Engineering
Two Dimensional
100%
Support Vector Machine
100%
Simulation Result
50%
Model Uncertainty
50%
Hydrodynamic Model
50%
Real World Application
50%
Nonlinear Regression
50%
Limitations
50%
Numerical Model
50%
Dimensional Model
50%
Data Preprocessing
50%
INIS
modeling
100%
vectors
100%
grids
100%
floods
100%
applications
25%
simulation
25%
approximations
12%
data
12%
resources
12%
losses
12%
water
12%
nonlinear problems
12%
computers
12%
depth
12%
performance
12%
velocity
12%
accuracy
12%
hydrodynamic model
12%
risk analysis
12%
Computer Science
Support Vector Regression
100%
Support Vector Machine
100%
World Application
50%
Dimensional Model
50%
Data Preprocessing
50%
Approximation (Algorithm)
50%
Risk Analysis
50%
Model Uncertainty
50%
Nonlinear Regression
50%
Mathematics
Support Vector Machine
100%
Regression Model
100%
Linear Regression
66%
Running Time
33%
Linear Regression Model
33%
Risk Analysis
33%
Dimensional Model
33%
Water Depth
33%
Nonlinear Regression
33%
Chemical Engineering
Support Vector Machine
100%