TY - JOUR
T1 - Optimization of multi-model ensemble forecasting of typhoon waves
AU - Pan, Shun qi
AU - Fan, Yang ming
AU - Chen, Jia ming
AU - Kao, Chia chuen
N1 - Funding Information:
This work was supported by the European Commission within FP7-THEME 6 (Grant No. 244104 ), the Natural Environment Research Council (NERC) of the UK (Grant No. NE/J005541/1 ), and the Ministry of Science and Technology (MOST) of Taiwan (Grant No. MOST 104-2221-E-006-183 ).
Publisher Copyright:
© 2016 Hohai University.
PY - 2016/1/1
Y1 - 2016/1/1
N2 - Accurately forecasting ocean waves during typhoon events is extremely important in aiding the mitigation and minimization of their potential damage to the coastal infrastructure, and the protection of coastal communities. However, due to the complex hydrological and meteorological interaction and uncertainties arising from different modeling systems, quantifying the uncertainties and improving the forecasting accuracy of modeled typhoon-induced waves remain challenging. This paper presents a practical approach to optimizing model-ensemble wave heights in an attempt to improve the accuracy of real-time typhoon wave forecasting. A locally weighted learning algorithm is used to obtain the weights for the wave heights computed by the WAVEWATCH III wave model driven by winds from four different weather models (model-ensembles). The optimized weights are subsequently used to calculate the resulting wave heights from the model-ensembles. The results show that the optimization is capable of capturing the different behavioral effects of the different weather models on wave generation. Comparison with the measurements at the selected wave buoy locations shows that the optimized weights, obtained through a training process, can significantly improve the accuracy of the forecasted wave heights over the standard mean values, particularly for typhoon-induced peak waves. The results also indicate that the algorithm is easy to implement and practical for real-time wave forecasting.
AB - Accurately forecasting ocean waves during typhoon events is extremely important in aiding the mitigation and minimization of their potential damage to the coastal infrastructure, and the protection of coastal communities. However, due to the complex hydrological and meteorological interaction and uncertainties arising from different modeling systems, quantifying the uncertainties and improving the forecasting accuracy of modeled typhoon-induced waves remain challenging. This paper presents a practical approach to optimizing model-ensemble wave heights in an attempt to improve the accuracy of real-time typhoon wave forecasting. A locally weighted learning algorithm is used to obtain the weights for the wave heights computed by the WAVEWATCH III wave model driven by winds from four different weather models (model-ensembles). The optimized weights are subsequently used to calculate the resulting wave heights from the model-ensembles. The results show that the optimization is capable of capturing the different behavioral effects of the different weather models on wave generation. Comparison with the measurements at the selected wave buoy locations shows that the optimized weights, obtained through a training process, can significantly improve the accuracy of the forecasted wave heights over the standard mean values, particularly for typhoon-induced peak waves. The results also indicate that the algorithm is easy to implement and practical for real-time wave forecasting.
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U2 - 10.1016/j.wse.2016.02.001
DO - 10.1016/j.wse.2016.02.001
M3 - Article
AN - SCOPUS:84962715943
SN - 1674-2370
VL - 9
SP - 52
EP - 57
JO - Water Science and Engineering
JF - Water Science and Engineering
IS - 1
ER -