“Yubi-Toko: Finger Walking in Snowy Scene Using Pseudo-Haptic Technique on Touchpad”
Conference:
Type(s):
Title:
- Yubi-Toko: Finger Walking in Snowy Scene Using Pseudo-Haptic Technique on Touchpad
Description:
“Yubi-Toko” is a touchpad system in which users can walk in a snowy scene using their fingers and feel the difficulty in moving forward caused as generated by a pseudo-haptic technique (Fig. 1).
References:
[1]
Darken, R., Cockayne, W., and Carmein, D. 1997. “The Omni-Directional Treadmill: A Locomotion Device for Virtual Worlds.” … of the 10th Annual ACM …, 213–21.
[2]
Fernando, C. L., Igarashi, T., Inami, M., Sugimoto, M., Sugiura, Y., Withana, A. I., and Kakehi, G. 2009. “An Operating Method for a Bipedal Walking Robot for Entertainment.” In SIGGRAPH Asia 2009 Art Gallery & Emerging Technologies.
[3]
Fukumoto, M., and Sugimura, T. 2001. “Active Click: Tactile Feedback for Touch Panels.” {CHI} ’01 Extended Abstracts on Human Factors in Computing Systems, no. Figure 1: 121–22.
[4]
Iwata, H. 1999. “Torus Treadmill: Realizing Locomotion in VEs.” IEEE Computer Graphics and Applications 19: 30–35.
[5]
Kajimoto, H. 2012. “Skeletouch: Transparent Electro-Tactile Display for Mobile Surfaces.” In SIGGRAPH Asia 2012 Emerging Technologies on – SA ’12, 1–3.
[6]
Kim, J. S., Gračanin, D., Matković, K., and Quek, F. 2008. “Finger Walking in Place (FWIP): A Traveling Technique in Virtual Environments.” In Lecture Notes in Computer Science, 5166 LNCS:58–69.
[7]
Kokubun, A., Ban., Narumi, T., Tanikawa, T., and Hirose, M. 2014. “Representing Normal and Shearing Forces on the Mobile Device with Visuo-Haptic Interaction and a Rear Touch Interface.” In Haptics Symposium (HAPTICS), 2014 IEEE, 415–20.
[8]
Lécuyer, A. 2009. “Simulating Haptic Feedback Using Vision: A Survey of Research and Applications of Pseudo-Haptic Feedback.” In Presence, 18: 39–53.
[9]
Lockwood, N., and Singh, K. 2012. “Finger Walking: Motion Editing with Contact-Based Hand Performance.” In Proceedings of the ACM SIGGRAPH/Eurographics Symposium on Computer Animation, 43–52. SCA ’12.
[10]
Minsky, M. R. 1984. “Manipulating Simulated Objects with Real-World Gestures Using a Force and Position Sensitive Screen.” ACM SIGGRAPH Computer Graphics.
[11]
Pusch, Andreas, and Anatole Lécuyer. 2011. “Pseudo-Haptics: From the Theoretical Foundations to Practical System Design Guidelines.” In Proceedings of ICMI 2011, 57–64.
[12]
Ujitoko, Y., and Hirota, K. 2014. “Interpretation of Tactile Sensation Using an Anthropomorphic Finger Motion Interface to Operate a Virtual Avatar.” In 24th International Conference on Artificial Reality and Telexistence (ICAT), 2014.
[13]
Ujitoko, Y., and Hirota, K. 2014. “Impact of Illusory Resistance on Finger Walking Behavior.” In Virtual Reality (VR), 2015 IEEE.
[14]
Ujitoko, Y., and Hirota, K. 2015. “Application of the Locomotion Interface using Anthropomorphic Finger Motion.” In Human Interface and the Management of Information. Information and Knowledge in Context SE, Lecture Notes in Computer Science. Springer International Publishing.
[15]
Watanabe, J. 2013. “Pseudo-Haptic Sensation Elicited by Background Visual Motion.” ITE Transactions on Media Technology and Applications 1 (2): 199–202.
