Abstract
In recent times, haptic technology has advanced to the point where it can be used to manipulate tactile perception. Although haptics research is very popular in academia, the relevant technologies have not yet been implemented to devices that are commonly used, except for small electronic devices. In this chapter, we propose a basic haptic device called the “TECHTILE toolkit” that can design haptic content. We conducted a usability study of our toolkit by hosting more than 50 workshops worldwide that involved professional researchers as well as members of the general public, from children in elementary schools to college students. We classify haptic experiences suggested by participants during the workshops, and also discuss potential haptic content.
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References
Iwata, H.: History of haptic interface. In: Grunwald, M. (ed.) Human Haptic Perception: Basics and Applications, pp. 355–361. Birkhäuser Basel, Berlin (2008)
Massie, T.H., Salisbury, J.K.S.: The PHANToM haptic interface: a device for probing virtual objects. In: ASME Haptic Interfaces for Virtual Environment and Teleoperator Systems in Dynamic Systems and Control, pp. 295–301 (1994)
Culbertson, H., Lopez Delgado, J.J., Kuchenbecker, K.J.: [D11] The Penn Haptic Texture Toolkit. In: Haptics Symposium (HAPTICS), 2014 IEEE, pp. 1–1 (2014)
Morimoto, T.K., Blikstein, P., Okamura, A.M.: [D81] Hapkit: an open-hardware haptic device for online education. In: Haptics Symposium (HAPTICS), 2014 IEEE, pp. 1–1 (2014)
Richard, C., Okamura, A.M., Cutkosky, M.R.: Getting a feel for dynamics: using haptic interface kits for teaching dynamics and controls. In: ASME IMECE 6th Annual Symposium on Haptic Interfaces, pp. 15–21 (1997)
Gallagher, S.: Philosophical conceptions of the self: implications for cognitive science. Trends Cogn. Sci. 4, 14–21 (2000)
Jacobson, R.: Information Design. The MIT Press, Cambridge, MA (2000)
Bergmann Tiest, W.M., Kappers, A.M.L.: Analysis of haptic perception of materials by multidimensional scaling and physical measurements of roughness and compressibility. Acta Psychol. 121, 1–20 (2006)
Shirado, H., Maeno, T.: Modeling of human texture perception for tactile displays and sensors. In: Eurohaptics Conference, 2005 and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems, 2005. World Haptics 2005. First Joint, pp. 629–630 (2005)
Okamoto, S., Nagano, H., Yamada, Y.: Psychophysical Dimensions of Tactile Perception of Textures. Haptics, IEEE Transactions on 6, pp. 81–93 (2013)
Lederman, S.J., Klatzky, R.L.: Hand movements: a window into haptic object recognition. Cogn. Psychol. 19, 342–368 (1987)
Finke, R.A.: Levels of equivalence in imagery and perception. Psychol. Rev. 87, 113–132 (1980)
Hollins, M.: Haptic mental rotation: more consistent in blind subjects? J. Vis. Impair. Blindness 80, 950–952 (1986)
Pavani, F., Spence, C., Driver, J.: Visual capture of touch: out-of-the-body experiences with rubber gloves. Psychol. Sci. 11, 353–359 (2000)
Lecuyer, A., Coquillart, S., Kheddar, A., Richard, P., Coiffet, P.: Pseudo-haptic feedback: can isometric input devices simulate force feedback? In: Virtual Reality, 2000. Proceedings. IEEE, pp. 83–90 (2000)
Jousmaki, V., Hari, R.: Parchment-skin illusion: sound-biased touch. Curr. Biol. 8, R190 (1998)
Tanaka, Y., Nagai, T., Sakaguchi, M., Fujiwara, M., Sano, A.: Tactile sensing system including bidirectionality and enhancement of haptic perception by tactile feedback to distant part. In: World Haptics Conference (WHC), 2013, pp. 145–150 (2013)
Lederman, S.J., Klatzky, R.L.: Haptic classification of common objects: knowledge-driven exploration. Cogn. Psychol. 22, 421–459 (1990)
Velasco, C., Jones, R., King, S., Spence, C.: The sound of temperature: what information do pouring sounds convey concerning the temperature of a beverage. J. Sens. Stud. 28, 335–345 (2013)
Grunwald, M.: Haptic Perception in Anorexia Nervosa. Human Haptic Perception: Basics and Applications, pp. 326–351. Springer, Berlin (2008)
Hashimoto, Y., Nagaya, N., Kojima, M., Miyajima, S., Ohtaki, J., Yamamoto, A., Mitani, T., Inami, M.: Straw-Like User Interface: Virtual Experience of the Sensation of Drinking Using a Straw. Proceedings of the 2006 ACM SIGCHI international conference on Advances in computer entertainment technology, p. 50. ACM, Hollywood (2006)
Acknowledgement
This work was in part supported by YCAM InterLab camp vol. 2, the JST-ACCEL “Embodied Media” Project, and the JST-CREST “Harmonized Inter-Personal Display Based on Position and Direction Control” Project.
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Nakatani, M., Kakehi, Y., Minamizawa, K., Mihara, S., Tachi, S. (2016). TECHTILE Workshop for Creating Haptic Content. In: Kajimoto, H., Saga, S., Konyo, M. (eds) Pervasive Haptics. Springer, Tokyo. https://doi.org/10.1007/978-4-431-55772-2_12
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DOI: https://doi.org/10.1007/978-4-431-55772-2_12
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