Hello everyone,
I have something like 10'000 locations on a Network. For all locations, I need now to get another location along the network with a specific individual pre-defined distance (I am working with ecological data and try to implement so called step-selection function on a species that moves on a network)
My shapefile looks like that:
Location (x/y) Distance
A 56
B 360
C 2350
D 24
Now, I think I can use the service area in Network Analyst to get the polygons or lines to get the new locations (lets say A1-Ax, which have a distance of 56 m from A, B1-Bx with a distance of 360m from B etc.). However, I am at a loss how I can automatically calculate the new locations: Can I set the parameter "Distance" somewhere so that for every location the individual distance will be taken? How do I do that? And what is the best approach to get the locations (is it easier to get it from the polygons or from lines? And how to retreive them from there?)
Thanks a lot!
Yes, it is possible to set an individual break value for each Facility in your Service Area. The Facilities sublayer has fields named Breaks_[name of impedance attribute on your network]. So if your impedance attribute was called Distance, there would be a field called "Breaks_Distance". If you enter in a value for a particular facility in Breaks_Distance, this will override the default break value you set in the Service Area layer properties. Any facility that has no value in Breaks_Distance just uses the default break value.
To see the above described in the ArcGIS documentation, check out this page: ArcGIS Help (10.2, 10.2.1, and 10.2.2). Scroll down to the table showing input and output fields under "Facility Properties".
Since it sounds like you have a field in your input data called Distance, you can just use field mapping when you Load Locations to map the values in your distance field to the Breaks_Distance field in the Facilities sublayer.
Some information about field mapping is included on this page in the ArcGIS documentation: ArcGIS Help (10.2, 10.2.1, and 10.2.2).