Spatial Data Infrastructure in Natural Disaster Management

Natural disasters that cause tremendous material harm and threaten human lives, infrastructure, and economic and social activities become more frequent. While most material and human casualties are the effects of sudden and brief natural disasters, it is not possible to disregard long-term disasters, most frequently triggered by climate change. Damage from long-term disasters is quite significant and hampers the sustainability of the economy and life in densely populated cities. Following climate change, it is concluded that special attention should be paid to coastal cities, cities along rivers and the potential risks of possible disasters should be reduced before they materialize. The reduction of disaster risk is an endeavor involving various professional fields, viewpoints, and stakeholders. An integrated approach that brings together all the necessary elements is therefore required. The planning for protection against natural disasters and in the very moments when it occurs, it is necessary to quickly obtain reliable data to coordinate activities in the field well. However, there are problems in the field with the availability, access, and spatial data use. In this sense, the Spatial Data Infrastructure (SDI) can provide an appropriate framework for sharing spatial data through the cooperation of administration, public, and private institutions and citizens.

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Spatial data infrastructure for the management and risk assessment of natural disasters

Sixth International Conference on Remote Sensing and Geoinformation of the Environment (RSCy2018) ◽

10.1117/12.2322986 ◽

2018 ◽

Cited By ~ 1

Author(s):

Jose Antonio Garcia Escalona ◽

Evgeny Petrovich Istomin ◽

Liudmila Slesareva ◽

Jose Antonio Peña Oliveros

Keyword(s):

Risk Assessment ◽

Natural Disasters ◽

Spatial Data ◽

Spatial Data Infrastructure ◽

Data Infrastructure

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CAPACITY BUILDING FOR DISASTER MANAGEMENT IN MOZAMBIQUE THROUGH TEACHING PUBLIC PARTICIPATORY GIS AND SPATIAL DATA INFRASTRUCTURE

ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences ◽

10.5194/isprs-archives-xliv-3-w1-2020-151-2020 ◽

2020 ◽

Vol XLIV-3/W1-2020 ◽

pp. 151-158

Author(s):

V. Yordanov ◽

M. A. Brovelli ◽

D. Carrion ◽

L. Barazzetti ◽

L. J. A. Francisco ◽

...

Keyword(s):

Climate Change ◽

Disaster Management ◽

Spatial Data ◽

Practical Knowledge ◽

Risk Mitigation ◽

Spatial Data Infrastructure ◽

Mitigation Measures ◽

Hazard Mapping ◽

Data Infrastructure ◽

Participatory Gis

Abstract. Mozambique is highly vulnerable to clime change induced hazards. The extreme weather impacts are directly related to the temperature and precipitation variations leading to more frequent and devastating events as floods, droughts and cyclones. Even though Mozambique has committed to international policies and has adopted mitigation measures, still it is lacking of sufficient capacity on various levels to lower the country’s vulnerability level. A consortium of eight partner countries, along with Mozambique, commenced a Climate Change Induced Disaster Management in Africa (CIDMA) project which aims at building education capacity through implementing geospatial information technology for improved disaster management in Mozambique. The core of the project is in developing three 10 ECTS courses that will implement state-of-the-art techniques and methodologies for dealing with climate change induced hazards. The courses are intended from one hand to university students and staff, but on the other to local authorities, organisations and companies occupied with disaster management, and local communities. As one of course, “Public Participatory GIS and Spatial Data Infrastructure in Disaster Management” is designed to prepare students to be able to produce thematic maps through GIS and crowdsourced data, as well as various EO data. With the presented course it is expected for the students to gain valuable theoretical and practical knowledge of GIS, VGI and SDI for exploiting, managing and processing geospatial data for risk mitigation and hazard mapping. Moreover, they will be skilled in using free and open-source GIS software, desktop and mobile mapping techniques, and free web-based dissemination and processing services. In addition, it is expected for the students to develop critical judgement for analysing data with the correct tools in case of climate induced disasters. This paper describes the design, structure and topics of the “Public Participatory GIS and Spatial Data Infrastructure in Disaster Management”.

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