Keyphrases
Algorithm Development
100%
Facial Expression Image
100%
Pain Intensity
100%
Deep Learning Algorithm
100%
Classification Model
37%
Convolutional Long Short-term Memory (ConvLSTM)
37%
Hybrid CNN
37%
Pain Management
25%
Facial Image
25%
Multi-class
25%
Medical Diagnostics
25%
Health Domain
12%
Health Informatics
12%
Principal Coordinate Analysis (PCoA)
12%
Management Area
12%
McMaster
12%
Patient Management
12%
Order of Accuracy
12%
Machine Learning Algorithms
12%
Facial Expression
12%
Trainer
12%
Computational Efficiency
12%
Face Image
12%
Performance-based
12%
Expert System
12%
Medical Health
12%
Patient Health
12%
Medical Conditions
12%
Machine Learning Techniques
12%
Health Practitioners
12%
Pain Level
12%
Four-level
12%
Intensity Analysis
12%
Pain Recognition
12%
Facial Expression Dataset
12%
Shoulder Pain
12%
Intensity Level
12%
Convolutional Neural Network
12%
Automated Detection
12%
Classification Algorithms
12%
Deep Neural Network
12%
Neural Network Framework
12%
Bidirectional Long Short-term Memory (BiLSTM)
12%
Feature Extraction Tool
12%
VGG-Face
12%
Feature Identification
12%
Enhanced Deep Neural Network
12%
Binary Class
12%
Automatic Pain Detection
12%
Artificial Intelligence Tools
12%
AutoML
12%
Multi-classification
12%
Face Pain
12%
Computer Science
Algorithm Development
100%
Facial Expression Image
100%
Deep Learning Method
100%
Convolutional Neural Network
100%
Bidirectional Long Short-Term Memory Network
100%
Classification Models
75%
facial image
50%
Facial Expression
50%
Deep Neural Network
50%
Performance Evaluation
25%
Artificial Intelligence
25%
Feature Extraction
25%
Machine Learning Algorithm
25%
Expert System
25%
Principal Component
25%
Component Analysis
25%
Computational Efficiency
25%
Machine Learning Technique
25%
Medical Condition
25%
Management Area
25%
Classification Algorithm
25%
Threshold Level
25%
Archive Database
25%
Intensity Level
25%
Automated Machine Learning
25%
Engineering
Facial Expression
100%
Deep Learning Method
100%
Joints (Structural Components)
66%
Convolutional Neural Network
66%
Model Input
33%
Deep Neural Network
33%
Artificial Intelligence
16%
Feature Extraction
16%
Computational Efficiency
16%
Face Image
16%
Principal Component
16%
Component Analysis
16%
Machine Learning Algorithm
16%
Dimensionality
16%
Input Data
16%
Classification Algorithm
16%
Medical Condition
16%
Level Intensity
16%
Machine Learning Technique
16%
Coupled Model
16%
Patient's Health
16%
Intensity Analysis
16%
Chemical Engineering
Deep Learning Method
100%
Learning System
66%
Deep Neural Network
66%
Neural Network
33%
Artificial Intelligence
33%
Psychology
Facial Expression
100%
Learning Algorithm
100%
Neural Network
50%
Artificial Intelligence
16%
Principal Component Analysis
16%