Difference between revisions of "NETCONVERT"

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* [[Networks/Import/VISUM|VISUM]], including shapes and demands
 
* [[Networks/Import/VISUM|VISUM]], including shapes and demands
 
* [[Networks/Import/Vissim|Vissim]], including demands
 
* [[Networks/Import/Vissim|Vissim]], including demands
* [[Networks/Import/openDRIVE|openDRIVE]]
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* [[Networks/Import/OpenDRIVE|OpenDRIVE]]
 
* [[Networks/Import/MATsim|MATsim]]
 
* [[Networks/Import/MATsim|MATsim]]
 
* [[Networks/Import/SUMO Road Networks|SUMO]] (*.net.xml)
 
* [[Networks/Import/SUMO Road Networks|SUMO]] (*.net.xml)
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| valign="top" | {{Option|--opendrive-files {{DT_FILE}}}}
 
| valign="top" | {{Option|--opendrive-files {{DT_FILE}}}}
 
| valign="top" |  
 
| valign="top" |  
| valign="top" | Read openDrive-network from FILE
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| valign="top" | Read OpenDRIVE-network from FILE
 
|-
 
|-
 
| valign="top" | {{Option|--visum-file {{DT_FILE}}}}
 
| valign="top" | {{Option|--visum-file {{DT_FILE}}}}
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| valign="top" | {{Option|--opendrive-output {{DT_FILE}}}}
 
| valign="top" | {{Option|--opendrive-output {{DT_FILE}}}}
 
| valign="top" |  
 
| valign="top" |  
| valign="top" | The generated net will be written to FILE using openDRIVE format.
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| valign="top" | The generated net will be written to FILE using OpenDRIVE format.
 
|-
 
|-
 
| valign="top" | {{Option|--dlr-navteq-output {{DT_FILE}}}}
 
| valign="top" | {{Option|--dlr-navteq-output {{DT_FILE}}}}

Revision as of 06:58, 6 June 2013

From 30.000 feet

NETCONVERT imports digital road networks from different sources and generates road networks that can be used by other tools from the package.

Purpose: Road networks import and conversion
System: portable (Linux/Windows is tested); runs on command line
Input (mandatory): Definition of a road network
Output: A generated SUMO-road network; optionally also other outputs
Programming Language: c++

Usage Description

NETCONVERT is a command line application. It assumes at least one parameter - the combination of the name of the file type to import as parameter name and the name of the file to import as parameter value. So, for importing a network from OpenStreetMap one could simply write:

netconvert --osm my_osm_net.xml

and for importing a VISUM-network:

netconvert --visum my_visum_net.net

In both cases, as no output name is given, the SUMO network generated from the imported data is written into the file "net.net.xml". To write the network into a different file, use the option -o <OUTPUT_FILE>. If you want to save the imported VISUM-network into a file named "my_sumo_net.net.xml", write:

netconvert --visum my_visum_net.net -o my_sumo_net.net.xml

Many further parameter steer how the network is imported and how the resulting SUMO-network is generated.

Supported Formats

NETCONVERT is able to import road networks from the following formats:

Options

You may use a XML schema definition file for setting up a NETCONVERT configuration: netconvertConfiguration.xsd.

Configuration

All applications of the SUMO-suite handle configuration options the same way. These options are discussed at Basics/Using the Command Line Applications#Configuration Files.

Option Default Value Description
-c <FILE>
--configuration-file <FILE>
Loads the named config on startup
--save-configuration <FILE> Saves current configuration into FILE
--save-template <FILE> Saves a configuration template (empty) into FILE
--save-schema <FILE> Saves the configuration schema into FILE
--save-commented <BOOL> false Adds comments to saved template, configuration, or schema

Input

Option Default Value Description
-s <FILE>
--sumo-net-file <FILE>
Read SUMO-net from FILE
-n <FILE>
--node-files <FILE>
Read XML-node defs from FILE
-e <FILE>
--edge-files <FILE>
Read XML-edge defs from FILE
-x <FILE>
--connection-files <FILE>
Read XML-connection defs from FILE
-i <FILE>
--tllogic-files <FILE>
Read XML-traffic light defs from FILE
-t <FILE>
--type-files <FILE>
Read XML-type defs from FILE
--shapefile-prefix <FILE> Read shapefiles (ArcView, Tiger, ...) from files starting with 'FILE'
--dlr-navteq-prefix <FILE> Read converted Navteq GDF data (unsplitted Elmar-network) from path 'FILE'
--osm-files <FILE> Read OSM-network from path 'FILE(s)'
--opendrive-files <FILE> Read OpenDRIVE-network from FILE
--visum-file <FILE> Read VISUM-net from FILE
--vissim-file <FILE> Read VISSIM-net from FILE
--robocup-dir <FILE> Read RoboCup-net from DIR
--matsim-files <FILE> Read MATsim-net from FILE
--itsumo-files <FILE> Read ITSUMO-net from FILE

Output

Option Default Value Description
-o <FILE>
--output-file <FILE>
The generated net will be written to FILE
--plain-output-prefix <FILE> Prefix of files to write plain xml nodes, edges and connections to
--junctions.join-output <FILE> Writes information about joined junctions to FILE (can be loaded as additional node-file to reproduce joins
-M <FILE>
--map-output <FILE>
Writes joined edges information to FILE
--matsim-output <FILE> The generated net will be written to FILE using MATsim format.
--opendrive-output <FILE> The generated net will be written to FILE using OpenDRIVE format.
--dlr-navteq-output <FILE> The generated net will be written to dlr-navteq files with the given PREFIX.
--output.street-names <BOOL> false Street names will be included in the output (if available).
--output.original-names <BOOL> false Writes original names, if given, as parameter.
--street-sign-output <FILE> Writes street signs as POIs to FILE.

Projection

Option Default Value Description
--simple-projection <BOOL> false Uses a simple method for projection
--proj.scale <INT> 0 Number of places to shift decimal point to right in geo-coordinates
--proj.utm <BOOL> false Determine the UTM zone (for a universal transversal mercator projection based on the WGS84 ellipsoid)
--proj.dhdn <BOOL> false Determine the DHDN zone (for a transversal mercator projection based on the bessel ellipsoid)
--proj <STRING> ! Uses STR as proj.4 definition for projection
--proj.inverse <BOOL> false Inverses projection
--proj.plain-geo <BOOL> false Write geo coordinates in plain-xml

Tls Building

Option Default Value Description
--tls.discard-loaded <BOOL> false Does not instatiate traffic lights loaded from other formats than XML
--tls.set <STRING> Interprets STR as list of junctions to be controlled by TLS
--tls.unset <STRING> Interprets STR as list of junctions to be not controlled by TLS
--tls.guess <BOOL> false Turns on TLS guessing
--tls.taz-nodes <BOOL> false Sets district nodes as tls-controlled
--tls-guess.joining <BOOL> false Includes node clusters into guess
--tls.join <BOOL> false Tries to cluster tls-controlled nodes
--tls.green.time <INT> 31 Use INT as green phase duration
-D <FLOAT>
--tls.yellow.min-decel <FLOAT>
3 Defines smallest vehicle deceleration
--tls.yellow.patch-small <BOOL> false Given yellow times are patched even if being too short
--tls.yellow.time <INT> Set INT as fixed time for yellow phase durations
--tls.half-offset <STRING> TLSs in STR will be shifted by half-phase
--tls.quarter-offset <STRING> TLSs in STR will be shifted by quarter-phase

Ramp Guessing

Option Default Value Description
--ramps.guess <BOOL> false Enable ramp-guessing
--ramps.max-ramp-speed <FLOAT> -1 Treat edges with speed > FLOAT as no ramps
--ramps.min-highway-speed <FLOAT> 21.9444 Treat edges with speed < FLOAT as no highways
--ramps.ramp-length <FLOAT> 100 Use FLOAT as ramp-length
--ramps.set <STRING> Tries to handle the given edges as ramps
--ramps.no-split <BOOL> false Avoids edge splitting

Edge Removal

Option Default Value Description
--keep-edges.min-speed <FLOAT> Only keep edges with speed in meters/second > FLOAT
--remove-edges.explicit <STRING> Remove edges in STR
--keep-edges.explicit <STRING> Only keep edges in STR
--keep-edges.input-file <FILE> Only keep edges in FILE
--keep-edges.postload <BOOL> false Remove edges after joining
--keep-edges.in-boundary <STRING> Only keep edges which are located within the given boundary (given either as CARTESIAN corner coordinates <xmin,ymin,xmax,ymax> or as polygon <x0,y0,x1,y1,...>)
--keep-edges.by-vclass <STRING> Only keep edges which allow one of the vclasss in STR
--remove-edges.by-vclass <STRING> Remove edges which allow only vclasses from STR
--keep-edges.by-type <STRING> Only keep edges where type is in STR
--remove-edges.by-type <STRING> Remove edges where type is in STR
--remove-edges.isolated <BOOL> false Removes isolated edges

Unregulated Nodes

Option Default Value Description
--keep-nodes-unregulated <BOOL> false All nodes will be unregulated
--keep-nodes-unregulated.explicit <STRING> Do not regulate nodes in STR
--keep-nodes-unregulated.district-nodes <BOOL> false Do not regulate district nodes

Processing

Option Default Value Description
--ignore-errors <BOOL> false Continue on broken input
--ignore-errors.connections <BOOL> false Continue on invalid connections
--show-errors.connections-first-try <BOOL> false Show errors in connections at parsing
--lanes-from-capacity.norm <FLOAT> 1800 The factor for flow to no. lanes conversion.
--speed-in-kmh <BOOL> false vmax is parsed as given in km/h (some)
--plain.extend-edge-shape <BOOL> false If edge shapes do not end at the node positions, extend them
--matsim.keep-length <BOOL> false The edge lengths given in the MATSIM-file will be kept.
--matsim.lanes-from-capacity <BOOL> false The lane number will be computed from the capacity.
--shapefile.street-id <STRING> Read edge ids from column STR
--shapefile.from-id <STRING> Read from-node ids from column STR
--shapefile.to-id <STRING> Read to-node ids from column STR
--shapefile.type-id <STRING> Read type ids from column STR
--shapefile.use-defaults-on-failure <BOOL> false Uses edge type defaults on problems
--shapefile.all-bidirectional <BOOL> false Insert edges in both directions
--shapefile.guess-projection <BOOL> false Guess the proper projection
--vissim.join-distance <FLOAT> 5 Structure join offset
--vissim.default-speed <FLOAT> 50 Use FLOAT as default speed
--vissim.speed-norm <FLOAT> 1 Factor for edge velocity
--vissim.report-unset-speeds <BOOL> false Writes lanes without an explicit speed set.
--visum.use-type-priority <BOOL> false Uses priorities from types
--visum.use-type-laneno <BOOL> false Uses lane numbers from types
--visum.use-type-speed <BOOL> false Uses speeds from types
--visum.connector-speeds <FLOAT> 100 Sets connector speed
--visum.connectors-lane-number <INT> 3 Sets connector lane number
--visum.no-connectors <BOOL> false Excludes connectors
--visum.recompute-lane-number <BOOL> false Computes the number of lanes from the edges' capacities
--visum.verbose-warnings <BOOL> false Prints all warnings, some of which are due to VISUM misbehaviour
--osm.skip-duplicates-check <BOOL> false Skips the check for duplicate nodes and edges.
--no-internal-links <BOOL> false Omits internal links
--dismiss-vclasses <BOOL> false Removes vehicle class restrictions from imported edges.
--no-turnarounds <BOOL> false Disables building turnarounds
--no-turnarounds.tls <BOOL> false Disables building turnarounds at tls-controlled junctions
--no-left-connections <BOOL> false Disables building connections to left
--geometry.split <BOOL> false Splits edges across geometry nodes
-R <BOOL>
--geometry.remove <BOOL>
false Replace nodes which only define edge geometry by geometry points (joins edges)
--geometry.max-segment-length <FLOAT> 0 splits geometry to restrict segment length
--offset.disable-normalization <BOOL> false Turn off normalizing node positions
--offset.x <FLOAT> 0 Adds FLOAT to net x-positions
--offset.y <FLOAT> 0 Adds FLOAT to net y-positions
--flip-y-axis <BOOL> false Flips the y-coordinate along zero
--roundabouts.guess <BOOL> false Enable roundabout-guessing
--lefthand <BOOL> false Assumes left-hand traffic on the network
--junctions.join <BOOL> false Joins junctions that are close to each other (recommended for OSM import)
--junctions.join-dist <FLOAT> 10 Determines the maximal distance for joining junctions (defaults to 10)
--junctions.join-exclude <STRING> Interprets STR as list of junctions to exclude from joining
--speed.offset <FLOAT> 0 Modifies all edge speeds by adding FLOAT
--speed.factor <FLOAT> 1 Modifies all edge speeds by multiplying FLOAT
--tls.join-dist <FLOAT> 20 Determines the maximal distance for joining traffic lights (defaults to 20)

Building Defaults

Option Default Value Description
-L <INT>
--default.lanenumber <INT>
1 The default number of lanes in an edge
-S <FLOAT>
--default.speed <FLOAT>
13.9 The default speed on an edge (in m/s)
-P <INT>
--default.priority <INT>
-1 The default priority of an edge

Report

Option Default Value Description
-v <BOOL>
--verbose <BOOL>
false Switches to verbose output
-p <BOOL>
--print-options <BOOL>
false Prints option values before processing
-? <BOOL>
--help <BOOL>
false Prints this screen
-V <BOOL>
--version <BOOL>
false Prints the current version
-X <BOOL>
--xml-validation <BOOL>
false Enable schema validation of XML inputs
-W <BOOL>
--no-warnings <BOOL>
false Disables output of warnings
-l <FILE>
--log <FILE>
Writes all messages to FILE (implies verbose)
--message-log <FILE> Writes all non-error messages to FILE (implies verbose)
--error-log <FILE> Writes all warnings and errors to FILE

Random Number

Option Default Value Description
--random <BOOL> false Initialises the random number generator with the current system time
--seed <INT> 23423 Initialises the random number generator with the given value