Cheng-Shang Lee scite author profile

Cheng-Shang Lee

3Publications

197Citation Statements Received

81Citation Statements Given

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247

188

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Affiliations

National Taiwan University, National Applied Research Laboratories, Colorado State University

Publications

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Initial Maintenance of Tropical Cyclone Size in the Western North Pacific

Lee

Cheung

Fang

et al. 2010

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A tropical cyclone (TC) size parameter, which is defined here as the radius of 15 m s 21 near-surface wind speed (R15), is calculated for 145 TCs in the western North Pacific during 2000-05 based on QuikSCAT oceanic winds. For the 73 TCs that intensified to typhoon intensity during their lifetimes, the 33% and 67% respective percentiles of R15 at tropical storm intensity and at typhoon intensity are used to categorize small, medium, and large TCs. Whereas many of the small TCs form from an easterly wave synoptic pattern, the monsoon-related formation patterns are favorable for forming medium to large TCs. Most of these 73 TCs stay in the same size category during intensification, which implies specific physical mechanisms for maintaining TC size in the basin. The 18 persistently large TCs from the tropical storm to the typhoon stage mostly have northwestward or north-northwestward tracks, while the 16 persistently small TCs either move westwardnorthwestward in lower latitudes or develop at higher latitudes with various track types. For the large TCs, strong low-level southwesterly winds exist in the outer core region south of the TC center throughout the intensification period. The small TCs are more influenced by the subtropical high during intensification. The conclusion is that it is the low-level environment that determines the difference between large and small size storms during the early intensification period in the western North Pacific.

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A Climatology Model for Forecasting Typhoon Rainfall in Taiwan

et al. 2006

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The continuous torrential rain associated with a typhoon often caused flood, landslide or debris flow, leading to serious damages to Taiwan. Thus, a usable scheme to forecast rainfall amount during a typhoon period is highly desired. An analysis using hourly rainfall amounts taken at 371 stations during 1989-2001 showed that the topographical lifting of typhoon circulation played an important role in producing heavier rainfall. A climatology model for typhoon rainfall, which considered the topographical lifting and the variations of rain rate with radius was then developed. The model could provide hourly rainfall at any station or any river basin for a given typhoon center. The cumulative rainfall along the forecasted typhoon track was also available. The results showed that the R 2 value between the model estimated and the observed cumulative rainfall during the typhoon period for the DanShui (DSH) and Kao-Ping (KPS) River Basins reached 0.70 and 0.81, respectively. The R 2 values decreased slightly to 0.69 and 0.73 if individual stations were considered. However, the values decreased significantly to 0.40 and 0.51 for 3-hourly rainfalls, indicating the strong influence of the transient features in producing the heavier rainfall. In addition, the climatology model can only provide the average conditions. The characteristics in individual typhoons should be considered when applying the model in real-time operation. For example, the model could give reasonable cumulative rainfall amount at DSH before Nakri (2002) made landfall on Taiwan, but overestimated the rainfall after Nakri made landfall and weakened with significant reduction in convection.

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Ensemble forecasting of typhoon rainfall and floods over a mountainous watershed in Taiwan

Hsiao

Yang

Lee

et al. 2013

Journal of Hydrology

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Cheng-Shang Lee

Initial Maintenance of Tropical Cyclone Size in the Western North Pacific

A Climatology Model for Forecasting Typhoon Rainfall in Taiwan

Ensemble forecasting of typhoon rainfall and floods over a mountainous watershed in Taiwan

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