Authors: S. Wechmongkhonkon, N.Poomtong, S. Areerachakul

Abstract:

Water quality is a subject of ongoing concern. Deterioration of water quality has initiated serious management efforts in many countries. This study endeavors to automatically classify water quality. The water quality classes are evaluated using 6 factor indices. These factors are pH value (pH), Dissolved Oxygen (DO), Biochemical Oxygen Demand (BOD), Nitrate Nitrogen (NO3N), Ammonia Nitrogen (NH3N) and Total Coliform (TColiform). The methodology involves applying data mining techniques using multilayer perceptron (MLP) neural network models. The data consisted of 11 sites of canals in Dusit district in Bangkok, Thailand. The data is obtained from the Department of Drainage and Sewerage Bangkok Metropolitan Administration during 2007-2011. The results of multilayer perceptron neural network exhibit a high accuracy multilayer perception rate at 96.52% in classifying the water quality of Dusit district canal in Bangkok Subsequently, this encouraging result could be applied with plan and management source of water quality.

Keywords: artificial neural network, classification, surface water quality

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1072183

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 3156

References:

[1] H. Murdun, "Application of an unsupervised artificial neural network technique to multivariant surface water quality data," The Ecological Society, 2009, 24: 163-173
[2] Walley, W.J., DZeroski ,S Biological monitoring "A Comparison between Bayesian, neural and machine learning methods of water quality classification", International Symposium on Environmental Software System, 1996.
[3] Li, Y., Jiang, J.H., Chen, Z.P., Xu, C.J., Yu, R.Q.: A New Method Based on Counter Propagation Network Algorithm for Chemical Pattern Recognition , 1999, pp. 161-170.
[4] L.Khuan, N.Hamzah and R Jailani, "Prediction of Water Quality Index(WQI) Based on Artificial Neural Network(ANN)",Conference on Research and Development Proceedings, Malasia, 2002, pp. 157-161.
[5] A.Najah, A.Elshafie,O.K arim and O.Jaffar "Prediction of Johor River Water Qualit y Parameter Using Artificial Neural Networks", Journal 0f Scientific Research, EuroJournals Publishing, 2009, pp. 422-435.
[6] Breiman L, FriedmanJH, Olshen RA, and Stone CJ "Classification and Regression Tree" Champman &Hall (Wadsworth, Inc.), Newyork, 1984.
[7] M.J. Diamantopoulou, V.Z. Antonopoulos and D.M. Papamichail "The Use of a Neural Network Technique for the Prediction of Water Quality Parameters of Axios River in Northern Greece", Journal 0f Operational Research, Springer-Verlag, Jan 2005, pp. 115-125.
[8] S.Areerachakul and S.Sanguansintukul "Water Classification Using Neural Network: A Case Study of Canals in Bangkok, Thailand", The 4th International Conference for Internet Technology and Secured Transactions (ICITST-2009), United Kingdom, 2009.
[9] Department of Drainage and Sewerage Bangkok Metropolitan Administration, http://dds.bangkok.go.th/wqm/thai/home.html
[10] Simon Haykin, "Neural Networks:A Comprehensive foundation second edition ", Pearson Prentice Hall, Delhi India, 2005.
[11] Ministry of Natural Resources and Environment: http://www.mnre.go.th/
[12] S.Areerachakul and S.Sanguansintukul "Classification and Regression Trees and MLP Neural Network to Classify Water Quality of Canals in Bangkok, Thailand", International Journal of Intelligent Computing Research (IJICR), 2010.
[13] D.Marquardt, "An Algorithm for Least Squares Estimation of Non- Linear Parameter" , J. Soc. Ind. Appl.Math., pp. 1963.
[14] L.Fausett, "Fundamentals of Neural Networks Architecture.Algorithms and Applications", Pearson Prentice Hall, USA, 1994.
[15] M.J. Diamantopoulou, V.Z. Antonopoulos and D.M. Papamichail "The Use of a Neural Network Technique for the Prediction of Water Quality Parameters of Axios River in Northern Greece", Journal 0f Operational Research, Springer-Verlag, Jan 2005, pp. 115-125.
[16] D. Anguita, S.Ridella and F.Rivieccio, "K-folds Generalization Capability Assessment for Support Vector Classifiers", Proceeding of International Joint Conference on Neural Network , Canada,2005,PP.855-858.
[17] Li-hua Chen, and Xiao-yun Zhang, "Application of Artificial Neural Network to Classify Water Quality of the Yellow River", Journal 0f Fuzzy Information and Engineering , Springer-Verlag, Jan 2009, pp. 15- 23.
[18] M.J. Diamantopoulou, V.Z. Antonopoulos and D.M. Papamichail "The Use of a Neural Network Technique for the Prediction of Water Quality Parameters of Axios River in Northern Greece", Journal 0f Operational Research, Springer-Verlag, Jan 2005, pp. 115-125.
[19] S.H.Musavi and M.Golabi "Application of Artificial Neural Networks in the River Water Quality Modeling: Karoon River,Iran", Journal 0f Applied Sciences, A sian Network for Scientific Information, 2008, pp. 2324-2328.
[20] Chi Zhou, Liang Gao and Chuanyong Peng, "Pattern Classification and Prediction of Water Quality by Neural Network with Particle Swarm Optimization", Proceedings of the 6th World Congress on Intelligent Control and Automation , China, June 2006, pp. 2864-2868.
[21] Martin T.Hagen and Mohammad B.Menhaj, "Training Feedforward Networks with the Marquardt Algorithm", IEEE Transactions on Neural Networks,vol.5, no.6,Nov 1994, pp.989-993.
[22] M.Yesilnacar, E.Sahinkaya and M.Naz "Neural network prediction of nitrate in groundwater of Harran Plain,Turkey", Journal 0f Environmental Geology, Springer-Verlag, 2007, pp. 19-25.
[23] A. Gamal El-Din, D.W Smith and M. Gamal El-Din, "Application of artificial neural networks in wastewater treatment," J. Environ. Eng Sci., pp.81-95, Jan 2004.
[24] A. Jain, A.K. Varshney and U.C. Joshi , "Short-term Water Demand Forecast Modeling ai IIT Kanpur Using Artificial Neural Networks," IEEE Transactions on Water Resources Management, vol. 15, no.1, pp.299-321, Aug 2001.
[25] H.R. Maier and G.C. Dandy, "Neural networks for the prediction and forecasting of water resources variables: a review of modeling issues and applications," Environmental Modeling and Software, pp.101-124, Jan 2000.
[26] Baughman, D.R. and Liu, Y.A., (1990).Neural Networks in Bioprocessing and Chemical Engineering. Academic Press, New York.
[27] Hubick, K.T., (1992). Artificial neural networks in Australia. Department of Industry, Technology and Commerce, Commonwealth of Australia, Canberra.
[28] Crespo, J. L. and Mora, E., (1993). Drought estimation with neural networks. Advances in Engineering Software, 18, p.167-170.
[29] Karunanithi, N., Grenney, W. J., Whiley, B., and Bovee, K., (1994). Neural Networks for River Flow Prediction. Journal Computing in Civil Engineering,8, p.201-209.
[30] Hsu, K., Gupta, H. V. and Sorooshian, S., (1995). Artificial neural network modeling of the rainfall-runoff process. Wat. Resour. Res., 31, p. 2517-2530
[31] Abrahart, R. J. and Kneale, P. E., (1997). Exploring neural network rainfall-runoff modeling. BHS National Hydrology Symposium, Salford, UK, 9.35-9.43.
[32] Dawson, C. W., and Wilby, R., (1998). An artificial neural network approach to rainfall-runoff modeling. Hydro. Sci. J., 43, p.47-66.
[33] Thirumalaiah, K. and Deo, M.C., 2000. Hydrological forecasting usingartificial neural networks. ASCE Journal of Hydrologic Engineering 5, p.145-163.
[34] Cigizoglu, H.K., (2004). Estimation and forecasting of daily suspended sediment data by multi-layer perceptrons. Advances in Water Resources 27,p.185-195