Abstract
In this study, we examined methods of sensing roughness with haptic displays. We used a PHANToM DeskTop-E Device (Sensable Technologies) as our haptic device. Representation of paper quality applies to dictionaries, notebooks and other everyday items, not just calligraphy and washi paper(Japanese paper). In contrast, the discrimination thresholds were Z0.75 = 1.0 [N] for dynamic friction and Z0.75 = 0.25[N] for static friction. In the case of PHANToM DeskTop-E, we showed that we made a large range of the comparison friction.
Chapter PDF
Similar content being viewed by others
References
Ohnishi, H., Mochizuki, K.: Effect of Delay of Feedback Force on Perception of Elastic Force: A Psychophysical Approach. IEICE Trans. Commun. E90-B(1), 12–20 (2007)
Sensable OpenHapticsTM programmer’s guide
Okamoto, Y.: Psychometrics. Baifukan (2007) (in Japanese)
Morgan, C.T., Cook, J.S., Chapanis, A., Lund, M.W.: Ergonomics data book. McGraw-HillBook Company, Inc. (1972)
Ishihara, M.: On First Impression of the Teaching Materials which used Haptic Display. IEE of Jpn. Trans. Fundamentals and Materials 129(7), 490–491 (2009) (in Japanese)
Ishihara, M.: “ Assessment of paper’s roughnessfor haptic device”. In: Proceedings of Forum Information Technology 2011, K-032 Hokkaido, Jpn., (September 2011) (in Japanese)
Hirose, M.: Virtual Reality. Sangyo Tosho (1993) (in Japanese)
Yoshida, T., Muranaka, N., Imanishi, S.: A Construction of Educational Application System for Calligrapy Master based on Virtual Reality. IEEE of Jpn. Trans. Electronics, Information and Systems 117-C(11), 1629–1634 (1997) (in Japanese)
Yoshida, T., Yamamoto, T., Imanishi, S.: A Calligraphy Mastering Support System Using Virtual Reality Technology and its Learning Effects. IEEE of Jpn., Trans. Fundamentals and Materials 123-A(12), 1206–1216 (2003) (in Japanese)
Henmi, K., Yoshikawa, T.: Virtual Lesson and Its Application to Virtual Calligraphy System. TVRSJ 3(1), 13–19 (1983) (in Japanese)
Sakuma, M., Masamori, S., Harada, T., Hirata, Y., Satou, M.: A Remote Lesson System for Japanese Calligraphy using SPIDAR. IEICE of Jpn., Technical Report, MVE99-52, pp. 27–32 (October 1999) (in Japanese)
Otsuka, G., Sodeyama, G., Muranaka, N., Imanishi, S.: A Construction of a Piano Training System based on Virtual Reality. IEEE of Jpn., Trans. Electronics, Information and Systems 116-C(11), 1288–1294 (1996) (in Japanese)
Yamaguchi, Y., Kitamura, Y., Kishino, F.: Analysis of Learning Process of Virtual Chopsticks. IEICE of Jpn., Technical Report, MVE2001-3, pp.11–16 (June 2001) (in Japanese)
Muranaka, N., Tokumaru, M., Imanishi, S.: The penmanship (script learning) support system: Education effect of the animation model for pen strokes. IEICE of Jpn., Technical Report, ET2005-115, pp.151–156 (March 2006) (in Japanese)
Ishihara, M.: Prototype of Haptic Device and Pen Tablet Collaborative Work System. Journal of Computing 3(8), 51–54 (2011)
Ishihara, M.: Empirical Study Regarding Re-presenting Roughness with Haptic Devices. In: Proceedings of 2013 IEEE 2nd GCCE, Chiba, Japan, pp. 471–473 (October 2013)
Ishihara, M., et al.: Characteristic of Representing Roughness with Haptic Devices. In: Proceedings of ICEE 2014, Jeju, Korea (in Press, 2014)
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2014 Springer International Publishing Switzerland
About this paper
Cite this paper
Ishihara, M. (2014). Haptic Display of Representing Roughness. In: Stephanidis, C. (eds) HCI International 2014 - Posters’ Extended Abstracts. HCI 2014. Communications in Computer and Information Science, vol 434. Springer, Cham. https://doi.org/10.1007/978-3-319-07857-1_104
Download citation
DOI: https://doi.org/10.1007/978-3-319-07857-1_104
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-07856-4
Online ISBN: 978-3-319-07857-1
eBook Packages: Computer ScienceComputer Science (R0)