Abstract
Long-term rainfall prediction is a challenging task especially in the modern world where we are facing the major environmental problem of global warming. In general, climate and rainfall are highly non-linear phenomena in nature exhibiting what is known as the “butterfly effect”. While some regions of the world are noticing a systematic decrease in annual rainfall, others notice increases in flooding and severe storms. The global nature of this phenomenon is very complicated and requires sophisticated computer modeling and simulation to predict accurately. In this paper, we report a performance analysis for Multivariate Adaptive Regression Splines (MARS) [1] and artificial neural networks for one month ahead prediction of rainfall. To evaluate the prediction efficiency, we made use of 87 years of rainfall data in Kerala state, the southern part of the Indian peninsula situated at latitude-longitude pairs (8º29· N - 76º57· E). We used an artificial neural network trained using the scaled conjugate gradient algorithm. The neural network and MARS were trained with 40 years of rainfall data. For performance evaluation, network predicted outputs were compared with the actual rainfall data. Simulation results reveal that MARS is a good forecasting tool and performed better than the considered neural network.
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References
Friedman, J.H, Multivariate Adaptive Regression Splines, Annals of Statistics, Vol 19, 1–141, 1991.
Steinberg, D and Colla, P.L, MARS User Guide, San Diego, CA: Salford Systems, 1999.
Shikin EV and Plis AI, Handbook on Splines for the User, CRC Press, 1995.
Abraham A and Nath B, Optimal Design of Neural Nets Using Hybrid Algorithms, In proceedings of 6th Pacific Rim International Conference on Artificial Intelligence (PRICAI 2000), pp. 510–520, 2000.
Hagan MT, Demuth HB and Beale MH, Neural Network Design, Boston, MA: PWS Publishing, 1996.
MARS Information Center: http://www.salford-systems.com
Abraham A, Philip NS and Joseph KB, Will we have a Wet Summer? Soft Computing Models for Long-term Rainfall Forecasting, In Proceedings of European Simulation Conference ESM 2001, Prague, June 2001. (Submitted)
Moller AF, A Scaled Conjugate Gradient Algorithm for Fast Supervised Learning, Neural Networks, Volume (6), pp. 525–533, 1993.
Butterfly Effect information center: http://www.staff.uiuc.edu/~gisabell/buttrfly.html
Chowdhury A and Mhasawade SV, Variations in Meteorological Floods during Summer Monsoon Over India, Mausam, 42, 2, 167–170,1991.
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© 2001 Springer-Verlag Berlin Heidelberg
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Abraham, A., Steinberg, D. (2001). Is Neural Network a Reliable Forecaster on Earth? A MARS Query!. In: Mira, J., Prieto, A. (eds) Bio-Inspired Applications of Connectionism. IWANN 2001. Lecture Notes in Computer Science, vol 2085. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-45723-2_82
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DOI: https://doi.org/10.1007/3-540-45723-2_82
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