印度班加罗尔城区的城市洪水危害区划

Q4 Environmental Science Journal of Landscape Ecology Pub Date : 2024-05-01 DOI:10.2478/jlecol-2024-0006

Gowdagere Siddaramaiah Dwarakish, Ballambettu Jagadeesha Pai, R. Rajeesh

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引用次数: 0

摘要

在极端降雨事件和受影响地区的脆弱性或复原力的驱动下，城市地区的洪灾正日益成为一项全球性挑战。城市洪水灾害不仅威胁社会安全，而且阻碍城市经济发展。卫星遥感技术在洪水灾害管理的各个方面，包括备灾、防灾和救灾工作中都发挥了至关重要的作用。空间系统凭借其有利的视角，已证明有能力为有效的洪灾管理提供必要的信息和服务。本研究的重点是利用基于层次分析法（AHP）的多标准决策分析（MCDA）和地理信息系统（GIS）技术绘制班加罗尔城区的洪水灾害地图。考虑的因素包括降雨量、排水管网、土地利用、地下水位、地形高程、坡度和土壤类型。AHP 方法为每个因素分配权重和等级，并使用加权线性组合方法将基本地图合并为最终的洪灾脆弱性地图。

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Urban Flood Hazard Zonation in Bengaluru Urban District, India

Flooding in urban areas is increasingly becoming a global challenge, driven by extreme rainfall events and the vulnerability or resilience of affected regions. This urban flood disaster not only threatens societal security but also hampers economic development in cities. Satellite remote sensing technology has played a crucial role in all aspects of flood disaster management, including preparedness, prevention, and relief efforts. Space systems, with their advantageous perspective, have proven their ability to provide essential information and services for effective flood management. This study focuses on creating flood hazard maps for Bengaluru’s urban district using an Analytical Hierarchy Process (AHP)-based Multi-Criterion Decision Analysis (MCDA) and Geographic Information System (GIS) techniques. Factors such as rainfall, drainage networks, land use, groundwater levels, terrain elevation, slope, and soil type are considered. The AHP method assigns weights and ranks to each factor, and a weighted linear combination approach is used to merge basic maps into the final flood vulnerability map.

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