여름에 바다로부터 불어오는 해풍은 해안 도시지역에서의 열섬현상을 감소하기 위한 방법 중 하나로 제시되었다. 특히 바람을 이용한 열섬 효과 저감은 해풍의 특성 -연직 풍속 및 온도 분포- 에 많이 영향을 받는다. 따라서, 열섬 효과 저감을 위한 도시 개발단계에서 해풍을 이용하기 위해서는 해풍의 특성을 충분히 이해해야만 한다. 본 연구에서는 대기 기상 모델링을 이용하여 동경 지역을 수치 해석을 하였다. 수치 해석 결과를 클러스터 분석을 통하여 8개의 대표적인 해풍의 연직 패턴을 분류하였으며, 각 분류된 패턴간의 관계 및 발생 빈도를 비교 및 검토하였다.

In Korea, the ozone profiles have been acquired by using ozonesonde at Pohang station of the Korea Meteorological Administration (KMA) since 1995. These ozone soundings were performed at 0500 UTC on a weekly basis (every Wednesday) in a clear sky. The ozonesonde is equipped with the model 5A ECC sensor, which is one of the most common ozonesonde systems. There have been no attempts to evaluate the Pohang ozonesonde profiles compared with satellite. This paper will provide the first evaluation results for the ozonesonde profiles against HALogen Occultation Experiment (HALOE) measurements over Korea. During 1995-2004 periods, a total of 450 and 188 ozone profiles were obtained from the ozonesonde measurements from HALOE measurements over Korea, respectively. Hence, a total of 34 coincident profile pairs are extracted. Among those total profiles, 26 profiles from ozonesonde are compared against nearly coincident HALOE measurements in time and space. For ozone profiles, the results of statistical analyses showed that the best agreement between two measurements occurs in the 20-25 km and 30-35 km region, where the mean and RMS percent differences are less than ±5 and 14%, respectively. For temperature profiles, the mean and RMS percent differences in 20-25 km region are estimated to be about -0.1 and 1.7%, respectively. According to the scatter plots between two measurements, ozone data are strongly correlated each other above 20 km altitude range with more than 0.8 correlation coefficients. It is found that the altitude (pressure level) differences between two measurements would mainly lead to the discrepancy (over 40% below 18 km) below 20 km in ozone profiles.