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Calculate raster statistics for polygons in a polygon feature class
Planned maintenance scheduled April 17/18, 2019 at 00:00UTC (8:00pm US/Eastern)
Announcing the arrival of Valued Associate #679: Cesar Manara
Unicorn Meta Zoo #1: Why another podcast?Calculate neighborhood statistics for polygons?How to calculate raster statistics for polygons?Calculating flood volume using LiDAR DEM and HEC-RAS floodplain polygon?Is there a zonal statistics tool to calculate median and mode raster values for each polygon?Select rasters from a folder that intersect the tiles of a polygon shapefileCalculate elevation change in point feature classWhat elevation are each of my slopes at?Calculate raster statistics per polygon in a polygon feature classInterpolate Coarse Raster ContoursCalculating area weighted average of attribute in one shapefile using a separate grid shapefile
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I have a DEM across my study area where symbology has been changed to show elevation changes in 100m intervals.
I have a polygon feature class where each polygon delineates a landslide.
My landslide polygons sit atop the DEM. Some of the polygons cross different elevations, e.g. part of the polygon is at 500-600m and the rest at 400-500m. I would like to calculate the proportion of the landslide polygon that lies in each bracket of the DEM. In the example: I would like to know what percentage of the polygon has elevation of 500-600m and what percentage has an elevation of 400-500m?
I read a previous question with a similar issue that mentioned using zonal statistics but I haven’t been able to work it out.
I am using ArcMap 10.3.1. I have the 3D Analyst and Spatial Analyst extensions.
arcgis-desktop arcgis-10.3 spatial-analyst interpolation statistics
asked Apr 8 at 12:02
Pack JarvisPack Jarvis
61
New contributor
Pack Jarvis is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
add a comment |
I have a DEM across my study area where symbology has been changed to show elevation changes in 100m intervals.
I have a polygon feature class where each polygon delineates a landslide.
My landslide polygons sit atop the DEM. Some of the polygons cross different elevations, e.g. part of the polygon is at 500-600m and the rest at 400-500m. I would like to calculate the proportion of the landslide polygon that lies in each bracket of the DEM. In the example: I would like to know what percentage of the polygon has elevation of 500-600m and what percentage has an elevation of 400-500m?
I read a previous question with a similar issue that mentioned using zonal statistics but I haven’t been able to work it out.
I am using ArcMap 10.3.1. I have the 3D Analyst and Spatial Analyst extensions.
arcgis-desktop arcgis-10.3 spatial-analyst interpolation statistics
asked Apr 8 at 12:02
Pack JarvisPack Jarvis
61
New contributor
Pack Jarvis is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
What have you tried exactly? Did any error occur with zonal statistics?
– kowalski
Apr 8 at 12:16
I have used Zonal stats and zonal stats as table but I haven't been able to get an output that tells me what I want
– Pack Jarvis
Apr 8 at 13:53
add a comment |
I have a DEM across my study area where symbology has been changed to show elevation changes in 100m intervals.
I have a polygon feature class where each polygon delineates a landslide.
My landslide polygons sit atop the DEM. Some of the polygons cross different elevations, e.g. part of the polygon is at 500-600m and the rest at 400-500m. I would like to calculate the proportion of the landslide polygon that lies in each bracket of the DEM. In the example: I would like to know what percentage of the polygon has elevation of 500-600m and what percentage has an elevation of 400-500m?
I read a previous question with a similar issue that mentioned using zonal statistics but I haven’t been able to work it out.
I am using ArcMap 10.3.1. I have the 3D Analyst and Spatial Analyst extensions.
arcgis-desktop arcgis-10.3 spatial-analyst interpolation statistics
asked Apr 8 at 12:02
Pack JarvisPack Jarvis
61
New contributor
Pack Jarvis is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
I have a DEM across my study area where symbology has been changed to show elevation changes in 100m intervals.
I have a polygon feature class where each polygon delineates a landslide.
My landslide polygons sit atop the DEM. Some of the polygons cross different elevations, e.g. part of the polygon is at 500-600m and the rest at 400-500m. I would like to calculate the proportion of the landslide polygon that lies in each bracket of the DEM. In the example: I would like to know what percentage of the polygon has elevation of 500-600m and what percentage has an elevation of 400-500m?
I read a previous question with a similar issue that mentioned using zonal statistics but I haven’t been able to work it out.
I am using ArcMap 10.3.1. I have the 3D Analyst and Spatial Analyst extensions.
arcgis-desktop arcgis-10.3 spatial-analyst interpolation statistics
arcgis-desktop arcgis-10.3 spatial-analyst interpolation statistics
asked Apr 8 at 12:02
Pack JarvisPack Jarvis
61
New contributor
Pack Jarvis is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
asked Apr 8 at 12:02
Pack JarvisPack Jarvis
61
New contributor
Pack Jarvis is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
asked Apr 8 at 12:02
Pack JarvisPack Jarvis
61
New contributor
Pack Jarvis is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
asked Apr 8 at 12:02
Pack JarvisPack Jarvis
61
asked Apr 8 at 12:02
Pack JarvisPack Jarvis
61
61
New contributor
Pack Jarvis is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
New contributor
Pack Jarvis is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
Pack Jarvis is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
What have you tried exactly? Did any error occur with zonal statistics?
– kowalski
Apr 8 at 12:16
I have used Zonal stats and zonal stats as table but I haven't been able to get an output that tells me what I want
– Pack Jarvis
Apr 8 at 13:53
add a comment |
What have you tried exactly? Did any error occur with zonal statistics?
– kowalski
Apr 8 at 12:16
I have used Zonal stats and zonal stats as table but I haven't been able to get an output that tells me what I want
– Pack Jarvis
Apr 8 at 13:53
What have you tried exactly? Did any error occur with zonal statistics?
– kowalski
Apr 8 at 12:16
What have you tried exactly? Did any error occur with zonal statistics?
– kowalski
Apr 8 at 12:16
I have used Zonal stats and zonal stats as table but I haven't been able to get an output that tells me what I want
– Pack Jarvis
Apr 8 at 13:53
I have used Zonal stats and zonal stats as table but I haven't been able to get an output that tells me what I want
– Pack Jarvis
Apr 8 at 13:53
add a comment |
2 Answers
2
active
oldest
votes
if you need the class proportions, you could use those steps:
1) reclassify your DEM into categories (using the reclassify tool)
2) use tabulate area to have the count of pixels of each category inside each polygon
Warning: in case of large area, the default size of the pixel in the analysis (there is an internal conversion of the feature class into raster) is usually to large for precise measurement. Make sure that you use a pixel size equal to the pixel size of your DEM.
answered Apr 8 at 14:46
radouxjuradouxju
41.3k144122
add a comment |
Not sure why Zonal statistics doesn't work for you (further clarification is desired), but this should also do the trick, given that your DEM is classified into discrete classes and is not extremely large:
- Use Raster to Polygon for your DEM, using the height class as Field.
- Use Intersect between the landslide polygon and the output from the 1st step
Now, you should have a new layer, with a field "FID_Landslide" or similar (supposing your initial landslide layer was named "Landslide"). Each feature of the new layer will have the attributes of the polygonized DEM features (and therefore the height class), as well as the "FID_Landslide". This corresponds to the Landslide layer's polygon in which the DEM polygon falls inside. Calculate the Area for the features of this new layer and move on to:
- Use Calculate Summary statistics using as input layer the output from the 2nd step. Statistics field will be the Area you calculated previously and Case Field will be "FID_Landslide". The output of this will give you the total area of EACH height class that corresponds to EACH Landslide Polygon. You can further use a join operation to incorporate the output table into your initial layers.
This is, essentially, the same as using Zonal Statistics, but for vector layers.
answered Apr 8 at 14:27
kowalskikowalski
125210
I'll give it a go thanks
– Pack Jarvis
Apr 8 at 15:56
add a comment |
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2 Answers
2
active
oldest
votes
2 Answers
2
active
oldest
votes
active
oldest
votes
active
oldest
votes
if you need the class proportions, you could use those steps:
1) reclassify your DEM into categories (using the reclassify tool)
2) use tabulate area to have the count of pixels of each category inside each polygon
Warning: in case of large area, the default size of the pixel in the analysis (there is an internal conversion of the feature class into raster) is usually to large for precise measurement. Make sure that you use a pixel size equal to the pixel size of your DEM.
answered Apr 8 at 14:46
radouxjuradouxju
41.3k144122
add a comment |
if you need the class proportions, you could use those steps:
1) reclassify your DEM into categories (using the reclassify tool)
2) use tabulate area to have the count of pixels of each category inside each polygon
Warning: in case of large area, the default size of the pixel in the analysis (there is an internal conversion of the feature class into raster) is usually to large for precise measurement. Make sure that you use a pixel size equal to the pixel size of your DEM.
answered Apr 8 at 14:46
radouxjuradouxju
41.3k144122
add a comment |
if you need the class proportions, you could use those steps:
1) reclassify your DEM into categories (using the reclassify tool)
2) use tabulate area to have the count of pixels of each category inside each polygon
Warning: in case of large area, the default size of the pixel in the analysis (there is an internal conversion of the feature class into raster) is usually to large for precise measurement. Make sure that you use a pixel size equal to the pixel size of your DEM.
answered Apr 8 at 14:46
radouxjuradouxju
41.3k144122
if you need the class proportions, you could use those steps:
1) reclassify your DEM into categories (using the reclassify tool)
2) use tabulate area to have the count of pixels of each category inside each polygon
Warning: in case of large area, the default size of the pixel in the analysis (there is an internal conversion of the feature class into raster) is usually to large for precise measurement. Make sure that you use a pixel size equal to the pixel size of your DEM.
answered Apr 8 at 14:46
radouxjuradouxju
41.3k144122
answered Apr 8 at 14:46
radouxjuradouxju
41.3k144122
answered Apr 8 at 14:46
radouxjuradouxju
41.3k144122
answered Apr 8 at 14:46
radouxjuradouxju
41.3k144122
41.3k144122
add a comment |
add a comment |
Not sure why Zonal statistics doesn't work for you (further clarification is desired), but this should also do the trick, given that your DEM is classified into discrete classes and is not extremely large:
- Use Raster to Polygon for your DEM, using the height class as Field.
- Use Intersect between the landslide polygon and the output from the 1st step
Now, you should have a new layer, with a field "FID_Landslide" or similar (supposing your initial landslide layer was named "Landslide"). Each feature of the new layer will have the attributes of the polygonized DEM features (and therefore the height class), as well as the "FID_Landslide". This corresponds to the Landslide layer's polygon in which the DEM polygon falls inside. Calculate the Area for the features of this new layer and move on to:
- Use Calculate Summary statistics using as input layer the output from the 2nd step. Statistics field will be the Area you calculated previously and Case Field will be "FID_Landslide". The output of this will give you the total area of EACH height class that corresponds to EACH Landslide Polygon. You can further use a join operation to incorporate the output table into your initial layers.
This is, essentially, the same as using Zonal Statistics, but for vector layers.
answered Apr 8 at 14:27
kowalskikowalski
125210
I'll give it a go thanks
– Pack Jarvis
Apr 8 at 15:56
add a comment |
Not sure why Zonal statistics doesn't work for you (further clarification is desired), but this should also do the trick, given that your DEM is classified into discrete classes and is not extremely large:
- Use Raster to Polygon for your DEM, using the height class as Field.
- Use Intersect between the landslide polygon and the output from the 1st step
Now, you should have a new layer, with a field "FID_Landslide" or similar (supposing your initial landslide layer was named "Landslide"). Each feature of the new layer will have the attributes of the polygonized DEM features (and therefore the height class), as well as the "FID_Landslide". This corresponds to the Landslide layer's polygon in which the DEM polygon falls inside. Calculate the Area for the features of this new layer and move on to:
- Use Calculate Summary statistics using as input layer the output from the 2nd step. Statistics field will be the Area you calculated previously and Case Field will be "FID_Landslide". The output of this will give you the total area of EACH height class that corresponds to EACH Landslide Polygon. You can further use a join operation to incorporate the output table into your initial layers.
This is, essentially, the same as using Zonal Statistics, but for vector layers.
answered Apr 8 at 14:27
kowalskikowalski
125210
I'll give it a go thanks
– Pack Jarvis
Apr 8 at 15:56
add a comment |
Not sure why Zonal statistics doesn't work for you (further clarification is desired), but this should also do the trick, given that your DEM is classified into discrete classes and is not extremely large:
- Use Raster to Polygon for your DEM, using the height class as Field.
- Use Intersect between the landslide polygon and the output from the 1st step
Now, you should have a new layer, with a field "FID_Landslide" or similar (supposing your initial landslide layer was named "Landslide"). Each feature of the new layer will have the attributes of the polygonized DEM features (and therefore the height class), as well as the "FID_Landslide". This corresponds to the Landslide layer's polygon in which the DEM polygon falls inside. Calculate the Area for the features of this new layer and move on to:
- Use Calculate Summary statistics using as input layer the output from the 2nd step. Statistics field will be the Area you calculated previously and Case Field will be "FID_Landslide". The output of this will give you the total area of EACH height class that corresponds to EACH Landslide Polygon. You can further use a join operation to incorporate the output table into your initial layers.
This is, essentially, the same as using Zonal Statistics, but for vector layers.
answered Apr 8 at 14:27
kowalskikowalski
125210
Not sure why Zonal statistics doesn't work for you (further clarification is desired), but this should also do the trick, given that your DEM is classified into discrete classes and is not extremely large:
- Use Raster to Polygon for your DEM, using the height class as Field.
- Use Intersect between the landslide polygon and the output from the 1st step
Now, you should have a new layer, with a field "FID_Landslide" or similar (supposing your initial landslide layer was named "Landslide"). Each feature of the new layer will have the attributes of the polygonized DEM features (and therefore the height class), as well as the "FID_Landslide". This corresponds to the Landslide layer's polygon in which the DEM polygon falls inside. Calculate the Area for the features of this new layer and move on to:
- Use Calculate Summary statistics using as input layer the output from the 2nd step. Statistics field will be the Area you calculated previously and Case Field will be "FID_Landslide". The output of this will give you the total area of EACH height class that corresponds to EACH Landslide Polygon. You can further use a join operation to incorporate the output table into your initial layers.
This is, essentially, the same as using Zonal Statistics, but for vector layers.
answered Apr 8 at 14:27
kowalskikowalski
125210
answered Apr 8 at 14:27
kowalskikowalski
125210
answered Apr 8 at 14:27
kowalskikowalski
125210
answered Apr 8 at 14:27
kowalskikowalski
125210
125210
I'll give it a go thanks
– Pack Jarvis
Apr 8 at 15:56
add a comment |
I'll give it a go thanks
– Pack Jarvis
Apr 8 at 15:56
I'll give it a go thanks
– Pack Jarvis
Apr 8 at 15:56
I'll give it a go thanks
– Pack Jarvis
Apr 8 at 15:56
add a comment |
Pack Jarvis is a new contributor. Be nice, and check out our Code of Conduct.
Pack Jarvis is a new contributor. Be nice, and check out our Code of Conduct.
Pack Jarvis is a new contributor. Be nice, and check out our Code of Conduct.
Pack Jarvis is a new contributor. Be nice, and check out our Code of Conduct.
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What have you tried exactly? Did any error occur with zonal statistics?
– kowalski
Apr 8 at 12:16
I have used Zonal stats and zonal stats as table but I haven't been able to get an output that tells me what I want
– Pack Jarvis
Apr 8 at 13:53