Developing an Objective Scheme to Construct Hurricane Bogus Vortices Based on Scatterometer Sea Surface Wind Data

Developing an Objective Scheme to Construct Hurricane Bogus Vortices Based on Scatterometer Sea Surface Wind Data

This study presents an objective scheme to construct hurricane bogus vortices based on satellite microwave scatterometer observations of sea surface wind vectors. When specifying a bogus vortex using Fujita’s formula, the required parameters include the center position and the radius of the maximum...

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Bibliographic Details
Main Authors: Weixin Pan, Xiaolei Zou, Yihong Duan
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Remote Sensing
Subjects:
tropical cyclone center positioning
construction of bogus vortex
scatterometer sea surface wind
Online Access:https://www.mdpi.com/2072-4292/17/9/1528
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Summary:This study presents an objective scheme to construct hurricane bogus vortices based on satellite microwave scatterometer observations of sea surface wind vectors. When specifying a bogus vortex using Fujita’s formula, the required parameters include the center position and the radius of the maximum gradient of sea level pressure (R<sub>0</sub>). We first propose determining the tropical cyclone (TC) center position as the cyclonic circulation center obtained from sea surface wind observations and then establishing a regression model between R<sub>0</sub> and the radius of 34-kt sea surface wind of scatterometer observations. The radius of 34-kt sea surface wind (R<sub>34</sub>) is commonly used as a measure of TC size. The center positions determined from HaiYang-2B/2C/2D Scatterometers, MetOp-B/C Advanced Scatterometers, and FengYun-3E Wind Radar compared favorably with the axisymmetric centers of hurricane rain/cloud bands revealed by Advanced Himawari Imager observations of brightness temperature for the western Pacific landfalling typhoons Doksuri, Khanun, and Haikui in 2023. Furthermore, regression equations between R<sub>0</sub> and the scatterometer-determined radius of 34-kt wind are developed for tropical storms and category-1, -2, -3, and higher hurricanes over the Northwest Pacific (2022–2023). The bogus vortices thus constructed are more realistic than those built without satellite sea surface wind observations.
ISSN:2072-4292

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