Application of remote sensing technology in water quality monitoring
DOI:
https://doi.org/10.54097/hset.v17i.2511Keywords:
Water Quality, Remote Sensing, Satellite, Water Quality Indicators.Abstract
Water is the source of life, and water quality is one of the world's significant environmental problems today; the current state of water quality problems is worrying. Traditional water quality monitoring methods usually use buoys to carry sensors or manual sampling for real-time field water quality monitoring. These methods, although the monitoring accuracy is high, are labor-intensive, expensive and time-consuming. Remote sensing technology now occupies an increasingly important position in water quality monitoring because of its low cost, wide range and fast response time. This study introduces the research status and development problems of water quality remote sensing monitoring neighborhood from water quality remote sensing principle, data source, indicators, and monitoring methods. Results show that the data source mainly contains satellite and emerging UAV data. The remote sensing indicators typically include FUI, suspended solids, CDOM, Chl-a, and TN; Traditional methods like empirical and semi-empirical methods, and developing methods like analytic method and the surging machine learning and automation methods.
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References
Xia Yan. Research and analysis on water pollution based on water quality monitoring data [D]. Changsha: Hunan Normal University, 2021.
Lu Yangchuan, Zhang Chengming. Analysis of the current situation and outlook of pollutant discharge in urban wastewater in China [J]. Sichuan Environment, 2022, 41(03):273-278.
Chen Nan, Wang Zhifang. Design and application of water environment remote sensing monitoring demonstration system in Hubei Province [J]. Water Resources Protection, 2013, 29(01):91-94.
Xiong Yujiu, Ran Yili, Zhao Shaohua, Zhao Huan, Tian Qixuan. Remotely assessing and monitoring coastal and inland water quality in China: Progress, challenges and outlook [J]. Critical Reviews in Environmental Science and Technology, 2020, 50 (12):1266-1302.
Zhao Yingshi. Principles and methods of remote sensing application analysis [M]. Beijing: Science Press, 2003.
Yoshifumi Yasuoka, Tadakuni Miyazaki. Remote sensing of water quality in the lake [J]. Journal of The Remote Sensing Society of Japan, 1982, 2(3):51-62.
Dewidar Kh, Khedr A A. Remote sensing of water quality for Burullus Lake, Egypt [J]. Geocarto International, 2005, 20(3):43-49.
Chen Yan, Liu Suihua, Wang Kun, Song Shanhai, Liang Ping-ping, Chen Fang. Remote sensing of Caohai Lake water quality using Landsat satellite images [J]. Journal of Hydroecology, 2020, 41(3):24-31.
Yang Liu, Han Yu, Li Fan, Jian Chenchen, Wang Zumao, Wu Zhongcheng. Retrieving for water quality parameters of Wenyu River based on ETM+ images [J]. Journal of Natural Science of Heilongjiang University, 2013, (04):533-539.
Gao Zerun. Monitoring for eutrophication of Dongting Lake based on ETM+ image [D]. Hunan: Central South University, 2012.
Wang Chuang. A quantitative inversion study of Chl-a based on multi-curve resolution with Lorentzian spectral shape constraints [D]. Hebei: North China Institute of Aerospace Engineering, 2021.
He Longhua, Yang Jingen. Remote sensing study of main waterbody pollution in Changjiang delta region [J]. Journal of Fisheries of China, 2005, 29(2):173-177.
Kim H C, Son S, Kim Y H, Khim J S, Nam J, Chang W K, Lee J H, Lee C H, Ryu J. Remote sensing and water quality indicators in the Korean West coast: Spatio-temporal structures of MODIS-derived chlorophyll-a and total suspended solids [J]. Marine Pollution Bulletin, 2017, 121(1-2):425-434.
Roberto L H, Himer A G, Juan R C, Miguel De-la T. Water pollution detection in Acapulco Coasts using merged data from the Sentinel-2 and Sentinel-3 satellites [C]. 2021 IEEE International Geoscience and Remote Sensing Symposium (IGARSS), 2021.
Liu Yanjun. Inversion of water quality elements in small and micro size water region using multispectral image by UAV [D]. Zhejiang A&F University, 2018.
Enzo P., Alejo S., Alvaro P. UAVs vs Satellites: Comparison of tools for water quality monitoring [C]. 2022 IEEE 13th Latin America Symposium on Circuits and System (LASCAS), 2022.
Wang Yifei, Gong Zhaoming, Zhang Yuan, Su Shuo. Extraction and application of Forel-Ule index based on images from multiple sensors [J]. Remote Sensing for Natural Resources, 2021, 33(3):262-271.
Fu Dandan, Zhang Liyan, Liang Zhilin. The review of CDOM remote sensing inversion in water [J]. Journal of Capital Normal University: Natural Science Edition, 2017, 38(2):84-90.
Jiang Dingguo, Quan Xiufeng, Li Fei, Liu Wei. Optimization of water chlorophyll-a concentration prediction model based on BP neural network [J]. South-to-North Water Transfers and Water Science & Technology, 2019, 17(2):81-88.
Leonardo V. B. Turbidity classification of the Paraopeba River using machine learning and Sentinel-2 images [J]. IEEE Latin America Transactions, 2022, 20(5), 799-805.
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