INIS
accuracy
63%
algorithms
46%
applications
86%
china
39%
classification
53%
comparative evaluations
21%
conferences
59%
constraints
12%
control
70%
cost
20%
data
27%
datasets
24%
depth
12%
design
15%
detection
43%
disturbances
17%
dynamics
19%
environment
24%
extraction
15%
feedback
27%
fingers
19%
fuzzy logic
12%
hands
100%
humans
54%
hybrids
12%
images
19%
information
32%
interactions
29%
learning
58%
manufacturing
11%
motion
74%
muscles
21%
neural networks
27%
nonlinear problems
12%
optimization
14%
output
13%
pattern recognition
13%
performance
41%
planning
20%
prediction
21%
proceedings
55%
prostheses
13%
randomness
18%
robots
89%
signals
57%
space
19%
surfaces
74%
trajectories
12%
vehicles
12%
volume
18%
Computer Science
Art Performance
12%
Attention (Machine Learning)
9%
autonomous mobile robot
9%
Case Study
7%
Classification Accuracy
13%
Classification Performance
7%
Classification Task
8%
Computational Cost
12%
Convolutional Neural Network
19%
Deep Learning Method
9%
Detection Accuracy
6%
Electromyography
37%
Experimental Result
7%
Expression Recognition
9%
Facial Expression
9%
Feature Extraction
20%
Feature Fusion
14%
Feature Selection
11%
Gaussian Mixture Model
14%
Gaussian Model
5%
Gesture Recognition
34%
hand gesture recognition
22%
Human Machine Interface
7%
Human Motions
6%
Human Robot Interaction
9%
Long Short-Term Memory Network
17%
Memetic Algorithm
6%
Neural Network
10%
Object Detection
15%
Parameter Estimation
5%
path-planning
9%
Pattern Recognition
16%
Performance Model
6%
Random Decision Forest
7%
Recognition Accuracy
22%
Recognition Result
7%
Recognition System
6%
Representation Learning
5%
Robot
23%
Temporal Information
6%
Tracking Object
9%
Traditional Method
6%
Training Data
7%
Trajectory Data
5%
Unmanned Aerial Vehicle
9%
Engineering
Classification Accuracy
10%
Classification Performance
6%
Cognitive Robotics
44%
Control Algorithm
7%
Convolutional Neural Network
14%
Deep Learning Method
9%
Design Development
8%
Electrical Activity
9%
Experimental Result
21%
External Disturbance
8%
Feature Extraction
13%
Feedback Control
5%
Human-Machine Interface
7%
Joints (Structural Components)
11%
Learning Approach
6%
Medical Robot
8%
Mobile Robot
13%
Motion Control
6%
Motor Function
6%
Optimal Control
12%
Output Feedback
9%
Past Decade
5%
Path Planning
9%
Pattern Recognition
8%
Predictive Control Model
9%
Prosthesis
24%
Prosthetics
5%
Prototype
7%
Random Forest
9%
Recognition Accuracy
24%
Robot
74%
Simulation Result
6%
Skin Surface
7%
Steel Plate
7%
Support Vector Machine
5%
Surface Defect
9%
Tactile Feedback
9%
