Engineering
Sound Field
100%
Least Square
59%
Boundary Layer
59%
Side Lobe
49%
Sound Propagation
45%
Regularization
45%
Transfer Function
37%
Phase Error
35%
Insertion Loss
31%
Subproblem
29%
Similarities
29%
Surface Layer
29%
Square Method
29%
Nicholson Hydrometer Oscillation
24%
Limitations
24%
Stability Condition
24%
Temperature Profile
20%
Singular Vector
19%
Strong Inversion
19%
Active Set
19%
Radiation Pattern
15%
Computer Simulation
15%
Crank Angle
14%
Model Data
14%
Hybrid Approach
14%
Propagation Path
11%
Pressure Field
9%
Energy Engineering
9%
Noise Source
9%
Performed Measurement
9%
Phase Difference
9%
Practical Aspect
9%
Nonlinearity
9%
Nonlinear Behavior
9%
Transducer
9%
Railroad Traffic
9%
Subwoofer
9%
Regularization Parameter
9%
Source Strength
9%
Posed Problem
9%
Stopping Criterion
9%
Computational Cost
9%
Sound Pressure Level
9%
Modeling Error
5%
Propagation Condition
5%
Direct Connection
5%
State-of-the-Art Method
5%
Atmospheric Absorption
5%
Control Systems
5%
Frequency Noise
5%
Keyphrases
Temperature Profile
59%
Wind Profile
59%
Neutral Boundary Layer
29%
Atmospheric Boundary Layer
29%
Wind Speed
29%
Sound Propagation
29%
Acoustic Pressure Field
29%
Sound Field
29%
Inversion Depth
29%
Live music
29%
Monin-Obukhov Similarity Theory
29%
Atmospheric Surface Layer
29%
Noise Emission
22%
Parabolic Equation
22%
Logarithmic Profile
22%
Crank-Nicolson Method
22%
Outdoor Sound Propagation
14%
Wide-angle
14%
Stability Condition
14%
Reliability Prediction
14%
Uneven Terrain
14%
Terrain Properties
14%
Live Events
14%
Active Noise Control
14%
Medium Parameters
14%
Source Type
14%
Micrometeorology
14%
Active Noise Control System
9%
Media Properties
7%
Ground Source
7%
Neutral Condition
7%
Left Singular Vector
7%
Sound Field Control
7%
Acoustic Modeling
7%
Railroad
7%
Near-ground
7%
First Section
7%
Wind Farm
7%
Model Errors
7%
Boundary Layer Profile
7%
Heat Flux
7%
Phase Error
7%
Phase Information
7%
Physics
Sound Field
76%
Active Noise Control
74%
Boundary Layer
59%
Temperature Profile
54%
Transfer Function
44%
Sound Propagation
39%
Least Squares Method
29%
Surface Layers
29%
Atmospherics
29%
Pressure Distribution
29%
Noise Reduction
29%
Wind Velocity
29%
Micrometeorology
24%
Inhomogeneous Media
19%
Phase Error
17%
Outdoor Propagation of Sound
14%
Transducer
14%
Mathematical Method
9%
Lower Atmosphere
9%
Atmospheric Attenuation
9%
Sound Wave
9%
Wind Turbine
7%