Application of Soft Computing in Forecasting wave height (Case study: Anzali)

Mohammad Akbarinasab; Iman Paeen Afrakoti

Application of Soft Computing in Forecasting wave height (Case study: Anzali)

Publish place: International Journal of Coastal, Offshore and Environmental Engineering، Vol: 3، Issue: 1

Publish Year: 1398

نوع سند: مقاله ژورنالی

زبان: English

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لینک ثابت به این Paper:

https://civilica.com/doc/1150167

شناسه ملی سند علمی:

JR_IJCOE-3-1_004

تاریخ نمایه سازی: 15 بهمن 1399

Abstract:

Wave height forecasting is very important for coastal management and offshore operations. In this paper, the accuracy and performance of three soft computing techniques [i.e., Multi-Layer Perceptron (MLP), Radial Basis Function Neural Network (RBFNN) and Adaptive Neuro Fuzzy Inference System (ANFIS)] were assessed for predicting significant wave height. Using different combinations of parameters, the prediction was done over a few or a two days’ time steps from measured buoy variables in the Caspian Sea (case study: Anzali). The data collection period was from 03.01.2017 to 06.01.2017 with 30-minute intervals. The performance of different models was evaluated with statistical indices such as root mean squared error (RMSE), the fraction of variance unexplained (FVU), and coefficient of determination (R2). Different simulations of performance assessment showed that the ANFIS techniques with requirements of past and current values of atmospheric pressures and height waves has more accuracy than the other techniques in the specified time and location. Meanwhile, in high lead times, the friction velocity decreases the accuracy of wave height forecasting.

Keywords:

Soft computing techniques , Wave height , Caspian Sea , Prediction.

Authors

Mohammad Akbarinasab

University of Mazandaran

Iman Paeen Afrakoti

University of Mazandaran

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Dezvareh, R., (2019). Application of Soft Computing in the Design ...
Dezvareh, R., (2019). Providing a new approach for estimation of ...
Dezvareh, R., Bargi, K. and Moradi, Y., (2012). Assessment of ...
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Manoj, S. B. A., (2011), Identification and control of nonlinear ...
Pradhan, B., (2013), A comparative study on the predictive ability ...
Tushar, A., & Pillai, G. N., (2015), Extreme Learning ANFIS ...
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Jang, J.-S. R., Sun, C.-T., and Mizutani, E. (1997), Neuro-fuzzy ...
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Kamranzad, B., Etemad-Shahidi, A., and Kazeminezhad, M. H.(2011), Wave height ...
Mafi, S., and Amirinia, G., (2017), Forecasting hurricane wave height ...
Deo, M. C., Jha, A., Chaphekar, A. S., and Ravikant, ...
Bretschneider, C. L., (1951). Revised wave forecasting relationships. Coastal Engineering ...
Sverdrup, H. U., & Munk, W. H.,(1947), Wind, sea, and ...
Army, U. S., (2003), Coastal engineering manual, chapter II-2, meteorology ...
Donelan, M. A., (1980). Similarity theory applied to the forecasting ...
Booij, N., Ris, R. C., and Holthuijsen, L. H., (1999), ...
Komen, G. J., Cavaleri, L., and Donelan, M., (1996), Dynamics ...
Goda, Y., (2003), Revisiting Wilson's formulas for simplified wind-wave prediction. ...
Mahjoobi, J., Etemad-Shahidi, A., and Kazeminezhad, M. H., (2008), Hindcasting ...
Makarynskyy, O., (2004), Improving wave predictions with artificial neural networks. ...
Tsai, C.-P., & Lee, T.-L., (1999), Back-propagation neural network in ...
Vimala, J., Latha, G., and Venkatesan, R.,(2014). Real time wave ...
Dezvareh, R., (2019). Application of Soft Computing in the Design ...
Dezvareh, R., (2019). Providing a new approach for estimation of ...
Dezvareh, R., Bargi, K. and Moradi, Y., (2012). Assessment of ...
Etemad-Shahidi, A., and Mahjoobi, J., (2009), Comparison between M5′ model ...
Samadi, M., Jabbari, E., and Azamathulla, H. M., (2014), Assessment ...
Kazeminezhad, M. H., Etemad-Shahidi, A., & Mousavi, S. J, (2005), ...
Broomhead, D. S., and Lowe, D., (1988), Radial basis functions, ...
Powell, M. J. D., (1985), Radial basis function for multivariable ...
Belloir, F., Fache, A., and Billat, A., (1999), A general ...
Li, Y., Qiang, S., Zhuang, X., and Kaynak, O., (2004), ...
Karayiannis, N. B., (1999), Reformulated radial basis neural networks trained ...
Chen, S., Wu, Y., and Luk, B. L., (1999), Combined ...
Jang, J.-S., (1993), ANFIS: adaptive-network-based fuzzy inference system. IEEE Transactions ...
Manoj, S. B. A., (2011), Identification and control of nonlinear ...
Pradhan, B., (2013), A comparative study on the predictive ability ...
Tushar, A., & Pillai, G. N., (2015), Extreme Learning ANFIS ...
Kaplan, K., Kuncan, M., and Ertunc, H. M., (2015), Prediction ...
Jang, J.-S. R., Sun, C.-T., and Mizutani, E. (1997), Neuro-fuzzy ...
Zamani, A., Solomatine, D., Azimian, A., and Heemink, A., (2008), ...
Kamranzad, B., Etemad-Shahidi, A., and Kazeminezhad, M. H.(2011), Wave height ...
Mafi, S., and Amirinia, G., (2017), Forecasting hurricane wave height ...
Deo, M. C., Jha, A., Chaphekar, A. S., and Ravikant, ...

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