ABSTRACT
Relief is often used to add patterns to product surfaces, but interaction techniques for modeling relief on the surface of virtual objects have not received due attention. We adopt the repoussé and chasing artwork techniques in an alternative interaction technique for modeling relief on virtual surfaces. To support the interaction technique, we develop a double-sided touchpad called Trampoline that can detect the position and force of a finger touch on both sides. In addition, it provides an elastic feedback to users as the surface consists of an elastic fabric. With this device and the interaction technique developed, we implement a relief application and present modeling results that demonstrate the efficacy of our system.
Supplemental Material
Available for Download
Zip file containing a PDF of the Accompanying Poster and a video that explains the working principle and interaction techniques of our device.
- Follmer, S., Johnson, M., Adelson, E., and Ishii. H., deForm: An Interactive Malleable Surface For Capturing 2.5D Arbitrary Objects, Tools and Touch. In Proc. UIST, ACM Press (2011), 527--536. Google ScholarDigital Library
- Galyean, T. A., and Hughes, J. F. Sculpting: An Interactive Volumetric Modeling Technique. In Proc. SIGGRAPH, ACM Press (1991), 267--274. Google ScholarDigital Library
- Lee, G., Lee, S., Bang, W.-C., and Kim, Y. A TV Pointing Device Using LED Directivity. In Proc. ICCE, IEEE (2011), 619--620.Google ScholarCross Ref
- McDonnell, K. T., Qin, H., and Wlodarczyk, R. A. Virtual Clay: A Real-time Sculpting System with Haptic Yoolkits. In Proc. Interactive 3D graphics, ACM Press (2001), 179--190. Google ScholarDigital Library
- Relievos, Apple App Store, https://itunes.apple.com/appGoogle Scholar
- Sheng, J., Balakrishnan, R., and Singh, K. An Interface for Virtual 3D Sculpting via Physical Proxy. In Proc. GRAPHITE, ACM Press (2006), 213--220. Google ScholarDigital Library
- Smith, R. T., Thomas, B. H., and Piekarski, W. Digital Foam Interaction Techniques for 3D Modeling. In Proc. VRST, ACM Press (2008), 61--68. Google ScholarDigital Library
- Vlack, K., Mizota, T., Kawakami, N., Kamiyama, K., Kajimoto, H., and Tachi, S., GelForce: A Vision-based Traction Field Computer Interface. In Porc. CHI EA, ACM Press (2005), 1154--1155. Google ScholarDigital Library
- Wigdor, D., Leigh, D., Forlines, C., Shipman, S., Barnwell, J., Balakrishnan, R., and Shen, C. Under the Table Interaction. In Proc. UIST, ACM Press (2006), 259--268. Google ScholarDigital Library
Index Terms
- Trampoline: a double-sided elastic touch device for repoussé and chasing techniques
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