An Expert System for Supporting Decision Making Before, During and After the Occurrence of Seismic Events

Main Article Content

Francklin Miguel Rivas Pérez
Astrid Coromoto Dos Santos Da Silva
Víctor Manuel Pardo Pizzoferrato
Francklin Iván Rivas Echeverría

Abstract

In this work it’s presented the design and construction of an expert system for helping in the selec-tion of the action that should be taken before, during and after a seismic event occur. It was built in a web site environment and the users can introduce their own personal and familiar situation, places where they could be during the seismic event and receive the appropriate information con-cerning the actions, security instructions and infrastructure considerations that should be taken. For creating this expert system it was used the information given by a set of experts with more than 25 years of experience in areas as engineering, risk management, geophysics, medicine, among others.

Downloads

Download data is not yet available.

Article Details

How to Cite
PérezF. M. R., Da SilvaA. C. D. S., PizzoferratoV. M. P., & EcheverríaF. I. R. (2014). An Expert System for Supporting Decision Making Before, During and After the Occurrence of Seismic Events. AXIOMA, 1(12), 18-26. Retrieved from https://axioma.pucesi.edu.ec/index.php/axioma/article/view/395
Section
INVESTIGACIÓN

References

Aguilar, J. y Rivas F. (2001). Introducción a las técnicas de computación inteligente. Mérida: Editorial Meritec
Akerkar, A.R. y Sajja, P. (2009). Knowledge-Based Systems. Sudbury, Massachusetts: Jones & Bartlett Publishers
Andalib A., Zare M. y Atry F. (2009). A fuzzy expert system for earthquake prediction, case study: the Zagros. Procee-dings of the Third International Conference on Modeling, Simulation and Applied Optimization.
Baranov S., Digas B., Ermolieva T. y Rozenberg V. (2002). Earthquake Risk Management: A Scenario Generator. Inte-rim Report International Institute for Applied Systems Analysis. 2002.
Berrais A. (2005). A knowledge-based expert system for earthquake resistant design of reinforced concrete buildings. Expert Systems with Applications. Volume 28, Issue 3, Pages 519–530
Bravo C., Saputelli L., Rivas F., Pérez A., Nikolaou M., Zangl G., De Guzman N., Mohaghegh S. y Nunez G. (2012). State of the Art of Artificial Intelligence and Predictive Analytics in the E&P Industry: A Technology Survey. SPE Western Regional Meeting
Carreño, M., Cardona, O. y Campos, A. (2003). “Sistema experto para la toma de decisiones de habitabilidad y repa-rabilidad en edificios después de un sismo”. Asociación Colombiana de Ingeniería Sísmica, Colombia.
Cortez, A., Vega, H. y Cayampe, S. (2009). “Evaluación de daños en viviendas causados por sismos mediante redes neuronales”. Revista de Ingeniería de Sistemas e Informática. vol. 6, N.º 2, pp. 75-90
Durkin, J. (1994). Expert Systems Design and Development. Prentice Hall. New York: Macmillan.
El Planeta Azul (2011). “Venezuela es un país sísmico”. Recuperado de http://jfblueplanet.blogspot.com/2011/11/venezue-la-es-un-pais-sismico.html
Funvisis (2002). “La Investigación Sismológica en Venezuela” Recuperado de http://www.funvisis.gob.ve/archivos/pdf/libros/funvisis_1_18.pdf
Giarratano, J.C. y Riley, G.D. (2004). Expert Systems: Principles and Programming, fourth edition. Course Technology.
Guada- Barráez, C. (2000) “Detector de eventos sísmicos en tiempo real utilizando redes neuronales”. Interciencia, vol. 25, núm. 6, pp. 293-298.
Hernández J., Mousalli G. y Rivas F. (2009a). Expert System for the Diagnosis of Learning Difficulties in Children’s Basic Education. 8th WSEAS International Conference on Applied Computers and Applied Computational Science. Hang-zhou, China, May 2009
Hernández J., Mousalli G. y Rivas F. (2009b). Learning Difficulties Diagnosis for Children’s Basic Education using Expert Systems. WSEAS Transactions On Information Science And Applications. Issue 7, Volume 6 pp 1206- 1215
Jackson, P. (1998). Introduction to Expert Systems, third edition. Boston, Massachusetts: Addison Wesley
Matamoros A., Torrealba A., Rivas-Echeverría F., et al. (2005). “Expert System for the preeclampsia Prevention Pro-gram”. 4th WSEAS International Conference on Computational Intelligence, Man-Machine Systems and Cybernetics 2005. Miami, USA, November 2005
Mittal S., Dym C. (1985). Knowledge Acquisition from Multiple Experts. AI Magazine, Volume 6 Number 2
Ramírez, M., Castañón, A., Plaza, J. y Benito, B. (2008). “Proyecto Expel: Sistema experto de análisis probabilista de la peligrosidad sísmica”. Colección Documentos I+D. Consejo de Seguridad Nuclear, España.
Rivas F., Colina E. y Rivas C. (1998). Expert Systems methodology for Management. IASTED International Conference on Software Engineering.
Rivas-Echeverría C., Matamoros A., Torrealba A., Rivas-Echeverría F., et al. (2006). “Computerized clinical decision support system for a public health program for the prevention of preeclampsia”. WSEAS Transactions on Information Science & Applications. N° 1, vol. 3, pp. 133-139.
Rivas-Pérez F., Dos Santos A., Pardo V. y Rivas-Echeverría F. (2013a). “Expert System design for customized actions to be taken before, during and after a Seismic event in Venezuela”. 12th WSEAS International Conference on Applied Computer and Applied Computational Science (ACACOS ‘13). Kuala Lumpur, Malaysia. April 2013.
Rivas-Pérez F., Dos Santos A., Pardo V. y Rivas-Echeverría F. (2013b). “Expert System for appropriate actions to be taken before, during and after a Seismic event in Venezuela”. International Journal of Geology. Issue 3, Volume 7. pp 80-87
Sistema experto para toma de decisiones ante sismos (2013). Recuperado de http://grupokb.dyndns.biz:9750/ses/
Syrmakezis C., Mikroudis G. (1997). ERDES—An expert system for the aseismic design of buildings. Computers & Structures. Volume 63, Issue 4, May 1997, Pages 669–684.
Venciclopedia (2012). “Falla de Boconó”. Recuperado de http://venciclopedia.com/?title=Falla_de_Bocon%C3%B3
Zaghw A., Subramani M., Scawthorn C. (1993). The use of expert systems in seismic risk analysis. National Earthquake Conference