Ali Bakhshi Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
faculty
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
Ali Bakhshi's research investigates structural engineering, focusing on seismic performance and advanced computational methods. His work includes studying vehicle-bridge interaction and the effectiveness of tuned-mass dampers during earthquake events. Bakhshi also explores the seismic assessment of infrastructure, such as semi-anchored steel water tanks, and examines the behavior of cold-formed steel sections under tension, including the validity of design equations. He has applied deep learning techniques to automate the visual screening of buildings for seismic hazards and to segment concrete cracks. Additionally, Bakhshi's research interests extend to control systems for wind turbines and enhancing the security of blockchain smart contracts. His scholarship metrics include an h-index of 14, with 67 total publications and 566 citations.
Metrics
- h-index: 14
- Publications: 67
- Citations: 572
Selected Publications
-
Enhancing Ethereum Smart Contract Security: A Comprehensive Analysis Using CVSS and Mitigation Strategies (2025)
Collaboration Network
Top Collaborators
- Backstepping-based active fault tolerant control of wind turbine system using nonlinear fuzzy state observer
- Seismic Risk Assessment of Actively Controlled Buildings under Probable Mainshock-Aftershock Scenarios during their Lifetime
- Shaking table test for assessing the seismic performance of semi-anchored steel water tanks
- Shaking table test for assessing the seismic performance of semi-anchored steel water tanks
- Optimized U-shape convolutional neural network with a novel training strategy for segmentation of concrete cracks
- Vehicle-bridge interaction and the tuned-mass damper effect on bridges during vertical earthquake excitation
- Vehicle-bridge interaction and the tuned-mass damper effect on bridges during vertical earthquake excitation
- Estimation of Water Retention at Low Matric Suctions Using the Micromorphological Characteristics of Soil Pores
- Estimation of Water Retention at Low Matric Suctions Using the Micromorphological Characteristics of Soil Pores
- Estimation of Water Retention at Low Matric Suctions Using the Micromorphological Characteristics of Soil Pores
- Investigation of cold work effect, Karren (AISI) and ECCS (Euro Code3) equations validity and tension failure modes in thick plate cold-formed steel angle sections
- Seismic risk assessment of Tehran masonry school buildings and prioritizing them for seismic retrofitting using reliability methods
- Seismic risk assessment of Tehran masonry school buildings and prioritizing them for seismic retrofitting using reliability methods
- Rapid Visual Screening of Buildings for Potential Seismic Hazards: Automated Deep-Learning Classification Approach
- Enhancing Ethereum Smart Contract Security: A Comprehensive Analysis Using CVSS and Mitigation Strategies