Tremblement de terre

 

Lack of reliable, up to date, available and qualified geospatial data is one of the problems we are faced to have a proper response to natural disasters. On the other hand, complexity of earthquake phenomena from time, position and intensity, makes it a very uncertain phenomenon to assess. Furthermore, there is no comprehensive spatial analysis tool to support decision making under such disasters. Therefore, development of spatial decision support system (SDSS) to support processing and analyzing geo-spatial data for disaster management and damage estimation is of extreme importance. Previous research shows that about 70 % of Iranian urban areas are suspect to earthquake, therefore, Iran is located in an extremely earthquake risk prone areas in the world.This paper outlines a methodology to assess damage estimation due to an earthquake using SDSS. The methodology is based on quantifying number of buildings destroyed due to an earthquake using high resolution remotely…

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A strong earthquake struck the city of Bam in southeast Iran on 26 December 2003. The earthquake brought massive destruction to the city and its surrounding rural areas. QuickBird, a high-resolution satellite, captured a clear image of Bam on 03 January 2004, eight days after the event. The city was also observed by QuickBird on 30 September 2003, about three months before theevent. In this paper, using the pre-event image, the location of individual buildings was registered on GIS and the city blocks surrounded by major roadswere assigned. Then, the visual damage interpretation based on the European Macroseismic Scale (EMS-98) was carried out building by building, comparing the pre-event and post-event images. The result of the damage inspection was compared with field survey data, and the accuracy and usefulness of the high-resolution satellite images in damage detection was demonstrated.

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Various studies were carried out in the last years with the purpose of assessingnatural hazard damages using remote sensing and photo interpretation techniques. Most of them analyze the case of floods or landslides, where damages could be estimated. For the seismic events, the first studies were carried out basically after the Kocaeli Earthquake of 1999, were spatial images from various satellites could be exploited. The recent progresses of remote sensing in terms of spatial resolution and data processing open new possibilities concerning the natural hazard assessment. Using a high resolution optical imagery available today, a damage detection could be performed inclusively in urban areas.

A multidisciplinary approach based on high resolution satellite data and earthquake engineering was applied in order to estimate the damage after the Bhuj, (India), Earthquake of January 26th, 2001. The study provide a fast loss estimation, in terms of physical damage and…

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A large-scale earthquake with a magnitude of 7.6 occurred on October 8, 2005 in the northern part of Pakistan. The Geographical Survey Institute (GSI) carried out various analyses to clarify in detail with the data from satellites the crustal deformation accompanying the earthquake.

GSI mapped the crustal deformation spatially with Synthetic Aperture Radar data from the European Space Agency’s ENVISAT, and found that the newly deformed area occupies a 90-kilometer-long northwest-southeast trending strip. The heavily damaged area north of Muzaffarabad has the maximum deformation up to 6-meter uplift as observed by the satellite.

There are known active faults stretching to the northwest and southeast near the epicenter, which reveal some uplift (on the northeastern side) and dextral (right-lateral) strike-slip activity. The detected crustal deformation was along these active faults and all observations were consistent with previously known directions of…

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The focus of this study was to thoroughly exploit the capability of very high-resolution (VHR) satellite imagery such as Ikonos and QuickBird for disaster mitigation. An efficient automated methodology that detects damage was implemented to derive the rich information available from VHR satellite imagery. Consequently, the detected results and the VHR satellite imagery are attractively presented through a fly-over animation and visualization. The aim is to assist the field-based damage estimation and to strengthen public awareness. The available Ikonos and QuickBird data captured after the Bam, Iran, earthquake in December 2003 was employed to demonstrate the competence of the automated detection algorithm and fly-over animation/visualization. These results are consistent with the field-based damage results.

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This paper introduces the Recovery Project,which aims to identify indicators of post-disaster recoveryusing satellite imagery, internet-based statistics andadvanced field survey techniques. This paper reviews therecovery literature as a means of introducing the recoveryprocess and the considerations that must be made whenevaluating recovery. This is followed by an introduction tothe Recovery project and its two case study sites: 1. BanNam Khem, Thailand and 2. Muzaffarabad, Pakistan. Areview of the recovery process at Ban Nam Khem ispresented along with a diagram of potential indicatorsobtained from the literature research. The paperconcludes with a short discussion on how remote sensingmay be used to monitor some of these indicators.

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This paper highlights the use of remote sensing technologies in disaster management, notably post-earthquake/tsunami damage detection due to the 2003 Bam Earthquake and the 2004 Indian Ocean Tsunami, and seismic risk assessment based on land use classification in Metro Manila, the Philippines. QuickBird (QB) images taken before and after the 26 December 2003 Bam Earthquake were used in visual damage interpretation based on the European Macroseismic Scale (EMS-98) building by building. An automated damage detection method was also applied to the post-event Ikonos and QB images. The results of these damage inspections were compared with field survey data and the accuracy and limitation of visual and automated damage detections were presented. QB images and GPS-synchronized photo/video were employed in the damage survey after the 2004 Indian Ocean Tsunami in the south Thailand. Terra-ASTER images were also used to identify tsunami inundation areas comparing the pre-event…

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Seven people have been killed and hundreds have been injured in a 6.5-magnitude earthquake that jolted southeastern Iran on 20 December 2010 damaging buildings in outlying mountainous areas.

Source: GLIDEnumber, ReliefWeb, USGS

 

Status Update: 25 December 2010, 12:10 UTC

 

UNOOSA/UN-SPIDER

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An earthquake jolted central Serbia in the early hours of 3 November, killing an elderly couple in the town of Kraljevo and injuring 100 people. The first quick estimations suggest that more than 1 million euros worth of damage has been caused, and 100 houses made uninhabitable.

Source: GLIDEnumber

Introduction of "Emergency.Lu" solution to respond to Haiti Earthquake e.g. background, approaches, technical solution and architecture, and deployment.