文化大學機構典藏 CCUR:Item 987654321/35423
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    Please use this identifier to cite or link to this item: https://irlib.pccu.edu.tw/handle/987654321/35423


    Title: Study of NDVI Application on Turbidity in Reservoirs
    Authors: Chien, WH (Chien, Wen-Huan)
    Wang, TS (Wang, Tai-Sheng)
    Yeh, HC (Yeh, Hui-Chung)
    Hsieh, TK (Hsieh, Tsu-Kuang)
    Contributors: 土資系
    Keywords: Turbidity
    Remote sensing
    Normalized Difference Vegetation Index
    Multiple linear regression
    Date: 2016-10
    Issue Date: 2017-02-21 09:35:52 (UTC+8)
    Abstract: Turbidity (TB), an important factor that determines water quality, can influence the water supply of reservoirs. Using a submerged optical sensor, the TB of a body of water can be observed. This study aims to use remote sensing (RS) technology in order to examine TB variations of the water in reservoirs. In general, previous studies have focused on evaluating the relationships among a number of single-spectrum bands and in situ data. In this study, we included the Normalized Difference Vegetation Index (NDVI) among the TB monitoring methods for reservoirs and investigated its practical utility. The ratio of NDVI is between -1 and 1. A negative value indicates water or snow; a value of 0 indicates rock or bare soil; and a positive value indicates a vegetative cover. We consider the value of NDVI to be close to -1 in clean water and close to 0 in turbid water. TB, which is the scattering degree of incident light into water, is observed using a submerged optical sensor. Water appears turbid if floating material or suspended solids are found. Therefore, we use NDVI in this study in an attempt to estimate TB concentration. Images from the Landsat-7 ETM+ satellite were used to observe several important reservoirs in northern Taiwan, and multiple linear regression (MLR) was used for analysis. This study examines the data of 47 samples and found the gaps between the 3 days of the in situ date and the date the images were taken. We found that the NDVI has a negative correlation with TB. After including the NDVI in our model, its explaining ability and improvement rate increased by 11.2 and 8.72 %, respectively. Therefore, using the NDVI can provide additional reflective information, as well as improve the model's accuracy.
    Relation: JOURNAL OF THE INDIAN SOCIETY OF REMOTE SENSING 卷: 44 期:5 頁碼: 829-836
    Appears in Collections:[Department of Natural Resources ] journal articles

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