Difference between revisions of "Noise Modelling using OpeNoise in QGIS"
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3) Check the "buildings" box and select "BakuDownTownBuildings". Under "Sources" click the roads check box and choose "Baku City Circut" |
3) Check the "buildings" box and select "BakuDownTownBuildings". Under "Sources" click the roads check box and choose "Baku City Circut" |
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4) Click the details button next to the Baku City Circut layer, in the top left select "NMPB(Power)". for data type check the "generic" box |
4) Click the details button next to the Baku City Circut layer, in the top left select "NMPB(Power)". for data type check the "generic" box |
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5) in the first dropdown window below generic select the Sound Power level - B(A)- as "Db" and click OK |
5) in the first dropdown window below generic select the Sound Power level - B(A)- as "Db" and click OK |
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6) select the Parameters tab, under research ray(m) choose 1000 |
6) select the Parameters tab, under research ray(m) choose 1000 |
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Revision as of 20:50, 18 December 2020
Contents
Introduction
Purpose
The objective of this tutorial is to help the user visualize the impact of sound and how it propagates from a location. The user will do this using the “opeNoise” Plugin in QGIS and create a noise map assessing the exposure to noise in a given area, due to the existence of different sources of noise. For this tutorial, the noise to be modelled is the impact of formula 1 race cars at Baku City Circuit, Azerbaijan.
Accessing opeNoise Plugin in QGIS
To complete this tutorial the user will need to install QGIS and the opeNoise plugin:
1) Install *QGIS 3.10 and open QGIS Desktop
2) when you open QGiS you are greeted by Recent QGIS news and Project templates. To begin click "New Empty Project"
2) Click "Plugins" on the ribbon at the top of the screen, then click "Manage/install plugins"
3) Search for opeNoise and click "Install Plugin". The user can then access opeNoise by clicking on the "Plugins" option on the ribbon.
Setting Coordinate Reference System(CRS)
Before importing the required shapefile into QGIS, you must set a project coordinate system for your project file. Due to the study area being near the Caspian Sea we can use the "Pulkovo 1942/ Caspian Sea Mercator" projection to ensure accuracy in our analysis.
To change the projection in QGIS: press ctrl+ shift + p and click CRS. In the search bar type "Pulkovo 1942/ Caspian Sea Mercator" and click apply at the bottom of the screen.
Data
All data used for this tutorial is open source and can be acquired at
the shapefiles needed are: Baku City Street Circut and Baku Downtown Building
Using opeNoise
Creating Reciever Points
1) To begin click on plugins from the ribbon and hover over opeNoise. when the menu appears click on "Create Reciever Points". In the box that appears make sure that the "Building layer(input polygon layer)" dropdown box has the "BakuDowntownBuildings" shapefile as selected. In the "receiver layer" click browse and name the new shapefile "receiverpoints".
- Click "Ok"- the program will run and new points will populate facades of all the building shapefiles.
Calculate Noise levels
- For this Tutorial, a decibel level of 143 was chosen in accordance with the available literature. This value is given to the whole track and does not account for slow areas(corners) of the track where the decibel level would be decreased due to braking.
1) Return to the opeNoise dropdown window and select " Calculate Noise levels"
2) click the input tab- under "receivers" the point layer we created early should be selected.
3) Check the "buildings" box and select "BakuDownTownBuildings". Under "Sources" click the roads check box and choose "Baku City Circut"
4) Click the details button next to the Baku City Circut layer, in the top left select "NMPB(Power)". for data type check the "generic" box
5) in the first dropdown window below generic select the Sound Power level - B(A)- as "Db" and click OK
6) select the Parameters tab, under research ray(m) choose 1000
according to weather on race day *link for "atmospheric Absorption" change temperature(C) to 20 and Relative Humdity(RH%) to 70
7) Go to the Calculate tab and click the calculate button this process may take between 1 and 2 hours depending on the users computing power