[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
[Elseberg J., Borrmann D., Schauer J., Nuchter A., Koriath D., and Rautenberg U., (2014) A sensor skid for precise 3d modeling of production lines. ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume II-5, 117-12210.5194/isprsannals-II-5-117-2014]Search in Google Scholar
[Gergont, K., Kierys, E. (2009). 3D - Scanning Technology in Forensic Science and Road Crash Investigations (MSc Diploma Thesisi), Kraków.]Search in Google Scholar
[Luhmann T., Robson S., Kyle S., Boehm J. (2013). Close – Range Photogrammetry and 3D Imaging, De Gruyter Textbook10.1515/9783110302783]Search in Google Scholar
[Markiewicz J., & Turek A. (2014) The application of multitemporal aerial images in research on changes in spatial management. Przegląd Geodezyjny, 3-9.]Search in Google Scholar
[Mousa W. (2014). Integration of Digital Photogrammetry and Terrestrial Laser Scanning for Cultural Heritage Data Recording, Verlag der Bayerischen Akademie der Wissenschaftenin Kommission beim Verlag S. H. Beck]Search in Google Scholar
[Radziejewski R., (2013), Inventory of an industrial object with the use of terrestrial laser scanning, (MSc Diploma thesis), Warsaw University of Technology]Search in Google Scholar
[Radziejewski R., Markiewicz J., & Zawieska D.(2014) Diversity of photogrammetric approaches for multi-purpose applications, GeoConference on informatics, geoinformatics and remote sensing conference proceedings, Volume II Geodesy and Mine Surveying, 43-48.]Search in Google Scholar
[Vosselman, G., Maas, H-G., (2012) Airborne and Terrestrial Laser Scanning, Whitles Publishing.]Search in Google Scholar
