An operational forecast modeling system for the Mississippi Sound/Bight

OCEANS '02 MTS/IEEE Pub Date : 2002-10-29 DOI:10.1109/OCEANS.2002.1192074

A. Blumberg, Q. Ahsan, Honghai Li, J. Blaha

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引用次数: 4

Abstract

An operational forecast modeling system for the Mississippi (MS) Sound/Bight has been developed. The system integrates a triple nested coastal ocean forecast modeling systems and a meteorological forecast model. The Mississippi Sound/Bight model based on ECOMSED, forms the central core of the operational forecast system. At its eastern and southern boundaries, the ECOMSED is coupled to a regional Gulf of Mexico (GOM) model in a manner that ensures seamless energy transfer between the two models. Meteorological forcing is provided by the Coupled Ocean/Atmospheric Mesoscale Prediction System, COAMPS. The forecast system automatically retrieves all available real-time river discharge data along the Gulf coast to be imposed as coastal boundary conditions. The operational MS Sound/Bight forecast model produces two 12-hour hindcast and two 48-hour forecasts everyday at 0000 and 1200 hours. The system is scheduled to run for 12 hours in a hindcast mode and then 48 hours in a forecast mode. However, these simulation periods can vary. Depending on the availability and lengths of inputs from the coupled GOM and COAMPS models, the operational system automatically sets the periods for hindcast and forecast simulations. The model saves the proper hydrodynamic information for a restart so that a smooth and seamless execution is possible to start the next cycle. All of the simulations of the model are performed and archived on the Major Shared Resource Center (MSRC) high-performance computers resident at NAVOCEANO, Stennis Space Center, MS. The archived model output includes hourly three-dimensional fields of salinity, temperature and currents and water level across the model domain. Quality control is performed before the results go to a post-processing phase. A post-processing routine, which runs autonomously, generates surface current, temperature and salinity distributions after the completion of each cycle of forecast. The model results are available on the NGLI website (www.navo.navy.mil/NGLI) for public use.

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密西西比声/光的业务预报建模系统

开发了一套密西西比河声光预报模型系统。该系统集成了三套海岸海洋预报模型系统和气象预报模型。基于ECOMSED的密西西比声/光模型构成了业务预报系统的核心。在其东部和南部边界，ECOMSED与墨西哥湾区域(GOM)模型耦合，以确保两个模型之间的无缝能量传输。气象强迫由海洋/大气耦合中尺度预报系统(COAMPS)提供。预报系统自动检索墨西哥湾沿岸所有可用的实时河流流量数据，作为海岸边界条件。运作的MS声光预报模式每天在0000时及1200时分别产生两个12小时的预报和两个48小时的预报。系统计划在预测模式下运行12小时，然后在预测模式下运行48小时。然而，这些模拟周期可以变化。根据来自耦合GOM和COAMPS模型的输入的可用性和长度，操作系统自动设置预测和预测模拟的周期。该模型为重新启动保存了适当的流体动力学信息，从而可以顺利无缝地开始下一个循环。该模型的所有模拟都在主要共享资源中心(MSRC)高性能计算机上进行并存档，该计算机位于美国斯坦尼斯航天中心的NAVOCEANO。存档的模型输出包括每小时的盐度、温度、电流和水位的三维场。在结果进入后处理阶段之前进行质量控制。后处理程序自动运行，在每个预报周期完成后生成表面电流、温度和盐度分布。模型结果可在NGLI网站(www.navo.navy.mil/NGLI)上获得，供公众使用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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OCEANS '02 MTS/IEEE

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