Measurements of sound propagation over distances up to 1000 m were carried out with an impulse sound source offering reproducible, short time signals. Temperature and wind speed at several heights were monitored simultaneously; the meteorological data are used to determine the sound speed gradients according to the Monin-Obukhov similarity theory. The sound speed profile is compared to a corresponding prediction, gained through the measured travel time difference between direct and ground reflected pulse (which depends on the sound speed gradient). Positive sound speed gradients cause bending of the sound rays towards the ground yielding enhanced sound pressure levels. The measured meteorological effects on sound propagation are discussed a...
The effect of humidity on the velocity of sound waves is investigated (Eq. (5), Table I). The radius...
Prédire des niveaux sonores à grande distance n'est point aisé, tant la propagation acoustique en mi...
Urban sound propagation is influenced by meteorological conditions, causing refraction and scatterin...
The effective sound speed gradient is used to describe the meteorological conditions during sound me...
This paper describes a fundamental data base and data-variability guide for outdoor sound propagatio...
Reviewed here is the current state of knowledge with respect to each basic mechanism of sound propag...
Results of experimental measurements of sound propagating over the range from 16 to 250 m at frequen...
This paper reports on the findings of a field trial programme to investigate the effect of range-dep...
Previously used standardized calculation methods for sound propagation contain the influence of mete...
An acoustical method was investigated for obtaining meteorological soundings based on the refraction...
The propagation of sound in the atmosphere is influenced by meteorological conditions. During comput...
Noise is still an unsolved problem of our time and influences the public health and well-being. So s...
The propagation of sound waves at infrasonic frequencies (oscillation periods 1.0 - 1000 seconds) in...
The weather conditions can have an enormous effect on sound propagation outdoors. The environmental ...
Long range sound propagation is largely affected by the vertical wind and temperature gradients. In ...
The effect of humidity on the velocity of sound waves is investigated (Eq. (5), Table I). The radius...
Prédire des niveaux sonores à grande distance n'est point aisé, tant la propagation acoustique en mi...
Urban sound propagation is influenced by meteorological conditions, causing refraction and scatterin...
The effective sound speed gradient is used to describe the meteorological conditions during sound me...
This paper describes a fundamental data base and data-variability guide for outdoor sound propagatio...
Reviewed here is the current state of knowledge with respect to each basic mechanism of sound propag...
Results of experimental measurements of sound propagating over the range from 16 to 250 m at frequen...
This paper reports on the findings of a field trial programme to investigate the effect of range-dep...
Previously used standardized calculation methods for sound propagation contain the influence of mete...
An acoustical method was investigated for obtaining meteorological soundings based on the refraction...
The propagation of sound in the atmosphere is influenced by meteorological conditions. During comput...
Noise is still an unsolved problem of our time and influences the public health and well-being. So s...
The propagation of sound waves at infrasonic frequencies (oscillation periods 1.0 - 1000 seconds) in...
The weather conditions can have an enormous effect on sound propagation outdoors. The environmental ...
Long range sound propagation is largely affected by the vertical wind and temperature gradients. In ...
The effect of humidity on the velocity of sound waves is investigated (Eq. (5), Table I). The radius...
Prédire des niveaux sonores à grande distance n'est point aisé, tant la propagation acoustique en mi...
Urban sound propagation is influenced by meteorological conditions, causing refraction and scatterin...