Abstract

Experiments have been carried out with laser scanning of a standard (test) object, followed by the creation of an electronic three-dimensional model of the object. A technique is proposed and described for investigating the accuracy of the measurements using three-dimensional scanning.

© 2012 OSA

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  1. G. Sansoni, M. Trebechi, and F. Docchio, “State-of-the-art and application of 3D-imaging sensors in industry, cultural heritage, medicine, and criminal investigation,” Sensors 9, 568 (2009).
    [PubMed]
  2. N. V. Kanashin, “Mapping railroad stations by means of laser scanning,” Put’ Putevoe Khoz. No. 7, 15 (2008).
  3. A. A. Burtsev, “Innovation technologies for automating mine surveying during the construction of underground installations,” Geoprofi No. 7, 26 (2011).
  4. R. Fontana, M. Gambino, M. Greco, E. Pampaloni, L. Pezzati, and R. Scopigno, “High-resolution 3D-digital models of artworks,” Proc. SPIE 5146, 34 (2003).
  5. A. Ya. Freĭdin and V. A. Parfenov, “Three-dimensional laser scanning and its application for imaging architectural structures and the restoration of monuments,” Opt. Zh. 74, No. 8, 44 (2007). [J. Opt. Technol. 74, 545 (2007)].
  6. A. E. Voĭnarovskiĭ, “Combining methods of three-dimensional laser scanning and digital photogrammetry for recording and measuring architectural monuments,” Relikviya (Restavratsiya. Konservatsiya. Muzei) No. 21, 30 (2009).
  7. W. Boehler, V. M. Bordas, and A. Marbs, “Investigating laser scanner accuracy,” in Proc. of the Nineteenth CIPA, 2003, pp. 189–194.
  8. D. Lighti and B. Harvey, “The effects of reflecting surface properties on time-of-flight laser scanner measurements,” IAPRS 34, 87 (2002).
  9. J. R. McIntosh, “Comparison of the spatial accuracy of disparate 3D-laser point clouds in large-scale 3D modeling and physical reproduction projects for large Cultural Heritage structures,” Thesis for Degree of Master of Science, Curtin University of Technology, Dec. 2006, Vol. 1, pp. 1–25.
  10. P. S. Fowels, “The garden temple at Ince Blundell: a case study in the recording and non-contact replication of decayed sculpture,” J. Cult. Heritage 1, S89 (2000).
  11. G. Tucci and V. Bonora, “Application of high-resolution scanning systems for virtual moulds and replicas of sculptural works,” in Proceedings of the Twenty-First CIPA, 2007, pp. 721–726.
  12. V. A. Parfenov, “Noncontact copying of marble sculptures using laser technology,” in Sculpture of the Eighteenth and Nineteenth Centuries in the Open Air: Problems of Conservation and Exposure (Gos. Muz. Gorod. Skul’ptury, St. Petersburg, 2010), pp. 66–69.
  13. V. O. Tishkin and V. A. Parfenov, “Coping the marble bust ‘Primavera:’ first case study in Russia of non-contact laser recording and replication of stone Cultural Heritage,” in Technical Program of the Fourteenth International Conference on Laser Optics, St. Petersburg, Russia, 28 June–2 July, 2010, Paper TuZ1-04, p. 91.
  14. G. Sansoni and F. Docchio, “3D-optical measurements in the field of cultural heritage: the case of Vittoria Alata of Brescia,” IEEE Trans. Instrum. Meas. 54, 359 (2005).
  15. V. O. Tishkin, “Techniques for collecting and processing data obtained in the process of 3D scanning,” Nauchnotekhnicheskiĭ Vestnik SPbGU ITMO. SPb.: SPbGU ITMO No. 1(71), 87 (2011).
  16. V. O. Tishkin and A. N. Vershinin, “Analysis of the technical status of a 3D scanner,” in Collections of Transactions of Conference of Young Scientists Optoinformatics, Nanosystems, and Thermal Engineering, No. 3, St. Petersburg, SPGU ITMO, 2009, pp. 176–179.

2011

A. A. Burtsev, “Innovation technologies for automating mine surveying during the construction of underground installations,” Geoprofi No. 7, 26 (2011).

V. O. Tishkin, “Techniques for collecting and processing data obtained in the process of 3D scanning,” Nauchnotekhnicheskiĭ Vestnik SPbGU ITMO. SPb.: SPbGU ITMO No. 1(71), 87 (2011).

2009

G. Sansoni, M. Trebechi, and F. Docchio, “State-of-the-art and application of 3D-imaging sensors in industry, cultural heritage, medicine, and criminal investigation,” Sensors 9, 568 (2009).
[PubMed]

A. E. Voĭnarovskiĭ, “Combining methods of three-dimensional laser scanning and digital photogrammetry for recording and measuring architectural monuments,” Relikviya (Restavratsiya. Konservatsiya. Muzei) No. 21, 30 (2009).

2008

N. V. Kanashin, “Mapping railroad stations by means of laser scanning,” Put’ Putevoe Khoz. No. 7, 15 (2008).

2007

A. Ya. Freĭdin and V. A. Parfenov, “Three-dimensional laser scanning and its application for imaging architectural structures and the restoration of monuments,” Opt. Zh. 74, No. 8, 44 (2007). [J. Opt. Technol. 74, 545 (2007)].

2005

G. Sansoni and F. Docchio, “3D-optical measurements in the field of cultural heritage: the case of Vittoria Alata of Brescia,” IEEE Trans. Instrum. Meas. 54, 359 (2005).

2003

R. Fontana, M. Gambino, M. Greco, E. Pampaloni, L. Pezzati, and R. Scopigno, “High-resolution 3D-digital models of artworks,” Proc. SPIE 5146, 34 (2003).

2002

D. Lighti and B. Harvey, “The effects of reflecting surface properties on time-of-flight laser scanner measurements,” IAPRS 34, 87 (2002).

2000

P. S. Fowels, “The garden temple at Ince Blundell: a case study in the recording and non-contact replication of decayed sculpture,” J. Cult. Heritage 1, S89 (2000).

Boehler, W.

W. Boehler, V. M. Bordas, and A. Marbs, “Investigating laser scanner accuracy,” in Proc. of the Nineteenth CIPA, 2003, pp. 189–194.

Bonora, V.

G. Tucci and V. Bonora, “Application of high-resolution scanning systems for virtual moulds and replicas of sculptural works,” in Proceedings of the Twenty-First CIPA, 2007, pp. 721–726.

Bordas, V. M.

W. Boehler, V. M. Bordas, and A. Marbs, “Investigating laser scanner accuracy,” in Proc. of the Nineteenth CIPA, 2003, pp. 189–194.

Burtsev, A. A.

A. A. Burtsev, “Innovation technologies for automating mine surveying during the construction of underground installations,” Geoprofi No. 7, 26 (2011).

Docchio, F.

G. Sansoni, M. Trebechi, and F. Docchio, “State-of-the-art and application of 3D-imaging sensors in industry, cultural heritage, medicine, and criminal investigation,” Sensors 9, 568 (2009).
[PubMed]

G. Sansoni and F. Docchio, “3D-optical measurements in the field of cultural heritage: the case of Vittoria Alata of Brescia,” IEEE Trans. Instrum. Meas. 54, 359 (2005).

Fontana, R.

R. Fontana, M. Gambino, M. Greco, E. Pampaloni, L. Pezzati, and R. Scopigno, “High-resolution 3D-digital models of artworks,” Proc. SPIE 5146, 34 (2003).

Fowels, P. S.

P. S. Fowels, “The garden temple at Ince Blundell: a case study in the recording and non-contact replication of decayed sculpture,” J. Cult. Heritage 1, S89 (2000).

Freidin, A. Ya.

A. Ya. Freĭdin and V. A. Parfenov, “Three-dimensional laser scanning and its application for imaging architectural structures and the restoration of monuments,” Opt. Zh. 74, No. 8, 44 (2007). [J. Opt. Technol. 74, 545 (2007)].

Gambino, M.

R. Fontana, M. Gambino, M. Greco, E. Pampaloni, L. Pezzati, and R. Scopigno, “High-resolution 3D-digital models of artworks,” Proc. SPIE 5146, 34 (2003).

Greco, M.

R. Fontana, M. Gambino, M. Greco, E. Pampaloni, L. Pezzati, and R. Scopigno, “High-resolution 3D-digital models of artworks,” Proc. SPIE 5146, 34 (2003).

Harvey, B.

D. Lighti and B. Harvey, “The effects of reflecting surface properties on time-of-flight laser scanner measurements,” IAPRS 34, 87 (2002).

Kanashin, N. V.

N. V. Kanashin, “Mapping railroad stations by means of laser scanning,” Put’ Putevoe Khoz. No. 7, 15 (2008).

Lighti, D.

D. Lighti and B. Harvey, “The effects of reflecting surface properties on time-of-flight laser scanner measurements,” IAPRS 34, 87 (2002).

Marbs, A.

W. Boehler, V. M. Bordas, and A. Marbs, “Investigating laser scanner accuracy,” in Proc. of the Nineteenth CIPA, 2003, pp. 189–194.

McIntosh, J. R.

J. R. McIntosh, “Comparison of the spatial accuracy of disparate 3D-laser point clouds in large-scale 3D modeling and physical reproduction projects for large Cultural Heritage structures,” Thesis for Degree of Master of Science, Curtin University of Technology, Dec. 2006, Vol. 1, pp. 1–25.

Pampaloni, E.

R. Fontana, M. Gambino, M. Greco, E. Pampaloni, L. Pezzati, and R. Scopigno, “High-resolution 3D-digital models of artworks,” Proc. SPIE 5146, 34 (2003).

Parfenov, V. A.

A. Ya. Freĭdin and V. A. Parfenov, “Three-dimensional laser scanning and its application for imaging architectural structures and the restoration of monuments,” Opt. Zh. 74, No. 8, 44 (2007). [J. Opt. Technol. 74, 545 (2007)].

V. A. Parfenov, “Noncontact copying of marble sculptures using laser technology,” in Sculpture of the Eighteenth and Nineteenth Centuries in the Open Air: Problems of Conservation and Exposure (Gos. Muz. Gorod. Skul’ptury, St. Petersburg, 2010), pp. 66–69.

V. O. Tishkin and V. A. Parfenov, “Coping the marble bust ‘Primavera:’ first case study in Russia of non-contact laser recording and replication of stone Cultural Heritage,” in Technical Program of the Fourteenth International Conference on Laser Optics, St. Petersburg, Russia, 28 June–2 July, 2010, Paper TuZ1-04, p. 91.

Pezzati, L.

R. Fontana, M. Gambino, M. Greco, E. Pampaloni, L. Pezzati, and R. Scopigno, “High-resolution 3D-digital models of artworks,” Proc. SPIE 5146, 34 (2003).

Sansoni, G.

G. Sansoni, M. Trebechi, and F. Docchio, “State-of-the-art and application of 3D-imaging sensors in industry, cultural heritage, medicine, and criminal investigation,” Sensors 9, 568 (2009).
[PubMed]

G. Sansoni and F. Docchio, “3D-optical measurements in the field of cultural heritage: the case of Vittoria Alata of Brescia,” IEEE Trans. Instrum. Meas. 54, 359 (2005).

Scopigno, R.

R. Fontana, M. Gambino, M. Greco, E. Pampaloni, L. Pezzati, and R. Scopigno, “High-resolution 3D-digital models of artworks,” Proc. SPIE 5146, 34 (2003).

Tishkin, V. O.

V. O. Tishkin, “Techniques for collecting and processing data obtained in the process of 3D scanning,” Nauchnotekhnicheskiĭ Vestnik SPbGU ITMO. SPb.: SPbGU ITMO No. 1(71), 87 (2011).

V. O. Tishkin and A. N. Vershinin, “Analysis of the technical status of a 3D scanner,” in Collections of Transactions of Conference of Young Scientists Optoinformatics, Nanosystems, and Thermal Engineering, No. 3, St. Petersburg, SPGU ITMO, 2009, pp. 176–179.

V. O. Tishkin and V. A. Parfenov, “Coping the marble bust ‘Primavera:’ first case study in Russia of non-contact laser recording and replication of stone Cultural Heritage,” in Technical Program of the Fourteenth International Conference on Laser Optics, St. Petersburg, Russia, 28 June–2 July, 2010, Paper TuZ1-04, p. 91.

Trebechi, M.

G. Sansoni, M. Trebechi, and F. Docchio, “State-of-the-art and application of 3D-imaging sensors in industry, cultural heritage, medicine, and criminal investigation,” Sensors 9, 568 (2009).
[PubMed]

Tucci, G.

G. Tucci and V. Bonora, “Application of high-resolution scanning systems for virtual moulds and replicas of sculptural works,” in Proceedings of the Twenty-First CIPA, 2007, pp. 721–726.

Vershinin, A. N.

V. O. Tishkin and A. N. Vershinin, “Analysis of the technical status of a 3D scanner,” in Collections of Transactions of Conference of Young Scientists Optoinformatics, Nanosystems, and Thermal Engineering, No. 3, St. Petersburg, SPGU ITMO, 2009, pp. 176–179.

Voinarovskii, A. E.

A. E. Voĭnarovskiĭ, “Combining methods of three-dimensional laser scanning and digital photogrammetry for recording and measuring architectural monuments,” Relikviya (Restavratsiya. Konservatsiya. Muzei) No. 21, 30 (2009).

Geoprofi

A. A. Burtsev, “Innovation technologies for automating mine surveying during the construction of underground installations,” Geoprofi No. 7, 26 (2011).

IAPRS

D. Lighti and B. Harvey, “The effects of reflecting surface properties on time-of-flight laser scanner measurements,” IAPRS 34, 87 (2002).

IEEE Trans. Instrum. Meas.

G. Sansoni and F. Docchio, “3D-optical measurements in the field of cultural heritage: the case of Vittoria Alata of Brescia,” IEEE Trans. Instrum. Meas. 54, 359 (2005).

J. Cult. Heritage

P. S. Fowels, “The garden temple at Ince Blundell: a case study in the recording and non-contact replication of decayed sculpture,” J. Cult. Heritage 1, S89 (2000).

Nauchnotekhnicheskii Vestnik SPbGU ITMO. SPb.: SPbGU ITMO

V. O. Tishkin, “Techniques for collecting and processing data obtained in the process of 3D scanning,” Nauchnotekhnicheskiĭ Vestnik SPbGU ITMO. SPb.: SPbGU ITMO No. 1(71), 87 (2011).

Opt. Zh.

A. Ya. Freĭdin and V. A. Parfenov, “Three-dimensional laser scanning and its application for imaging architectural structures and the restoration of monuments,” Opt. Zh. 74, No. 8, 44 (2007). [J. Opt. Technol. 74, 545 (2007)].

Proc. SPIE

R. Fontana, M. Gambino, M. Greco, E. Pampaloni, L. Pezzati, and R. Scopigno, “High-resolution 3D-digital models of artworks,” Proc. SPIE 5146, 34 (2003).

Put’ Putevoe Khoz.

N. V. Kanashin, “Mapping railroad stations by means of laser scanning,” Put’ Putevoe Khoz. No. 7, 15 (2008).

Relikviya (Restavratsiya. Konservatsiya. Muzei)

A. E. Voĭnarovskiĭ, “Combining methods of three-dimensional laser scanning and digital photogrammetry for recording and measuring architectural monuments,” Relikviya (Restavratsiya. Konservatsiya. Muzei) No. 21, 30 (2009).

Sensors

G. Sansoni, M. Trebechi, and F. Docchio, “State-of-the-art and application of 3D-imaging sensors in industry, cultural heritage, medicine, and criminal investigation,” Sensors 9, 568 (2009).
[PubMed]

Other

W. Boehler, V. M. Bordas, and A. Marbs, “Investigating laser scanner accuracy,” in Proc. of the Nineteenth CIPA, 2003, pp. 189–194.

J. R. McIntosh, “Comparison of the spatial accuracy of disparate 3D-laser point clouds in large-scale 3D modeling and physical reproduction projects for large Cultural Heritage structures,” Thesis for Degree of Master of Science, Curtin University of Technology, Dec. 2006, Vol. 1, pp. 1–25.

V. O. Tishkin and A. N. Vershinin, “Analysis of the technical status of a 3D scanner,” in Collections of Transactions of Conference of Young Scientists Optoinformatics, Nanosystems, and Thermal Engineering, No. 3, St. Petersburg, SPGU ITMO, 2009, pp. 176–179.

G. Tucci and V. Bonora, “Application of high-resolution scanning systems for virtual moulds and replicas of sculptural works,” in Proceedings of the Twenty-First CIPA, 2007, pp. 721–726.

V. A. Parfenov, “Noncontact copying of marble sculptures using laser technology,” in Sculpture of the Eighteenth and Nineteenth Centuries in the Open Air: Problems of Conservation and Exposure (Gos. Muz. Gorod. Skul’ptury, St. Petersburg, 2010), pp. 66–69.

V. O. Tishkin and V. A. Parfenov, “Coping the marble bust ‘Primavera:’ first case study in Russia of non-contact laser recording and replication of stone Cultural Heritage,” in Technical Program of the Fourteenth International Conference on Laser Optics, St. Petersburg, Russia, 28 June–2 July, 2010, Paper TuZ1-04, p. 91.

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