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A mosaicing approach for the acquisition and representation of 3D painted surfaces for conservation and restoration purposes

Authors:

Paolo Grattoni,

Massimiliano SpertinoAuthors Info & Claims

Machine Vision and Applications, Volume 15, Issue 1

Pages 1 - 10

https://doi.org/10.1007/s00138-003-0128-z

Published: 01 October 2003 Publication History

Abstract

This paper describes an approach to the acquisition and representation of information on 3D painted surfaces (usually frescoes) based on the tassellation and mosaicing of the whole surface. The acquisition is carried out using an active vision system specifically designed for these purposes. In this paper, particular emphasis is placed on the mosaicing procedure of the acquired images, which, while conceptually simple, allows one to obtain very good results thanks to the effective exploitation of the features of the acquisition system. A careful qualitative and quantitative analysis of the performances of the system, obtained through tests on real scenes in the laboratory, is also presented.

References

[1]

1. Besenghi R, Allasia G (1999) Scatterd data near-interpolation with application to discontinuos surfaces. Proceedings of the international conference on curve and surface fitting, Saint-Malo, France, pp 75-84

[2]

2. Burt PJ, Anandan P (1994) Image stabilization by registration to a reference mosaic. Proceedings of ARPA Image Understanding Workshop, Monterey, CA, pp 425-434

[3]

3. Cojoc D, Grattoni P, Nerino P, Pettiti G (1998) The 3Eyes active vision system in metrological applications. 5th symposium of optoelectronics SIOEI'98, Bucharest, Romania

[4]

4. Cojoc D, Grattoni P, Nerino R, Pettiti G (1999) Monitoring of the visual arts degrade by means of the active vision system "3Eyes". EUROGRAPHICS'99, Milano, Italy

[5]

5. Golub GH, Van Loan CF (1983) Matrix Computations. Johns Hopkins University Press, Baltimore, MD

[6]

6. Grattoni P, Nerino R, Pettiti G, Rastello ML (1996) Virtual museum: an active vision system for the recording of frescoes and mosaics. Proceedings of EVA'96 conference on electronic imaging and the visual arts, Florence, Italy

[7]

7. Hausen M, Anandan P, Dana K, van der Wal G, Burt P (1994) Real-time scene stabilization and mosaic construction. ARPA image understanding workshop, Monterey, CA, pp 457-465

[8]

8. Horn BKP (1987) Robot vision. MIT Press, Cambridge, MA

[9]

9. Huang H, Hung Y (1998) Panoramic stereo imaging system with automatic disparity warping and seaming. Graphical Models Image Proc 3:196-208

Digital Library

[10]

10. Irani M, Anandan P, Hsu S (1995) Mosaic based representations of video sequences and their applications. Proceedings of the 5th IEEE international conference on computer vision, Cambridge, MA, pp 605-611

[11]

11. Kang E, Cohen I, Medioni G (2000) A Graph-based global registration for 2d mosaics. 15th international conference on pattern recognition, Barcellona, Spain

[12]

12. Korn GA, Korn TM (1968) Mathematical handbook for scientist and engineers, 2nd ed. McGraw-Hill, New York

[13]

13. McMillan L, Bishop G (1995) Plenoptic modeling: an image-based rendering system. Proceedings of SIGGRAPH, pp 39-46

[14]

14. Pachos G (1998) Chromatic correlation features for texture recognition. Patt Recogn Lett 8:643-650

Digital Library

[15]

15. Peleg S, Herman J (1997a) Panoramic mosaics with Video-Brush. DARPA image understanding workshop, pp 261-264

[16]

16. Peleg S, Herman J (1997b) Panoramic mosaics by manifold projection. CVPR, pp 338-343

[17]

17. Pratt WK (1991) Digital image processing. Wiley, New York

[18]

18. Renka RL (1988) Algorithm 660: QSHEP2D: Quadratic Shepard method for bivariate interpolation to scattered data. ACM Transactions on mathematical software, 14:149-150

[19]

19. Sawhney HS, Ayer S, Gorkani M (1995) Model-based 2D&3D dominant motion estimation for mosaicing and video representation. Proceedings of IEEE international conference on computer vision, Cambridge, MA, pp 583-590

[20]

20. Sawhney HS, Ayer S (1996) Compact representations of videos through dominant and multiple motion estimation. IEEE Transactions on pattern analysis and machine intelligence, 8:814-830

Digital Library

[21]

21. Sawhney HS, Kumar R (1997) True multi-image alignment and its application to mosaicing and lens distorsion correction. Proceedings of IEEE conference on computer vision and pattern recognition, CVPR'97, Puerto Rico, 17-19 June 1997, pp 450-456

[22]

22. Sawhney HS, Hsu S, Kumar R (1998a) Robust video mosaicing through topology inference and local to global alignment. Proceedings of the 5th European conference on computer vision, Freiburg, Germany, pp 103-113

[23]

23. Sawhney HS, Kumar R, Gendel G, Bergen J, Dixon D, Paragano V (1998b) VideoBrush: experiences with consumer video mosaicing. Proceedings of the 4th IEEE workshop on applications of computer vision, WACV'98, Princeton, NJ, 19-21 October 1998, pp 56-62

[24]

24. Sawhney HS, Kumar R (1999) True multi-image alignement and its application to masaicing and lens distortion correction. IEEE Transactions on pattern analysis and machine intelligence, 21(3):235-243

Digital Library

[25]

25. Shum H, Szeliski R (1998) Construction and refinement of panoramic mosaics with global and local alignment. Proceedings of the international conference on computer vision, ICCV'98, India, 1998, pp 953-958

[26]

26. Szeliski R, Shum H (1997) Creating full view panoramic image mosaics and environment maps. Proceedings of SIGGRAPH, pp 255-258

[27]

27. Tsai RY (1986) An efficient and accurate calibration technique for 3D machine vision. Proceedings of the IEEE international conference on computer vision and pattern recognition, Miami Beach, pp 364-374

[28]

28. Wolf PR (1983) Elements of photogrammetry. McGraw-Hill, New York

Cited By

Tabata TKomuro TIshikawa M(2018)Surface image synthesis of moving spinning cans using a 1,000-fps area scan cameraMachine Vision and Applications10.1007/s00138-010-0247-221:5(643-652)Online publication date: 28-Dec-2018
https://dl.acm.org/doi/10.1007/s00138-010-0247-2
Larue FAmmann LDischler J(2007)A pipeline for the digitization and the realistic rendering of paintingsProceedings of the 8th International conference on Virtual Reality, Archaeology and Intelligent Cultural Heritage10.5555/2384154.2384168(71-78)Online publication date: 26-Nov-2007
https://dl.acm.org/doi/10.5555/2384154.2384168
Sato TIketani AIkeda SKanbara MNakajima NYokoya NFinnegan JPfister H(2006)Video mosaicing for curved documents by structure from motionACM SIGGRAPH 2006 Sketches10.1145/1179849.1180007(126-es)Online publication date: 30-Jul-2006
https://dl.acm.org/doi/10.1145/1179849.1180007

Index Terms

A mosaicing approach for the acquisition and representation of 3D painted surfaces for conservation and restoration purposes
1. Applied computing
  1. Arts and humanities
    1. Fine arts
    2. Performing arts
2. Computing methodologies
  1. Artificial intelligence
    1. Computer vision
      1. Computer vision tasks
      2. Image and video acquisition
        3D imaging
  2. Computer graphics
    1. Image manipulation

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Information & Contributors

Information

Published In

cover image Machine Vision and Applications

Machine Vision and Applications Volume 15, Issue 1

October 2003

53 pages

ISSN:0932-8092

Issue’s Table of Contents

Publisher

Springer-Verlag

Berlin, Heidelberg

Publication History

Published: 01 October 2003

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Cited By

Tabata TKomuro TIshikawa M(2018)Surface image synthesis of moving spinning cans using a 1,000-fps area scan cameraMachine Vision and Applications10.1007/s00138-010-0247-221:5(643-652)Online publication date: 28-Dec-2018
https://dl.acm.org/doi/10.1007/s00138-010-0247-2
Larue FAmmann LDischler J(2007)A pipeline for the digitization and the realistic rendering of paintingsProceedings of the 8th International conference on Virtual Reality, Archaeology and Intelligent Cultural Heritage10.5555/2384154.2384168(71-78)Online publication date: 26-Nov-2007
https://dl.acm.org/doi/10.5555/2384154.2384168
Sato TIketani AIkeda SKanbara MNakajima NYokoya NFinnegan JPfister H(2006)Video mosaicing for curved documents by structure from motionACM SIGGRAPH 2006 Sketches10.1145/1179849.1180007(126-es)Online publication date: 30-Jul-2006
https://dl.acm.org/doi/10.1145/1179849.1180007

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