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http://dx.doi.org/10.22937/IJCSNS.2021.21.5.4

A Model to Identify Expeditiously During Storm to Enable Effective Responses to Flood Threat  

Husain, Mohammad (Faculty of Computer and Information Systems Islamic University of Madinah)
Ali, Arshad (Faculty of Computer and Information Systems Islamic University of Madinah)
Publication Information
International Journal of Computer Science & Network Security / v.21, no.5, 2021 , pp. 23-30 More about this Journal
Abstract
In recent years, hazardous flash flooding has caused deaths and damage to infrastructure in Saudi Arabia. In this paper, our aim is to assess patterns and trends in climate means and extremes affecting flash flood hazards and water resources in Saudi Arabia for the purpose to improve risk assessment for forecast capacity. We would like to examine temperature, precipitation climatology and trend magnitudes at surface stations in Saudi Arabia. Based on the assessment climate patterns maps and trends are accurately used to identify synoptic situations and tele-connections associated with flash flood risk. We also study local and regional changes in hydro-meteorological extremes over recent decades through new applications of statistical methods to weather station data and remote sensing based precipitation products; and develop remote sensing based high-resolution precipitation products that can aid to develop flash flood guidance system for the flood-prone areas. A dataset of extreme events has been developed using the multi-decadal station data, the statistical analysis has been performed to identify tele-connection indices, pressure and sea surface temperature patterns most predictive to heavy rainfall. It has been combined with time trends in extreme value occurrence to improve the potential for predicting and rapidly detecting storms. A methodology and algorithms has been developed for providing a well-calibrated precipitation product that can be used in the early warning systems for elevated risk of floods.
Keywords
Satellite Remote Sensing; Climate; Hazards; Weather; Flooding;
Citations & Related Records
연도 인용수 순위
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