A Quantitative Approach to Assess Seismic Vulnerability of Touristic Accommodations: Case Study in Montreal, Canada

Candela, Thomas; Rosset, Philippe; Chouinard, Luc

doi:10.3390/geohazards2020008

Cited by 2 publications

(1 citation statement)

References 23 publications

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“…The characteristics of the building stock in any region are one of the important factors that will directly affect the losses that may occur (Kaplan et al, 2010;Işık, 2016;Bilgin et al, 2021). In this context, seismic vulnerability assessment is a major concern, especially in regions where earthquakes are common (Harirchian et al, 2021a;Arslan, 2010;Candela et al, 2021). In this context, determining the earthquake safety of buildings before a possible earthquake ensures correct decisions about the existing building stock (Doğan et al, 2021;Sipos and Hadzima-Nyarko, 2017;Yakut, 2004;Bilgin and Uruçi, 2018).…”

Section: Introductionmentioning

confidence: 99%

A case study on the updates of Turkish rapid visual screening methods for reinforced-concrete buildings

Işık

Ulu

Aydın

2021

Bitlis Eren University Journal of Science and Technology

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The changes in rapid seismic assessment methods that can be used to determine the regional earthquake risk distribution of buildings have become inevitable, with the Turkish Building Earthquake Code and Turkish Earthquake Hazard Map which updated in 2018, Within the scope of this study, risk prioritization was made according to the last two regulations for ten different settlements that located in the same earthquake zone in the previous earthquake map. With the current regulation, it has once again emerged that site-specific based analysis and evaluations are necessary. While the building performance scores in the previous regulation were the same for all provinces since they were located in the same earthquake zone, different values were obtained for the provinces with the current regulation. As the PGA value increased, the design spectral acceleration coefficient increased and the building's performance score was lower. This increases the risk in these regions.

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Section: Introductionmentioning

confidence: 99%

A case study on the updates of Turkish rapid visual screening methods for reinforced-concrete buildings

Işık

Ulu

Aydın

2021

Bitlis Eren University Journal of Science and Technology

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Development in Fuzzy Logic-Based Rapid Visual Screening Method for Seismic Vulnerability Assessment of Buildings

Bektaş

Kegyes-Brassai

2022

Geosciences

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In order to prevent possible loss of life and property, existing building stocks need to be assessed before an impending earthquake. Beyond the examination of large building stocks, rapid evaluation methods are required because the evaluation of even one building utilizing detailed vulnerability assessment methods is computationally expensive. Rapid visual screening (RVS) methods are used to screen and classify existing buildings in large building stocks in earthquake-prone zones prior to or after a catastrophic earthquake. Buildings are assessed using RVS procedures that take into consideration the distinctive features (such as irregularity, construction year, construction quality, and soil type) of each building, which each need to be considered separately. Substantially, studies have been presented to enhance conventional RVS methods in terms of truly identifying building safety levels by using computer algorithms (such as machine learning, fuzzy logic, and neural networks). This study outlines the background research that was conducted in order to establish the parameters for the development of a fuzzy logic-based soft rapid visual screening (S-RVS) method as an alternative to conventional RVS methods. In this investigation, rules, membership functions, transformation values, and defuzzification procedures were established by examining the data of 40 unreinforced masonries (URM) buildings acquired as a consequence of the 2019 Albania earthquake in order to construct a fuzzy logic-based S-RVS method.

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A Quantitative Approach to Assess Seismic Vulnerability of Touristic Accommodations: Case Study in Montreal, Canada

Cited by 2 publications

References 23 publications

A case study on the updates of Turkish rapid visual screening methods for reinforced-concrete buildings

A case study on the updates of Turkish rapid visual screening methods for reinforced-concrete buildings

Development in Fuzzy Logic-Based Rapid Visual Screening Method for Seismic Vulnerability Assessment of Buildings

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