WaveWatch的操作系统移植及其与SWAN嵌套接口的改进   总被引：8，自引：0，他引：8  

高山  丁平兴  朱首贤 《海洋科学进展》2006,24(2):228-237

为使WaveWatch和SWAN两种海浪预报模式能够有效地嵌套运行,将WaveWatch模式从UNIX移植到Windows系统下运行,同时对SWAN模式与WaveWatch模式的嵌套接口格点座标读取精度进行修改,使其能够应用于不规则边界的曲线网格和小间距规则网格的嵌套;作为检验个例,使用WaveWatchIII与SWAN模式多重嵌套的方法在Windows系统下对长江口海浪场进行数值模拟实验,得到了理想的模拟结果。  相似文献   

A speckle noise suppression method based on surface waves investigation and monitoring data     

Jingwei Gu  Xiuzhong Li  Yijun He 《海洋学报(英文版)》2023,42(1):131-141

The internal energy distribution of waves can be described using ocean-wave spectra. In many ways, obtaining wave spectra on a global scale is critical. Surface waves investigation and monitoring onboard the Chinese-French oceanography satellite is the first space-borne instrument for detecting wave spectra specially, which was launched on October 29, 2018. It can avoid the shortage of synthetic aperture radar detection results while still having some problems, especially with the effects of spe...  相似文献   

集合最优插值方法在北印度洋海浪同化中的应用   总被引：1，自引：0，他引：1       下载免费PDF全文

曹蕾  齐鹏 《海洋科学进展》2015,33(1)

基于第三代海浪模式WaveWatch III,采用集合最优插值(EnOI)方法对北印度洋海浪进行同化数值实验研究。在集合样本选取方案上,针对不同的实验分别选取有效波高(SWH)的历史后报场(样本A)、24h变化(样本B)以及以同一时刻72h预报时效和24h预报时效的差异(样本C)用于估计背景误差协方差。样本A和样本B是为海浪模拟而设计,样本C是为海浪预报而设计;通过与由高度计数据确定的模式背景误差进行比较,认为样本B优于样本A。采用样本B对2011年北印度洋海浪场进行同化模拟,结果表明2011-03-11相对误差改进都在5%及以上,其中7月份改进效果最佳。采用样本C对2013-07的有效波高进行0~72h预报,发现同化使0~24h预报改进最明显:均方根误差改进0.12m,相对误差改进5%。浮标检验结果支持上述结论。  相似文献   

The use of remote sensing and linear wave theory to model local wave energy around Alphonse Atoll,Seychelles     

S. Hamylton 《Estuarine, Coastal and Shelf Science》2011

This paper demonstrates a practical step-wise method for modelling wave energy at the landscape scale using GIS and remote sensing techniques at Alphonse Atoll, Seychelles. Inputs are a map of the benthic surface (seabed) cover, a detailed bathymetric model derived from remotely sensed Compact Airborne Spectrographic Imager (CASI) data and information on regional wave heights. Incident energy at the reef crest around the atoll perimeter is calculated as a function of its deepwater value with wave parameters (significant wave height and period) hindcast in the offshore zone using the WaveWatch III application developed by the National Oceanographic and Atmospheric Administration. Energy modifications are calculated at constant intervals as waves transform over the forereef platform along a series of reef profile transects running into the atoll centre. Factors for shoaling, refraction and frictional attenuation are calculated at each interval for given changes in bathymetry and benthic coverage type and a nominal reduction in absolute energy is incorporated at the reef crest to account for wave breaking. Overall energy estimates are derived for a period of 5 years and related to spatial patterning of reef flat surface cover (sand and seagrass patches).  相似文献