Available with Spatial Analyst license.
Available with 3D Analyst license.
Summary
Determines the raster surface locations visible to a set of observer features.
Illustration
Usage
Determining observer points is a computer-intensive process. The processing time is dependent on the resolution. For preliminary studies, you may want to use a coarser cell size to reduce the number of cells in the input. Use the full-resolution raster when the final results are ready to be generated.
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If the input raster contains undesirable noise caused by sampling errors, and you have the ArcGIS Spatial Analyst extension available, you can smooth the raster with a low-pass filter, such as the Mean option of Focal Statistics, before running this tool.
The visibility of each cell center is determined by comparing the altitude angle to the cell center with the altitude angle to the local horizon. The local horizon is computed by considering the intervening terrain between the point of observation and the current cell center. If the point lies above the local horizon, it is considered visible.
An optional above ground level (AGL) output raster is provided by the tool. Each cell on the AGL output raster records the minimum height that needs to be added to that cell to make it visible by at least one observer.
When the input observer features contain multiple observers, the output value is the minimum of the AGL values from all of the individual observers.
When the input raster needs to be resampled, the bilinear technique will be used. An example of when an input raster may be resampled is when the output coordinate system, extent, or cell size is different from that of the input.
Syntax
arcpy.3d.Viewshed(in_raster, in_observer_features, out_raster, {z_factor}, {curvature_correction}, {refractivity_coefficient}, {out_agl_raster})| Parameter | Explanation | Data Type |
in_raster | The input surface raster. | Raster Layer |
in_observer_features | The feature class that identifies the observer locations. The input can be point or polyline features. | Feature Layer |
out_raster | The output raster. The output will only record the number of times that each cell location in the input surface raster can be seen by the input observation points (or vertices for polylines). The observation frequency will be recorded in the VALUE item in the output raster's attribute table. | Raster Dataset |
z_factor (Optional) | The number of ground x,y units in one surface z-unit. The z-factor adjusts the units of measure for the z-units when they are different from the x,y units of the input surface. The z-values of the input surface are multiplied by the z-factor when calculating the final output surface. If the x,y units and z-units are in the same units of measure, the z-factor is 1. This is the default. If the x,y units and z-units are in different units of measure, the z-factor must be set to the appropriate factor or the results will be incorrect. For example, if the z-units are feet and the x,y units are meters, you would use a z-factor of 0.3048 to convert the z-units from feet to meters (1 foot = 0.3048 meter). | Double |
curvature_correction (Optional) | Allows correction for the earth's curvature.
| Boolean |
refractivity_coefficient (Optional) | The coefficient of the refraction of visible light in air. The default value is 0.13. | Double |
out_agl_raster (Optional) | The output above ground level (AGL) raster. The AGL result is a raster where each cell value is the minimum height that must be added to an otherwise nonvisible cell to make it visible by at least one observer. Cells that were already visible will have a value of 0 in this output raster. | Raster Dataset |
Code sample
This example determines the surface locations visible to a set of observers defined in a shapefile.
import arcpy
from arcpy import env
env.workspace = "C:/data"
arcpy.Viewshed_3d("elevation", "observers.shp", "C:/output/outvwshd01", 2,
"CURVED_EARTH", 0.15)This example determines the surface locations visible to a set of observers defined in a shapefile.
# Name: Viewshed_3d_Ex_02.py
# Description: Determines the raster surface locations visible to a set of
# observer features.
# Requirements: 3D Analyst Extension
# Import system modules
import arcpy
from arcpy import env
# Set environment settings
env.workspace = "C:/data"
# Set local variables
inRaster = "elevation"
inObserverFeatures = "observers.shp"
outViewshed = "C:/output/outvwshd02"
zFactor = 2
useEarthCurvature = "CURVED_EARTH"
refractivityCoefficient = 0.15
# Execute Viewshed
arcpy.Viewshed_3d(inRaster, inObserverFeatures, outViewshed, zFactor,
useEarthCurvature, refractivityCoefficient)Environments
Licensing information
- Basic: Requires 3D Analyst or Spatial Analyst
- Standard: Requires 3D Analyst or Spatial Analyst
- Advanced: Requires 3D Analyst or Spatial Analyst