Noise map

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A noise map is a graphic representation of the sound level distribution existing in a given region, for a defined period.

Directive 2002/49/EC

Although some previous approaches had been made, the main international agreement, definitions, and basis for noise mapping were born in relation to the Environmental Noise Directive of the European Parliament and Council (Directive 2002/49/EC of 25 June 2002, commonly referred to as 'the END'), where we can find the following definitions:

' environmental noise’ shall mean unwanted or harmful outdoor sound created by human activities, including noise emitted by means of transport, road traffic, rail traffic, air traffic, and from sites of industrial activity.

' noise indicator’ shall mean a physical scale for the description of environmental noise, which has a relationship with a harmful effect;

-' strategic noise map’ shall mean a map designed for the global assessment of noise exposure in a given area due to different noise sources or for overall predictions for such an area;

EU Member States are required to produce strategic noise maps in their main cities, near the main transport infrastructures and near industrial sites. The main goals of the END are to make a diagnosis of noise pollution in Europe that can lead to action plans, and a noise management that can be implemented in terms of action plans and acoustical planning. The term 'strategic' is very important in this definition, because the management of environmental noise must be made for the long-term in a full area. Using a simile, we should not worry about the weather, but we must care about the global warming.

Production

The main noise indicators for noise mapping are long-term averaged sound levels, determined over all the correspondent periods of a year. All of these indicators may be defined in terms of A-weighted decibels (dBA, dB(A)). The result can be determined by computation or measurement methods. Computation methods are widely preferred, because of the large amount of yearly averaged locations required.^{[citation needed]}

Using either approach, a grid of receivers must be defined in order to measure or calculate noise levels. When results are obtained, using GIS tools, spatial interpolation must be applied in order to give a continuous graphical representation of sound levels. According to the END five dBA ranges are used for this contour (isoline) representation. The maps may be useful for planning stages, or for prior evaluation of action plans, determination of most polluted areas. With a strategic noise map, furthermore, an evaluation is possible to show the amount of people exposed within dBA ranges. Facade sound levels must be calculated or estimated from the previous map.

Simulation tools

There are several models for making noise maps. Some of them use empirical models (for instance, INM for airports noise mapping), but most of the models are based in the physics of propagation of sound outdoors (defined in ISO 9613). The use of these software packages is quite easy, and the accuracy of results is very high depending on the quality of input data to the models. Measurements are used very often for the validation of results.

For train and road traffic noise, the description of the sources is usually made in terms of easy to know parameters, such as speed, number of vehicles etc. The main challenge for the acoustic consultant is the creation of a good digital terrain model (DTM).

For industrial noise map production, the most important thing is the description of noise sources: sound power levels, directivity, working periods. Although some databases can be found, in many cases it is necessary to make measurements (ISO 3740) for describing the source. When these data are known, it will be necessary to simulate each of the sources using a combination of point, line or surface noise source. The creation of good acoustic models can be quite complicated, and only experienced consultants can front this difficult tasks.

Simulation tools are very useful specially at planning stages, where measurements are not possible. The consultant can evaluate the effectiveness of action plans, in order to take decisions.

Some of the software packages more used for noise mapping are:

• LimA ^[1]
• CadnA ^[2]
• Code_Tympan ^[3]
• dB Foresight ^[4]
• IMMI ^[5]
• Predictor ^[6]
• Olive Tree Lab Terrain^[7]
• SoundPlan ^[8]
• noise3D online ^[9]

References

1. ↑ http://www.bksv.com/Products/EnvironmentalNoiseManagement/NoiseManagementSolutions/NoisePredictionSoftware/7812Lima.aspx
2. ↑ http://www.datakustik.com/en/
3. ↑ http://www.code-tympan.org
4. ↑ https://sites.google.com/site/noiselevelprediction
5. ↑ http://www.woelfel.de/en/products/immi.html
6. ↑ http://www.softnoise.com/
7. ↑ http://www.otlterrain.com
8. ↑ http://www.soundplan.eu/
9. ↑ http://www.noise-calc.com

Cnossos-EU: common noise assessment methods for EU

Directive 2002/49/EC of the European Parliament and of the council, of 25 June 2002 relating to the assessment and management of environmental noise

ISO 1996.Acoustics—Description, measurement and assessment of environmental noise

Imagine project [1]

Noise Mapping - ScienceDirect [2]

ISO 9613.Acoustics—Attenuation of sound during propagation outdoors

European Commission – Noise policy [3]

Harmonoise project homepage [4]

The London Noise Map webpage [5]

Senat Department of Urban Environment - Berlin [6]

Centro de Acústica y evaluación no destructiva (UPM-CSIC) [7]

Urban Environment Information Gateway - Noise maps in Prague [8]

Official websites of the city of Prague [9]

Noise and Traffic information - Noise maps - Vienna [10]

Stockholm noise maps [11]

Municipality of Paris - noise [12]

UK Department for Environment, Food & Rural Affairs - Noise Mapping England website [13]

Gipsynoise project webpage [14]

Integrated noise model (airports noise)

FHWA Traffic Noise Model [15]

INM - Integrated noise model [16]

MAPSOUNDS [17]

NOISE3D ONLINE [18]