Artikel dengan mandat akses publik - Soroush MahjoubiPelajari lebih lanjut
Tersedia di suatu tempat: 12
Prediction and multi-objective optimization of mechanical, economical, and environmental properties for strain-hardening cementitious composites (SHCC) based on automated …
S Mahjoubi, R Barhemat, P Guo, W Meng, Y Bao
Journal of Cleaner Production 329, 129665, 2021
Mandat: US National Science Foundation, US Department of Transportation
Auto-tune learning framework for prediction of flowability, mechanical properties, and porosity of ultra-high-performance concrete (UHPC)
S Mahjoubi, W Meng, Y Bao
Applied Soft Computing 115, 108182, 2022
Mandat: US National Science Foundation
Optimal placement of triaxial accelerometers using hypotrochoid spiral optimization algorithm for automated monitoring of high-rise buildings
S Mahjoubi, R Barhemat, Y Bao
Automation in Construction 118, 103273, 2020
Mandat: US Department of Transportation
Strain transfer effect on measurements with distributed fiber optic sensors
M Yan, X Tan, S Mahjoubi, Y Bao
Automation in Construction 139, 104262, 2022
Mandat: US Department of Transportation
Inverse analysis of strain distributions sensed by distributed fiber optic sensors subject to strain transfer
S Mahjoubi, X Tan, Y Bao
Mechanical Systems and Signal Processing 166, 108474, 2022
Mandat: US Department of Transportation
Metaheuristic inverse analysis on interfacial mechanics of distributed fiber optic sensors undergoing interfacial debonding
X Tan, S Mahjoubi, X Zou, W Meng, Y Bao
Mechanical Systems and Signal Processing 200, 110532, 2023
Mandat: US National Science Foundation, US Department of Transportation
Deep learning from physicochemical information of concrete with an artificial language for property prediction and reaction discovery
S Mahjoubi, R Barhemat, W Meng, Y Bao
Resources, Conservation and Recycling 190, 106870, 2023
Mandat: US National Science Foundation
Self-updatable AI-assisted design of low-carbon cost-effective ultra-high-performance concrete (UHPC)
P Guo, S Mahjoubi, K Liu, W Meng, Y Bao
Case Studies in Construction Materials 19, e02625, 2023
Mandat: US National Science Foundation
Identification and classification of exfoliated graphene flakes from microscopy images using a hierarchical deep convolutional neural network
S Mahjoubi, F Ye, Y Bao, W Meng, X Zhang
Engineering Applications of Artificial Intelligence 119, 105743, 2023
Mandat: US National Science Foundation
Logic-guided neural network for predicting steel-concrete interfacial behaviors
S Mahjoubi, W Meng, Y Bao
Expert Systems with Applications 198, 116820, 2022
Mandat: US National Science Foundation
Modeling mixing kinetics for large-scale production of Ultra-High-Performance Concrete: effects of temperature, volume, and mixing method
J Du, S Mahjoubi, Y Bao, N Banthia, W Meng
Construction and Building Materials 397, 132439, 2023
Mandat: US National Science Foundation
AI-assisted design, 3D printing, and evaluation of Architecture Polymer-concrete Composites (APCC) with high specific flexural strength and high specific toughness
R Barhemat, S Mahjoubi, W Meng, Y Bao
SSRN, 4515439, 2023
Mandat: US National Science Foundation
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