Abstract
2.5D cartoon modelling is a recently proposed technique for modelling 2D cartoons in 3D, and enables 2D cartoons to be rotated and viewed in 3D. Automatic modelling is essential to efficiently create 2.5D cartoon models. Previous approaches to 2.5D modelling are based on manual 2D drawings by artists, which are inefficient and labour intensive. We recently proposed an automatic framework, known as Automatic 2.5D Cartoon Modelling (Auto-2CM). When building 2.5D models using Auto-2CM, the performance of different algorithm configurations on different kinds of objects may vary in different applications. The aim of perceptual evaluation is to investigate algorithm selection, i.e. selecting algorithm components for specific objects to improve the performance of Auto-2CM. This paper presents experimental results on different algorithms and recommends best practice for Auto-2CM.
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References
Perantonis, S., Agathos, A., Pratikakis, I., Sapidis, N.S.: Protrusion-oriented 3d mesh segmentation. The Visual Computer 26(1), 63–81 (2010)
An, F., Cai, X., Sowmya, A.: Automatic 2.5d cartoon modelling. Image and Vision Computing New Zealand 20, 149–154 (2011)
Attene, M., Falcidieno, B., Spagnuolo, M.: Hierarchical mesh segmentation based on fitting primitives. The Visual Computer 22(3), 181–193 (2006)
Bourguignon, D., Cani, M.P., Drettakis, G.: Drawing for illustration and annotation in 3d. Computer Graphics Forum 20, 114–123 (2001)
ÄŒadÃk, M.: Perceptual evaluation of color-to-grayscale image conversions. Computer Graphics Forum 27(7), 1745–1754 (2008)
Cavallaro, D.: The animé art of Hayao Miyazaki. McFarland & Co. (2006)
Chen, X., Golovinskiy, A., Funkhouser, T.: A benchmark for 3d mesh segmentation. In: ACM Transactions on Graphics (Proc. SIGGRAPH), vol. 28(3) (August 2009)
Di Fiore, F., Schaeken, P., Elens, K., Van Reeth, F.: Automatic in-betweening in computer assisted animation by exploiting 2.5d modelling techniques. In: Computer Animation, pp. 192–200 (2001)
Garcia, M., Dingliana, J., O’Sullivan, C.: Perceptual evaluation of cartoon physics: accuracy, attention, appeal. In: Proceedings of the 5th Symposium on Applied Perception in Graphics and Visualization, pp. 107–114 (2008)
Pražák, M., Hoyet, L., O’Sullivan, C.: Perceptual evaluation of footskate cleanup. In: Proceedings of the 2011 ACM SIGGRAPH/Eurographics Symposium on Computer Animation, pp. 287–294 (2011)
Rivers, A., Igarashi, T., Durand, F.: 2.5d cartoon models. ACM Transactions on Graphics 29(4) (2010)
Shapira, L., Shamir, A., Cohen-Or, D.: Consistent mesh partitioning and skeletonisation using the shape diameter function. The Visual Computer 24(4), 249–259 (2008)
Shilane, P., Min, P., Kazhdan, M., Funkhouser, T.: The princeton shape benchmark. In: Proceedings of Shape Modeling Applications, pp. 167–178 (2004)
ter Haarf, F., Veltkamp, R., Whitmarsh, T.: Shrec 2007 (2007), www.aimatshape.net/event/SHREC/
Zhang, J., Siddiqi, K., Macrini, D., Shokoufandeh, A., Dickinson, S.J.: Retrieving Articulated 3-D Models Using Medial Surfaces and Their Graph Spectra. In: Rangarajan, A., Vemuri, B.C., Yuille, A.L. (eds.) EMMCVPR 2005. LNCS, vol. 3757, pp. 285–300. Springer, Heidelberg (2005)
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An, F., Cai, X., Sowmya, A. (2012). Perceptual Evaluation of Automatic 2.5D Cartoon Modelling. In: Richards, D., Kang, B.H. (eds) Knowledge Management and Acquisition for Intelligent Systems. PKAW 2012. Lecture Notes in Computer Science(), vol 7457. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-32541-0_3
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DOI: https://doi.org/10.1007/978-3-642-32541-0_3
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