利用 "哨兵-2 "图像估算沿海水域浊度

IF 2.1 Q3 REMOTE SENSING

Geodesy and Cartography Pub Date : 2023-12-19 DOI:10.3846/gac.2023.18132

Muhammad Anshar Amran, W. Daming

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引用次数: 0

摘要

浊度是一个重要的水质参数，也是水污染的一个指标。海洋遥感技术已成为绘制沿海水域浊度图的有用工具。利用遥感技术进行水质分析的优势在于，它能从整个研究区域获取同步数据，生成连续的表面数据，并能显示详细的空间变异性和周期性。本研究采用经验建模法，建立了沿岸水域浊度与哨兵-2 反射率之间的数学关系。本研究综合了实地调查和图像处理。现场浊度的测量与图像采集时间一致。本研究使用的是 Sentinel-2 level-2A 图像。浊度与 Sentinel-2 反射率之间的数学关系通过多元线性回归模型得出。在哨兵-2 图像中建立了数学模型，并成功应用于获取地表浊度。从哨兵-2 图像得出的估计浊度与观测到的浊度非常接近，因此所提出的模型可用于检索沿岸水域的浊度。

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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ESTIMATION OF COASTAL WATERS TURBIDITY USING SENTINEL-2 IMAGERY

Turbidity is an important water quality parameter and an indicator of water pollution. Marine remote sensing techniques has become a useful tool for mapping of turbidity at coastal waters. The advantage of using remote sensing for water quality analysis is its ability to obtain synoptic data from the entire study area to produce continuous surface data, can shows detailed spatial variability and periodically. The empirical modeling has been applied in this study to formulate the mathematical relationship between coastal waters turbidity with Sentinel-2 reflectance. This study integrated field survey and image processing. Measurement of in-situ turbidity was done in accordance with imagery acquisition time. Imageries used for this study were Sentinel-2 level-2A. The mathematical relationship was obtained by multiple linear regression model between turbidity and Sentinel-2 reflectance. A mathematical model has been developed in Sentinel-2 imagery and successfully applied to obtain surface turbidity. Estimated turbidity derived from Sentinel-2 imagery is very close to observed turbidity so the proposed model can be used to retrieve turbidity of coastal waters.

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来源期刊

Geodesy and Cartography REMOTE SENSING-

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

15 weeks

期刊介绍： THE JOURNAL IS DESIGNED FOR PUBLISHING PAPERS CONCERNING THE FOLLOWING FIELDS OF RESEARCH: •study, establishment and improvement of the geodesy and mapping technologies, •establishing and improving the geodetic networks, •theoretical and practical principles of developing standards for geodetic measurements, •mathematical treatment of the geodetic and photogrammetric measurements, •controlling and application of the permanent GPS stations, •study and measurements of Earth’s figure and parameters of the gravity field, •study and development the geoid models,