (R0)