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Academic literature on the topic 'Bam Earthquake, Iran, 2003'

Author: Grafiati

Published: 4 June 2021

Last updated: 1 February 2022

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Journal articles on the topic "Bam Earthquake, Iran, 2003"

Rathje, Ellen M., Melba Crawford, Kyuseok Woo, and Amy Neuenschwander. "Damage Patterns from Satellite Images of the 2003 Bam, Iran, Earthquake." Earthquake Spectra 21, no. 1_suppl (December 2005): 295–307. http://dx.doi.org/10.1193/1.2101047.

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High-resolution (0.6m) commercial satellite images contain a wealth of information for mapping earthquake damage. Satellite images of the city of Bam, acquired on 30 September 2003 (pre-earthquake) and 03 January 2004 (post-earthquake), were obtained and used to distinguish damage patterns across the city. Comparisons between pre- and post-earthquake images clearly show structural damage and collapse. Using spectral (color) and textural information from the post-earthquake image, regions of damage were identified using a semi-automated computer-based algorithm. This analysis indicates that the damage within the city of Bam was concentrated in the eastern sections of the city. The extent of damage in some sections of the city reached 100%. The results from this study not only provide information regarding damage patterns for the city of Bam, but they also illustrate the potential for using satellite images to understand and document earthquake effects during future earthquakes.

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Langenbach, Randolph. "Performance of the Earthen Arg-e-Bam (Bam Citadel) during the 2003 Bam, Iran, Earthquake." Earthquake Spectra 21, no. 1_suppl (December 2005): 345–74. http://dx.doi.org/10.1193/1.2113167.

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The Arg-e-Bam (Bam Citadel; in Farsi, arg means citadel) is a remarkable example of the earthen architecture and construction that was heavily damaged in the 2003 Bam, Iran, earthquake, which occurred on 26 December 2003. This paper presents the hypothesis that the collapse of the walls was caused largely by a combination of the effects of (1) the additive changes made to the walls, particularly in recent restorations, which resulted in variations in the density and response to vibrations of different layers of unfired earth construction in the walls, and (2) extensive damage from termites and loss of the cohesion of the clay from degradation and excessive drying out, all of which interacted with the earthquake vibrations of unusually high-frequency in such a way that many walls effectively burst from the loss of cohesion and subsidence of their clay internal cores. Concern is raised about the possibility of similar risks to other earthen monumental structures in future earthquakes.

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Eshghi, Sassan, and Kiarash Naserasadi. "Performance of Essential Buildings in the 2003 Bam, Iran, Earthquake." Earthquake Spectra 21, no. 1_suppl (December 2005): 375–93. http://dx.doi.org/10.1193/1.2098790.

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A devastating earthquake hit the city of Bam in the south of Iran at 5:26 a.m. local time, Friday, 26 December 2003. Based on the government of Iran's February estimate, the earthquake caused more than 43,000 deaths, 30,000 injuries, and left 70,000 homeless. It caused extensive damage to residential and commercial buildings and emergency response facilities. Essential buildings usually play a very important role in emergency response, but this was not the case in the Bam earthquake. Damage to the fire station, hospitals, and municipal and communications buildings caused serious problems in emergency response soon after the earthquake. This paper studies the performance of essential buildings during the Bam earthquake.

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Nalbant, Suleyman S., Sandy Steacy, and John McCloskey. "Stress transfer relations among the earthquakes that occurred in Kerman province, southern Iran since 1981." Geophysical Journal International 167, no. 1 (October 1, 2006): 309–18. http://dx.doi.org/10.1111/j.1365-246x.2006.03119.x.

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Summary We explore the possible stress triggering relationship of the M≥ 6.4 earthquakes that occurred in Kerman Province, southern Iran since 1981. We calculated stress changes due to both coseismic sudden movement in the upper crust and the time-dependent viscous relaxation of the lower crust and/or upper mantle following the event. Four events of M≥ 6.4 occurred between 1981 and 2005, on and close to the Gowk fault, show a clear Coulomb stress load to failure relationship. The 2003 M= 6.5 Bam earthquake, however, which occurred approximately 95 km SW of the closest Gowk event, shows a very weak stress relation to preceding earthquakes. The coseismic static stress change at the hypocentre of the Bam earthquake is quite small (∼0.006 bars). The time-dependent post-seismic stress change could be 26 times larger or 7 times lower than that of coseismic static stress alone depending on the choice of viscoelastic crustal model and the effective coefficient of friction. Given the uncertainties in the viscoelastic earth models and the effective coefficient of friction, we cannot confidently conclude that the 2003 Bam event was brought closer to failure through coseismic or post-seismic stress loading. Interestingly, the southern Gowk segment with a similar strike to that of the Bam fault, experienced a stress load of up to 8.3 bars between 1981 and 2003, and is yet to have a damaging earthquake.

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Maheri, Mahmoud R., Farzad Naeim, and Michael Mehrain. "Performance of Adobe Residential Buildings in the 2003 Bam, Iran, Earthquake." Earthquake Spectra 21, no. 1_suppl (December 2005): 337–44. http://dx.doi.org/10.1193/1.2098861.

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Adobe, in the form of sun-dried bricks and clay or lime/clay mortar, has traditionally been the primary construction material in Iran. Presently, this type of construction still constitutes a notable portion of the buildings in the urban areas and a majority of the buildings in the rural areas. Performance of traditional adobe construction during numerous Iranian earthquakes has generally been poor. Low material strength, poor workmanship, lack of proper connections between building elements, and the excessive weight of the building because of thick walls and massive roofs, are but a few of the shortcomings that contributed to the general weakness of these buildings under earthquake loads. This paper examines the performance of adobe residential buildings during the Bam, Iran earthquake. The current rehabilitation trends for this type of construction in Iran are also discussed.

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Ashtari Jafari, Mohammad. "Seismicity anomalies of the 2003 Bam, Iran earthquake." Journal of Asian Earth Sciences 56 (August 2012): 212–17. http://dx.doi.org/10.1016/j.jseaes.2012.05.014.

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Jafari, Mohammad Kazem, Mohammad Reza Ghayamghamian, Mohammad Davoodi, Mohsen Kamalian, and Abdollah Sohrabi-Bidar. "Site Effects of the 2003 Bam, Iran, Earthquake." Earthquake Spectra 21, no. 1_suppl (December 2005): 125–36. http://dx.doi.org/10.1193/1.2098266.

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The site amplification characteristics of the 2003 Bam, Iran, earthquake were investigated based on geological studies as well as geophysical, microtremor and aftershock measurements conducted by IIEES in the study area. A site effect microzonation map was prepared classifying the ground conditions of the city into five distinct categories, based on their stiffness, thickness, and frequency characteristics. The highest percentage of damage was concentrated in sites with stiff shallow and medium depth soils, which possessed considerable amplification potentials in high frequency ranges.

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Berberian, Manuel. "The 2003 Bam Urban Earthquake: A Predictable Seismotectonic Pattern along the Western Margin of the Rigid Lut Block, Southeast Iran." Earthquake Spectra 21, no. 1_suppl (December 2005): 35–99. http://dx.doi.org/10.1193/1.2127909.

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“…King Ardeshir Babakan Sassanid [r. AD 224-241], by conquering Kerman and Bam, killed the ‘Kerm-e-Haftvad’ [the Haftvad Silk Worm] at the Bam Citadel. The gigantic worm burst with a big bang noise, which rocked the area, completely destroyed the Bam Citadel, and killed most of the inhabitants of the Citadel. King Ardeshir put an end to the rule of governor Haftvad, built the new village of Kolalan/Kojaran [Kurzan; the old Deh Shotor quarter in west Bam], and brought the ‘seven sacred fires of Bahram’ to the new village…”[Book of Deeds of Ardashir Pabagan 1878 (English Tr., original version ca. AD 272); Tabari 915; Ferdowsi Tusi 1010; & Mostaufi Qazvini 1340. The entire episode rests on the rationalization of historical events of unknown nature, and perhaps the legendary element could be a possible, mixed metaphoric reference to a ‘destructive earthquake’ or even a ‘conquering battle’ against the ancient city of Bam and its Parthian governor, Haftvad!]The impact of the Bam urban earthquake of 26 December 2003 (Mw6.6) was far more devastating than that which would be expected from a moderate-magnitude earthquake. The event followed a predictable geological/seismological pattern of a specially clustered sequence of medium- to large- magnitude earthquakes on tectonically related active faults in a region with historic slip deficits along the western margin of the rigid Lut block. The earthquake was accompanied by the coseismic rupture of sub-parallel strike-slip faults in a zone revealing a pattern of temporal clustering of seismicity, loading of adjacent faults, and a southwards progressing trend of earthquakes from the Kuh Banan to the Gowk and the Bam fault systems. As with the Agadir, Morocco, earthquake of 1960, and the great Tangshan, China, earthquake of 1976, the Bam urban earthquake painfully demonstrated the growing vulnerability of a city built on or adjacent to a seismic fault, unprepared to be tested by the severe ground motion triggered by a medium magnitude earthquake. The absence of historical seismic records regarding the occurrence of earthquakes in the region or the lengthy time spans between such disasters has been erroneously interpreted as a lack of any potential threat for the last 2,500 years in the city of Bam.

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Hessami, Khaled, Hadi Tabassi, Koji Okumura, Mohammad R. Abbassi, and Takashi Azuma. "Surface Deformation and the Fault Responsible for the 2003 Bam, Iran, Earthquake." Earthquake Spectra 21, no. 1_suppl (December 2005): 113–23. http://dx.doi.org/10.1193/1.2103167.

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The Bam fault zone is a major active fault zone in southeastern Iran. Geomorphic evidence indicates that it has been responsible for repeated faulting events since the late Pleistocene. The 26 December 2003 Bam earthquake was associated with a 14 km fresh surface rupture trending north-south along the preexisting Bam fault zone. However, an en echelon rupture pattern trending N 15° E developed in the surface of alluvial deposits 5 km west of the Bam fault, in an area where no fault trace is visible in the geomorphology. The slip along the surface ruptures ranged between 0.5 and 20 cm. Rather than being a direct manifestation of the earthquake fault that does not surface, the fresh surface ruptures associated with the Bam earthquake are secondary structures such as synthetic (Reidel) shears and mole tracks, which indicate right-lateral motion along the Bam fault zone. This is compatible with both the focal mechanism solutions of the earthquake and fault displacements during the late Pleistocene. Fresh surface structures indicate areas of dispersed strain not recognized on SAR interferometry.

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Zaré, Mehdi, and Hossein Hamzehloo. "Strong Ground-Motion Measurements during the 2003 Bam, Iran, Earthquake." Earthquake Spectra 21, no. 1_suppl (December 2005): 165–79. http://dx.doi.org/10.1193/1.2098307.

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The Bam earthquake of 26 December 2003 ( Mw 6.5) occurred at 01:56:56 (GMT, 05:26:56 local time) near the city of Bam in the southeast of Iran. Two strong phases of energy are seen on the accelerograms. The first comprises a starting subevent with right-lateral strike-slip mechanism located south of Bam. The mechanism of the second subevent was a reverse mechanism.

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Dissertations / Theses on the topic "Bam Earthquake, Iran, 2003"

Najafi, Modjtaba. "L’espace public solidaire face aux séismes de Bam et d’Azerbaïdjan en 2003 et en 2012 : de l’Iran civil à l’Iran des réseaux." Thesis, Paris 3, 2019. http://www.theses.fr/2019PA030040.

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Etudier la constitution d’un public solidaire lors des séismes de Bam et d’Azerbaïdjan est l’objet de cette recherche. Elle aborde la question selon une approche pragmatiste en vue de montrer comment les évolutions technico- démographiques et politico-sociales dans les années 2000 ont favorisé la formation du public iranien lors des séismes de Bam en 2003 et de celui d’Azerbaïdjan en 2012.A partir de ce constat, il s’agit d’étudier la contribution des citoyens internautes sur les blogs et sur les réseaux sociaux, ce qui a permis le rassemblement des Iraniens qui ont fait l’enquête pour vérifier une situation problématique en partant des effets des séismes pour arriver à leurs causes. Cette thèse examine également la couverture médiatique de la presse iranienne, soit conservatrice, soit réformatrice, pour découvrir les différents aspects de ces événements.En s’appuyant sur l’analyse du discours, cette recherche montre comment l’espace public iranien est plus proche de la lecture pragmatiste et plus éloigné de la lecture habermassienne. Selon l’approche pragmatiste, l’émotion est unificatrice et motrice, elle est prise comme facteur d’unité et de complétude dans l’expérience. Les émotions partagées par les différents acteurs de ces événements ont participé à la création d’un Nous, rassemblé par un objectif central. On y voit une argumentation émotionnelle, caractérisée par l’utilisation massive des témoignages et récits, des poésies, des métaphores et des métonymies et des images au sein du discours politico-social. Cette étude montre comment les citoyens indignés et choqués se sont rassemblés pour la reconstruction de l’Iran. Cette recherche fait apparaître la nouvelle image de l’Iran contemporain : l’Iran civil et l’Iran des réseaux. Le premier se caractérise par l’apparition d’une nouvelle société civile apparue particulièrement à la fin des années 1990 et au début des années 2000 et le deuxième se distingue par l’élargissement de l’espace public grâce au développement de l’internet notamment par les réseaux sociaux
Studying the constitution of a united public during the earthquakes of Bam and Azerbaijan is the subject of this research. It tackles the issue with a pragmatist approach to show how techno-demographic and politico-social developments in the 2000s fostered the raising of the Iranian public during the earthquakes of Bam in 2003 and that of Azerbaijan in 2012.From this observation, this research aims at studying the contribution of citizen Internet users on the blogs and on the social networks, which allowed the gathering of the Iranians who made the investigation to check a problematic situation starting from the effects of the earthquakes to reach their causes.This thesis also analyses the media coverage of the Iranian press, either conservative or reformist, to discover the various aspects of these events.Based on discourse analysis, this research shows how the Iranian public sphere is closer to pragmatist approach and further away from Habermasian approach. According to the pragmatist approach, emotion is unifying and driving the individuals, it is conceived as a factor of unity and completeness in the experience. The emotions shared by the different actors of these events contributed to the creation of a We, brought together by a central objective. We see an emotional argument, characterized by the massive use of testimonies and stories, poems, metaphors and metonymies and images in a politico-social discourse. This study shows how indignant and shocked citizens gathered for the reconstruction of Iran.From this thesis work, arises the new image of contemporary Iran: civil Iran and networked Iran. The first is characterized by the emergence of a new civil society appeared particularly in the late 1990s and early 2000s and the second is distinguished by the expansion of the public sphere through the development of the internet including social networks

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Ravankhah, Mohammad [Verfasser], Michael [Gutachter] Schmidt, Thomas [Gutachter] Will, and Klaus [Gutachter] Reicherter. "Earthquake disaster risk assessment for cultural World Heritage sites: the case of “Bam and its Cultural Landscape” in Iran / Mohammad Ravankhah ; Gutachter: Michael Schmidt, Thomas Will, Klaus Reicherter." Cottbus : BTU Cottbus - Senftenberg, 2020. http://d-nb.info/1219908428/34.

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Fayazi, Mahmood. "Household recovery and housing reconstruction after the 2003 Bam earthquake in Iran." Thèse, 2017. http://hdl.handle.net/1866/19968.

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Nejad, Sara Khakbaz. "Dancing to the Desert: A Proposal for Self-Help Reconstruction of Post-Earthquake Cities in Hot-Arid Climates." Thesis, 2011. http://hdl.handle.net/10012/6504.

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Natural hazards kill 82,500 people globally in a typical year, with earthquakes as the largest cause of death amongst all natural hazards in Central and Southern America, East Asia, Europe, and the Near East. Damages are highest in middle-income countries due to lack of resources for hazard prevention and mitigation. Dancing to the Desert concentrates on Bam, Iran, as a typical post earthquake city, searching for architecture appropriate for post-disaster cities of hot-arid climates. Dancing to the Desert is a discourse on current seismic, urban, and architectural design conditions in hot-arid climates of the globe, and searches for an appropriate architecture for post-disaster cities in developing regions of the desert climate. Chapter One includes analysis on global seismic hazard conditions, focusing on the hot-arid climates in the world and concentrating on the city of Bam, Iran. Chapter Two includes a detailed analysis of the traditional as well as contemporary architecture of Bam, searching for appropriate architectural elements to use in the proposed architecture. Chapter Three proposes a Pilot Project for an orphanage in Bam, based on the architectural elements and strategies discussed in Chapter Two. Through scientific research, case studies, a site visit to Bam, and discussions with local residents, this thesis finds an appropriate proposal adaptable to all post-disaster cities of the hot-arid climate. It also suggests various strategies for disaster prevention and mitigation through public education. These strategies educate the public in employing cultural and environmental friendly resilient architecture, which will subsequently reduce damage and fatalities on brisk of disaster. It also familiarizes the public with the proposed disaster prevention and mitigation strategies and facilitates the adoption of the proposed design in future post-disaster conditions.

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Books on the topic "Bam Earthquake, Iran, 2003"

Zalzalah-ʼi Bam: Fājiʻah dar tārīkh. Tihrān: Nashr-i Paykān, 2004.

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Bam: Bam / Jassem Ghazbanpour. 2nd ed. Tihrān: Intishārāt-i Tīs, 2005.

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ʻAlī, Fahīmī Amīr, ed. Bamʹnāmah: Bam nameh. Tihrān: Nashr-i Chashmah, 2006.

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Bam, mihr-i bīʹriyā-yi Rūdābah. Tihrān: Nashr va Pizhūhish-i Farzānʹrūz, 2007.

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Bam, tanʹpūsh-i kuhnah-ʼi dukhtarī zībā: Murūrī bar tārīkh-i ijtimāʻī - iqtiṣādī-i sadah-ʼi akhīr-i shahr-i Bam. Tihrān: Nashr-i Tārīkh-i Īrān, 2008.

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Tajdīd-i ḥayāt-i farhangī-i Bam: Tadbīr-i millī, mushārikat-i jahānī. Tihrān: Ṭarḥʹhā-yi Millī, Vizārat-i Farhang va Irshād-i Islāmī, 2004.

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--Tū kih īn qadr mihrabān būdī!: Nāmahʹhā-yi kūdakān-i Bam bih Khudā = --You, who were so kind! Tihrān: Tawfīqʹāfarīn, 2004.

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Āvār dar āvār: Bakhshī az khāṭirāt-i bīst va haft māh-i kār va zindagī dar Bam. Kirmān: Intishārāt-i Valī, 2007.

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International, Pacific Consultants. The comprehensive master plan study on urban seismic disaster prevention and management for the Greater Tehran area in the Islamic Republic of Iran: Final report, the study on reconstruction plan for Bam water supply system. Tokyo]: Japan International Cooperation Agency, 2005.

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United States. Congress. House. Committee on International Relations. The Microenterprise Results and Accountability Act of 2004; requesting documents in the possession of the President and officials relating to the disclosure of the identity and employment of Ms. Valerie Plame; amending the State Department Basic Authorities Act of 1956 to expand the rewards program; the Belarus Democracy Act of 2003; urging passage of a resolution addressing human rights abuses in Peoples Republic of China; commending India on its celebration of Republic Day; expressing sympathy for the victims of the Dec. 26, 2003 earthquake in Bam, Iran; and recognizing strategic partnership between the U.S. and the people of the Marshall Islands in the pursuit of international peace and security, etc.: Markup before the Committee on International Relations, House of Representatives, One Hundred Eighth Congress, second session, on H.R. 3818, H. Res. 499, H.R. 3782, H.R. 854, H. Res. 530, H. Con. Res. 15, H. Res. 526 and H. Con. Res. 364, February 25, 2004. Washington: U.S. G.P.O., 2004.

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Book chapters on the topic "Bam Earthquake, Iran, 2003"

Fallahi, Alireza, and Solmaz Arzhangi. "Business Continuity after the 2003 Bam Earthquake in Iran." In Communications in Computer and Information Science, 532–40. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-27207-3_58.

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Yazdi, Leila P., Omran Garazhian, and Maryam Dezhamkhooy. "After the Earthquake at Bam, Iran: Archaeological and Social Investigations." In SpringerBriefs in Archaeology, 183–86. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-09819-7_32.

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Karimian, Ameneh, Alireza Fallahi, and Seyed Hassan Taghvaei. "Integrating Green Solutions into Post-earthquake Recovery of Bam, Iran." In Historic Cities in the Face of Disasters, 245–62. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-77356-4_14.

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Fattahpour, V., and M. Moosavi. "Stress inversion from focal mechanism solution of Bam earthquake aftershocks (Iran, 2003)." In Rock Stress and Earthquakes, 229–34. CRC Press, 2010. http://dx.doi.org/10.1201/9780415601658-38.

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Hassanzadeh, Reza, and Zorica Nedovic-Budic. "Assessment of the Contribution of Crowd Sourced Data to Post-Earthquake Building Damage Detection." In Geospatial Intelligence, 763–803. IGI Global, 2019. http://dx.doi.org/10.4018/978-1-5225-8054-6.ch034.

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This paper compares the results of building damage detection based on Crowd Sourced (CS) data, image processing of remotely sensed (RS) data and predictive modelling with institutional spatial data (Spatial Data Infrastructure - SDI). In particular, it focuses on the contribution of Crowd Sourcing to detecting post-earthquake building damages, while also considering the integration of Crowd Sourced with two other data sources (RS and modelling). To simulate CS data submission following the 2003 earthquake in Bam City (Iran) a survey was administered to the population which experienced the earthquake. The results obtained from this and two other sources are compared with the Actual Earthquake (AE) data by cross-tabulation analysis and McNemar's Chi Square Test. When assessed against AE data, the average accuracy levels of assessments based on the use of RS data and CS data integrated with each RS data and predictive modelling and with both, show a statistically significant increase relative to the predictive modelling. While this research does not provide for a full assessment of the value of CS data alone and in fact finds it slightly inferior to predictive modelling, it suggests that Crowd Sourcing could be a useful source of information, especially if combined with other sources.

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Farazmand, Ali. "Managing at the Edge of Chaos: Lessons Learned from the 2006 Bam Earthquake in Iran." In Global Cases in Best and Worst Practice in Crisis and Emergency Management, 135–48. CRC Press, 2016. http://dx.doi.org/10.1201/b19456-11.

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"A social work charter for unexpected disasters: lessons from the Bam, Iran earthquake." In Social Work in a Global Context, 268–82. Routledge, 2015. http://dx.doi.org/10.4324/9780203111888-30.

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Fuchs, C., and W. J√§ger. "Reconstruction of the Sistani House at Bam Citadel after the collapse due to the earthquake 2003." In Structural Analysis of Historic Construction: Preserving Safety and Significance, 1181–87. CRC Press, 2008. http://dx.doi.org/10.1201/9781439828229.ch136.

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Conference papers on the topic "Bam Earthquake, Iran, 2003"

Khalvati, A. H., and M. Hosseini. "Seismic Performance of Electrical Substations' Equipments in Bam Earthquake (Iran 2003)." In Technical Council on Lifeline Earthquake Engineering Conference (TCLEE) 2009. Reston, VA: American Society of Civil Engineers, 2009. http://dx.doi.org/10.1061/41050(357)23.

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Chen, ZhiQiang, and Tara C. Hutchinson. "Urban damage estimation using statistical processing of satellite images: 2003 Bam, Iran earthquake." In Electronic Imaging 2005, edited by Reiner Eschbach and Gabriel G. Marcu. SPIE, 2005. http://dx.doi.org/10.1117/12.582707.

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Sadeghi, H., S. M. Fatemi Aghda, Sadaomi Suzuki, and Takeshi Nakamura. "3D Velocity Structure Of The 2003 Bam Earthquake Area (Se Iran): Existence Of A Shallow Brittle Layer And Its Relation To The Heavy Damages." In 4th Congress of the Balkan Geophysical Society. European Association of Geoscientists & Engineers, 2005. http://dx.doi.org/10.3997/2214-4609-pdb.26.p11-09.

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Parcharidis, Issaak, Mahdi Zaré, Michael Foumelis, and Emmanouil Psomiadis. "Investigation on Bam (Iran) earthquake 26/12/03 based on interferometric coherence." In Remote Sensing, edited by Manfred Ehlers and Ulrich Michel. SPIE, 2005. http://dx.doi.org/10.1117/12.627485.

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Motawef, Sh, and S. Asadi. "Migration after natural disasters, case study: “the 2003 Bam earthquake”." In RAVAGE OF THE PLANET III. Southampton, UK: WIT Press, 2011. http://dx.doi.org/10.2495/rav110571.

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Talishinskiy, Rustam. "PW 2868 Azerbaijan medical team on rescue operation after bam earthquake 2003." In Safety 2018 abstracts. BMJ Publishing Group Ltd, 2018. http://dx.doi.org/10.1136/injuryprevention-2018-safety.710.

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Chini, Marco, Christian Bignami, Salvatore Stramondo, William J. Emery, and Nazzareno Pierdicca. "Quickbird Panchromatic Images for Mapping Damage at Building Scale Caused by the 2003 Bam Earthquake." In IGARSS 2008 - 2008 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2008. http://dx.doi.org/10.1109/igarss.2008.4779173.

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Feng Wanpeng. "Uncertainty of the 2003 BAM Mw=6.4 earthquake fault model inverted from ENVISAT SAR interferometric data." In 2007 1st Asian and Pacific Conference on Synthetic Aperture Radar. IEEE, 2007. http://dx.doi.org/10.1109/apsar.2007.4418650.

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Hosseini, Mahmood. "Developing the First National Code for Gas Lifeline System in Iran: Possibilities and Challenges." In Sixth U.S. Conference and Workshop on Lifeline Earthquake Engineering (TCLEE) 2003. Reston, VA: American Society of Civil Engineers, 2003. http://dx.doi.org/10.1061/40687(2003)36.

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Faur, Daniela, and Mihai Datcu. "A rapid mapping approach to quantify damages caused by the 2003 bam earthquake using high resolution multitemporal optical images." In 2015 8th International Workshop on the Analysis of Multitemporal Remote Sensing Images (Multi-Temp). IEEE, 2015. http://dx.doi.org/10.1109/multi-temp.2015.7245752.

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Academic literature on the topic 'Bam Earthquake, Iran, 2003'

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