日本地球惑星科学連合2018年大会

講演情報

[JJ] ポスター発表

セッション記号 A (大気水圏科学) » A-TT 計測技術・研究手法

[A-TT32] GNSS-Rが拓く新しい地球観測

2018年5月21日(月) 13:45 〜 15:15 ポスター会場 (幕張メッセ国際展示場 7ホール)

コンビーナ:市川 香(九州大学応用力学研究所)、日置 幸介(北海道大学大学院理学研究院地球惑星科学部門)

[ATT32-P05] Monitoring of the Rainfall using Marine X-band radar

*Won Gi Jo1Byung Hyuk Kwon2Min-Seong Kim3Park Sa Kim3Sang Jin Kim1KyungHun Lee1 (1.Dept. of Earth Environmental System Sciences, Pukyong National Univ., Busan, Korea、2.Major of Environmental and Atmospheric Sciences, Pukyong National Univ., Busan, Korea、3.Geo-Sciences Institute, Pukyong National Univ., Busan, Korea)

キーワード:marine X-band radar, rainfall, observation

Weather radars are operating at a higher site than the surrounding area in order to prevent the terrain from blocking the beam. This causes a quantitative error to the rainfall estimation near the surface, even though radar observations are useful over the sea where in situ observation is difficult. The marine radar has a shorter detecting radius than the weather radar, but can detect targets with higher spatial resolution. We modified a marine radar to estimate quantitative precipitation in order to fill the gap of the weather radar. The analogue-to-digital converter has been developed to extract the precipitation signal from the marine X-band radar. The terrain clutter and vessel included in the precipitation signal were removed by a clutter map. The attenuation of the precipitation signal due to the increase of beam volume were improved by applying the beam attenuation and volume correction factor depending on the distance. We have developed an algorithm to estimate the quantitative rainfall from the marine X-band radar signal based on the linear relationship between the rainfall measured by rain gauge on the ground and the marine X-band radar precipitation signal. This result was validated by comparison with the rainfall by rain gauge on the ground. The precipitation distribution over 5 mm hr-1 of the marine X-band radar was consistent with that of the weather radar and the movement of the precipitation echo can be monitored in real time on higher spatial and temporal resolution than the weather radar. This study suggests a new observation technique to complement the temporal and spatial gaps of weather radar and to forecast for the risk of severe weather over coastal region.