Conference object, Article, Other literature type English OPEN
A. Pamart ; O. Guillon ; S. Faraci ; E. Gattet ; M. Genevois ; J. M. Vallet ; L. De Luca (2017)
  • Publisher: Copernicus Publications
  • Journal: The International Archives of the Photogrammetry (issn: 1682-1750, eissn: 2194-9034)
  • Related identifiers: doi: 10.5194/isprs-archives-XLII-2-W3-559-2017
  • Subject: multi-source data | [ PHYS.MECA.MEMA ] Physics [physics]/Mechanics [physics]/Mechanics of materials [physics.class-ph] | TA1501-1820 | [PHYS.MECA.MEMA] Physics [physics]/Mechanics [physics]/Mechanics of materials [physics.class-ph] | multi-sensors | Engineering (General). Civil engineering (General) | multi-band registration | Technology | multispectral | TA1-2040 | T | Close-range photogrammetry | Applied optics. Photonics | technical photography

International audience; In the field of wall paintings studies different imaging techniques are commonly used for the documentation and the decision making in term of conservation and restoration. There is nowadays some challenging issues to merge scientific imaging techniques in a multimodal context (i.e. multi-sensors, multi-dimensions, multi-spectral and multi-temporal approaches). For decades those CH objects has been widely documented with Technical Photography (TP) which gives precious information to understand or retrieve the painting layouts and history. More recently there is an increasing demand of the use of digital photogrammetry in order to provide, as one of the possible output, an orthophotomosaic which brings a possibility for metrical quantification of conservators/restorators observations and actions planning. This paper presents some ongoing experimentations of the LabCom MAP-CICRP relying on the assumption that those techniques can be merged through a common pipeline to share their own benefits and create a more complete documentation.
  • References (36)
    36 references, page 1 of 4

    Aldrovandi, A., Bellucci, R., Bertani, D., Buzzegoli, E., Cetica, M. and Kunzelmann, D., 1993. La ripresa in infrarosso falso colore: nuove tecniche di utilizzo. OPD restauro: rivista dell'Opificio delle pietre dure e Laboratorio di restauro di Firenze 5, pp. 94-98.

    Aldrovandi, A., Buzzegoli, E., Keller, A. and Kunzelman, D., 2005. Investigation of painted surfaces with a reflected uv false color technique. Proceedings of Art.

    Gehrke, R. and Greiwe, A., 2013. Multispectral image capturing with foveon sensors. International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences 1, pp. W2.

    Bennett, T., 2015. Photogrammetry and transmitted infrared imaging to document the support of a 19th c. british landscape painting. COSCH e-Bulletin,

    Bianco, S., Colombo, A., Gasparini, F., Schettini, R. and Zuffi, S., 2011. Applications of spectral imaging and reproduction to cultural heritage. Digital Imaging for Cultural Heritage Preservation pp. 183-209.

    Boochs, F., Bentkowska-Kafel, A., Degrigny, C., Karaszewski, M., Karmacharya, A., Kato, Z., Picollo, M., Sitnik, R., Tre´meau, A., Tsiafaki, D. et al., 2014. Colour and space in cultural heritage: Interdisciplinary approaches to documentation of material culture*. International Journal of Heritage in the Digital Era 3(4), pp. 713-730.

    Bridgman, C. F. and Lou-Gibson, H., 1963. Infrared luminescence in the photographic examination of paintings and other art objects. Studies in Conservation 8(3), pp. 77-83.

    Chane, C. S., Schtze, R., Boochs, F. and Marzani, F. S., 2013.

    Registration of 3d and multispectral data for the study of cultural heritage surfaces. Sensors 13(1), pp. 1004.

    Corsini, M., Dellepiane, M., Ganovelli, F., Gherardi, R., Fusiello, A. and Scopigno, R., 2013. Fully automatic registration of image sets on approximate geometry. International journal of computer vision 102(1-3), pp. 91-111.

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