Vector network analysis: Difference between revisions
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Vector directions are defined by the digitizing direction (a-->--b). Both directions are supported, network modules provide parameters to assign attribute columns to the forward and backward direction. | Vector directions are defined by the digitizing direction (a-->--b). Both directions are supported, network modules provide parameters to assign attribute columns to the forward and backward direction. | ||
* see the {{cmd|vectorintro | * see the {{cmd|vectorintro}} "vector map processing and network analysis" help page | ||
Revision as of 17:47, 14 January 2009
Vector network analysis
GRASS provides support for vector network analysis using the DGlib Directed Graph Library.
The following algorithms are implemented:
- Vector maintenance: v.net
- Shortest path: d.path and v.net.path
- Traveling salesman (round trip): v.net.salesman
- Allocation of sources (create subnetworks, e.g. police station zones): v.net.alloc
- Minimum Steiner trees (star-like connections, e.g. broadband cable connections): v.net.steiner
- Iso-distances (from centers): v.net.iso
Vector directions are defined by the digitizing direction (a-->--b). Both directions are supported, network modules provide parameters to assign attribute columns to the forward and backward direction.
- see the vectorintro "vector map processing and network analysis" help page
Shortest path routing
- see the v.net.path and d.path help pages
New ideas
- Vector network analysis ideas (please help to realize)
Screenshots
- more screenshots from the GRASS website
