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Oh, S.-G et al. Projection of high resolution climate change for South Korea using multiple-regional climate models based on four RCP scenarios. Part 2: Precipitation. APJAS, 52(2), 171-189  
Suh, M.-S et al, Projections of High Resolution Climate Changes for South Korea Using Multiple-Regional Climate Models Based on Four RCP Scenarios. Part 1: Surface Air Temperature. APJAS, 52(2), 151-169  
Jin, C.-S, D.-H. Cha, D.-K. Lee, M.-S. Suh, S.-Y. Hong, H.-S. Kang and C.-H. Ho, 2015: Evaluation of climatological tropical cyclone activity over the western North Pacific in the CORDEX‑East Asia multi‑RCM simulations. Clim Dyn,  
Park, C., S.-K. Min, D. Lee, d.-H. Cha, M.-S. Suh, H.-S. kang, S.-Y. Hong, D.-K. Lee, H.-J. Baek, K.-O. Boo and W.-T. Kwon, 2015: Evaluation of multiple regional climate models for summer climate extremes over East Asia. Clim Dyn, 2015,  
Suh, M.-S. and C. Kim, 2015: Change-Point Analysis of Tropical Night Occurrences for Five Major Cities in Republic of Korea. Advances in Meteorology, 2015, 1-11, doi:10.1155/2015/801981.  
Cho, A-Ra, Y.-Y. Choi and M.-S. Suh, 2015: Improvements of a COMS land surface temperature retrieval algorithm based on the temperature lapse rate and water vapor/aerosol effect, Remote sens., 7, 1777-1797.  
Suh, M.-S. and S.-G. Oh, 2015: Impacts of boundary conditions on the simulation of atmospheric fields using RegCM4 over CORDEX East Asia. Atmos., 6, 783–804.  
Seok-Geun Oh, Myoung-Seok Suh, and Dong-Hyun Cha, 2013: Impact of Boundary Conditions on Precipitation and Temperature Extremes over South Korea in the CORDEX Regional Climate Simulation Using RegCM4, APJAS, 49(4), 497-509,  
Youn-Young Choi, Myoung-Seok Suh and Ki-Hong Park, 2014: Assessment of Surface Urban Heat Islands over Three Megacities in East Asia Using Land Surface Temperature Data Retrieved from COMS, Remote Sens. 2014, 6, 5852-5867; doi:10.3390/rs6065852  
Seok-Geun Oh, Ju-Hee Park, Sang-Hyun Lee, and Myoung-Seok Suh, 2014: Assessment of the RegCM4 over East Asia and future precipitation change adapted to the RCP scenarios, JGR-Atmosphere, 119, doi:10.1002/ 2013JD020693.  
Cho A.-R. and M.-S. Suh, 2013: Evaluation of land surface temperature operationally retrieved from Korean geostationary satellite (COMS) data, Remote Sens.,5(8), 3951-3970p.  
Ji-Woo Lee, Song-You Hong, Eun-Chul Chang, Myoung-Seok Suh, and Hyun-Suk Kang, 2013: Assessment of future climate change over East Asia due to the RCP scenarios downscaled by GRIMS-RMP, Climate Dynamics, soi:10.1007/s00382-013-1841-6.  
A-Ra Cho and Myoung-Seok Suh, 2013, Detection of contaminated pixels based on the short-term continuity of NDVI and correction using spatio-temporal continuity, APJAS, 49(4), pp511-525  
Chansoo Kim and Myoung-Seok Suh, 2013: Prospects of using bayesian model averaging for the calibration of one-month forecasts of surface air temperature over South Korea, APJAS, 49(3), 301-311, doi:10.1007/s13143-013-0029-7.  
Ju-Hee Park, Soek-Geun Oh, Myoung-Seok Suh, 2013: Impacts of boundary conditions on the precipitation simulation of RegCM4 in the CORDEX East Asia domain, JGR-Atmosphere, 118, 1-16p, doi:10.1002/jgrd.50159.  
Suh, M.-S., S.-G. Oh, D.-K. Lee, D.-H. Cha, S.-J. Choi, C.-S. Jin, and S.-Y. Hong, 2012, Development of new ensemble methods based on the performance skills of regional climate models over South Korea, J. of Climate,  
Kang, J.-H., M.-S., Suh, K.-O. Hong, and C.-S. Kim, 2011, Development of updateable model output statistics (UMOS) system for air temperature over South Korea, APJAS, 47(2), 199-211. RACS  
Hyo-Sik Eom and Myoung-Seok Suh, 2011, Seasonal and diurnal variations of stability indices and environmental parameters using NCEP FNL data over East Asia, APJAS, 47(2), 181-192. RACS  
Seo, Eun-Kyoung, Guosheng Liu, Myoung-Seok, Suh, and Byoung-Ju Sohn, 2010, The varying response of microwave signatures to different types of over land rainfall found over the Korean Peninsula, DOI:10.1175/2009/JTECHA1364.1,  
Kim, Chansoo, Suh, Myoung-Seok, Hong, Ki-Ok, 2009: Bayesian Changepoint Analysis of the Annual Maximum of Daily and Subdaily Precipitation over South Korea, J. Climate, DOI:10.1175/2009JCLI2800.1, 22, 6741-6757  

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