Keyphrases
Machine Learning Based
100%
Energy Dissipation Capacity
100%
RC Shear Wall
100%
Predictive Models
50%
Wall Design
50%
Prediction Accuracy
33%
Design Parameters
33%
Design Process
33%
Reinforcement Detailing
33%
Reinforced Concrete Shear Wall
33%
Shear Wall
33%
Ductility
16%
Motivation
16%
Cyclic Loading
16%
Energy Dissipation
16%
Structural Members
16%
Feature Selection Methods
16%
Seismic Behavior
16%
Machine Learning Techniques
16%
Robust Prediction
16%
Coefficient of Determination
16%
Hysteretic Behavior
16%
Seismic Performance
16%
Seismic Design
16%
Seismic Input
16%
Shear Strength
16%
Backward Elimination
16%
Seismic Codes
16%
Wall Shear
16%
Design Configuration
16%
Energy-based Approach
16%
Gaussian Process Regression
16%
Wall Geometry
16%
Repeated Load
16%
Input Demand
16%
Seismic Energy Dissipation
16%
Wall Properties
16%
High Energy Dissipation
16%
Comprehensive Dataset
16%
Engineering
Energy Dissipation
100%
Shear Walls
100%
Learning System
100%
Design Process
28%
Design Parameter
28%
Reinforced Concrete
28%
Experimental Result
14%
Cyclic Loading
14%
Feature Extraction
14%
Structural Member
14%
Actual Value
14%
Seismic Behavior
14%
Machine Learning Method
14%
Seismic Performance
14%
Seismic Design
14%
Gaussians
14%
Accurate Prediction
14%
Selection Method
14%
Proper Reinforcement
14%
Shear Strength
14%
Material Science
Reinforced Concrete
100%
Shear Strength
50%
Seismic Design
50%