Skip navigation
Skip to contents Skip to top menu Skip to left menu
Korean

Font size

High Impact Weather Reasearch Department

High Impact Weather Reasearch Department

  • Research on targeted observation and mechanism analysis of high-impact weather using mobile observation vehicles
  • Research on characteristics of lower atmosphere weather phenomena through weather drone observation
  • Research on Impact-based Forecasting
  • Research on Bio- and Agro-Meteorology

Targeted Observation Research Team

  • Production of on-site observation data of high-impact weather using mobile observation vehicles
  • Development of formation mechanism analysis technologies of high-impact weather based on intensive observation

Specification of Mobile Observation Vehicle(MOVE)
Specification of Mobile Observation Vehicle(MOVE)

Support of the on-site observation and forecast of high-impact weather
Support of the on-site observation and forecast of high-impact weather

  • Development of black ice possibility information service methods using fixed and mobile intensive observations and AI technique

[Road Weather Observation System]
[Road Weather Observation System]

  • Weather drone for lower atmosphere concentration observation
  • Response ability reinforcement and weather service improvement in case of the severe weathers such as heavy snowfall, windstorm, and sea fog
Weather drone system Vertical profile analysis on lower atmosphere
Weather drone system Vertical profile analysis on lower atmosphere

Weather Impact Research Team

  • Development of automated data collection and statistical analysis methods for the improvement of the applicability and accuracy of impact-based forecast considering socio-economical aspects

Impact-based forecasting system of KMA and threshold map of snow depth for impact-based forecast
Impact-based forecasting system of KMA and threshold map of snow depth for impact-based forecast

  • Development of application methods of numerical weather forecasts for heat- and cold health warnings and agricultural fields
Climate chamber experiments for the assessment of standard heat stress levels of Koreans using perceived temperature Forecasting system for daily leaf wetness duration at agricultural fields
Climate chamber experiments for the assessment of standard heat stress levels of Koreans using perceived temperature Forecasting system for daily leaf wetness duration at agricultural fields
  • Contribution to better public health by improving observation methods and forecast accuracy of allergenic pollens

Automated and manual collectors for airborne pollens and a regional pollen calendar based on long-term observation
Automated and manual collectors for airborne pollens and a regional pollen calendar based on long-term observation