Keyphrases
Wave Propagation
100%
Digital Platforms
100%
Multiphysics
100%
Damage Prognostics
100%
High-temperature Polymers
100%
Polymer-matrix Composites
100%
Generative Algorithms
14%
Health Monitoring & Evaluation
14%
Multimodal Deep Learning
14%
Anisotropic Media
14%
Ultrasonic Characteristics
14%
Physics-informed Deep Learning
14%
Baseline-free Damage Detection
14%
Adaptive Signal Processing
14%
Wave Scattering
14%
Inelasticity
14%
Wave Features
14%
Wave Theory
14%
Wave Mode
14%
Statistical Representative Volume Element
14%
Evolving Damage
14%
Constituent Properties
14%
Signal Frequency
14%
Damage Scenarios
14%
Modelling Scheme
14%
Wave Dispersion
14%
Damage Evolution
14%
Three-dimensional (3D)
14%
Structural Health Monitoring
14%
Deep Learning Algorithm
14%
Actuation
14%
Scale-dependent
14%
Damage State
14%
Time-frequency
14%
Signal Processing Techniques
14%
Reduced Order Model
14%
Wave Damage
14%
Composite Architecture
14%
Technological Gap
14%
Microscopy
14%
State Awareness
14%
Arizona State University
14%
Matter Transport
14%
Structural Mechanics
14%
Microstructural Variability
14%
Signal Type
14%
Material Component
14%
Nondestructive Evaluation
14%
Architectural Variability
14%
Multiscale Modeling
14%
Composite Test
14%
Multi-scale Damage
14%
Thermo-mechanical Loading
14%
Damage Classification
14%
Program Directors
14%
Deep Learning Framework
14%
Recurrent Neural Network
14%
High-performance Materials
14%
Lifetime Estimation
14%
Engineering
Polymer Matrix Composite
100%
Multiscale
100%
Deep Learning
28%
Systematic Approach
14%
Structural Mechanics
14%
Damage State
14%
Test Article
14%
Damage Detection
14%
Structural Health Monitoring
14%
Damage Evolution
14%
Adaptive Signal Processing
14%
Engineering
14%
Energy Engineering
14%
Material Performance
14%
Reduced Order Model
14%
Generality
14%
Signal Processing
14%
Damage Scenario
14%
Ultrasonics
14%
Anisotropic
14%
Representative Volume Element
14%
Program Manager
14%
Recurrent Neural Network
14%
Constituent Material
14%
Multiscale Modeling
14%
Actuation
14%