Numerical Modeling 


 Numerical Modeling 


Core Contents

DIGIQUAY Co., Ltd. has the interface and numerical modeling technology and know-how in processing ultra-high-resolution precise data inputs in the fields of environment, weather, ocean, disaster, agriculture, artificial intelligence and renewable energy.

  • Environmental, weather, climate change, marine, disaster and hydrological information numerical modeling technology
  • Processing ultra-high-resolution input data and having original technology for customized heterogeneous model interfaces
  • Combining heterogeneous and precise data, it has computational fluid dynamics (CFD) numerical modeling technology

Core Fields
/Possessed Technology

  • Numerical modeling of weather and climate information
  • WRF(Weather Research and Forecast)
  • GloSea6 (License no)
      (Global Seasonal forecasting system version 6)
  • Weather/cloud physics numerical modeling
  • Numerical Modeling of Marine Information
  • NEMO
      (Nucleus for European Modelling of the Ocean)
  • WW3 (Wave Watch 3)
  • Disaster/hydrological numerical model
  • HWRF (Hurricane WRF)
  • TRIP River Routing Model
      (Total Runoff Integrating Pathways)
  • Numerical modeling of air quality information
  • CMAQ
  • WRF-Chem
  • Numerical modeling of climate change
  • RegCM (ICTP Regional Climate Model)
  • Data preprocessing and linkage modeling of heterogeneous models
  • GRIB, netCDF, HDF Processing 3D array data
  • 3D, 4D data assimilation technology
  • Heterogeneous (global model + local model) interface technology
  • Computed Fluid Dynamics (CFD) Numerical Modeling
  • WRF+CFD, ultra-high resolution precision data+CFD

Core business

Development of extreme disaster long-term forecast technology based on climate change scenario model

  • An Analysis of Future Air/Ocean Change Prospects Based on Global/East Asia/Korean Peninsula SSP Scenarios
  • Analysis of Future Resources and Drought Change Prospects Based on Climate Change Scenarios
  • Development of HighResMIP-based Typhoon Information Calculation Technology (Vortex Tracker) in SSP Scenario

Development of Short-Term Typhoon Prediction Information Calculation Technology Based on Medium-Scale Weather/Hurricane Model

  • Short-term typhoon path and intensity prediction technology based on WRF and HWRF (Hurricane WRF) medium-sized models
  • Development of Impact Forecasting Technology on the Korean Peninsula Based on Medium-Scale Numerical Model
  • Development of an Analysis System for the Location of Coastal Winds based on Medium-Scale Numerical Models

Development of Mid- to Long-Term Prediction Technology for Source Based on the River Flow Model

  • Future Change Forecast Technology of River and Groundwater Flow in Korea Based on the Combination of Climate Change Model and River Flow Model
  • Long-term forecast technology for major rivers (Han River, Nakdong River, etc.) in Korea based on the river outflow model
  • Prediction and monitoring technology of long-term changes in global river storage based on river outflow model
  • Analysis of the Effect of Fresh Water on the West Coast of Korea Based on the Combination of the Marine Model and the River Drainage Model