References
- Ahn, K.W., H.C. Lim, and D.C. Seo, 2002. The application of RFM for geometric correction of high-resolution satellite image data, Journal of the Korean Society of Surveying Geodesy Photogrammetry and Cartography, 20(2): 155-164 (in Korean with English abstract).
- Ahn, K., H. Lee, D. Seo, B. Park, and D. Jeong, 2014. The use of the unified control points for RPC adjustment of KOMPSAT-3 satellite image, Journal of the Korean Society of Surveying Geodesy Photogrammetry and Cartography, 32(5): 539-550 (in Korean with English abstract). https://doi.org/10.7848/ksgpc.2014.32.5.539
- Di, K., R. Ma, and R.X. Li, 2003. Rational functions and potential for rigorous sensor model recovery, Photogrammetric Engineering & Remote Sensing, 69(1): 33-41. https://doi.org/10.14358/PERS.69.1.33
- Fraser, C.S. and H.B. Hanley, 2003. Bias compensation in rational functions for IKONOS satellite imagery, Photogrammetric Engineering & Remote Sensing, 69(1): 53-57. https://doi.org/10.14358/PERS.69.1.53
- Grodecki, J. and G. Dial, 2003. Block adjustment of high-resolution satellite images described by rational polynomials, Photogrammetric Engineering & Remote Sensing, 69(1): 59-68. https://doi.org/10.14358/PERS.69.1.59
- Kang, J.M., Y.W. Lee, and J.K. Park, 2003. The geometric correction of IKONOS image using rational polynomial coefficients and GCPs, Journal of the Korean Society of Surveying Geodesy Photogrammetry and Cartography, 21(2): 165-172 (in Korean with English abstract).
- KARI, 2013. KOMPSAT-3 image data manual, Korea Aerospace Research Institute, Daejeon, http://kompsat.satreci.com(last date accessed: 25 November 2013).
- Lee, C.N. and J.H. Oh, 2014. LiDAR chip for automated geo-referencing of high-resolution satellite imagery, Journal of the Korean Society of Surveying Geodesy Photogrammetry and Cartography, 32(4-1): 319-326 (in Korean with English abstract). https://doi.org/10.7848/ksgpc.2014.32.4-1.319
- Lee, H., D. Seo, K. Ahn, and D. Jeong, 2013. Positioning accuracy analysis of KOMPSAT-3 satellite imagery by RPC adjustment, Journal of the Korean Society of Surveying Geodesy Photogrammetry and Cartography, 31(6-1): 503-509 (in Korean with English abstract). https://doi.org/10.7848/ksgpc.2013.31.6-1.503
- NGII, 2003. National spatial information by means of statistics, Surveying & Mapping Magazine, Special 3, National Geographic Information Institute, Suwon, pp. 50-57 (in Korean).
- NGII, 2013. Project plan of 2013 National Geographic Information Institute, Surveying & Mapping Magazine, Special(2), National Geographic Information Institute, Suwon, pp. 69-81 (in Korean).
- NGII, 2014. Record issues system of national control point, National Geographic Information Institute, Suwon, http://nbns.ngii.go.kr (last date accessed: 01 October 2014).
- Oh, J., C. Lee, Y. Eo, and J. Bethel, 2012. Automated georegistration of high-resolution satellite imagery using a RPC model with airborne lidar information, Photogrammetric Engineering & Remote Sensing, 78(10): 1045-1056. https://doi.org/10.14358/PERS.78.10.1045
- Oh, J.H. and C.N. Lee, 2014. Automated improvement of RapidEye 1-B geo-referencing accuracy using 1:25,000 digital maps, Journal of the Korean Society of Surveying Geodesy Photogrammetry and Cartography, 32(5): 505-513 (in Korean with English abstract). https://doi.org/10.7848/ksgpc.2014.32.5.505
- Oh, K.Y. and H.S. Jung, 2012. Automatic geometric calibration of KOMPSAT-2 stereo pair data, Korean Journal of Remote Sensing, 28(2); 191-202 (in Korean with English abstract). https://doi.org/10.7780/kjrs.2012.28.2.191
- Seo, D. and H. Kim, 2011. Characterizing overlap area of KOMPSAT-3, Aerospace Engineering and Technology, 10(2): 154-162 (in Korean with English abstract).
Cited by
- Updating Absolute Radiometric Characteristics for KOMPSAT-3 and KOMPSAT-3A Multispectral Imaging Sensors Using Well-Characterized Pseudo-Invariant Tarps and Microtops II vol.10, pp.5, 2018, https://doi.org/10.3390/rs10050697