Abstract
The use of Bayesian Networks in the domain of disaster management has proven its efficiency in developing the disaster model and has been widely used to represent the logical relationships between variables. Prior to modelling the correlation between the flood factors, it was necessary to discretize the continuous data due to the weakness of the Bayesian Network to handle such variables. Therefore, this paper aimed to propose a data discretization technique and compare the existing discretization techniques to produce a spatial correlation model. In particular, the main contribution of this paper was to propose a fuzzy discretization method for the Bayesian-based flood model. The performance of the model is based on precision, recall, F-measure, and the receiver operating characteristic area. The experimental results demonstrated that the fuzzy discretization method provided the best measurements for the correlation model. Consequently, the proposed fuzzy discretization technique facilitated the data input for the flood model and was able to help the researchers in developing effective early warning systems in the future. In addition, the results of correlation were prominent in disaster management to provide reference that may help the government, planners, and decision-makers to perform actions and mitigate flood events.
Highlights
Floods are one of the natural hazards that commonly occur in many areas around the world
Bayesian Network (BN) has to be highlighted as a powerful method to find dependencies, the challenge begins when dealing with the continuous variables (Nielsen & Jensen, 2009; Uusitalo, 2007; Zwirglmaier, Papakosta, & Straub, 2013)
Bayesian Network has been widely used to represent the logical relationships between variables
Summary
Floods are one of the natural hazards that commonly occur in many areas around the world. According to the Center for Research on the Epidemiology of Disasters (CRED) (2011) that reported on global natural disasters, flood events increased in 2010 compared to the previous year. In disaster research, provides a fascinating insight of understanding the disaster events. According to Peerbolte and Collins (2013), correlations are used to represent a relationship between two or more variables. Various researchers (Li, Wang, Leung, & Jiang, 2010; Liang, Zhuang, Jiang, Pann, & Ren, 2012; Peng & Zhang, 2012a; 2012b; Viglione, Merz, Salinas, & Blöschl, 2013; Vogel et al, 2013) present studies to develop flood models using BN. BN has to be highlighted as a powerful method to find dependencies, the challenge begins when dealing with the continuous variables (Nielsen & Jensen, 2009; Uusitalo, 2007; Zwirglmaier, Papakosta, & Straub, 2013). Dougherty, Kohavi, and Sahami (1995), Friedman and Goldsmith (1996), Aguilera, Fernández, Fernández, RumĂ, and SalmerĂłn (2011), and Vogel (2014) suggested the use of discretization to overcome this problem
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
