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http://dx.doi.org/10.7780/kjrs.2018.34.6.3.1

KOMPSAT Imagery Application Status  

Lee, Kwangjae (Satellite Application Division, Korea Aerospace Research Institute)
Kim, Younsoo (Satellite Application Division, Korea Aerospace Research Institute)
Chae, Taebyeong (Satellite Application Division, Korea Aerospace Research Institute)
Publication Information
Korean Journal of Remote Sensing / v.34, no.6_3, 2018 , pp. 1311-1317 More about this Journal
Abstract
The ultimate goal of satellite development is to use information obtained from satellites. Therefore, national-levelsatellite development program should include not only hardware development, but also infrastructure establishment and application technology development for information utilization. Until now, Korea has developed various satellites and has been very useful in weather and maritime surveillance as well as various disasters. In particular, KOMPSAT (Korea Multi-purpose Satellite) images have been used extensively in agriculture, forestry and marine fields based on high spatial resolution, and has been widely used in research related to precision mapping and change detection. This special issue aims to introduce a variety of recent studies conducted using KOMPSAT optical and SAR (Synthetic Aperture Radar) images and to disseminate related satellite image application technologies to the public sector.
Keywords
KOMPSAT; SAR; Disaster; Sensor Model; Change Detection;
Citations & Related Records
Times Cited By KSCI : 25  (Citation Analysis)
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1 Ahn, H., K. Kim, K. Lee, C. Park, K. So, and S. Na, 2018. Feasibility Assessment of Spectral Band Adjustment Factor of KOMPSAT-3 for Agriculture Remote Sensing, Korean Journal of Remote Sensing, 34(6-3): 1369-1382 (in Korean with English abstract).   DOI
2 Han, K. and J. Kim, 2016. Technology trends future prospects of satellite-based photovoltaic electricity potential, Korean Journal of Remote Sensing, 32(6): 579-587 (in Korean with English abstract).   DOI
3 Han, Y., T. Kim, S. Han, and J. Song, 2017. Change detection of urban development over large area using KOMPSAT optical imagery, Korean Journal of Remote Sensing, 33(6-3): 1223-1232 (in Korean with English abstract).   DOI
4 Han, Y., Y. Byun, T. Chae, and Y. Kim, 2011. Automatic registration between KOMPSAT-2 and TerraSAR-X images, Journal of the Korean Society of Surveying, Geodesy, Photogrammetry and Cartography, 29(6): 441-448 (in Korean with English abstract).   DOI
5 Hwang, J., D. Kim, and H. Jung, 2017. An efficient ship detection method for KOMPSAT-5 synthetic aperture radar imagery based on adaptive filtering approach, Korean Journal of Remote Sensing, 33(1): 89-95.   DOI
6 Im, Y., T. Kim, and J. Kim, 2002. DEM extraction from KOMPSAT-1 EOC stereo images and accuracy assessment, Korean Journal of Remote Sensing, 18(2): 81-90 (in Korean with English abstract).   DOI
7 Jang, J., K. Park, and D. Yang, 2018. Validation of Sea Surface Wind Estimated from KOMPSAT-5 Backscattering Coefficient Data, Korean Journal of Remote Sensing, 34(6-3): 1383-1398 (in Korean with English abstract).   DOI
8 Jeong, S. and Y. Kim, 2000. Three dimensional positioning accuracy of KOMPSAT-1 stereo imagery, Korean Journal of Remote Sensing, 16(4): 339-345.   DOI
9 Jeong, S., Y. Kim, and H. Lee, 2002. Digital plotting with KOMPSAT-1 EOC stereo images using digital photogrammetric workstation, Korean Journal of Remote Sensing, 18(1): 25-33.   DOI
10 Bak, S., H. Kim, D. Hwang, H. Yoon, and W. Seo, 2016. Detection technique of red tide using GOCI level 2 data, Korean Journal of Remote Sensing, 32(6): 673-679 (in Korean with English abstract).   DOI
11 Chander, G., N. Mishra, D.L. Helder, D.B. Aaron, A. Angal, T. Choi, X. Xiong, and D.R. Doelling, 2013. Applications of Spectral Band Adjustment Factors (SBAF) for cross-calibration, IEEE Transactions on Geoscience and Remote Sensing, 51(3): 1267-1281.   DOI
12 Choi, J., H. Park, N. Park, S. Han, and J. Song, 2017. Deforestation analysis using unsupervised change detection based on ITPCA, Korean Journal of Remote Sensing, 33(6-3): 1233-1242 (in Korean with English abstract).   DOI
13 Chung, M., Y. Han, J. Choi, and Y. Kim, 2018. Optimal parameter analysis and evaluation of change detection for SLIC-based superpixel techniques using KOMPSAT data, Korean Journal of Remote Sensing, 34(6-3): 1427-1443 (in Korean with English abstract).   DOI
14 Claverie, M., J. Ju, J.G. Masek, J.L. Dungan, E.F. Vermote, J.-C. Roger, S.V. Skakun, and C. Justice, 2018. The harmonized landsat and Sentinel-2 surface reflectance data set, Remote Sensing of Environment, 219: 145-161.   DOI
15 Kim, H., K. Park, and J. Park, 2016. Comparison algorithms for sea surface current retrieval using Himawari-/AHI data, Korean Journal of Remote Sensing, 32(6): 589-601 (in Korean with English abstract).   DOI
16 Kim, H., J. Park, H. Kim, and Y. Son, 2017. Climatological variability of multisatellite-derived sea surface temperature, sea ice concentration, Chlorophyll-a in the Arctic Ocean, Korean Journal of Remote Sensing, 33(6-1): 901-915 (in Korean with English abstract).   DOI
17 Gong, M., S. Zhao, L. Jiao, D. Tian, and S. Wang, 2014. A novel coarse-to-fine scheme for automatic image registration based on SIFT and mutual information, IEEE Transactions on Geoscience and Remote Sensing, 52(7): 4328-4338.   DOI
18 Ha, S., B. Ahn, and S. Park, 2002. Change detection of land-cover from multi-temporal KOMPSAT-1 EOC imageries, Korean Journal of Remote Sensing, 18(1): 13-23.   DOI
19 Han, D., J. Song, and Y. Byun, 2017. Change detection comparison of multitemporal infrared satellite imagery using relative radiometric normalization, Korean Journal of Remote Sensing, 33(6-3): 1179-1185 (in Korean with English abstract).   DOI
20 Kim, H., K. Lee, M. Seo, S. Choi, N. Sung, D. Lee, D. Jin, C. Kwon, M. Huh, and K. Han, 2016. The sensitivity analysis according to observed frequency of daily composite insolation based on COMS, Korean Journal of Remote Sensing, 32(6): 733-739 (in Korean with English abstract).   DOI
21 Kruck, E., 1988. Photogrammetric mapping of SPOT images with BINGO in the PHOCUS system, International Achieves of Photogrammetry and Remote Sensing(Commission III), 27(B3): 405-414.
22 Ku, W. and D. Chung, 2018. The method for colorizing SAR images of Kompsat-5 using Cycle GAN with multi-scale discriminators, Korean Journal of Remote Sensing, 34(6-3): 1415-1425 (in Korean with English abstract).   DOI
23 Lee, H., 2017. Application of KOMPSAT-5 SAR Interferometry by using SNAP software, Korean Journal of Remote Sensing, 33(6-3): 1215-1221 (in Korean with English abstract).   DOI
24 Lee, S., J. Kim, Y. Choi, and S. Jung, 2010. Accuracy assessment of 3D geopositioning of KOMPSAT- 2 images using orbit-attitude model, Journal of the Korean Society for Geospatial Information Science, 18(4): 3-10 (in Korean with English abstract).
25 Lee, Y. and H. Jung, 2018. Feasibility study on producing 1:25,000 digital map using KOMPSAT-5 SAR stereo images, Korean Journal of Remote Sensing, 34(6-3): 1329-1350 (in Korean with English abstract).   DOI
26 Oh, J., D. Seo, and N. Lee, 2016. A test result on the positional accuracy of Kompsat-3A beta test images, Journal of the Korean Society of Surveying, Geodesy, Photogrammetry and Cartography, 34(2): 133-142.   DOI
27 Lee, Y., H. Jung, S. Park, and W. Baek, 2018. Classification of natural and artificial forests from KOMPSAT-3/3A/5 images using artificial neural network, Korean Journal of Remote Sensing, 34(6-3): 1399-1414 (in Korean with English abstract).   DOI
28 Li, X.M. and S. Lehner, 2014. Algorithm for sea surface wind retrieval from TerraSAR-X and TanDEMX data, IEEE Transactions on Geoscience and Remote Sensing, 52(5): 2928-2939.   DOI
29 Lowe, D.G., 2004. Distinctive image features from scale-invariant keypoints, International Journal of Computer Vision, 60(2): 91-110.   DOI
30 Oh, K., E. Jeong, K. Lee, Y. Kim, and W. Lee, 2018. Comparison and analysis of matching DEM using KOMPSAT-3 in/cross-track stereo pair, Korean Journal of Remote Sensing, 34(6-3): 1445-1456 (in Korean with English abstract).   DOI
31 Park, S., 2016. Detection of water bodies from Kompsat-5 SAR data, Korean Journal of Remote Sensing, 32(5): 539-550 (in Korean with English abstract).   DOI
32 Park, S. and C. Lee, 2018. Monitoring of the drought in the upstream area of Soyang river, Inje-Gun, Kangwon-do using KOMPSAT-2/3 satellite, Korean Journal of Remote Sensing, 34(6-3): 1319-1327 (in Korean with English abstract).   DOI
33 Suri, S. and P. Reinartz, 2010. Mutual-informationbased registration of TerraSAR-X and Ikonos imagery in urban area, IEEE Transactions on Geoscience and Remote Sensing, 48(2): 939-949.   DOI
34 Yang, D. and H. Jeong, 2018. Verification of Kompsat-5 sigma naught equation, Korean Journal of Remote Sensing, 34(6-3): 1457-1468 (in Korean with English abstract).   DOI
35 Yun, M. and C. Choi, 2015. Spatial analysis of shoreline change in Northwest coast of Taean Peninsula, Korean Journal of Remote Sensing, 31(1): 29-38.   DOI
36 Yang, X., X. Li, Q. Zheng, X. Gu, W.G. Pichel, and Z. Li, 2011. Comparison of ocean-surface winds retrieved from QuikSCAT scatterometer and Radarsat-1 SAR in offshore waters of the US west coast, IEEE Geoscience and Remote Sensing Letters, 8(1): 163-167.   DOI
37 Ye, C., 2018. Feature matching using variable circular template for multi-resolution image registration, Korean Journal of Remote Sensing, 34(6-3): 1351-1367 (in Korean with English abstract).   DOI
38 Yoon, S. and H. Yang, 2016. Study on the temporal and spatial variation in cold water zone in the East Sea using satellite data, Korean Journal of Remote Sensing, 32(6): 703-719 (in Korean with English abstract).   DOI
39 Zhang, B., W. Perrie, P.W. Vachon, X. Li, W.G. Pichel, J. Guo, and Y. He, 2012. Ocean vector winds retrieval from C-band fully polarimetric SAR measurements, IEEE Transactions on Geoscience and Remote Sensing, 50(11): 4252-4261.   DOI