Prediction of Suspended Sediment Concentration Based on the Turbidity-Concentration Relationship Determined via Underwater Image Analysis

Sediment measurement data are essential for sediment transport analysis and therefore highly important in overall river planning. Extant sediment measurement methods consume considerable manpower and time and are limited by factors including economic reasons and worker risks. This study primarily ai...

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Bibliographic Details
Published inApplied sciences Vol. 12; no. 12; p. 6125
Main Authors Kang, Woochul, Lee, Kyungsu, Kim, Jongmin
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.06.2022
Subjects
Experiments
Feasibility studies
Flow velocity
Fluvial sediments
Image analysis
Image processing
Laboratories
Lasers
Light
Manpower
Measurement methods
Methods
multiple regression analysis
Multiple regression models
Particle size
Regression analysis
RGB
Rivers
Sediment concentration
Sediment transport
suspended sediment concentration
Suspended sediments
Turbidity
Underwater
underwater image
Verification
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Summary:Sediment measurement data are essential for sediment transport analysis and therefore highly important in overall river planning. Extant sediment measurement methods consume considerable manpower and time and are limited by factors including economic reasons and worker risks. This study primarily aimed to predict the changes in SSC (Suspended Sediment Concentration) and turbidity by examining the change in color in underwater images. While maintaining a constant flow in a channel, the turbidity and concentration were measured under different SSC. Multiple regression models were developed using turbidity measurement results, and they exhibited high explanatory powers (adjusted R2 > 0.91). Furthermore, upon verification using the verification dataset of the experimental results, an excellent predictive power (RMSE ≈ 0.4 NTU) was demonstrated. The model with the highest predictive power, which was inclusive of red and green bands and showed no underlying multicollinearity was used to predict turbidity. Finally, the turbidity and suspended sediment concentration relationship determined from the experimental results was used to estimate the sediment concentration from the color changes in the underwater images. The concentrations that were predicted by the model showed satisfactory results, compared to the measurements (RMSE ≈ 21 ppm). This study indicated the feasibility of continuous SSC monitoring using underwater images as a new measurement method.
ISSN:2076-3417
2076-3417
DOI:10.3390/app12126125