学位论文详细信息
Application of Artificial Neural Networks for Flood Warning Systems
Precipitation;Artificial Neural Networks;Stream Flow;Flood;ANNs;Radar
Han, Jun ; Dr. Robert C. Borden, Committee Chair,Dr. Jy S. Wu, Committee Co-Chair,Dr. James D. Gregory, Committee Member,Dr. Margery F. Overton, Committee Member,Han, Jun ; Dr. Robert C. Borden ; Committee Chair ; Dr. Jy S. Wu ; Committee Co-Chair ; Dr. James D. Gregory ; Committee Member ; Dr. Margery F. Overton ; Committee Member
University:North Carolina State University
关键词: Precipitation;    Artificial Neural Networks;    Stream Flow;    Flood;    ANNs;    Radar;   
Others  :  https://repository.lib.ncsu.edu/bitstream/handle/1840.16/4173/etd.pdf?sequence=1&isAllowed=y
美国|英语
来源: null
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【 摘 要 】

Artificial neural networks (ANN) are extremely useful for solving problems without existing algorithmic solutions or with algorithms that are too complex to implement.ANN-based models were developed to study hydrologic processes including the forecasts of watershed runoff, derivation of radar-based rainfall estimation, and development of radar-based flood warning systems.In the first phase of this study, ANN was applied to the study of rainfall-runoff processes on two urbanized watersheds in North Carolina. Rainfall and discharge/gage height data were employed to train and test the ANN-hydrologic models.Stream flows or gage heights can be accurately forecasted, with forecasting periods ranging from 15 minutes to 2 hours, at the watershed outlet and for downstream locations.Based on downstream gauging stations, it was also possible to generate missing historic stream flow data of an upstream station.The second phase of this study involved the comparison of empirical and ANN approaches to radar-based rainfall estimation. The results indicated that although z-R relationships provided fairly accurate rainfall estimates on the average, these relationships tended to overestimate the rainfall amount of low intensity storms and underestimate the rainfall amount of high intensity storms.Two ANN radar-rainfall models have been developed for radar-based rainfall estimation.Weather radar provides detailed, in both time and space, information about precipitation patterns.With proper training and testing, ANN models have exhibited their ability of rainfall estimation from the radar data. In comparison to the empirical z-R relationship, ANN models provide more accurate estimates of rainfall for both low and high intensity storms.The third phase of research included the development of two radar-based stream flow forecast models: a radar-rainfall-runoff (3R) model and a radar-runoff (2R) model.In the 3R-model, radar data was employed to provide rainfall estimates which, in turn, served as input to a hydrologic stream forecast model for stream flow forecasts.The 2R model employs historic radar and stream-flow data as inputs to the ANN model which directly produce predication of stream flow at one-hour lead time. Better performance was obtained from the ANN-based 2R model in terms of accuracy, efficiency and cost.

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