INIS
sensitivity analysis
100%
surfaces
100%
harvesting
100%
energy
100%
optimization
100%
wind
100%
data
100%
design
66%
datasets
66%
genetics
66%
ducts
66%
throat
66%
kriging
66%
aggregation
66%
amplification
33%
production
33%
high-rise buildings
33%
power
33%
turbines
33%
resolution
33%
testing
33%
diffusers
33%
simulation
33%
evaluation
33%
variations
33%
neural networks
33%
speed
33%
aerodynamics
33%
wind turbines
33%
genetic algorithms
33%
space
33%
accuracy
33%
nozzles
33%
investigations
33%
vectors
33%
wind power
33%
performance
33%
sampling
33%
Earth and Planetary Sciences
Windpower Utilization
100%
Harvesting
100%
Optimization
100%
Opening
100%
Sensitivity Analysis
100%
Building
100%
Genetics
66%
Kriging
66%
Data Set
66%
Duct
66%
Sample
66%
Throat
66%
Show
33%
Wind Power
33%
Response Surface Methodology
33%
Vector
33%
Aerodynamics
33%
Investigation
33%
Wind
33%
Genetic Algorithm
33%
Accuracy
33%
High-Rise Building
33%
Wind Turbine
33%
Variation
33%
Evaluation
33%
Charge Flow Device
33%
Energy Production
33%
Filling
33%
Training
33%
Turbine
33%
Data Sampling
33%
Wind Velocity
33%
Engineering
Optimization
100%
Sensitivity Analysis
100%
Energy Harvesting
100%
Buildings
100%
Wind Power
100%
Response Surface
66%
Duct
66%
Amplification Factor
33%
Evaluation
33%
Optimum Design
33%
Testing Dataset
33%
Genetic Algorithm
33%
Horizontal Axis Wind Turbine
33%
Computational Fluid Dynamics
33%
Dataset
33%
Computational Time
33%
Nozzle
33%
Rise Building
33%
Performance
33%
High Resolution
33%
Vector
33%
Design
33%
Network Support
33%
Turbine
33%
Diffusers
33%
Response Surface Methodology
33%
Annual Energy Production
33%
Accuracy
33%
Aerodynamics
33%
Material Science
Surface
100%
Nozzle
33%
Computational Fluid Dynamics
33%
Keyphrases
Genetic Aggregation
33%
Space-filling Design
16%
Vector Genetics
16%