Proposal of a Method to Determine the Correlation between Total Suspended Solids and Dissolved Organic Matter in Water Bodies from Spectral Imaging and Artificial Neural Networks

Proposal of a Method to Determine the Correlation between Total Suspended Solids and Dissolved Organic Matter in Water Bodies from Spectral Imaging and Artificial Neural Networks

Water quality monitoring through remote sensing with UAVs is best conducted using multispectral sensors; however, these sensors are expensive. We aimed to predict multispectral bands from a low-cost sensor (R, G, B bands) using artificial neural networks (ANN). We studied a lake located on the campu...

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Veröffentlicht in:Sensors (Basel, Switzerland) Switzerland), 2018-01, Vol.18 (1), p.159
Hauptverfasser: R Veronez, Maurício, Kupssinskü, Lucas S, T Guimarães, Tainá, Koste, Emilie C, da Silva, Juarez M, de Souza, Laís V, Oliverio, William F M, Jardim, Rogélio S, Koch, Ismael É, de Souza, Jonas G, Gonzaga, Luiz, Mauad, Frederico F, Inocencio, Leonardo C, Bordin, Fabiane
Format: Artikel
Sprache:eng
Schlagworte:
artificial neural networks
Correlation
Dissolved organic matter
Environmental monitoring
Error detection
Low cost
Neural networks
Remote monitoring
Remote sensors
Sensors
spectral imaging
Technical Note
Unmanned aerial vehicles
Water quality
water quality monitoring
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Zusammenfassung:Water quality monitoring through remote sensing with UAVs is best conducted using multispectral sensors; however, these sensors are expensive. We aimed to predict multispectral bands from a low-cost sensor (R, G, B bands) using artificial neural networks (ANN). We studied a lake located on the campus of Unisinos University, Brazil, using a low-cost sensor mounted on a UAV. Simultaneously, we collected water samples during the UAV flight to determine total suspended solids (TSS) and dissolved organic matter (DOM). We correlated the three bands predicted with TSS and DOM. The results show that the ANN validation process predicted the three bands of the multispectral sensor using the three bands of the low-cost sensor with a low average error of 19%. The correlations with TSS and DOM resulted in R² values of greater than 0.60, consistent with literature values.
ISSN:1424-8220
1424-8220
DOI:10.3390/s18010159