1. So Byeong Jin (소병진) / Ph.D(2017)
 
 
  • Post-Doctoral
  • Sejong University
  • E-mail : so.b.jin@gmail.com
  • Ph.D Dissertation : Development of a Multisite Daily Rainfall Simulation Model Using a Machine Learning Based Classification Technique
    Master Thesis : Development of Multisite Daily Rainfall Simulation Model Using Piecewise Kernel-Pareto Continuous Distribution
  • Research Topic : Hydrology
 
   
  2. Kim Tae Jeong (김태정) / Ph.D(2018)
 
 
  • Research Fellow
  • Sejong University
  • E-mail : tjrhrdpfwl@nate.com
  • Ph.D Dissertation : A Development of Precipitation Forecasting and Estimation Technique Using Weather Radar Data
    Master Thesis : Development of Nonstationary Spatio - Temporal Downscaling Technique using General Circulation Model Multi - Model Ensemble
  • Research Topic : Hydrology
 
   
  3. Uranchimeg Sumiya (오랑치맥 솜야) / Ph.D(2019)
 
 
  • Post-Doctoral
  • Sejong University
  • E-mail : sumya963@sejong.ac.kr
  • Ph.D Dissertation : Development of Bayesian Multiple Quantile Regression model and Estimation of Future Design Rainfalls with Increased Temperature
    Master Thesis : Multi-Model Ensemble using Bayesian Model Averaging and Its Application in Hydrology
  • Research Topic : Hydrology
 
   
  4. Ban Woo Sik (반우식)
 
 
 
   
  5. Kim Min Ji (김민지)
 
 
  • Ph.D. Course
  • KMA
  • E-mail : min0228@korea.kr
  • Master Thesis : A Development of Water Demand Forecasting Model Based on Demand Pattern and Non-Linear Support Vector Machine
  • Research Topic : Hydrology
 
   
  6. Kim Jin Guk (김진국)
 
 
  • Ph.D. Course
  • Sejong University
  • E-mail : jgkim@sju.ac.kr
  • Research Topic : Hydrology
 
   
  7. Kim Hyung Wook (김경욱)
 
 
 
   
  8. Kim Yong Tak (김용탁)
 
 
  • Ph.D. Course
  • Sejong University
  • E-mail : kyongtak0225@gmail.com
  • Master Thesis : An Extreme Data Estimation Method Developed Using Nonstationary Bayesian Beta Model Seasonal Rainfall
  • Research Topic : Hydrology
 
   
  9. Sewwandhi Shashika Kularathne Chandrasekara (스완디)
 
 
 
   
  10. Ryu Min Suk (유민석)
 
 
  • Ph.D. Course
  • K-Water
  • E-mail : ymsjjj@kwater.or.kr
  • Master Thesis : A Development of Daily Dam Inflow Simulation Model using Rainfall Simulation Technique and Rainfall-Runoff Model
  • Research Topic : Hydrology
 
   
  11. Choi Hong geun (최홍근)
 
 
  • Ph.D. Course
  • Sejong University
  • E-mail : chlghdrms@gmail.com
  • Master Thesis : A Development of Stationary and Nonstationary Frequency Analysis Model Based on Mixture Distribution
  • Research Topic : Hydrology
 
   
  12. Jung Min Kyu (정민규)
 
 
 
   
  13. NGUYEN DINH HUY (응웬딘휘)
 
 
 
   
  14. Kim Ho Jun (김호준)
 
 
 
   
  15. Lee Doo Hee (이두희)
   
 
 
 
 
   
   
  1. Kim Oon Gi (김운기) / Ph.D(2013)
 
 
  • Jeongeup City Hall
    E-mail : kog6858@korea.kr
  • Research Topic
    - Ph.D Dissertation : Development of Daily Rainfall Simulation Technique Based on Multisite Hidden Markov Chain Model
    - Master's Thesis : A study of recession coefficient for rainfall-runoff process
 
   
  2. Na Bong Kil (나봉길) / Ph.D(2015)
 
 
  • K-Water
  • E-mail : nbk08@kwater.or.kr
  • Research Topic
    - Ph.D Dissertation : Development of Hydrologic Reservoir Risk Model Considering Uncertainty
    - Master's Thesis : Uncertainty Assessment of Single Event Rainfall-Runoff Model using Bayesian Model
 
   
  3. Lee Jeong Ju (이정주) / Ph.D(2010)
 
 
  • K-water
  • E-mail : jeongju@kwater.or.kr
  • Research Topic
    - Ph.D Dissertation : Assessment of Nonstationarity in Precipitation and Development of Nonstationary Frequency Analysis
 
   
  4. Park Kun Chul (박건철) / Ph.D(2016)
 
 
  • JCN Corp.
  • E-mail : park952000@hanmail.com
  • Research Topic
    - Ph.D Dissertation : A Development of Downscaling Model based on Copula Function for Climate Change and Assessment of the Changes in Future Floods
    - Master's Thesis : The Analysis of High Stage-Discharge Rating Curve Change at Cheoncheon station
 
   
  5. Kim Jin Young (김진영) / Ph.D(2017)
 
 
  • ISAN Corp.
  • E-mail : redmadjy@gmail.com
  • Research Topic
    - Ph.D Dissertation : Development of Bayesian Copula Model and Its Application to Hydrologic Frequency Analysis under Climate Change
 
   
  6. Kim Jang Kyung (김장경) / Ph.D(2018)
 
 
  • 베이지안웍스
  • E-mail : kjk2388@gmail.com
  • Research Topic
    - Ph.D Dissertation : A Development of Multisite Hourly Rainfall Simulation Model Using Bayesian Poisson Cluster Rainfall Generators
    - Master's Thesis: Uncertainty Analysis of Modified Bartlet-Lewis Rectangular Pulse Model (MBLRP)
 
   
  7. Moon Hyeong Gwan (문형관) / M.S.(2014)
 
 
  • K-water
  • E-mail : hkmoon@kwater.or.kr
  • Research Topic
    - Master's Thesis: A Study on Regionalization of Rainfall-Runoff Model Parameters for Estimating Reservoir Inflow in Ungauged Watershed
 
   
  8. Jeong Ga In (정가인) / M.S.(2016)
 
 
  • JCN Corp.
  • E-mail : ddssy29@gmail.com
  • Research Topic
    - Master's Thesis: Regionalization of Parameter for Rainfall-Runoff Model Considering the Uncertainty
 
   
  9. Kim Yun Hee (김윤희) / M.S.(2017)
   
 
  • K-water
  • E-mail : kyhee@kwater.or.kr
  • Research Topic
    - Master's Thesis: Regionalization of Parameter for Rainfall-Runoff Model Considering the Uncertainty
 
   
  10. Kim Hyun Mook (김현묵) / M.S.(2017)
 
 
  • K-water
  • E-mail : khm@kwater.or.kr
  • Research Topic
    - Master's Thesis: A study on design rainfalls and floods at Mangyeong-River watershed under climate change
 
   
  11. Kwon Young Jun (권영준) / M.S.(2017)
 
 
  • KRC
  • E-mail : juni0131@ekr.or.kr
  • Research Topic
    - Master's Thesis: Development of Nonstationary Frequency Analysis Model using a Bayesian Multiple Non-crossing Quantile Regression Approach
 
   
  12. Do Ki Bong (도기봉) / M.S.(2018)
 
 
  • K-water
  • E-mail : dokibong.kwater.or.kr
  • Research Topic
    - Master's Thesis: A Study on the Water Supply Capacity under Dam Operation Conditions Changing
 
   
  13. Park Jong Hyeon (박종현) / M.S.(2018)
 
 
  • Incheon Int. Airport
  • Corp.
  • E-mail : civil.park@airport.kr
  • Research Topic
    - Master's Thesis: Drought Assesment Using A Stochastic Spatial Downscaling Technique : A Case Study of the Jeollabuk-do