Engineering
Welds
100%
Fatigue Life Prediction
49%
Laser Scanner
49%
Fatigue Life
41%
Joints (Structural Components)
32%
Mechanical Impact
31%
Laser Beam Welding
24%
Processing Element
24%
Automated System
24%
Offshore Foundation
24%
Detection Algorithm
24%
Computational Time
24%
Textile Material
24%
Discretization
24%
Limitations
24%
Environmental Impact
24%
Computer Aided Process Planning
24%
Focal Point
19%
Process Parameter
17%
Fatigue Performance
15%
Filtration
12%
Laser Beam
12%
Laser Wavelength
12%
Laser Surface
12%
Surface Quality
12%
Directional
12%
Oxidization
12%
Reflectance
12%
Surface Increase
12%
Region of Interest
9%
Redesign
8%
Burrs
8%
Hot Spot
8%
Nodes
8%
Pneumatics
8%
Strain Gage
8%
Ultrasonics
8%
Process Specification
8%
Nonlinear Optimization
7%
Image Processing
7%
Defects
7%
Manipulator
7%
Finite Element Method
7%
Computer Aided Design
7%
Keyphrases
Welded Component
49%
Digital Reconstruction
49%
Color Evaluation
24%
Waste Textiles
24%
Fatigue Life Prediction
24%
Final Element
24%
Galvanometric Laser Scanner
24%
Curved Geometry
24%
Quality Inspection System
24%
Weld Toe
24%
Laser Marking
24%
Galvanometric Scanner
24%
Computer-aided Process Planning
24%
Process Planning Systems
24%
High Frequency Mechanical Impact Treatment
22%
Weld Geometry
19%
Welded Parts
13%
3D Laser Scanner
12%
Pneumatic Impact Treatment
12%
Burr
12%
Material Sorting
10%
Line Scanner
9%
Crack Location
9%
Poisson Surface Reconstruction
9%
Quality Assurance
9%
Quality Documentation
9%
Weld Defects
9%
Post-weld Treatment
9%
Fatigue Life
9%
Fatigue Performance
9%
LED Illumination
8%
CMOS Camera
8%
In-process Monitoring
8%
Standard Hough Transform
8%
Weld Quality
8%
Welding Trajectory
8%
Optical Filters
8%
Visible Part
8%
Laser Optics
8%
Color Sorting
7%
Area Sampling
7%
Relative Pose
7%
Surface Quality
6%
Laser Surfacing
6%
Bidirectional Reflectance Model
6%