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Michal Činák, Alexander Schrek and Peter Žitňanský

range photogrammetry for industrial applications, ISPRS Journal of Photogrammetry and Remote Sensing 65 (2010) 558-569 PAVELKA, K., HODAČ, J.: Fotogrammetrie 3. Digitální metódy a laserové skenování. Skriptum. Česká technika-nakladatelství ČVUT, Praha, 2008, s. 67-69. FRAŠTIA, M.: Kalibrácia a testovanie digitálnych kamier pre aplikácie blízkej fotogrametrie. Edícia vedeckých prác. Zošit č. 52. Bratislava, STU v Bratislave, SvF 2008. ISBN 978-80-227-2812-6. PhotoModeler 6 Help File

Open access

Dorota Zawieska and Zdzisław Kurczyński

.13140/RG.2.1.2186.2242 Bakuła, K., Dominik, W., & Ostrowski, W. (2014). Verification and Improving Planimetric Accuracy of Airborne Laser Scanning Data with Using Photogrammetric Data. The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, 40(3), 21-26. doi:10.5194/isprsarchives-XL-3-W1-21-2014 Bakuła, K., Dominik, W., & Ostrowski, W. (2015). Enhancement of Lidar Planimetric Accuracy using Orthoimages. Photogrammetrie-Fernerkundung-Geoinformation, 2015(2), 143-155. doi: 10.1127/pfg/2015

Open access

Ondrej Trhan

References Arefi, H. (2009) From LIDAR Point Clouds to 3D Building Models: dissertation. Munich: Universität der Bundeswehr Munchen. 127 pp. Arefi, H. - Hahn, M. (2005) A Morphological Reconstruction Algorithm for Separating Off- Terrain Points from Terrain Points in Laser Scanning Data. International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol. 36, p. 120-125. Arefi, H. - Reinartz, P. (2011) Building Reconstruction from Worldview DEM Using Image Information. Tehran

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Marián Marčiš, Marek Fraštia and Tomáš Augustín

References Fraser, C. S. (1984) Network design optimization in non-topographic photogrammetry, IA PRS, Vol. XXV, part A5, pp. 296-308, Rio de Janeiro, 1984. Fraser, C. S. - Riedel, B. (2000) Monitoring the thermal deformation of steel beams via vision metrology, ISPRS Journal of Photogrammetry & Remote Sensing 55. 268-276, https://doi.org/10.1016/S0924-2716(00)00024-1 Koschitzki, R. - Schacht, G. - Schneider, D. - Marx, S. - Maas, H.-G. (2011) Integration of photogrammetry and acoustic emission analysis for

Open access

Marcin Ławniczak

Abstract

During the Polish-Ukrainian archaeological project “Fortresses of Ukraine” it was proposed to study two of the most significant sites with the newest possible technology. The final decision was made to apply the digital photogrammetry that was acquired with the use of drones.

Open access

P. Hudec

Analysis of accuracy of digital elevation models created from captured data by digital photogrammetry method

A digital elevation model (DEM) is an important part of many geoinformatic applications. For the creation of DEM, spatial data collected by geodetic measurements in the field, photogrammetric processing of aerial survey photographs, laser scanning and secondary sources (analogue maps) are used. It is very important from a user's point of view to know the vertical accuracy of a DEM. The article describes the verification of the vertical accuracy of a DEM for the region of Medzibodrožie, which was created using digital photogrammetry for the purposes of water resources management and modeling and resolving flood cases based on geodetic measurements in the field.

Open access

Mirosław Rodzewicz, Dominik Głowacki and Jarosław Hajduk

References [1] K.J. Chwedorzewska. Terrestrial antarctic ecosystems at the changing world – an overview. Polish Polar Research , 30(3):263–276, 2009. doi: 10.4202/ppres.2009.13. [2] A. Zmarz, M. Korczak-Abshire, R. Storvold, M. Rodzewicz, and I. Kędzierska. Indicator species population monitoring in Antarctica with UAV. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences , XL-1/W4:189–193, 2015. doi: 10.5194/isprsarchives-XL-1-W4-189-2015. [3] A. Zmarz, M. Korczak-Abshire, and K. Chwedorzewska. UAV

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Zygmunt Paszotta, Malgorzata Szumilo and Jakub Szulwic

References 1. Bielewicz, E., Gorski, J.: Shells with random geometric imperfections simulation - based approach. International Journal of Non-Linear Mechanics, 2002, Vol. 37, Iss. 4-5, pp.777-784, DOI: 10.1016/S0020-7462(01)00098-1 2. Burdziakowski, P., Szulwic, J.: A commercial of the shelf components for an unmanned air vehicle photogrammetry. 16th International Multidisciplinary Scientific GeoConference SGEM 2016, www.sgem.org, SGEM2016 Conference Proceedings, ISBN 978-619-7105-59-9 / ISSN 1314-2704, June 28 - July 6, 2016

Open access

Piotr Dzieszko

References Konecny G., 2001. Geoinformation, Remote Sensing, photogrammetry and geographic information systems. Taylor and Francis Foundation, London. Kurczyński Z., 2006. Lotnicze i satelitarne obrazowanie Ziemi. Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa. PCI Geomatics [Enterprises Inc.], 2007. Geomatica OrthoEngine 10.1 User Guide. Richmond Hill. Preuss R., Dygaszewicz J., 2006. Ortofotomapa w sieci - projekt Geoportal. Archiwum

Open access

Marián Marčiš and Marek Fraštia

References Balletti, C. - Guerra, F. - Gerbaudi, F. (2003) The survey of the wooden structure of the roof of Palazzo Ducale in Venice. The International Archives of Photogrammetry, Remote Sensing, and Spatial Information Sciences, Vol. XXXIV, Part 5/W12, pp. 49-53. Banfi , F. - Fai, S. - Brumana, R. (2017) BIM automation: advanced modeling generative process for complex structures. ISPRS Ann. Photogrammetry Remote Sensing Spat. Inf. Sci. 4 (2017) Bertolini, C. - Spanò, A. - Invernizzi, S. - Donadio, E. - Marzi