Application of a fuzzy inference system for the prediction of longshore sediment transport

•FIS and ANFIS models were employed to predict and model longshore sediment transport.•We used the measurement data [1,2] to develop the model.•The ANFIS model was applied to a coastal region to verify the model.•The model results are compatible with the field measurements.•The LST rates were compar...

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Bibliographic Details
Published in:Applied ocean research 2014-10, Vol.48, p.162-175
Main Authors: Arı Güner, H. Anıl, Yumuk, H. Asena
Format: Article
Language:English
Subjects:
Adaptive network-based fuzzy inference system
Black Sea
CERC formula
Fuzzy inference system
Fuzzy logic
Kamphuis formula
Karaburun
LITPACK
Longshore sediment transport
Marine
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Summary:•FIS and ANFIS models were employed to predict and model longshore sediment transport.•We used the measurement data [1,2] to develop the model.•The ANFIS model was applied to a coastal region to verify the model.•The model results are compatible with the field measurements.•The LST rates were compared with the CERC formula, the Kamphuis formula and the numerical model. A fuzzy inference system (FIS) and a hybrid adaptive network-based fuzzy inference system (ANFIS), which combines a fuzzy inference system and a neural network, are used to predict and model longshore sediment transport (LST). The measurement data (field and experimental data) obtained from Kamphuis [1] and Smith et al. [2] were used to develop the model. The FIS and ANFIS models employ five inputs (breaking wave height, breaking wave angle, slope at the breaking point, peak wave period and median grain size) and one output (longshore sediment transport rate). The criteria used to measure the performances of the models include the bias, the root mean square error, the scatter index and the coefficients of determination and correlation. The results indicate that the ANFIS model is superior to the FIS model for predicting LST rates. To verify the ANFIS model, the model was applied to the Karaburun coastal region, which is located along the southwestern coast of the Black Sea. The LST rates obtained from the ANFIS model were compared with the field measurements, the CERC [3] formula, the Kamphuis [1] formula and the numerical model (LITPACK). The percentages of error between the measured rates and the calculated LST rates based on the ANFIS method, the CERC formula (Ksig=0.39), the calibrated CERC formula (Ksig=0.08), the Kamphuis [1] formula and the numerical model (LITPACK) are 6.5%, 413.9%, 6.9%, 15.3% and 18.1%, respectively. The comparison of the results suggests that the ANFIS model is superior to the FIS model for predicting LST rates and performs significantly better than the tested empirical formulas and the numerical model.
ISSN:0141-1187
1879-1549
DOI:10.1016/j.apor.2014.08.008