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= Shortest path routing and network analysis =
GRASS GIS provides support for vector network analysis using the [http://trac.osgeo.org/grass/browser/grass/trunk/lib/vector/dglib/ DGlib] Directed Graph Library.


* see the [http://grass.ibiblio.org/grass63/manuals/html63_user/vectorintro.html vector map processing and network analysis] help page
GRASS GIS 7 has [[WxGUI Vector Network Analysis Tool]] front-end, which supports some of the vector network analysis modules.
__TOC__
== Implemented algorithms ==


* see the [http://grass.ibiblio.org/grass63/manuals/html63_user/vector.html v.net.* module] and [http://grass.ibiblio.org/grass63/manuals/html63_user/d.path.html d.path] help pages
The following algorithms have been implemented:


* [http://grass.ibiblio.org/grass61/screenshots/network.php screenshots]
* Vector maintenance: {{cmd|v.net}}
* Shortest path: {{cmd|v.net.path}}
* Shortest path between all pairs of nodes {{cmd|v.net.allpairs}}
* Allocation of sources (create subnetworks, e.g. police station zones): {{cmd|v.net.alloc}}
* Iso-distances (from centers): {{cmd|v.net.iso}}
* Computes bridges and articulation points: {{cmd|v.net.bridge}}
* Computes degree, centrality, betweeness, closeness and eigenvector centrality measures: {{cmd|v.net.centrality}}
* Computes strongly and weakly connected components: {{cmd|v.net.components}}
* Computes vertex connectivity between two sets of nodes: {{cmd|v.net.connectivity}}
* Computes shortest distance via the network between the given sets of features: {{cmd|v.net.distance}}
* Computes the maximum flow between two sets of nodes: {{cmd|v.net.flow}}
* Computes minimum spanning tree: {{cmd|v.net.spanningtree}}
* Minimum Steiner trees (star-like connections, e.g. broadband cable connections): {{cmd|v.net.steiner}}
* Finds shortest path using timetables: {{cmd|v.net.timetable}}
* Traveling salesman (round trip): {{cmd|v.net.salesman}}
* Performs visibility graph construction: {{cmd|v.net.visibility}}


* [[tutorial]] ''[please add link]''
Vector directions (directed graph) are defined by the digitizing direction (a-->--b). You can navigate either omnidirectionally or differently in each directions as both directions are supported. Network modules provide parameters to assign attribute columns to the forward and backward direction. To see how a vector is directed, use the "display" parameter of  {{cmd|d.vect}} (set display=dir).
Use [[Turntable]] to assign costs to turns on the network.
 
* see the {{cmd|vectorintro|desc=vector map processing and network analysis}} help page
 
== Example: Shortest path routing ==
 
* see the {{cmd|v.net.path}} and {{cmd|d.path}} help pages
 
== Common parameters ==
 
* '''input''' - This is the name of input vector map or data source for direct OGR access.
 
* '''output''' - This is the name for output vector map.
 
* '''type''' - This parameter defines arc type, which can be line or boundary.
 
* '''alayer''' - This parameter is a number and defines the arc layer. Vector features can have category values in different layers. This number determines which layer to use. When used with direct OGR access this is the layer name.
 
* '''nlayer''' - This parameter is a number and defines the node layer. Vector features can have category values in different layers. This number determines which layer to use. When used with direct OGR access this is the layer name.
 
* '''afcolumn''' - This is name of the cost column for moving in forward direction or forward and backward directions together.
 
* '''abcolumn''' - This is name of the cost column for moving in backward direction.
 
* '''ncolumn''' - This is name of the cost column for moving through nodes.
 
If you are not familiar with layers concept in GRASS see [[Vector Database Management]].
 
== New ideas ==
 
* [[Vector network analysis ideas]] (please help to realize)
 
== Screenshots ==
 
=== GRASS GIS 7 screenshots ===
 
[[Image:Grass7_vector_network_tool_salesman.png|center|600px|thumb|Travelling salesman ({{cmd|v.net.salesman}})]]
 
[[Image:Grass7_vector_network_tool_alloc.png|center|600px|thumb|Subsets for nearest centers ({{cmd|v.net.alloc}})]]
 
[[Image:wxgui-vnet-alloc.png|center|600px|thumb|Subsets for nearest centers ({{cmd|v.net.alloc}})]]
 
See also
* [[WxGUI Vector Network Analysis Tool]]
* more screenshots [https://grass.osgeo.org/screenshots/vector/ from the GRASS website]
 
=== Old GRASS 5 screenshots ===
 
<center>
{|
| [[Image:V.net.iso.png|center|400px|thumb|{{cmd|v.net.iso}} - Split net to bands between cost isolines (direction from centre). Costs of centre node are used in calculation.]]
|[[Image:V.net.alloc.png|center|400px|thumb|{{cmd|v.net.alloc}} - Allocates subnets for nearest centres (direction from centre). Costs of centre node are used in calculation.]]
|-
|[[Image:D.path.jpg|center|400px|thumb|{{cmd|d.path}} - Find shortest path for selected starting and ending node.]]
|&nbsp;
|}
</center>
 
== See also ==
 
* [[Turntable]]
* [[GSoC Network Analysis]]: many new modules!
 
== Tutorials ==
 
* [http://www.ing.unitn.it/~grass/docs/tutorial_64_en/htdocs/esercitazione/network_analysis/index.html Network analysis tutorial] by University of Trento, Italy
 
== External links ==
 
* [http://www.ossgis.co.cc/2009/01/grass-gis-network-analysis-subnets.html GRASS GIS: Network Analysis (Subnets within a vector network)]
 
[[Category:Documentation]]
[[Category:FAQ]]
[[Category:Vector]]
[[Category:Network Analysis]]

Latest revision as of 12:21, 28 February 2019

GRASS GIS provides support for vector network analysis using the DGlib Directed Graph Library.

GRASS GIS 7 has WxGUI Vector Network Analysis Tool front-end, which supports some of the vector network analysis modules.

Implemented algorithms

The following algorithms have been implemented:

Vector directions (directed graph) are defined by the digitizing direction (a-->--b). You can navigate either omnidirectionally or differently in each directions as both directions are supported. Network modules provide parameters to assign attribute columns to the forward and backward direction. To see how a vector is directed, use the "display" parameter of d.vect (set display=dir). Use Turntable to assign costs to turns on the network.

Example: Shortest path routing

Common parameters

  • input - This is the name of input vector map or data source for direct OGR access.
  • output - This is the name for output vector map.
  • type - This parameter defines arc type, which can be line or boundary.
  • alayer - This parameter is a number and defines the arc layer. Vector features can have category values in different layers. This number determines which layer to use. When used with direct OGR access this is the layer name.
  • nlayer - This parameter is a number and defines the node layer. Vector features can have category values in different layers. This number determines which layer to use. When used with direct OGR access this is the layer name.
  • afcolumn - This is name of the cost column for moving in forward direction or forward and backward directions together.
  • abcolumn - This is name of the cost column for moving in backward direction.
  • ncolumn - This is name of the cost column for moving through nodes.

If you are not familiar with layers concept in GRASS see Vector Database Management.

New ideas

Screenshots

GRASS GIS 7 screenshots

Travelling salesman (v.net.salesman)
Subsets for nearest centers (v.net.alloc)
Subsets for nearest centers (v.net.alloc)

See also

Old GRASS 5 screenshots

v.net.iso - Split net to bands between cost isolines (direction from centre). Costs of centre node are used in calculation.
v.net.alloc - Allocates subnets for nearest centres (direction from centre). Costs of centre node are used in calculation.
d.path - Find shortest path for selected starting and ending node.
 

See also

Tutorials

External links