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Autor
Borawski Mariusz (West Pomeranian University of Technology)
Tytuł
Non-Photorealistic Rendering with the use of Short Segments of Straight Lines in a vector Space of Increments
Źródło
Control and Cybernetics, 2014, vol. 43, nr 1, s. 161-178, rys., bibliogr. s. 177-178
Słowa kluczowe
Modelowanie obrazu cyfrowego, Przetwarzanie obrazu, Grafika komputerowa
Modeling of digital image, Image processing, Computer graphics
Uwagi
summ.
Abstrakt
In the article, a two-stagemethod of non-photorealistic rendering is presented. In the first stage, short segments of straight lines described by vectors and tangential to the object contours are generated. On this basis, a vector image is created with the use of vector space of increments. This image can be a vector representation of the object contours in the picture. (original abstract)
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Biblioteka Główna Uniwersytetu Ekonomicznego w Krakowie
Biblioteka Szkoły Głównej Handlowej
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Bibliografia
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  1. Arman, P.V. (2013), Zanelle /http://www.vanarman.com/S.
  2. Borawski, M. (2012), Vector space of increments. Control and Cybernetics, 1, 145-170.
  3. Bronsztejn, I.. Siemiendiajew, K., Musiol, G., Mühlig, H. (2004), Nowoczesne kompendium matematyki (Modern Compendium of Mathematics). PWN, Warszawa.
  4. Canny, J. (1986), A computational approach to edge detection. IEEE Transactions on Pattern Analysis and Machine Intelligence 86, 679-698.
  5. Curtis, C.J., Anderson, S.E., Seims, J.E., Fleischery, K.W., Salesin, D.E. (1997), Computer-generated watercolor. Proceedings of ACM SIGGRAPH. ACM, 421-430.
  6. DeCarlo, D., Santella, A. (2002), Stylization and Abstraction of Photographs. Proc. of ACM SIGGRAPH 02. ACM, 769-776.
  7. Deriche, R. (1987), Using Canny's criteria to derive a recursively implemented optimal edge detector. Int. J. Computer Vision, 1, 167-187.
  8. Fischer, J., Bartz, D., Strasser, W. (2005), Stylized augmented reality for improved immersion. VR'05. Proc. of the 2005 IEEE Conference on Virtual Reality. IEEE Computer Society, 195-202.
  9. Grompone von Gioi, R., Jereme, J., Morel, J., Randall, G. (2012), LSD: a Line Segment Detector. Image Processing On Line, http://www. ipol.im/pub/art/2012/gjmr-lsd/.
  10. Haeberli, P. (1990), Paint by numbers: Abstract image representations. Proc. of ACM SIGGRAPH 90. ACM, 207-214.
  11. Kasao, A., Miyata, K. (2006), Algorithmic Painter: a NPR method to generate various styles of painting. Visual Comput, 22, 14-27.
  12. Kang, H., Lee, S., Chui, C.K. (2007), Coherent line drawing. NPARTM07: Proceedings of the 5th international symposium on non-photorealistic an- imation and rendering. ACM, New York, NY, USA, 43 50.
  13. Lee, K. J., Kim, D. H., Yun, I. D., Lee, S. U. (2007), Three-dimensional oil painting reconstruction with stroke based rendering. Visual Comput, 23, 873-880.
  14. Lindemeier T., Pirk S., Deussen O. (2013), Image stylization with a painting machine using semantic hints. Computers & Graphics, 37, 293- 301.
  15. Litwinowicz, P. (1997), Processing images and video for an impressionist effect. Proc. of ACM SIGGRAPH 97. ACM, 407-414.
  16. Lu, C., Xu, L., Jia, J. (2012), Combining Sketch and Tone for Pencil Drawing Production. International Symposium on Non-Photorealistic Animation and Rendering (NPAR 2012). Eurographics Associatin, Airela- Ville, 65-73
  17. Kelly, L., Marx, D. (2013), The vangobot project. http://vangobot.com/S.
  18. Pratt, K.W. (2001), Digital Image Processing. A Wiley-Interscience Publication, New York.
  19. Takagi, S., Fujishiro, I., Nakajima, M. (1999), Volumetric modeling of colored pencil drawing. Proceedings of Pacific Graphics. IEEE Computer Society, 250-258.
  20. Wang, S., Wu, E., Liu, Y., Liu, X., Chen, Y. (2012a), Abstract line drawings from photographs using flow-based filters. Computers & Graphics, 36, 224-231.
  21. Wang, S., Ma, Z., Liu, X., Chen, Y., Wu, E. (2012b), Coherenceenhancing line drawing for color images. Science China Information Sciences, 36, 1-11.
  22. Winkenbach, G., Salesin, D.H. (1994), Rendering parametric surfaces in pen and ink. Proceedings of ACM SIGGRAPH. ACM, 91-100.
  23. Xiao D., Tao, Ch. (2007), A line detection algorithm based on error propagation. Proceedings of the 26th Chinese Control Conference, 493-497.
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ISSN
0324-8569
Język
eng
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