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W2935984814 abstract "As a stable channel forms, a point is reached when particles shift to motion threshold (threshold channel). As such, the most common challenges related to alluvial channels include the variation in the transverse bank slope (st) and channel geometric profile formation. The present study introduces a novel reliable method of estimating the transverse slope distribution of stable channel bank profiles in different hydraulic conditions by using the Tsallis entropy concept. Accordingly, an equation for calculating st and subsequently the vertical boundary level of bank profiles is presented based on the principle of maximum entropy. The threshold channel bank profile features are defined according to the probability density function and cumulative density function to adjust the general form of the Tsallis entropy for this specific engineering problem. An extensive, detailed study of Lagrange multipliers is carried out and a wide range of observational data are used to determine the Tsallis entropy model accuracy in measuring the st of stable channel banks. The results indicate that the Tsallis entropy model is capable of detecting the ascending trend governing the profiles of stable channel banks in different hydraulic conditions. This model exhibits excellent predictive performance with a mean absolute relative error (MARE) of 0.265 and a coefficient of determination (R2) of 0.975. The proposed Tsallis entropy-based equation can be used to predict river morphology changes for river management plans." @default.
W2935984814 created "2019-04-25" @default.
W2935984814 creator A5018985640 @default.
W2935984814 creator A5060191046 @default.
W2935984814 creator A5086247042 @default.
W2935984814 date "2019-07-01" @default.
W2935984814 modified "2023-10-17" @default.
W2935984814 title "A method based on the Tsallis entropy for characterizing threshold channel bank profiles" @default.
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W2935984814 cites W1976165277 @default.
W2935984814 cites W1978315128 @default.
W2935984814 cites W1980048075 @default.
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W2935984814 cites W1980767780 @default.
W2935984814 cites W1983211360 @default.
W2935984814 cites W1983874169 @default.
W2935984814 cites W2003196790 @default.
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W2935984814 cites W2034133710 @default.
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W2935984814 cites W2036755080 @default.
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W2935984814 cites W2143245339 @default.
W2935984814 cites W2145444514 @default.
W2935984814 cites W2146169648 @default.
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W2935984814 cites W2516349409 @default.
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W2935984814 cites W2597046226 @default.
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W2935984814 cites W3105728159 @default.
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W2935984814 doi "https://doi.org/10.1016/j.physa.2019.121089" @default.
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