Vahid Jahangiri
Faculty of Engineering
Department of Civil Engineering
Phone: 04531505728
Email: v.jahangiri@uma.ac.ir
ORCID: https://orcid.org/0000-0003-0920-2488
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Vahid Jahangiri is an Associate Professor in
the Department of Civil Engineering at the University of Mohaghegh Ardabili. He
received his Bachelor's degree in Civil Engineering from the University of
Tabriz in 2007. Subsequently, he obtained his Master's degree in Earthquake
Engineering in 2009 from the Sharif University of Technology and his Ph.D. in
Earthquake Engineering in 2016 from Tarbiat Modares University. His main
research areas include seismic risk analysis, probabilistic seismic assessment
of structures, performance-based earthquake engineering, seismic resilience of
structures, as well as the application of machine learning methods in
earthquake and structural engineering. Among the courses he has taught are
Solid Mechanics, Steel Structures 1 and 2, Principles of Earthquake and Wind
Engineering, National Building Regulations, Soil Dynamics, Uncertainty
Analysis, and Risk Management and Performance-Based Seismic Design
of Structures.
Education
Awards
Memberships
Fields of Interest
21 - Optimal intensity measures for resilience-oriented probabilistic seismic demand models of elevated steel tanks
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20 - V Jahangiri, MR Akbarzadeh, SA Shahamat, A Asgari, B Naeim, ...,Machine learning-based prediction of seismic response of steel diagrid systems,2025
19 - MR Akbarzadeh, V Jahangiri, B Naeim, A Asgari,Advanced computational framework for fragility analysis of elevated steel tanks using hybrid and ensemble machine learning techniques,2025
18 - V Jahangiri, MR Akbarzadeh, SA Shahamat, A Asgari, B Naeim, ...,Machine learningbased prediction of seismic response of steel diagrid systems. Structures, vol. 80,2025
17 - HA Amiri, V Jahangiri,Correction: Probabilistic seismic demand models developed with two-criteria ground motion scaling for reliable risk assessment,2025
16 - B Naeim, MR Akbarzadeh, V Jahangiri,Machine learning-based prediction of seismic response of elevated steel tanks. Structures 70: 107649,2024
15 - Machine learning-based prediction of seismic response of elevated steel tanks
14 - S Khedmati, V Akrami, V Jahangiri,Comparison of Seismic Fragility of Steel Moment Frames with and without Beam Web Opening,2023
13 - SEISMIC PERFORMANCE COMPARISON OF TALL BUILDINGS EQUIPPED WITH VISCOUS, VISCOELASTIC, FRICTION, AND METALLIC YIELDING DAMPERS INCLUDING THE EFFECT OF FOUNDATION FLEXIBILITY
12 - Seismic reliability and limit state risk evaluation of plain concrete arch bridges
11 - Appropriate intensity measures for probabilistic seismic demand estimation of steel diagrid systems
10 - Intensity measure-based probabilistic seismic evaluation and vulnerability assessment of ageing bridges
9 - Reliability-based seismic evaluation of buried pipelines subjected to earthquake-induced transient ground motions
8 - Correlation of spectral acceleration values in Iranian ground motions
7 - Evaluation of Plasco Building fire-induced progressive collapse
6 - Seismic performance assessment of plain concrete arch bridges under near-field earthquakes using incremental dynamic analysis
5 - V Jahangiri, H Shakib,VULNERABILITY EVALUATION OF BURIED STEEL PIPELINES UNDER SEISMIC WAVE PROPAGATION,2019
4 - Seismic risk assessment of buried steel gas pipelines under seismic wave propagation based on fragility analysis
3 - Intensity measures for the seismic response assessment of plain concrete arch bridges
2 - H Sh, V Jahangiri,Suitable Intensity Measures for Evaluation of Continues Buried Steel Pipelines in Performance-Based Context,2016
1 - Intensity measures for the assessment of the seismic response of buried steel pipelines
برنامه هفتگی استاد در ترم جاری
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Master
