Integrating Entropy-Based Naïve Bayes and GIS for Spatial Evaluation of Flood Hazard

Date

2017

Authors

Liu, Rui
Chen, Yun
Wu, Jianping
Gao, Lei
Barrett, Damian J
Xu, TingBao
Li, Xiaojuan
Li, Linyi
Huang, Chang
Yu, Jia

Journal Title

Journal ISSN

Volume Title

Publisher

Wiley

Abstract

Regional flood risk caused by intensive rainfall under extreme climate conditions has increasingly attracted global attention. Mapping and evaluation of flood hazard are vital parts in flood risk assessment. This study develops an integrated framework for estimating spatial likelihood of flood hazard by coupling weighted naïve Bayes (WNB), geographic information system, and remote sensing. The north part of Fitzroy River Basin in Queensland, Australia, was selected as a case study site. The environmental indices, including extreme rainfall, evapotranspiration, net-water index, soil water retention, elevation, slope, drainage proximity, and density, were generated from spatial data representing climate, soil, vegetation, hydrology, and topography. These indices were weighted using the statistics-based entropy method. The weighted indices were input into the WNB-based model to delineate a regional flood risk map that indicates the likelihood of flood occurrence. The resultant map was validated by the maximum inundation extent extracted from moderate resolution imaging spectroradiometer (MODIS) imagery. The evaluation results, including mapping and evaluation of the distribution of flood hazard, are helpful in guiding flood inundation disaster responses for the region. The novel approach presented consists of weighted grid data, image-based sampling and validation, cell-by-cell probability inferring and spatial mapping. It is superior to an existing spatial naive Bayes (NB) method for regional flood hazard assessment. It can also be extended to other likelihood-related environmental hazard studies.

Description

Keywords

Inundation, likelihood, MODIS, risk, uncertainty

Citation

Source

Risk Analysis

Type

Journal article

Book Title

Entity type

Access Statement

License Rights

Restricted until

2099-12-31