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2018 | OriginalPaper | Buchkapitel

Heavy Rainfall Forecasting Model Using Artificial Neural Network for Flood Prone Area

verfasst von : Junaida Sulaiman, Siti Hajar Wahab

Erschienen in: IT Convergence and Security 2017

Verlag: Springer Singapore

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Abstract

Interest in monitoring severe weather events is cautiously increasing because of the numerous disasters that happen in the recent years in many world countries. Although to predict the trend of precipitation is a difficult task, there are many approaches exist using time series analysis and machine learning techniques to provide an alternative way to reduce impact of flood cause by heavy precipitation event. This study applied an Artificial Neural Network (ANN) for prediction of heavy precipitation on monthly basis. For this purpose, precipitation data from 1965 to 2015 from local meteorological stations were collected and used in the study. Different combinations of past precipitation values were produced as forecasting inputs to evaluate the effectiveness of ANN approximation. The performance of the ANN model is compared to statistical technique called Auto Regression Integrated Moving Average (ARIMA). The performance of each approaches is evaluated using root mean square error (RMSE) and correlation coefficient (R2). The results indicate that ANN model is reliable in anticipating above the risky level of heavy precipitation events.

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Vorheriges Kapitel Metadata Discovery of Heterogeneous Biomedical Datasets Using Token-Based Features
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Literatur
1.
Daud, A., Zakaria, R.A.A., Sahat, S., Ismail, N.F.A., Mohamad, N.F., Rosli, N.: The Study of Thunderstorm and Rainfall Occurrences over Pahang (in the Period 1998–2012). Malaysian Meteorological Department, Petaling Jaya (2015)
2.
Daud, A., Mat Aji, S., Muhamad, N.: Synoptic and hydrological analysis of flood event over kelantan and terengganu, Kuala Lumpur, Malaysia (2011)
3.
Latt, Z.Z., Wittenberg, H.: Improving flood forecasting in a developing country: a comparative study of stepwise multiple linear regression and artificial neural network. Water Resour. Manag. 28, 2109–2128 (2014)CrossRef
4.
Shoaib, M., Shamseldin, A.Y., Melville, B.W., Khan, M.M.: A comparison between wavelet based static and dynamic neural network approaches for runoff prediction. J. Hydrol. 535, 211–225 (2016)CrossRef
5.
Mekanik, F., Imteaz, M.: A multivariate artificial neural network Approach for rainfall forecasting: case study of Victoria, Australia. In: Proceedings of the World Congress on Engineering and Computer Science (2012)
6.
Banihabib, M.E., Ahmadian, A., Jamali, F.S.: Hybrid DARIMA-NARX model for forecasting long-term daily inflow to Dez reservoir using the North Atlantic Oscillation (NAO) and rainfall data. GeoResJ. 13, 9–16 (2017)CrossRef
7.
Kashiwao, T., Nakayama, K., Ando, S., Ikeda, K., Lee, M., Bahadori, A.: A neural network-based local rainfall prediction system using meteorological data on the Internet: a case study using data from the Japan Meteorological Agency. Appl. Soft Comput. J. 56, 317–330 (2017)CrossRef
8.
Mislan, H., Hardwinarto, S., Sumaryono, A.M.: Rainfall monthly prediction based on artificial neural network: a case study in Tenggarong Station, East Kalimantan - Indonesia. Procedia Comput. Sci. 59, 142–151 (2015)
9.
Hung, N.Q., Babel, M.S., Weesakul, S., Tripathi, N.K.: An artificial neural network model for rainfall forecasting in Bangkok, Thailand. Hydrol. Earth Syst. Sci. 13, 1413–1425 (2009)CrossRef
10.
Mekanik, F., Imteaz, M.A., Gato-Trinidad, S., Elmahdi, A.: Multiple regression and artificial neural network for long-term rainfall forecasting using large scale climate modes. J. Hydrol. 503, 11–21 (2013)CrossRef
11.
Abbot, J., Marohasy, J.: Input selection and optimisation for monthly rainfall forecasting in Queensland, Australia, using artificial neural networks. Atmos. Res. 138, 166–178 (2014)CrossRef
12.
Benmahdjoub, K., Ameur, Z., Boulifa, M.: Forecasting of rainfall using time delay neural network in Tizi-Ouzou (Algeria). Energy Procedia. 36, 1138–1146 (2013)CrossRef
13.
Esposito, E., De Vito, S., Salvato, M., Bright, V., Jones, R.L., Popoola, O.: Dynamic neural network architectures for on field stochastic calibration of indicative low cost air quality sensing systems. Sensors Actuators B Chem. 231, 701–713 (2016)CrossRef
14.
Awang, S., Sulaiman, J., Karimah, N., Noor, M.: Comparison of accuracy performance based on normalization techniques for the features fusion of face and online signature. In: International Conference on Computational Science and Engineering (ICCSE2016), Kota Kinabalu, Sabah (2016)
15.
El-Shafie, A., Noureldin, A., Taha, M., Hussain, A., Mukhlisin, M.: Dynamic versus static neural network model for rainfall forecasting at Klang River Basin, Malaysia. Hydrol. Earth Syst. Sci. 16, 1151–1169 (2012)CrossRef
Metadaten
Titel
Heavy Rainfall Forecasting Model Using Artificial Neural Network for Flood Prone Area
verfasst von
Junaida Sulaiman
Siti Hajar Wahab
Copyright-Jahr
2018
Verlag
Springer Singapore
Buch
IT Convergence and Security 2017

Print ISBN: 978-981-10-6450-0

Electronic ISBN: 978-981-10-6451-7

Copyright-Jahr: 2018

DOI
https://doi.org/10.1007/978-981-10-6451-7_9

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