Alertas de qualidade da água com base na Análise de Agrupamento nas bacias dos rios colombianos
DOI:
https://doi.org/10.18046/syt.v13i33.2077Palavras-chave:
Agrupamento, dados de qualidade da água, macroinvertebrados aquáticos, taxon, C4.5 árvore de decisão.Resumo
A água doce é considerada um dos recursos naturais renováveis mais importantes, a Colômbia é um dos países com a maior oferta hídrica do mundo, com cinco vertentes: Caribe, Orinoco, Amazonas, Pacífico e Catatumbo. Neste sentido, é de vital importância estudar e avaliar a qualidade da água dos seus rios e / ou sistemas lóticos. Atualmente, alguns cientistas fazem uso de índices biológicos para calcular a qualidade da água, enquanto outros detectam a qualidade da água através de técnicas de aprendizado de máquina, no entanto os trabalhos encontrados até a data ainda não permitem que os usuários possam facilmente interpretar os resultados. Essas investigações levaram a propor um conjunto de dados para a geração de alertas de qualidade da água na bacia do rio Piedras, com base na análise do algoritmo de agrupamento K-Emanes e na técnica de classificação C.4.5
Referências
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Bae, M. J., & Park, Y. S. (2014). Biological early warning system based on the responses of aquatic organisms to disturbances: a review. Science of the Total Environment, 466, 635-649.
Bucak, I. O., & Karlik, B. (2011). Detection of drinking water quality using CMAC based artificial neural Networks. Ekoloji, 20(78), 75-81.
Corrales, D. C., Corrales, J. C., & Figueroa-Casas, A. (2015). Towards detecting crop diseases and pest by supervised learning. Ingeniería y Universidad, 9(1) 207-228. doi:10.11144/Javeriana.iyu19-1.tdcd
Gan, G., Ma, C., & Wu, J. (2007). Data clustering: theory, algorithms, and applications (vol. 20). Philadelphia, PA: Society for Industrial and Applied Mathematics.
González, D. P. (2010). Algoritmos de agrupamiento basados en densidad y validación de clusters (Thesis), Universitat Jaume I: Castellón, España.
Gurrutxaga, I., Muguerza, J., Arbelaitz, O., Pérez, J. M., & Martín, J. I. (2011). Towards a standard methodology to evaluate internal cluster validity indices. Pattern Recognition Letters, 32(3), 505-515.
Lin, C. R., & Chen, M. S. (2005). Combining partitional and hierarchical algorithms for robust and efficient data clustering with cohesion self-merging. Knowledge and Data Engineering, IEEE Transactions on, 17(2), 145-159.
Liu, S., Tai, H., Ding, Q., Li, D., Xu, L., & Wei, Y. (2013). A hybrid approach of support vector regression with genetic algorithm optimization for aquaculture water quality prediction. Mathematical and Computer Modelling, 58(3), 458-465.
Madhulatha, T. S. (2012). An overview on clustering methods. IOSR Journal of Engineering, 2(4), 719-725.
de-Mantaras, R. L., & Saitia, L. (2004). Comparing conceptual, divisive and agglomerative clustering for learning taxonomies from text. In ECAI 2004: 16th European Conference on Artificial Intelligence, August 22-27, 2004, Valencia, Spain: Including Prestigious Applications of Intelligent Systems (PAIS 2004): Proceedings (vol. 110, p. 435). IOS Press. Addison.
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Park, Y. S., Chon, T. S., Kwak, I. S., & Lek, S. (2004). Hierarchical community classification and assessment of aquatic ecosystems using artificial neural networks. Science of the Total Environment, 327(1), 105-122.
Pérez, G. R. (2003). Bioindicación de la calidad del agua en colombia: Propuesta para el uso del método BMWP Col. Medellín, Colombia Universidad de Antioquia.
Pino, W., García, D. M., Mosquera, M. L., Caicedo, K. P., Palacios, J. A., Castro, A. A., & Guerrero, J. E. (2011). Diversidad de macroinvertebrados y evaluación de la calidad del agua de la quebrada La Bendición, municipio de Quibdó (Chocó-Colombia). Acta Biológica Colombiana, 8(2), 23-30.
Quiroz, R., Pla, F., Badia, J. M., Chover, M. (Eds.). (2007). Métodos informáticos avanzados. Castellón, España: Universitat Jaume I.
Rico, C., Paredes, M., & Fernandez, N. (2009). Modelación de la estructura jerárquica de macroinvertebrados bentónicos a través de redes neuronales artificiales. Acta Biológica Colombiana, 14(3), 71-96.
Saraçli, S., Doğan, N., & Doğan, İ. (2013). Comparison of hierarchical cluster analysis methods by cophenetic correlation. Journal of Inequalities and Applications, 2013(1), 1-8.
Sasirekha, K., & Baby, P. (2013). Agglomerative hierarchical clustering algorithm–A Review. International Journal of Scientific and Research Publications, 3(3) [on-line]. Retrieved from
http://www.ijsrp.org/research-paper-0313/ijsrp-p1515.pdf
Singh, K. P., & Gupta, S. (2012). Artificial intelligence based modeling for predicting the disinfection by-products in water. Chemometrics and Intelligent Laboratory Systems, 114, 122-131.
Theodoridis, S., Pikrakis, A., Koutroumbas, K., & Cavouras, D. (2010). Introduction to Pattern Recognition: A Matlab Approach. Punta Gorda, FL: Academic Press.
Velmurugan, T., & Santhanam, T. (2010). Computational complexity between K-means and K-medoids clustering algorithms for normal and uniform distributions of data points. Journal of Computer Science, 6(3), 363-368.
Viceministerio de Ambiente. (2010). Política nacional para la gestión integral del recurso hídrico. Bogotá Colombia: Ministerio de Ambiente, Vivienda y Desarrollo Territorial.
Arango, M. C., Álvarez, L. F., Arango, G. A., Torres, O. E., & Monsalve, A. D. J. (2008). Calidad del agua de las quebradas La Cristalina y La Risaralda, San Luis, Antioquia. Revista EIA, 9, 121-141.
Arbelaitz, O., Gurrutxaga, I., Muguerza, J., Pérez, J. M., & Perona, I. (2013). An extensive comparative study of cluster validity indices. Pattern Recognition, 46(1), 243-256.
Bae, M. J., & Park, Y. S. (2014). Biological early warning system based on the responses of aquatic organisms to disturbances: a review. Science of the Total Environment, 466, 635-649.
Bucak, I. O., & Karlik, B. (2011). Detection of drinking water quality using CMAC based artificial neural Networks. Ekoloji, 20(78), 75-81.
Corrales, D. C., Corrales, J. C., & Figueroa-Casas, A. (2015). Towards detecting crop diseases and pest by supervised learning. Ingeniería y Universidad, 9(1) 207-228. doi:10.11144/Javeriana.iyu19-1.tdcd
Gan, G., Ma, C., & Wu, J. (2007). Data clustering: theory, algorithms, and applications (vol. 20). Philadelphia, PA: Society for Industrial and Applied Mathematics.
González, D. P. (2010). Algoritmos de agrupamiento basados en densidad y validación de clusters (Thesis), Universitat Jaume I: Castellón, España.
Gurrutxaga, I., Muguerza, J., Arbelaitz, O., Pérez, J. M., & Martín, J. I. (2011). Towards a standard methodology to evaluate internal cluster validity indices. Pattern Recognition Letters, 32(3), 505-515.
Lin, C. R., & Chen, M. S. (2005). Combining partitional and hierarchical algorithms for robust and efficient data clustering with cohesion self-merging. Knowledge and Data Engineering, IEEE Transactions on, 17(2), 145-159.
Liu, S., Tai, H., Ding, Q., Li, D., Xu, L., & Wei, Y. (2013). A hybrid approach of support vector regression with genetic algorithm optimization for aquaculture water quality prediction. Mathematical and Computer Modelling, 58(3), 458-465.
Madhulatha, T. S. (2012). An overview on clustering methods. IOSR Journal of Engineering, 2(4), 719-725.
de-Mantaras, R. L., & Saitia, L. (2004). Comparing conceptual, divisive and agglomerative clustering for learning taxonomies from text. In ECAI 2004: 16th European Conference on Artificial Intelligence, August 22-27, 2004, Valencia, Spain: Including Prestigious Applications of Intelligent Systems (PAIS 2004): Proceedings (vol. 110, p. 435). IOS Press. Addison.
Moreno, A. H. (2000). La clasificación numérica y su aplicación en la ecología. Santo Domingo, República Dominicana: Instituto Tecnológico de Santo Domingo.
Pang-Ning, T., Steinbach, M., & Kumar, V. (2006). Introduction to data mining. Boston, MA: Addison Wesley.
Park, Y. S., Chon, T. S., Kwak, I. S., & Lek, S. (2004). Hierarchical community classification and assessment of aquatic ecosystems using artificial neural networks. Science of the Total Environment, 327(1), 105-122.
Pérez, G. R. (2003). Bioindicación de la calidad del agua en colombia: Propuesta para el uso del método BMWP Col. Medellín, Colombia Universidad de Antioquia.
Pino, W., García, D. M., Mosquera, M. L., Caicedo, K. P., Palacios, J. A., Castro, A. A., & Guerrero, J. E. (2011). Diversidad de macroinvertebrados y evaluación de la calidad del agua de la quebrada La Bendición, municipio de Quibdó (Chocó-Colombia). Acta Biológica Colombiana, 8(2), 23-30.
Quiroz, R., Pla, F., Badia, J. M., Chover, M. (Eds.). (2007). Métodos informáticos avanzados. Castellón, España: Universitat Jaume I.
Rico, C., Paredes, M., & Fernandez, N. (2009). Modelación de la estructura jerárquica de macroinvertebrados bentónicos a través de redes neuronales artificiales. Acta Biológica Colombiana, 14(3), 71-96.
Saraçli, S., Doğan, N., & Doğan, İ. (2013). Comparison of hierarchical cluster analysis methods by cophenetic correlation. Journal of Inequalities and Applications, 2013(1), 1-8.
Sasirekha, K., & Baby, P. (2013). Agglomerative hierarchical clustering algorithm–A Review. International Journal of Scientific and Research Publications, 3(3) [on-line]. Retrieved from
http://www.ijsrp.org/research-paper-0313/ijsrp-p1515.pdf
Singh, K. P., & Gupta, S. (2012). Artificial intelligence based modeling for predicting the disinfection by-products in water. Chemometrics and Intelligent Laboratory Systems, 114, 122-131.
Theodoridis, S., Pikrakis, A., Koutroumbas, K., & Cavouras, D. (2010). Introduction to Pattern Recognition: A Matlab Approach. Punta Gorda, FL: Academic Press.
Velmurugan, T., & Santhanam, T. (2010). Computational complexity between K-means and K-medoids clustering algorithms for normal and uniform distributions of data points. Journal of Computer Science, 6(3), 363-368.
Viceministerio de Ambiente. (2010). Política nacional para la gestión integral del recurso hídrico. Bogotá Colombia: Ministerio de Ambiente, Vivienda y Desarrollo Territorial.
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2015-06-30
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