Predicting Outdoor Sound
portes grátis
Predicting Outdoor Sound
Van Renterghem, Timothy; Attenborough, Keith
Taylor & Francis Ltd
09/2022
690
Mole
Inglês
9780367697181
15 a 20 dias
1280
Descrição não disponível.
1 Introduction
2 The propagation of sound near ground surfaces in a homogeneous medium
3 Predicting effects of source characteristics
4 Numerical methods based on time-domain approaches
5 Predicting the acoustical properties of ground surfaces
6 Measurements of the acoustical properties of ground surfaces and comparisons with models
7 Influence of source motion on ground effect and diffraction
8 Predicting effects of mixed impedance ground
9 Predicting the performance of outdoor noise barriers
10 Predicting effects of vegetation, trees and turbulence
11 Ray tracing, analytical and semi-empirical approximations for a-weighted levels
12 Engineering models
2 The propagation of sound near ground surfaces in a homogeneous medium
3 Predicting effects of source characteristics
4 Numerical methods based on time-domain approaches
5 Predicting the acoustical properties of ground surfaces
6 Measurements of the acoustical properties of ground surfaces and comparisons with models
7 Influence of source motion on ground effect and diffraction
8 Predicting effects of mixed impedance ground
9 Predicting the performance of outdoor noise barriers
10 Predicting effects of vegetation, trees and turbulence
11 Ray tracing, analytical and semi-empirical approximations for a-weighted levels
12 Engineering models
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
acoustical properties;analytical diffraction;harmonoise model;engineering models;meteorological effects;ground effect;source characteristics;homogeneous medium;outdoor sound prediction;mixed impedance ground;noise barrier performance;near ground surfaces;numerical methods;outdoor noise barriers;outdoor sound propagation;ray tracing;semi-empirical approximations;source motion;time-domain approaches;turbulence;vegetation;Excess Attenuation;Receiver Height;Sound Pressure Level;Flow Resistivity;Plane Wave Reflection Coefficient;Sound Speed Profile;Octave Band;Sound Field;Source Height;Insertion Loss;Total Sound Field;Monopole Source;Sound Propagation;Effective Sound Speed;Green's Function;Noise Barrier;Road Traffic Noise;Surface Impedance;Wave Reflection Coefficient;Surface Wave;Effective Admittance;Equivalent Sound Pressure Levels;Sound Speed
1 Introduction
2 The propagation of sound near ground surfaces in a homogeneous medium
3 Predicting effects of source characteristics
4 Numerical methods based on time-domain approaches
5 Predicting the acoustical properties of ground surfaces
6 Measurements of the acoustical properties of ground surfaces and comparisons with models
7 Influence of source motion on ground effect and diffraction
8 Predicting effects of mixed impedance ground
9 Predicting the performance of outdoor noise barriers
10 Predicting effects of vegetation, trees and turbulence
11 Ray tracing, analytical and semi-empirical approximations for a-weighted levels
12 Engineering models
2 The propagation of sound near ground surfaces in a homogeneous medium
3 Predicting effects of source characteristics
4 Numerical methods based on time-domain approaches
5 Predicting the acoustical properties of ground surfaces
6 Measurements of the acoustical properties of ground surfaces and comparisons with models
7 Influence of source motion on ground effect and diffraction
8 Predicting effects of mixed impedance ground
9 Predicting the performance of outdoor noise barriers
10 Predicting effects of vegetation, trees and turbulence
11 Ray tracing, analytical and semi-empirical approximations for a-weighted levels
12 Engineering models
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
acoustical properties;analytical diffraction;harmonoise model;engineering models;meteorological effects;ground effect;source characteristics;homogeneous medium;outdoor sound prediction;mixed impedance ground;noise barrier performance;near ground surfaces;numerical methods;outdoor noise barriers;outdoor sound propagation;ray tracing;semi-empirical approximations;source motion;time-domain approaches;turbulence;vegetation;Excess Attenuation;Receiver Height;Sound Pressure Level;Flow Resistivity;Plane Wave Reflection Coefficient;Sound Speed Profile;Octave Band;Sound Field;Source Height;Insertion Loss;Total Sound Field;Monopole Source;Sound Propagation;Effective Sound Speed;Green's Function;Noise Barrier;Road Traffic Noise;Surface Impedance;Wave Reflection Coefficient;Surface Wave;Effective Admittance;Equivalent Sound Pressure Levels;Sound Speed
