6.2. Lesson: ベクター分析¶
Vector data can also be analyzed to reveal how different features interact with each other in space. There are many different analysis-related functions, so we won't go through them all. Rather, we will pose a question and try to solve it using the tools that QGIS provides.
Before we start, it would be useful to give a brief overview of a process that can be used to solve a problem. The way to go about it is:
6.2.2. The Problem¶
解決する問題を決定することから手順を開始しましょう。たとえば、不動産業者が以下の基準を持っている顧客のために Swellendam にある居住用の不動産を探しています：
It needs to be in Swellendam
It must be within reasonable driving distance of a school (say 1km)
It must be more than 100m squared in size
Closer than 50m to a main road
Closer than 500m to a restaurant
6.2.3. The Data¶
To answer these questions, we are going to need the following data:
The residential properties (buildings) in the area
The roads in and around the town
The location of schools and restaurants
The size of buildings
These data are available through OSM, and you should find that the dataset you have been using throughout this manual also can be used for this lesson.
If you want to download data from another area, jump to the Introduction Chapter to read how to do it.
6.2.4. Follow Along: Start a Project and get the Data¶
We first need to load the data to work with.
Start a new QGIS project
If you want, you can add a background map. Open the Browser and load the OSM background map from the XYZ Tiles menu.
training_data.gpkgGeopackage database, you will find most the datasets we will use in this chapter:
Load them, and also
Zoom to the layer extent to see Swellendam, South Africa
Before proceeding we will filter the roads layer, in order to have only some specific road types to work with.
Some roads in OSM datasets are listed as
footway. We want to exclude these from our dataset and focus on the other road types, more suitable for this exercise.
Moreover, OSM data might not be updated everywhere, and we will also exclude
Right click on the
roadslayer and choose Filter....
In the dialog that pops up we filter these features with the following expression:
"highway" NOT IN ('footway', 'path', 'unclassified', 'track') AND "highway" != NULL
The concatenation of the two operators
INexcludes all the features that have these attribute values in the
!= NULLcombined with the
ANDoperator excludes roads with no value in the
The map with all the data should look like the following one:
6.2.5. Try Yourself レイヤーCRSの変換¶
Because we are going to be measuring distances within our layers, we need to change the layers' CRS. To do this, we need to select each layer in turn, save the layer to a new one with our new projection, then import that new layer into our map.
You have many different options, e.g. you can export each layer as an
ESRI Shapefile format dataset, you can append the layers to an
existing GeoPackage file, or you can create another GeoPackage file
and fill it with the new reprojected layers.
We will show the last option, so the
Feel free to choose the best workflow for yourself.
In this example, we are using the WGS 84 / UTM zone 34S CRS, but you should use a UTM CRS which is more appropriate for your region.
Right click the roads layer in the Layers panel
Click Export --> Save Features As...
In the Save Vector Layer As dialog choose GeoPackage as Format
Click on ... for the File name, and name the new GeoPackage
Change the Layer name to
Change the CRS to WGS 84 / UTM zone 34S
Click on OK:
This will create the new GeoPackage database and add the
Repeat this process for each layer, creating a new layer in the
vector_analysis.gpkgGeoPackage file with
_34Sappended to the original name and removing each of the old layers from the project.
When you choose to save a layer to an existing GeoPackage, QGIS will append that layer to the GeoPackage.
Once you have completed the process for all the layers, right click on any layer and click Zoom to layer extent to focus the map to the area of interest.
Now that we have converted OSM data to a UTM projection, we can begin our calculations.
6.2.6. Follow Along: 問題の分析:学校と道路からの距離¶
QGIS allows you to calculate distances between any vector object.
Make sure that only the
buildings_34Slayers are visible (to simplify the map while you're working)
Click on theto open the analytical core of QGIS. Basically, all algorithms (for vector and raster analysis) are available in this toolbox.
We start by calculating the area around the
roads_34Sby using the Buffer algorithm. You can find it in the group.
Or you can type
bufferin the search menu in the upper part of the toolbox:
Double click on it to open the algorithm dialog
roads_34Sas Input layer, set Distance to 50 and use the default values for the rest of the parameters.
The default Distance is in meters because our input dataset is in a Projected Coordinate System that uses meter as its basic measurement unit. You can use the combo box to choose other projected units like kilometers, yards, etc.
If you are trying to make a buffer on a layer with a Geographical Coordinate System, Processing will warn you and suggest to reproject the layer to a metric Coordinate System.
By default, Processing creates temporary layers and adds them to the Layers panel. You can also append the result to the GeoPackage database by:
Clicking on the ... button and choose Save to GeoPackage...
Naming the new layer
Saving it in the
Click on Run, and then close the Buffer dialog
If your new layer is at the top of the Layers list, it will probably obscure much of your map, but this gives you all the areas in your region which are within 50m of a road.
Notice that there are distinct areas within your buffer, which correspond to each individual road. To get rid of this problem:
Uncheck the roads_buffer_50m layer and re-create the buffer with Dissolve results enabled.
Save the output as roads_buffer_50m_dissolved
Click Run and close the Buffer dialog
Once you have added the layer to the Layers panel, it will look like this:
The Short Help on the right side of the dialog explains how the algorithm works. If you need more information, just click on the Help button in the bottom part to open a more detailed guide of the algorithm.
6.2.7. Try Yourself 学校からの距離¶
It shall to be
1 km in radius.
Save the new layer in the
vector_analysis.gpkg file as
6.2.8. Follow Along: 重複エリア¶
Now we have identified areas where the road is less than 50 meters away and areas where there is a school within 1 km (direct line, not by road). But obviously, we only want the areas where both of these criteria are satisfied. To do that, we will need to use the Intersect tool. You can find it in group in the Processing Toolbox.
Use the two buffer layers as Input layer and Overlay layer, choose
vector_analysis.gpkgGeoPackage in Intersection with Layer name
road_school_buffers_intersect. Leave the rest as suggested (default).
In the image below, the blue areas are where both of the distance criteria are satisfied.
6.2.9. Follow Along: Extract the Buildings¶
Now you've got the area that the buildings must overlap. Next, you want to extract the buildings in that area.
Look for the menu entrywithin the Processing Toolbox
buildings_34Sin Extract features from. Check intersect in Where the features (geometric predicate), select the buffer intersection layer in By comparing to the features from. Save to the
vector_analysis.gpkg, and name the layer
Click Run and close the dialog
You will probably find that not much seems to have changed. If so, move the well_located_houses layer to the top of the layers list, then zoom in.
The red buildings are those which match our criteria, while the buildings in green are those which do not.
Now you have two separated layers and can remove
buildings_34Sfrom the layer list.
6.2.10. Try Yourself さらに建物をフィルタ¶
Using the processes described above, create a new layer called houses_restaurants_500m which further filters your well_located_houses layer to show only those which are within 500m of a restaurant.
6.2.11. Follow Along: 正しいサイズの建物の選択¶
To see which buildings are of the correct size (more than 100 square meters), we need to calculate their size.
Select Create a new field, set the Output field name to
AREA, choose Decimal number (real) as Output field type, and choose
$areafrom the group.
The new field
AREAwill contain the area of each building in square meters.
Click OK. The
AREAfield has been added at the end of the attribute table.
In the Provider Feature Filter totab of the layer properties, set the
"AREA >= 100.
Your map should now only show you those buildings which match our starting criteria and which are more than 100 square meters in size.
6.2.12. Try Yourself¶
Save your solution as a new layer, using the approach you learned
above for doing so.
The file should be saved within the same GeoPackage database, with
6.2.13. In Conclusion¶
Using the GIS problem solving approach together with QGIS vector analysis tools, you were able to solve a problem with multiple criteria quickly and easily.
6.2.14. What's Next?¶
In the next lesson, we will look at how to calculate the shortest distance along roads from one point to another.