One Year of GOCI-II Launch Present and Future |
Choi, Jong-kuk
(Korean Ocean Satellite Center, Korea Institute of Ocean Science and Technology)
Park, Myung-sook (Korean Ocean Satellite Center, Korea Institute of Ocean Science and Technology) Han, Kyung-soo (Major of Spatial Information Engineering, Division of Earth Environmental Science, Pukyong National University) Kim, Hyun-cheol (Center of Remote Sensing and GIS, Korea Polar Research Institute) Im, Jungho (Department of Urban and Environmental Engineering, Ulsan National Institute of Science and Technology) |
1 | Kim, W., T. Lim, J.-H. Ahn, and J.-K. Choi, 2021b. A Preliminary Analysis on the Radiometric Difference Across the Level 1B Slot Images of GOCI-II, Korean Journal of Remote Sensing, 37(5-2): 1269-1279 (in Korean with English abstract). DOI |
2 | Choi, J.K., Y.J. Park, J.H. Ahn, H.S. Lim, J. Eom, and J.-H. Ryu, 2012. GOCI, the world's first geostationary ocean color observation satellite, for the monitoring of temporal variability in coastal water turbidity, Journal of Geophysical Research: Oceans, 117(9): 1-10. |
3 | Kim, D.-W., S.-H. Kim, and Y.-H. Jo, 2021a. A Development for Sea Surface Salinity Algorithm Using GOCI in the East China Sea, Korean Journal of Remote Sensing, 37(5-2): 1307-1315 (in Korean with English abstract). DOI |
4 | Kim, M. and M.-S. Park, 2021. The GOCI-II Early Mission Marine Fog Detection: Optical Characteristics and Verification, Korean Journal of Remote Sensing, 37(5-2): 1317-1328 (in Korean with English abstract). DOI |
5 | Lee, H. and K. Lee, 2018. Operational Atmospheric Correction Method over Land Surfaces for GOCI Images, Korean Journal of Remote Sensing, 34(1): 127-139. DOI |
6 | Lee, S.-J., K.-S. Lee, T.-H. Han, J.-E. Moon, S.-J. Bae, and J.-K. Choi, 2021c. Introduction on the products and the quality management plans for GOCI-II, Korean Journal of Remote Sensing, 37(5-2): 1245-1257 (in Korean with English abstract). DOI |
7 | Shin, J., K. Kim, J.-E. Min, and J.-H. Ryu, 2018. Red Tide Detection through Image Fusion of GOCI and Landsat OLI, Korean Journal of Remote Sensing, 34(2-2): 377-391 (in Korean with English abstract). DOI |
8 | Sun, J., W.-J. Lee, S.-C. Park, and D.K. Lee, 2018. Detection for Region of Volcanic Ash Fall Deposits Using NIR Channels of the GOCI, Korean Journal of Remote Sensing, 34(6): 1519-1529 (in Korean with English abstract). DOI |
9 | 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 |
10 | Ahn, J.-H., K. Kim, E. Lee, S.-J. Bae, K.-S. Lee, J.-E. Moon, T.-H. Han, and Y.-J. Park, 2021. Introduction of GOCI-II Atmospheric Correction Algorithm and Its Initial Validations, Korean Journal of Remote Sensing, 37(5-2): 1259-1268 (in Korean with English abstract). DOI |
11 | Choi, J.K., J.H. Ahn, Y.B. Son, D.J. Hwang, and S.J. Lee, 2020a. Application of GOCI to the estimates of primary productivity in the coastal waters of the east sea, Korean Journal of Remote Sensing, 36(22): 237-247 (in Korean with English abstract). DOI |
12 | Choi, J.K., J.E. Min, J.H. Noh, T.H. Han, S. Yoon, Y.J. Park, J.E. Moon, J.H. Ahn, S.M. Ahn, and J.H. Park, 2014a. Harmful algal bloom (HAB) in the East Sea identified by the Geostationary Ocean Color Imager (GOCI), Harmful Algae, 39: 295-302. DOI |
13 | Lee, J., K. Kim, and J.-H. Ryu, 2021a. A Study on the Possibility of Short-term Monitoring of Coastal Topography Changes Using GOCI-II, Korea, Korean Journal of Remote Sensing, 37(5-2): 1329-1340 (in Korean with English abstract). DOI |
14 | Choi, J.K., J.H. Noh, R.J. W. Brewin, X. Sun, and C.M. Lee, 2020b. A study on the application of GOCI to analyzing phytoplankton community distribution in the east sea, Korean Journal of Remote Sensing, 36(6-1): 1339-1348 (in Korean with English abstract). DOI |
15 | Choi, J.-K., Y.J. Park, B.R. Lee, J. Eom, J.-E. Moon, and J.-H. Ryu, 2014b. Application of the Geostationary Ocean Color Imager (GOCI) to mapping the temporal dynamics of coastal water turbidity, Remote Sensing of Environment, 146: 24-35. DOI |
16 | Jung, M., and S.-H. Lee, 2019. Application of Multi-periodic Harmonic Model for Classification of Multi-temporal Satellite Data?: MODIS and GOCI Imagery, Korean Journal of Remote Sensing, 35(4): 573-587. DOI |
17 | Lee, K.-S., J.-H. Ahn, and M.-S. Park, 2021b. GOCI-II Capability of improving the accuracy of ocean color products through fusion with GK-2A/AMI, Korean Journal of Remote Sensing, 37(5-2): 1295-1305 (in Korean with English abstract). DOI |
18 | Kim, D.-W., Y.-H. Jo, J.-K. Choi, J.-G. Choi, and H. Bi, 2016. Physical processes leading to the development of an anomalously large Cochlodinium polykrikoides bloom in the East sea/Japan sea, Harmful Algae, 55: 250-258. DOI |
19 | Kim, K., J. Shin, and J.-H. Ryu, 2018a. Application of Multi-satellite Sensors to Estimate the Greentide Area, Korean Journal of Remote Sensing, 34(2-2): 339-349 (in Korean with English abstract). DOI |
20 | Kim, S., J. Yoon, K. Moon, D. Kim, J. Koo, M. Choi, K.N. Kim, and Y.G. Lee, 2018b. Empirical Estimation and Diurnal Patterns of Surface PM2.5 Concentration in Seoul Using GOCI AOD, Korean Journal of Remote Sensing, 34(3): 451-463 (in Korean with English abstract). DOI |
21 | Park, K.A., H.J. Woo, and J.H. Ryu, 2012. Spatial scales of mesoscale eddies from GOCI Chlorophyll-a concentration images in the East/Japan Sea, Ocean Science Journal, 47(3): 347-358. DOI |
22 | Yang, H., J.-K. Choi, Y.-J. Park, H.-J. Han, and J.-H. Ryu, 2014. Application of the Geostationary Ocean Color Imager (GOCI) to estimates of ocean surface currents, Journal of Geophysical Research: Oceans, 119(6): 3988-4000. DOI |
23 | Park, M.-S., H.-C. Jung, S.-J. Lee, J.-H. Ahn, S.-J. Bae, and J.-K. Choi, 2021. The GOCI-II early mission ocean color products in comparison with the GOCI toward the continuity of Chollian multisatellite ocean color data, Korean Journal of Remote Sensing, 37(5-2): 1281-1293 (in Korean with English abstract). DOI |
24 | Shin, J., K. Kim, and J.-H. Ryu, 2020. Comparative Study on Hyperspectral and Satellite Image for the Estimation of Chlorophyll a Concentration on Coastal Areas, Korean Journal of Remote Sensing, 36(2-2): 309-323 (in Korean with English abstract). DOI |
25 | Son, S. and J. Kim, 2019. Land Cover Classification Map of Northeast Asia Using GOCI Data, Korean Journal of Remote Sensing, 35(1): 83-92. DOI |
26 | Yong, S., G.-S. Kang, S. Huh, and S.-Y. Cha, 2021. Current status and results of In-orbit function, Radiometric Calibration and INR of GOCI-II (Geostationary Ocean Color Imager 2) on Geo-KOMPSAT-2B, Korean Journal of Remote Sensing, 37(5-2): 1235-1243 (in Korean with English abstract). DOI |