Earth and Planetary Sciences
Vision
100%
Image
100%
Knowledge
100%
Computer Vision
100%
Accuracy
100%
Utilization
100%
Approach
100%
Resources
75%
Efficiency
75%
Effort
50%
Annotation
50%
Learning
50%
Show
25%
Video Compression
25%
Assumption
25%
Position (Location)
25%
Memory
25%
Calculation
25%
Observation
25%
Blood
25%
Project
25%
Input
25%
Loss
25%
Training
25%
Camera
25%
Filtration
25%
Need
25%
Engineering
Application
100%
Accuracy
100%
Images
66%
Detection
66%
Tasks
66%
Estimator
33%
Noise Filtering
33%
Efficiency
33%
Vital Sign
33%
High Accuracy
33%
Input Image
33%
Deep Learning
33%
Data Memory
33%
Improving Efficiency
33%
Level Image
33%
Loss Function
33%
Spatial Structure
33%
Limited Resource
33%
Computational Efficiency
33%
Real World
33%
INIS
applications
100%
vision
100%
images
66%
accuracy
66%
efficiency
50%
resources
50%
data
50%
humans
50%
detection
33%
learning
33%
solutions
33%
hands
16%
compression
16%
levels
16%
screens
16%
noise
16%
calculation methods
16%
losses
16%
implementation
16%
neural networks
16%
physiology
16%
cost
16%
cameras
16%
eyes
16%
blood flow
16%
Computer Science
Application
100%
Machine Vision
100%
Accuracy
100%
Detection
50%
Annotation
50%
Complex Task
25%
Computation
25%
Real World
25%
Spatial Structure
25%
Deep Learning
25%
Computational Efficiency
25%
Filtering
25%
Spatial Extent
25%
Neural Network
25%
Data Memory
25%
Video Compression
25%
Human Observation
25%
Psychology
Humans
100%
Resources
100%
Computational
66%
Training
33%
Assumption
33%
Neural Network
33%
Attention
33%
Keyphrases
Face Analysis
100%
Handcrafted Methods
33%
Facial Anomalies
33%
Geometrical Relations
33%
Flow Physiology
33%
Facial Occlusion
33%
Compressor Noise
33%
Data Memory
33%
Eye Location
33%