Suitability of the Southern Australia Integrated Marine Observing System’s (SA-IMOS) HF-Radar for operational forecasting

IF 1.7 3区地球科学 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES

Journal of Operational Oceanography Pub Date : 2019-01-24 DOI:10.1080/1755876X.2019.1567450

C. James, M. Collopy, L. Wyatt, A. Middleditch

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引用次数: 3

Abstract

ABSTRACT The IMOS HF-Radar array in South Australia provides observations of the ocean waters south of Spencer Gulf. In addition to ocean surface currents, the data from this array can be processed to provide near real-time observations of wave statistics and wind direction. The Australian Bureau of Meteorology requires access to these observations for forecast modelling but currently only have a single Waverider buoy operating in South Australian waters at Cape du Couedic, south of Kangaroo Island, which provides no directional information. The HF-Radar array could potentially be used to augment the current operational observation systems used by the Bureau. In this paper, we evaluate the performance of the HF-Radar system against observations from the Waverider buoy and an automatic weather station at Neptune Island and also compare the HF-Radar observations to a wave model based on the eSA-Marine forecast grid. The results suggest that upgrading the HF-Radar to provide near real-time wave and wind data would provide a new, independent source of environmental observations for the Bureau.

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南澳大利亚综合海洋观测系统(SA-IMOS)高频雷达用于业务预报的适用性

南澳大利亚的国际海事组织高频雷达阵列提供了斯宾塞湾以南海域的观测资料。除了海洋表面洋流外，该阵列的数据还可以进行处理，提供波浪统计和风向的近实时观测。澳大利亚气象局需要获得这些观测数据来进行预测建模，但目前只有一个Waverider浮标在袋鼠岛以南的Cape du Couedic南澳大利亚水域运行，无法提供方向信息。高频雷达阵列可以潜在地用于增强该局目前使用的业务观测系统。在本文中，我们将高频雷达系统的性能与来自海王星岛的Waverider浮标和自动气象站的观测结果进行了比较，并将高频雷达观测结果与基于eSA-Marine预报网格的波浪模型进行了比较。结果表明，升级高频雷达以提供近实时的波浪和风数据将为该局提供一个新的、独立的环境观测来源。

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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来源期刊

Journal of Operational Oceanography 地学-海洋学

CiteScore

7.50

自引率

9.70%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Operational Oceanography will publish papers which examine the role of oceanography in contributing to the fields of: Numerical Weather Prediction; Development of Climatologies; Implications of Ocean Change; Ocean and Climate Forecasting; Ocean Observing Technologies; Eutrophication; Climate Assessment; Shoreline Change; Marine and Sea State Prediction; Model Development and Validation; Coastal Flooding; Reducing Public Health Risks; Short-Range Ocean Forecasting; Forces on Structures; Ocean Policy; Protecting and Restoring Ecosystem health; Controlling and Mitigating Natural Hazards; Safe and Efficient Marine Operations