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Publications by Bashar Tarawneh
Empirical Formulas to Predict the Axial Capacity of Driven Piles Using In-Situ Dynamic Load Testing Data
International Journal of Machine Learning and Computing
Management
Computer Science Applications
Information Systems
Artificial Intelligence
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Prediction of Axial Capacity of Piles Driven in Non-Cohesive Soils Based on Neural Networks Approach
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Prediction of Friction Capacity of Driven Piles in Clay Using the Support Vector Machine
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Shaft Resistance of Driven Cast-In-Situ Piles in Sand
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Using Standard Pda Testing to Estimate the Lateral Capacity of Concrete Piles in Medium Loose to Dense Sand
Time-Dependent Uplift Capacity of Driven Piles in Low to Medium Density Chalk
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Axial Tensile Capacity of Helical Piles From Field Tests and Numerical Study
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Prediction of Suspended Sediment Load Using Data-Driven Models
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Comparison of Methods for Determination of the Bearing Capacity of Driven Piles Using the Cone Penetration Test in Soft Clay
PNRPU Construction and Architecture Bulletin