Earth and Planetary Sciences
Noise Propagation
100%
Formulation
100%
Airborne Noise
100%
Environment
100%
Landscape
66%
Receiver
66%
Approach
66%
Wave Equation
33%
Acoustic Propagation
33%
Reflected Wave
33%
Difference
33%
Accuracy
33%
Wave
33%
Atmospheric Refraction
33%
Geometry
33%
Planetary Atmosphere
33%
Condition
33%
Model
33%
High Frequency
33%
Error
33%
Fold
33%
Reflection
33%
Wind Velocity
33%
INIS
prediction
100%
noise
100%
environment
100%
beams
100%
wind
50%
finite element method
33%
comparative evaluations
33%
acoustics
33%
solutions
33%
diffraction
16%
surfaces
16%
atmospheres
16%
refraction
16%
reduction
16%
efficiency
16%
geometry
16%
calculation methods
16%
reliability
16%
accuracy
16%
topology
16%
velocity
16%
errors
16%
reflection
16%
wave equations
16%
atmospherics
16%
Engineering
Gaussian Profile Beam
100%
Beam Tracing
100%
Empirical Formulation
75%
Finite Element Method
50%
Receivers
50%
Ray Path
25%
Velocity
25%
Convected Wave Equation
25%
Reflected Wave
25%
Computation Time
25%
Computational Efficiency
25%
Acoustics
25%
Frequency Noise
25%
Maximum Difference
25%
Propagation Model
25%
Reduction
25%