• 한국대기환경학회:학술대회논문집
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• 한국대기환경학회 2008년도 춘계학술대회 논문집
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• pp.670-671
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• 2008

• 대기
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• 제25권1호
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• pp.67-83
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• 2015

Predicting the location and intensity of precipitation still remains a main issue in numerical weather prediction (NWP). Resolution is a very important component of precipitation forecasts in NWP. Compared with a lower resolution model, a higher resolution model can predict small scale (i.e., storm scale) precipitation and depict convection structures more precisely. In addition, an ensemble technique can be used to improve the precipitation forecast because it can estimate uncertainties associated with forecasts. Therefore, NWP using both a higher resolution model and ensemble technique is expected to represent inherent uncertainties of convective scale motion better and lead to improved forecasts. In this study, the limited area ensemble prediction system for the convective-scale (i.e., high resolution) operational Unified Model (UM) in Korea Meteorological Administration (KMA) was developed and evaluated for the ensemble forecasts during August 2012. The model domain covers the limited area over the Korean Peninsula. The high resolution limited area ensemble prediction system developed showed good skill in predicting precipitation, wind, and temperature at the surface as well as meteorological variables at 500 and 850 hPa. To investigate which combination of horizontal resolution and ensemble member is most skillful, the system was run with three different horizontal resolutions (1.5, 2, and 3 km) and ensemble members (8, 12, and 16), and the forecasts from the experiments were evaluated. To assess the quantitative precipitation forecast (QPF) skill of the system, the precipitation forecasts for two heavy rainfall cases during the study period were analyzed using the Fractions Skill Score (FSS) and Probability Matching (PM) method. The PM method was effective in representing the intensity of precipitation and the FSS was effective in verifying the precipitation forecast for the high resolution limited area ensemble prediction system in KMA.

• 대한원격탐사학회지
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• 제34권6_1호
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• pp.981-996
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• 2018

농업분야에서 지구관측위성을 활용한 원격탐사 자료는 시간적, 공간적, 그리고 효율성 측면에서 다른 방법에 비해 많은 이점을 가진다. 본 연구는 위성영상의 농업활용에 앞서 영상의 대기보정에 따른 반사도와 식생지수의 변화 분석을 위해 다중분광위성자료의 대기상층 반사도(Top of Atmosphere Reflectance; TOA Reflectance)와 대기보정을 통한 표면 반사도(Surface Reflectance)를 산출하여 각 밴드별 반사도, 식생지수를 비교하였다. 그 결과 지상계측센서와 위성에서 관측된 식생지수는 영상의 대기보정을 통해 산출된 표면반사도가 TOA Reflectance 보다 높은 일치율과 상관성을 나타났다. 다중시기 영상에 대하여 대기보정 전/후 NDVI를 비교한 결과 모든 시기에서 대기보정 수행 후 NDVI 상승하였다. 특히 식생 활력도가 높은 수확직전의 시기의 경우 NDVI 상승폭이 크게 나타났다. 서로 다른 반사 특성을 가지는 토지피복의 경우에도 식생 활력도가 높은 마늘, 양파 재배지역과 산림의 경우 0.1 이상의 NDVI 변화를 보였다. 이 같은 결과는 NIR 밴드대역이 수증기 흡수대역에 있어 대기보정으로 인해 영향을 받기 때문이다. 따라서 위성영상을 농업분야에 활용함에 있어 대기보정은 NDVI 분석에 있어 매우 중요한 과정으로 볼 수 있다.

• 대한원격탐사학회지
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• 제37권6_3호
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• pp.1951-1963
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• 2021

농업환경 모니터링에서 지구관측위성을 활용한 원격탐사 자료는 시·공간적 그리고 효율성 측면에서 다른 방법에 비해 많은 이점을 가진다. 위성에 탑재된 센서는 태양광이 지표면에 반사되어 들어오는 에너지를 측정하므로, 지구의 대기에 의해 산란·흡수·반사되는 과정에서 잡음이 발생한다. 따라서 지표면에 반사되는 에너지(복사휘도)를 정확히 측정하기 위해서는 대기의 효과에 의한 잡음을 제거해야하는 대기보정이 선행되어야 한다. 본 연구는 KOMPSAT-3 위성의 대기보정 적용 및 농업분야 활용성 평가를 위해 대기보정 민감도 분석, 위성 상호간 교차 분석, 지상관측자료와 비교 분석을 수행하였다. 그 결과 모든 경우에서 대기보정 후 표면 반사율이 대기보정 전 TOA 반사율 보다 상호 일치율이 높게 나타났으며 동일한 기준의 시계열 식생지수 생산이 가능할 것으로 판단된다. 하지만 대기입력 파라미터의 민감도 및 위성촬영각(Tilt)에 대한 정량적인 분석을 위한 추가 연구가 필요하다.

• 대기
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• 제21권2호
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• pp.163-172
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• 2011

Numerical forecasting depends on the initial condition error strongly because numerical model is a chaotic system. To calculate the sensitivity of some forecast aspects to the initial condition in the Korea Meteorological Administration (KMA) Unified Model (UM) which is originated from United Kingdom (UK) Meteorological Office (MO), an algorithm to calculate adjoint sensitivities is developed by modifying the adjoint perturbation forecast model in the KMA UM. Then the new algorithm is used to calculate adjoint sensitivity distributions for typhoon DIANMU (201004). Major initial adjoint sensitivities calculated for the 48 h forecast error are located horizontally in the rear right quadrant relative to the typhoon motion, which is related with the inflow regions of the environmental flow into the typhoon, similar to the sensitive structures in the previous studies. Because of the upward wave energy propagation, the major sensitivities at the initial time located in the low to mid- troposphere propagate upward to the upper troposphere where the maximum of the forecast error is located. The kinetic energy is dominant for both the initial adjoint sensitivity and forecast error of the typhoon DIANMU. The horizontal and vertical energy distributions of the adjoint sensitivity for the typhoon DIANMU are consistent with those for other typhoons using other models, indicating that the tools for calculating the adjoint sensitivity in the KMA UM is credible.

• 한국환경독성학회:학술대회논문집
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• 한국환경독성학회 2001년도 추계심포지움 및 학술발표회:환경오염의 생체지표를 이용한 위해성 평가의 최근 기법
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• pp.90-90
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• 2001

• 대한원격탐사학회:학술대회논문집
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• 대한원격탐사학회 2003년도 Proceedings of ACRS 2003 ISRS
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• pp.331-333
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• 2003

KMA successfully began to receive and utilize the GOES-9 GVAR data since May 22nd 2003 when GOES-9 replaced the long-lived GMS-5 for Western Pacific and East Asian region until operation of MTSAT-1R in 2004. To take advantage of improvements of the GOES-9 data over the GMS-5 data, such as the increase of the temporal and spat ial resolution and addition of 3.9${\mu}$m channel, we have improved several algorithms to derive the meteorological products. Here we show two examples of algorithms, sea surface temperature and atmospheric motion vector, and preliminary results of validation of the improved algorithm.

• 한국대기환경학회:학술대회논문집
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• 한국대기환경학회 2008년도 추계학술대회 논문집
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• pp.498-499
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• 2008

• 한국환경농학회지
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• 제40권4호
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• pp.330-334
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• 2021

BACKGROUND: More recently, it has been shown that atmospheric ammonia (NH₃) plays a primary role in the formation of secondary particulate matter by reacting with the acidic species, e.g. SO₂, NOx, to form PM2.5 aerosols in the atmosphere. The Jeonbuk region is an area with high concentration of particulate matter. Due to environmental changes in the Saemangeum reclaimed land with an area of 219 km², it is necessary to evaluate the impact of the particulate matter and atmospheric ammonia in the Jeonbuk region. METHODS AND RESULTS: Atmospheric ammonia concentrations were measured from June 2020 to May 2021 using a passive sampler and CRDS analyzer. Seasonal and annual atmospheric ammonia concentration measured using passive sampler was significantly lower in Jangjado (background concentration), and the concentration ranged from 11.4 ㎍/m³ to 18.2 ㎍/m³. Atmospheric ammonia concentrations in Buan, Gimje, Gunsan, and Wanju regions did not show a significant difference, although there was a slight seasonal difference. The maximum atmospheric ammonia concentration measured using the CRDS analyzer installed in the IAMS near the Saemangeum reclaimed land was 51.5 ㎍/m³ in autumn, 48.0 ㎍/m³ in summer, 37.6 ㎍/m³ in winter, and 32.7 ㎍/m³ in spring. The minimum concentration was 4.9 ㎍/m³ in spring, 4.2 ㎍/m³ in summer, and 3.5 ㎍/m³ in autumn and winter. The annual average concentration was 14.6 ㎍/m³. CONCLUSION(S): Long term monitoring of atmospheric ammonia in agricultural areas is required to evaluate the formation of fine particulate matter and its impact on the environment. In addition, continuous technology development is needed to reduce ammonia emitted from farmland.

• 한국대기환경학회:학술대회논문집
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• 한국대기환경학회 2007년도 추계학술대회 논문집
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• pp.507-508
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• 2007