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Availability Evaluation For Generation Orthoimage Using Photogrammetric UAV System
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  • Journal title : Korean Journal of Remote Sensing
  • Volume 32, Issue 3,  2016, pp.275-285
  • Publisher : The Korean Society of Remote Sensing
  • DOI : 10.7780/kjrs.2016.32.3.7
 Title & Authors
Availability Evaluation For Generation Orthoimage Using Photogrammetric UAV System
Shin, Dongyoon; Han, Jihye; Jin, Yujin; Park, Jaeyoung; Jeong, Hohyun;
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This study analyzes the accuracy of ortho imagery based on whether camera calibration performed or not, using an unmanned aerial vehicle which equipped smart camera. Photgrammetric UAV system application was developed and smart camera performed image triangulation, and then created image as ortho imagery. Image triangulation was performed depending on whether interior orientation (IO) parameters were considered or not, which determined at the camera calibration phase. As a result of the camera calibration, RMS error appeared 0.57 pixel, which is more accurate compared to the result of the previous study using non-metric camera. When IO parameters were considered in static experiment, the triangulation resulted in 2 pixel or less (RMSE), which is at least 200 % higher than when IO parameters were not considered. After generate ortho imagery, the accuracy is 89% higher when camera calibration are considered than when they are not considered. Therefore, smart camera has high potential to use as a payload for UAV system and is expected to be equipped on the current UAV system to function directly or indirectly.
UAV;Ortho-image;Photogrammetry;Camera calibration;
 Cited by
무인항공기 사진측량에 의한 저수면적과 저수량 곡선식 산정,이근상;최연웅;이석배;김석구;

한국지형공간정보학회지, 2016. vol.24. 3, pp.93-101 crossref(new window)
Estimation of Reservoir Area and Capacity Curve Equation using UAV Photogrammetry, Journal of Korean Society for Geospatial Information System, 2016, 24, 3, 93  crossref(new windwow)
Brown, D.C., 1971. Close-range camera calibration, Photogrammetric Engineering, 37(8): 855-866.

Clarke, T.A., and J.G. Fryer, 1998. The development of camera calibration methods and models. The photogrammetric Record, 16: 51-66. crossref(new window)

Chang, Y.F., C.S. Chen, and H. Zhou, 2009. Smart phone for mobile commerce, Computer Standards & Interfaces, 31: 740-747. crossref(new window)

Chiabrando, F., F. Nex, D. Piatti, and F. Rinaudo, 2011. UAV and PRV systems for photogrammetric surveys in archaelogical areas: two tests in the Piedmont region (Italy), Journal of Archaeological Science, 38: 697-710. crossref(new window)

Cho, J.H., 2014. Accuracy and Economic Feasibility Study of Orthoimage Map Production using UAV, Master's Thesis., University of Seoul, Seoul, South Korea

Cho, J.H., J.M. Kim, Y.S. Choi, and I.H. Jeong, 2014. Accuracy Study of Orthoimage Map Production using UAV. Proc. of 2014 Korean Society of Civil Engineers Annual Conference, pp. 1739-1740 (in Korean with English abstract).

Dalamagkidis K., K.P. Valavanis, and L.A. Piegl, 2008. On unmanned aircraft systems issues, challenges and operational restrictions preventing integration into the National Airspace System, Progress Aerospace Sciences, 44: 503-519. crossref(new window)

Eisenbeiss, H., and L. Zhang, 2006. Comparison of DSMs generated from mini UAV imagery and terrestrial laser scanner in a cultural heritage application. International Archives of photogrammetry Remote Sensing and Spatial Information Sciences, 36(5): 90-96.

Everaerts, J., N. Lewyckyj, and D. Fransaer, 2004. Pegasus: Design of a Stratospheric Long Endurance Uav System for Remote Sensing, Proc. of International Archives of photogrammetry, Remote Sensing and Spatial Information Sciences, Istanbul, Turkey, XXXV, Part B2, pp. 29-33.

Fraser, C.S., 1997. Digital camera self-calibration. ISPRS Journal of photogrammetry and Remote Sensing, 52(4): 149-159. crossref(new window)

Jung, S.H., H.M. Lim, and J.G. Lee, 2010. Acquisition of 3D Spatial Information using UAV photogrammetric Method, Journal of the Korean Society of Surveying, Geodesy, photogrammetry and Cartography, 28(1):161-167 (in Korean with English abstract).

Kim, S.K., Y.D. Sung, and K.W. Kim, 2014. A study on methods of utilizing unmanned aerial vehicle(UVA) in the area of spaial information, Korean Association of Cadastre Information, 28(1): 169-178 (in Korean with English abstract).

Wolf, P.R., and B.A. Dewitt, 2000. Elements of photogrammetry with Applications in GIS. McGraw-Hill, Boston, Massachusetts.

Yoon, B.Y. and J.W. Lee, 2014. A Study on Application of the UAV in Korea for Integrated Operation with Spatial Information, Journal of Korean Society for Geospatial Information System, 22(2): 3-9 (in Korean with English abstract).