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Interactive Image Reconstruction from its Incomplete, Irregular and Imprecise Fragments

Bahar Taşkesen
Middle East Technical University, Turkey

Anthony George Constantinides
Imperial College London, United Kingdom


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Keywords: Image Reconstruction, Image Fragments, Archaeological Images

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Pages: 26-33

Published by: Firenze University Press

Publication year: 2018

DOI: 10.36253/978-88-6453-707-8.07

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Publication year: 2018

DOI: 10.36253/978-88-6453-707-8.07

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© 2018 Author(s)
Content licence CC BY 4.0
Metadata licence CC0 1.0

References

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  2. G. Papaioannou, E.-A. Karabassi, and T. Theoharis, “Virtual archaeologist: Assembling the past," IEEE Computer Graphics and Applications, vol. 21, no. 2, pp. 53-59, 2001.
  3. D. Koller and M. Levoy, “Computer-aided reconstruction and new matches in the forma urbis romae," Bullettino Della Commissione Archeologica Comunale di Roma, vol. 2, 2006.
  4. E. Tsamoura and I. Pitas, “Automatic color based reassembly of fragmented images and paintings," IEEE Transactions on Image Processing, vol. 19, no. 3, pp. 680-690, 2010.
  5. M. S. Sagiroglu and A. Ercil, “A texture based matching approach for automated assembly of puzzles," in Pattern Recognition, 2006. ICPR 2006. 18th International Conference on, vol. 3. IEEE, 2006, pp. 1036-1041.
  6. F. Amigoni, S. Gazzani, and S. Podico, “A method for reassembling fragments in image reconstruction," in Image Processing, 2003. ICIP 2003. Proceedings. 2003 International Conference on, vol. 3. IEEE, 2003, pp. III-581.
  7. K. Zhang and X. Li, “A graph-based optimization algorithm for fragmented image reassembly," Graphical Models, vol. 76, no. 5, pp. 484-495, 2014.
  8. W. Kong and B. B. Kimia, “On solving 2d and 3d puzzles using curve matching," in Computer Vision and Pattern Recognition, 2001. CVPR 2001. Proceedings of the 2001 IEEE Computer Society Conference on, vol. 2. IEEE, 2001, pp. II-II.
  9. H. C. da Gama Leiăto and J. Stol, “A multiscale method for the re-assembly of two-dimensional fragmented objects," IEEE Transactions on Pattern Analysis and Machine Intelligence, vol. 24, no. 9, pp. 1239-1251, 2002.
  10. H. Shin, C. Doumas, T. A. Funkhouser, S. Rusinkiewicz, K. Steiglitz, A. Vlachopoulos, and T. Weyrich, “Analyzing fracture patterns in theranwall paintings." in VAST, 2010, pp. 71-78.
  11. C. Papaodysseus, M. Panagopoulos, P. Rousopoulos, G. Galanopoulos, and C. Doumas, “Geometric templates used in the akrotiri (thera) wall paintings," antiquity, vol. 82, no. 316, pp. 401-408, 2008.
  12. B. J. Brown, C. Toler-Franklin, D. Nehab, M. Burns, D. Dobkin, A. Vlachopoulos, C. Doumas, S. Rusinkiewicz, and T. Weyrich, “A system for highvolume acquisition and matching of fresco fragments: Reassem-bling theran wall paintings," in ACM transactions on graphics (TOG), vol. 27, no. 3. ACM, 2008, p. 84.
  13. C. Toler-Franklin, B. Brown,T. Weyrich, T. Funkhouser, and S. Rusinkiewicz, “Multi-feature matching of fresco fragments," in ACM Transactions on Graphics (TOG), vol. 29, no. 6.ACM, 2010, p. 185

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Cita come:
Taşkesen, B.; Constantinides, A.; 2018; Interactive Image Reconstruction from its Incomplete, Irregular and Imprecise Fragments. Firenze, Firenze University Press.


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