The Harmonoise reference model has been developed in order to predict long-term average sound levels in road and railway situations that are geometrically relatively simple but physically complex. The present paper describes all steps of calculations with this powerful model which includes several advanced numerical propagation methods to calculate the coupled effects of atmosphere, ground surface and obstacles on sound waves. The reference model employs a statistical description of the atmosphere, based on local meteorological data, as well as various impedance models for ground surfaces and other absorbing surfaces. Validations against in situ long-term measurements have been achieved in several sites; agreement between reference model an...
Noise impact of road and railway infrastructures are more and more severely regulated by national la...
In this paper, complex outdoor sound propagation is investigated, involving uneven topography, obsta...
The weather conditions can have an enormous effect on sound propagation outdoors. The environmental ...
The Harmonoise reference model has been developed in order to predict long-term average sound levels...
Inter-noise 2004, 33rd International Congress and Exposition on Noise Control Engineering, PRAGUE, T...
The paper describes the determination of vertical profiles of the effective sound speed from meteoro...
The Harmonoise sound propagation model ('the Hannonoise engineering model') [1] was developed in the...
National guidelines for calculating noise propagation are still in use though progress was made to d...
Prediction of sound pressure levels at medium and large distances from road, railway and industrial ...
The Harmonoise model for predicting environmental noise is expected to provide a basis for the devel...
Abstract The atmospheric influence on sound propagation along the ground sur-face is a critical issu...
This paper deals with industrial, road or railway traffic noise propagation. A sensitivity study sup...
CFA/DAGA'04, STRASBOURG, FRANCE, 22-/03/2004 - 25/03/2004In complex environments the modelling ...
Deliberately changing terrain undulation and ground characteristics ("acoustical landscaping") is an...
The Harmonoise sound propagation model ('the Harmonoise engineering model') was developed in the Eur...
Noise impact of road and railway infrastructures are more and more severely regulated by national la...
In this paper, complex outdoor sound propagation is investigated, involving uneven topography, obsta...
The weather conditions can have an enormous effect on sound propagation outdoors. The environmental ...
The Harmonoise reference model has been developed in order to predict long-term average sound levels...
Inter-noise 2004, 33rd International Congress and Exposition on Noise Control Engineering, PRAGUE, T...
The paper describes the determination of vertical profiles of the effective sound speed from meteoro...
The Harmonoise sound propagation model ('the Hannonoise engineering model') [1] was developed in the...
National guidelines for calculating noise propagation are still in use though progress was made to d...
Prediction of sound pressure levels at medium and large distances from road, railway and industrial ...
The Harmonoise model for predicting environmental noise is expected to provide a basis for the devel...
Abstract The atmospheric influence on sound propagation along the ground sur-face is a critical issu...
This paper deals with industrial, road or railway traffic noise propagation. A sensitivity study sup...
CFA/DAGA'04, STRASBOURG, FRANCE, 22-/03/2004 - 25/03/2004In complex environments the modelling ...
Deliberately changing terrain undulation and ground characteristics ("acoustical landscaping") is an...
The Harmonoise sound propagation model ('the Harmonoise engineering model') was developed in the Eur...
Noise impact of road and railway infrastructures are more and more severely regulated by national la...
In this paper, complex outdoor sound propagation is investigated, involving uneven topography, obsta...
The weather conditions can have an enormous effect on sound propagation outdoors. The environmental ...