[Aguilera, D., Lahoz, J., Finat, J., Martinez, J., Fernandez, J., & San Josem, J. (2006). Terrestrial laser scanning and low-cost aerial photogrammetry in the archeological modeling of a Jewish tanneries. International Archives of Photogram., Remote Sensing, Volume XXXVIII-5/W1]Search in Google Scholar
[Alshawabkeh,Y., & Haala, N. (2004). Integration of Digital Photogrammetry and Laser Scanning for Heritage Documentation. International Archives of Photogrammetry and Remote Sensing, Volume XXXV, B5, Istambul ]Search in Google Scholar
[Bakuła, K. (2010). Comparison of the object shape generated from digital images and laser Scanning (MSc Diploma thesis), Warsaw University of Technology ]Search in Google Scholar
[Berladin, J.A., Picard M., El-Hakim J., Godin G., Bandiera A., & Latouche D. (2003). Virtuayizing a Byzantine crypt by combining high-resolution textures with laser scanner 3D data. Proceedings of VMMS 202, pp. 3-14]Search in Google Scholar
[Brazetti, L., & Scaioni M. (2009). Automatic orientation of image sequences for 3D object reconstruction: first results of a method integrating photogrammetric and computer vision algorithms. International Archives of Photogram., Remote Sensing, Volume XXXVIII-5/W1]Search in Google Scholar
[Briese, Ch., Pfeifer, N., & Haring, A. (2003). Laser scanning and photogrammetry for the modeling of the statue Marc Anton. Proceedings of XIX CIPA Symposium, Antalya ]Search in Google Scholar
[Bujakiewicz, A., Arcisz, M., & Zawieska, D. (2008). Use of Multiscale Images for Data Bases of 3D Architectural Objects. Archives of Photogrammetry, Cartography and Remote Sensing,18a, pp. 39-48]Search in Google Scholar
[Bujakiewicz, A., Kowalczyk, M., Podlasiak, P., & Zawieska, D. (2006). 3D Reconstruction and Modeling of the Contact Surfaces for the Archeological Small Museum Pieces. International Archives of Photogrammetry and Remote Sensing, vol. XXXVI, Part 5, pp. 56-61]Search in Google Scholar
[Bujakiewicz A., Kowalczyk M., Podlasiak P., & Zawieska D. (2006). Calibration of Very Close Range Digital Cameras. Journal of PAN Geodesy and Cartography, 55, No. 2, pp. 95-108]Search in Google Scholar
[Bujakiewicz, A., Podlasiak, P., & Zawieska D. (2011). Georeferencing of Close Range Photogrammetric Data. Archives of Photogrammetry, Cartography and Remote Sensing, 23, pp. 91-104]Search in Google Scholar
[Dominik, W. (2008). Generation of Realistic 3D Model from Terrestrial Laser Scanning and Imagery Data. (MSc Diploma thesis), Warsaw University of Technology ]Search in Google Scholar
[Forstner, W. (2002). Computer Vision and Photogrammetry - Mutual Questions: Geometry, Statistics and Cognition. Proceedings of. International Symposium of CIPA on Photogrammetry. meets Geoinformation, Potsdam ]Search in Google Scholar
[Guarnieri, A., Remondino F., & Vettore A. (2006). Digital Photogrammetry and TLS Data Fusion Applied to Cultural Heritage 3D Modeling. International Archives of Photogram., Remote Sensing, Vol. XXXVI, Part 5]Search in Google Scholar
[Hao, X., & Mayer, H. (2003). Orientation and Auto-Calibration of Image Triplets and Sequences, IAPRSSIS, 34(3/W8), pp. 73-78]Search in Google Scholar
[Kraus, K. (2007). Photogrammetry, vol.1, Fundamentals and Standard Processes, Bonn: Dümmlers ]Search in Google Scholar
[Kurczyński, Z. (2006). Aerial and satellite imagery of Earth. Warsaw: Warsaw University of Technology Publishing House ]Search in Google Scholar
[Lisowska, P. (2007). Use of Digital Photogrammetry for Architectural Inventory (Eng. Diploma thesis), Warsaw University of Technology ]Search in Google Scholar
[Markiewicz, J. (2012). Aspects of photogrammetric data integration for generation 3D models of the selected objects located in the urban space., Archives of Photogrammetry, Cartography and Remote Sensing, 24, pp. 199 - 209 ]Search in Google Scholar
[Mayer, H., Matthias, M., & Peipe, J. (2003). Comparison of Photogrammetric and Computer Vision Techniques - 3D Reconstruction and Vizualization of Wartburg Castle. Proceedings of XIX CIPA Symposium, Antalya ]Search in Google Scholar
[Mundy, J.L. (1993). The Relationship between Photogrammetry and Computer Vision. Integration Photogrammetric Technologies., Scene Analyses and Machine Vision, Ed. SPIE, vol. 1944, pp. 92-105]Search in Google Scholar
[Nettley, A., Anderson, K., DeSilvey C., & Caseldine, C. (2011). Using terrestrial laser scanning and LiDAR data for photo-realistic visualization of climate impacts at heritage sites. International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, vol. XXXVIII-5/W16, ]Search in Google Scholar
[Pollefeys, M., Van Gool, L., Vergauwen, M., Verbiest, F., Cornelis, K., Tops, J., & Koch R. (2004). Visual modeling with a hand-held camera. IJCV, 59 (3), pp. 207-232, 10.1023/B:VISI.0000025798.50602.3a]Search in Google Scholar
[Schindler, K. (2012). Developments in Computer Vision and its Relation to Photogrammetry Invited paper of XXII ISPRS Congress in Malbourne ]Search in Google Scholar
[Walker, S. (2012). Developments in Photogrammetry. Invited paper of XXII ISPRS Congress in Malbourne ]Search in Google Scholar
[Zawieska D., Bakuła K., & Podlasiak P. (2012). Analysis of surface deformation of construction element with usage of image-based matching. Archives of Photogrammetry, Cartography and Remote Sensing, 23, pp. 521-529]Search in Google Scholar
[Zawieska, D. (2012). Multi-image Matching of Close Range Photographs for Photorealistic 3D Models Reconstruction. Warsaw: Warsaw University of Technology Publishing House ]Search in Google Scholar