期刊
ENGINEERING STRUCTURES
卷 166, 期 -, 页码 117-127出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.engstruct.2018.03.055
关键词
Earthquake; Damage; Assessment; Building; Rule weight; Fuzzy logic; Weighted fuzzy rule
资金
- University Saad Dahlab (Algeria)
- University Paris-Est Marne-la-Vallee (France) under the Algerian French scholarship program of scientific exchange (PROFAS B +)
The present paper develops a methodology based on fuzzy logic for post-earthquake assessment of buildings damage. It derives the global building damage level from that reported information by trained technical staff, after in-situ visual inspection of the main parameters, i.e., the Structural components and the Non-structural components. For illustration purposes, thousands of evaluation forms from post-earthquake survey following the 2003 Boumerdes, Algeria, earthquake (Mw = 6.8) have been collected. According to the standard evaluation form, each component's damage is ranked from D-1 (No damage) up to D-5 (Collapse). The aim is then to derive the global damage level of buildings which should also rank from D-1 to D-5. The paper investigates the effect of the number and weights of fuzzy rules to relate each components' damage level to the global damage level using a single-antecedent weighted fuzzy rule. It investigates also the effect of membership functions values so that it is possible to consider one damage level as the most dominant with highest membership value whereas the rest damage levels are still considered although with lower influence. A genetic algorithm is adopted to optimize the rule weights associated to the components' damage levels. The collected database which covers more than 27,000 buildings is used to train and validate the procedure. The theoretical prediction, obtained by automatic processing of the evaluation form for each building, is compared to the global damage (observed damage) identified by inspectors. Results show that the theoretically-based evaluation Is in accordance with the observed values for 90% of the investigated buildings.
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