The Creation of Space Vector Models of Buildings From RPAS Photogrammetry Data

Arefi, H. (2009) From LIDAR Point Clouds to 3D Building Models: dissertation. Munich: Universität der Bundeswehr Munchen. 127 pp.Search in Google Scholar

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.Search in Google Scholar

Arefi, H. - Reinartz, P. (2011) Building Reconstruction from Worldview DEM Using Image Information. Tehran.Search in Google Scholar

Braun, C. - Kolbe, T. H. - Lang, F. - Schickler, W. - Steinhage, V. - Cremers, A. B. et al. (1995) Models for photogrammetric building reconstruction. Computer and Graphics, 19 (1), p. 109-118.10.1016/0097-8493(94)00126-JSearch in Google Scholar

Cohen, L. D. - Vinson, S. (2002) Segmentation of complex buildings from aerial images and 3D surface reconstruction. In: Proceedings of the 6th IEEE Workshop on Application of Computer Vision. IEEE, 2002. ISBN 0-7695-1858-3/02. p. 1-5.10.1109/ACV.2002.1182184Search in Google Scholar

Demir, N. (2013) Combination of airborne laser and image data for building detection and 3D roof reconstruction: dissertation. Zurich: ETH. 149 pp.Search in Google Scholar

Gonzales, R. C. - Woods, R. E. - Eddins, S. L. (2009) Digital Image Processing Using Matlab. Gatesmark Publishing, ISBN 978-0-9820-8540-0, 827 pp.Search in Google Scholar

Haala, N. - Brenner, C. (1998) Interpretation of urban surface models using 2D building information. Computer Vision and Image Understanding, 72 (2), pp. 204-214.10.1006/cviu.1998.0720Search in Google Scholar

Chen, L. - Teo, T. - Rau, J. - Liu, J. - Hsu, W. (2004) Building reconstruction from LiDAR data and aerial imagery. In: Proceedings of the IEEE International Geosience and Remote Sensing Symposium. vol. 4, pp. 2846-2849.Search in Google Scholar

Karantzalos, K. - Koutsourakis, P. - Kalisperakis, I. - Grammatikopoulos, L. (2015) Model-based Building Detection from Low-cost Optical Sensors Onboard Unmanned Aerial Vehicles. In: The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Science. Vol. 40 - 1, International Conference on Unmanned Aerial Vehicles in Geomatics, 30 Aug - 02 Sep 2015, Toronto, Canada. 5 pp.10.5194/isprsarchives-XL-1-W4-293-2015Search in Google Scholar

Kim, K. (2012) 3D Building Reconstruction from Airborne Laser Scanning Data: dissertation. West Lafayette, Indiana: Purdue University, 133 pp.Search in Google Scholar

Kolbe, T. H. - Groger, G. - Plumer, L. (2006) CityGML - Interoperable Acces to 3D City Models. Geoinformation for Disaster Management. In: Proceedings of the 1st International Symposium in Geo-Information for Disaster Management. Delft, The Netherlands, March 21-23, Delft.10.1007/3-540-27468-5_63Search in Google Scholar

Kovesi, P. (2017) MATLAB and Octave Functions for Computer Vision and Image Processing. Available at: http://www.peterkovesi.com/matlabfns/index.html. (accessed at 04/03/2017)Search in Google Scholar

Mackaness, W. A. - Ruas, A. - Sarjakovski, L. T. (2009) Generalisation of Geographic Information: Geographic Modelling and Applications. Elsevier, 386 pp.Search in Google Scholar

Nex, F. - Remondino, F. (2014) UAV for 3D mapping applications: a review. Applied Geomatics. Vol. 6, Iss. 1, 2014, p. 1-15.10.1007/s12518-013-0120-xSearch in Google Scholar

OCG (2017) CityGML. Available at: http://www.opengeospatial.org/standards/citygml. (accesed at 04/03/2017)Search in Google Scholar

Ramer, U. (1972) An Iterative Procedure for the Polygonal Approximation of Plane Curves. Computer Graphics and Image Processing. No. 1, p. 244-256.10.1016/S0146-664X(72)80017-0Search in Google Scholar

Rottensteiner, F. (2008) Automatic Extraction of Buildings from Airborne Laserscanner Data and Aerial Images: dissertation. Vienna: TU Vienna. 148 pp.Search in Google Scholar

Scholze, S. (2002) A Probabilistic Approach to Building Roof Reconstruction: dissertation. Zurich: Swiss Federal Institute of Technology Zurich, 210 pp.Search in Google Scholar

Sun, S. (2013) Automatic 3D Building Detection and Modeling from Airborne liDAR Point Clouds: dissertation. Rochester: Rochester Institute of Technology, 157 pp.10.1109/JSTARS.2013.2251457Search in Google Scholar

Trhan, O. (2013) Topographic mapping with system Gatewing X100: diploma thesis. Bratislava: SUT in Bratislava. 72 pp.Search in Google Scholar

Trhan, O. - Fraštia, M. - Marčiš, M. (2016a) The creation of spatial building models using UAV photogrammetry data. Cartographic Letters, 24 (1), p. 35-45.Search in Google Scholar

Trhan, O. - Fraštia, M. - Marčiš, M. (2016b) Building Models Created from UAV Photogrammetry Data. 16th International Multidisciplinary Scientific GeoConference SGEM 2016. Book 2, Vol. II, ISSN 1314-2704, p. 823-83010.5593/SGEM2016/B22/S10.105Search in Google Scholar

Vincent, L. - Soille, P. (1991) Watershed in Digital Spaces: An Efficient Algorithm Based on Immersion Situations. IEEE Transactions on Pattern Analysis and Machine Intelligence, Vol. 13. No. 6., p. 583-598.10.1109/34.87344Search in Google Scholar

Zhang, N. (2012) Automated Plane Detection and Extraction from Airborne Laser Scanning Data of Dense Urban Areas: diploma thesis. Lund, Sweden: Lund University, 98 pp.Search in Google Scholar