-1B SAR images and SRTM DEM. Since many previous studies for estimating water storage change have depended on satellite altimetry data and optical images for deriving AEC, the method adopted in this study is the only application for such inaccessible areas since no altimetry ground track exists for the Hwanggang Reservoir and because clouds can block the study area for wet seasons. This article is a summary of a paper published in Remote Sensing (Kim et al. (2020)).
References
Funk, C., Peterson, P., Landsfeld, M., Pedreros, D., Verdin, J., Shukla, S.; Husak, G., Rowland, J., Harrison, L., Hoell, A. et al. (2015), The climate hazards infrared precipitation with stations—A new environmental record for monitoring extremes. Sci. Data, 2, 150066.
Kim, B. (2016), Media’s Problem in News Articles about the Water Release from the Hwannggang Dam. Hyundae News, 7 July 2016. Available online: http://hyundaenews.com/22802 (accessed on 17 October 2019).
Kim, D., Lee, H., Jung, H.C., Hwang, E., Hossain, F., Bonnema, M., Kang, D.-H., Getirana, A. (2020), Monitoring River Basin Development and Variation in Water Resources in Transboundary Imjin River in North and South Korea Using Remote Sensing. Remote Sens, 12(1), 195.
Kim, D.P., Kim, K.H., Kim, J.H. (2011), Runoff estimation of Imjin River Basin through April 5th Dam and Hwanggang Dam construction of North Korea. J. Environ. Sci. Int., 20, 1635–1646.
Lee, B. (2017), Imjin River of Conflicts. Natl. Strategy, 23, 133–157.
Pekel, J.F., Cottam, A., Gorelick, N., Belward, A.S. (2016), High-resolution mapping of global surface water and its
long-term changes. Nature, 540, 418.
Yang, W., Ahn, J., Yi, J. (2017), A study on the measures to use Gunnam flood control reservoir through a reservoir
simulation model. J. Korea Water Resour. Assoc., 50, 407–418. Donghwan Kim
Hyongki Lee
30