Mean squared error applied in back propagation for non linear rainfall prediction

Authors

  • Shobha N Dept of Information Science and Engineering, APSCE, Bengaluru, Karnataka
  • Asha T Dept of Computer Science and Engineering, BIT, Bengaluru, Karanataka

Keywords:

Meteorological Data, Multiple Linear Regression, Artificial Neural Network, Back Propagation Neural Network, Data normalization

Abstract

Analyzing global weather forecasts is challenging and expensive. Machine learning algorithms analyze trends in weather data by adopting regression model and neural network model. Our proposed model is based on two methodologies Multiple Linear Regression (MLR) and Artificial Neural Network (ANN) to predict rainfall. MLR determines most significant parameters of rainfall data for ANN. Mean Squared Error (MSE) generated at ANN model was back propagated to get more accurate results. The model was tested on five year (2013 to 2017) meteorological data of Bengaluru station. ANN with Back Propagation Neural Network (BPNN) was applied to forecast low rainfall, average rainfall and heavy rainfall. Performance of the model was measured by R and MSE value. Experimental result shows that back propagation of MSE and data normalization yields good results.

References

Wassamon Phusakulkajorn, Chidchanok Lursinsap and Jack Asavanant, “Wavelet-Transform Based Artificial Neural Network For Daily Rainfall Prediction in Southern Thailand”, ISCIT 2009.

Mislana, Haviluddinb, Sigit Hardwinartoc, Sumaryonod and Marlon Aipassa, “Rainfall Monthly Prediction Based on Artificial Neural Network: A Case Study in Tenggarong Station, East Kalimantan -Indonesia,” Elsevier, Procedia Computer Science 59 ( 2015 ) 142 –151, International Conference on Computer Science and Computational Intelligence (ICCSCI 2015).

John ABBOT and Jennifer MAROHASY, “Application of Artificial Neural Networks to Rainfall Forecasting in Queensland, Australia,” ADVANCES IN ATMOSPHERIC SCIENCES, VOL. 29, NO. 4, 2012, 717–730, doi: 10.1007/s00376-012-1259-9.

Adil M Bagirov, et al., "Prediction of monthly rainfall in Victoria, Australia: Clusterwise linear regression approach," Elsevier, Atmospheric Research (2017), doi:10.1016/j.atmosres.2017.01.003.

Harsha S, N Bhaskar, Amith Kumar, V Pujari and Nibha, “A Novel Method to Dig Information from Generic Groups of Enriched Records (DIgGER),” ResearchGate, IJCSSEIT, Vol. 5, No. 2, December 2012, pp. 243-248.

A. Troncoso, P. Ribera, G. Asencio-Cort, I. Vega and D. Gallego, “Imbalanced classification techniques for monsoon forecasting based

on a new climatic time series,” Elsevier, Environmental Modelling & Software (2017) 1-9.

Shobha N, Asha T, “Influential parameters on rainfall forecasting using multiple linear regression,” 2019 JETIR February 2019, Volume 6, Issue 2 (ISSN-2349-5162).

Jiansheng Wu, Jin Long, Mingzhe Liu, “Evolving RBF neural networks for rainfall prediction using hybrid particle swarm optimization and genetic algorithm,” ELSEVIER, Neurocomputing 148 (2015) 136–142.

F. Mekanik, M.A. Imteaz, S. Gato-Trinidad, A. Elmahdi, “Multiple regression and Artificial Neural Network for long-term rainfall forecasting using large scale climate modes”, Journal of Hydrology 503 (2013) 11–21.

Chiang, Y.M., Chang, F.J., 2009. “Integrating hydrometeorological information for rainfall–runoff modelling by artificial neural networks”. Hydrological Processes 23 (11), (2009) 1650–1659.

R. Shukla, K. Tripathi, A. Pandey, I. Das, “Prediction of Indian summer monsoon rainfall using nino indices: A neural network approach”, Atmospheric Research 102 (1-2) (2011) 99-109.

T. Mandal, V. Jothiprakash, “Short-term rainfall prediction using ANN and MT techniques ”, ISH J. of Hydraulic Engineering 18 (1) (2012) 20-26.

W. DeSarbo, W. Cron, “A maximum likelihood methodology for clusterwise linear regression”, Journal of Classication, 5 (2) (1988)

-282.

L. Garcia-Escudero, A. Gordaliza, A. Mayo-Iscar, R. San Martin, “Robust clusterwise linear regression through trimming”, Computational Statistics and Data Analysis 54 (2010) 3057-3069.

http://www.imd.gov.in (Accessed on October 20, 2018)

http://www.uasbangalore.edu.in/index.php/research/agrometeorology (Accessed on March 04, 2018)

Pang-Ning Tan , Michael Steinbach , Vipin Kumar, Introduction to Data Mining, (First Edition), Addison-Wesley Longman Publishing Co., Inc., Boston, MA, 2005

Jiawei Han and Micheline Kamber, “Data Mining Concepts and Techniques,” Second Edition, ELSEVIER Science Technology, Morgan Kaufmann, 2006, San Francisco.

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Published

2024-02-26

How to Cite

N, S., & T, A. (2024). Mean squared error applied in back propagation for non linear rainfall prediction. COMPUSOFT: An International Journal of Advanced Computer Technology, 8(09), 3431–3439. Retrieved from https://ijact.in/index.php/j/article/view/536

Issue

Vol. 8 No. 09 (2019): September

Section

Original Research Article

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Copyright (c) 2019 COMPUSOFT: An International Journal of Advanced Computer Technology

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©2023. COMPUSOFT: AN INTERNATIONAL OF ADVANCED COMPUTER TECHNOLOGY by COMPUSOFT PUBLICATION is licensed under a Creative Commons Attribution 4.0 International License. Based on a work at COMPUSOFT: AN INTERNATIONAL OF ADVANCED COMPUTER TECHNOLOGY. Permissions beyond the scope of this license may be available at Creative Commons Attribution 4.0 International Public License.

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