Article, Other literature type English OPEN
Bleier, M. ; Nüchter, A. (2018)
  • Publisher: Copernicus Publications
  • Journal: (issn: 2194-9034, eissn: 2194-9034)
  • Related identifiers: doi: 10.5194/isprs-archives-XLII-2-W3-105-2017
  • Subject: TA1-2040 | T | TA1501-1820 | Applied optics. Photonics | Engineering (General). Civil engineering (General) | Technology

In-situ calibration of structured light scanners in underwater environments is time-consuming and complicated. This paper presents a self-calibrating line laser scanning system, which enables the creation of dense 3D models with a single fixed camera and a freely ... View more
  • References (29)
    29 references, page 1 of 3

    Robotics, 2016. ULS-500 underwater laser scanner. http://www.2grobotics.com/products/ underwater-laser-scanner-uls-500/. Online, accessed January 20, 2017.

    3D at Depth, 2016. SL1 subsea lidar. http://www.3datdepth. com/. Online, accessed January 20, 2017.

    Bouguet, J.-Y., Weber, M. and Perona, P., 1999. What do planar shadows tell about scene geometry? In: 1999 IEEE Computer Society Conference on Computer Vision and Pattern Recognition, Vol. 1, IEEE, pp. 1-8.

    Bra¨uer-Burchardt, C., Heinze, M., Schmidt, I., Ku¨hmstedt, P. and Notni, G., 2015. Compact handheld fringe projection based underwater 3D-scanner. The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences 40(5), pp. 33-39.

    Bruno, F., Bianco, G., Muzzupappa, M., Barone, S. and Razionale, A., 2011. Experimentation of structured light and stereo vision for underwater 3D reconstruction. ISPRS Journal of Photogrammetry and Remote Sensing 66(4), pp. 508-518.

    Burns, J., Delparte, D., Gates, R. and Takabayashi, M., 2015. Utilizing underwater three-dimensional modeling to enhance ecological and biological studies of coral reefs. The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences 40(5), pp. 61-66.

    Dancu, A., Fourgeaud, M., Franjcic, Z. and Avetisyan, R., 2014. Underwater reconstruction using depth sensors. In: SIGGRAPH Asia 2014 Technical Briefs, ACM, pp. 2:1-2:4.

    Digumarti, S. T., Chaurasia, G., Taneja, A., Siegwart, R., Thomas, A. and Beardsley, P., 2016. Underwater 3d capture using a low-cost commercial depth camera. In: 2016 IEEE Winter Conference on Applications of Computer Vision (WACV), IEEE, pp. 1-9.

    Drap, P., Seinturier, J., Scaradozzi, D., Gambogi, P., Long, L. and Gauch, F., 2007. Photogrammetry for virtual exploration of underwater archeological sites. In: Proceedings of the 21st International Symposium of the International Committee for Architectural Photogrammetry, CIPA, pp. 1-6.

    Ecker, A., Kutulakos, K. N. and Jepson, A. D., 2007. Shape from planar curves: A linear escape from flatland. In: 2007 IEEE Conference on Computer Vision and Pattern Recognition, IEEE, pp. 1-8.

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