A viewshed is an
area that is visible from a specific location. Viewshed analyses are a
common function of most GIS software. The analysis uses the
elevation value of each cell of the DEM to determine visibility to or from a
particular cell. The location of this particular cell varies depending on the
needs of the analysis. For example, a Viewshed analysis is commonly used to
locate communication towers or determining the view from a road. Viewsheds can
be calculated using an individual point such as a tower or multiple points such
as a line representing a road. When analyzing a line segment, each of the vertices along the line is calculated to
determine its visible area. The process can also be reversed. For example, when
locating a landfill,
the analysis can determine from where the landfill is
visible to keep it hidden from view.
Viewshed analysis process
A viewshed analysis can be performed using one of many GIS programs, such as GRASS GIS (r.los, r.viewshed), SAGA GIS (Visibility), TNT Mips, ArcMap, Maptitude, ERDAS IMAGINE. A viewshed is created from a DEM by using an algorithm that estimates the difference of elevation from one cell (the viewpoint cell) to the next (the target cell). To determine the visibility of a target cell, each cell between the viewpoint cell and target cell is examined for line of sight. Where cells of higher value are between the viewpoint and target cells the line of sight is blocked. If the line of sight is blocked then the target cell is determined to not be part of the viewshed. If it is not blocked than it is included in the viewshed (Kim et al., 2004).
The algorithm is also based on a given set of
variables. When performing a viewshed analysis, several variables can be used
to limit or adjust the calculation. For example, if the analysis is to
determine the location of a radio tower, the height of the tower could be added
to the elevation of that location (cell value). If no height is given, then the
viewshed analysis uses the cell value of the DEM in which the tower is located.
Another way to add the height of the tower is to
use an offset variable. Offset values can be added to a sending tower as well
as a receiving tower. The offset value is then added to the elevation value of
the cell to obtain the actual elevation of each tower.
The viewshed analysis can also have a limited
viewing angle. The viewing angle, or azimuth, of the
radio tower can be incorporated into the calculation by adding two values. The
first value is the lowest possible azimuth angle and
the second value is the highest possible azimuth angle.
The program will analyze the viewshed only within these given azimuth angles. A
vertical angle can be added as well. The values for vertical angle are from 90
degrees (looking straight up) to -90 degrees (looking straight down). This
variable would need to be added in cases where the radio tower emits a very
narrow vertical beam. The final variable used in the viewshed analysis is the
radius value. In the case of the radio tower, if the radio signal has a limited
range, let’s say 10 miles, then the radius variable can be set to limit the
viewshed analysis to a ten mile radius.
Viewshed analysis uses
Besides tower placement a viewshed analysis can be used for other applications. For example a viewshed analysis could estimate the impact of the addition of a large building. The viewshed analysis would show all the areas from which the building could be seen as well as any views that would be obscured from any particular location. Viewshed analyses are also used to locate fire observation stations in mountain areas (Lee and Stucky, 1998). This allows the stations to be placed so that the entire forest can be observed for possible fires.
A wonderful example of using a viewshed analysis
on a line segment is from the Wyoming State Office, Bureau of Land Management in which the
office used a viewshed analysis to determine the visibility from historical
trails across Wyoming.
Within the Rock Springs Field Office area there are five different viewsheds to
choose from. The example here is viewshed number one. The viewshed indicates
the land areas visible from the trails at four different levels from not
visible to visible, based on the number of times the area could be seen from
the trail. This is an indication of what the pioneers could see as they
traveled along the trails of the western frontier (Rock Springs Field Office).
A unique viewshed analysis
In another example the USGS used a viewshed analysis to assist NASA's MER project. When NASA needed to find appropriate landing spots for the Mars rovers, they turned to the USGS to map the best possible sites. Part of the analysis included a viewshed of the possible site selections. In this case the viewshed indicates the areas which may or may not be viewable by the Mars rovers from each landing site(MER Landing Site Viewshed Analysis).
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