https://wiki.eclipse.org/api.php?action=feedcontributions&user=Christian.thoens.bfr.bund.de&feedformat=atomEclipsepedia - User contributions [en]2024-03-28T22:47:54ZUser contributionsMediaWiki 1.26.4https://wiki.eclipse.org/index.php?title=Importing_a_Pajek_Graph&diff=390591Importing a Pajek Graph2015-08-28T15:14:42Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div>==Multi-Population Pajek Graph Example==<br />
<br />
<br />
This page is about the new '''Pajek''' format which is used in STEM releases since version 1.4.0 and in current milestone and integration builds. The old format that was used prior to 1.4.0 is still supported. Examples and documentation of the old format are available at the website download page for [http://www.eclipse.org/stem/download_sample.php?file=MultiPopulationExample_PajekGraphs.zip Multi-Population Pajek Graph Example].<br />
<br />
== File Format ==<br />
<br />
STEM allows users to create a custom graph using a format similar to the '''Pajek''' ([http://vlado.fmf.uni-lj.si/pub/networks/pajek/]) format. The PajekNetGraphGenerator, which is available in the graph creation dialogue of STEM, can create user-defined graphs for STEM and is based on this format.<br />
The format specification is as follows. <br />
<br />
*Vertices [number of nodes]<br />
[node number] [node name] [longitude] [latitude] [additional optional parameters] // spec for a new node<br />
[node number] [node URI] // spec for reference to existing node<br />
...<br />
*Edges<br />
[origin node number] [destination node number] popID [populationID] rate [rate] // spec for migration edges<br />
[containing node number] [contained node number] // spec for containment edges<br />
...<br />
<br />
A spreadsheet document with macros for easily creating STEM-Pajek files can be downloaded [https://wiki.eclipse.org/images/b/bb/STEM_Pajek_Creator.zip here].<br />
<br />
== Node Format ==<br />
<br />
The keyword "*Vertices [number of nodes]" is the starting point for the nodes section. New nodes and references to existing nodes can be defined. The formats are as follows.<br />
<br />
=== New Node ===<br />
<br />
'''[node number] [node name] [longitude] [latitude] [optional parameters]:'''<br />
*node number – unique node number (1, 2, 3, ...). Successive numbering of nodes is obligatory. <br />
*node name – unique name consisting of letters a..zA..Z and digits 0..9.<br />
*longitude, latitude – coordinates of the node. All values can be entered, but real world coordinates are: -180 <= longitude <= 180, 0 <= latitude <= 90.<br />
<br />
'''Optional parameters:'''<br />
*popID – identifier of a population of the node. This parameter may be used repeatedly.<br />
*popCount – number of individuals living in the node. This parameter may be used repeatedly. The associated popID is the last mentioned one.<br />
<br />
'''Example:'''<br />
1 Berlin 13.398889 52.500556 popID men popCount 1682900000 popID women popcount 1753500000<br />
<br />
=== Node Reference ===<br />
'''[node number] [node URI]:'''<br />
*node number – unique node number (1, 2, 3, ...). Successive numbering of nodes is obligatory. <br />
*node URI – URI of the node in STEM. If the URI starts with ''stem://org.eclipse.stem/node/geo/region/'', this prefix can be omitted.<br />
<br />
'''Examples:'''<br />
1 stem://org.eclipse.stem/node/geo/region/FR-IF<br />
1 FR-IF<br />
<br />
== Edges Format ==<br />
<br />
The keyword "*Edges" is the starting point for the edges section. Two types of edges can be described; they are migration edges and containment edges. The formats are as follows.<br />
<br />
=== Migration Edges ===<br />
<br />
'''[origin node number] [destination node number] popID [populationID] rate [rate]:'''<br />
*origin node number – number of the node the population migrates from. Has to be defined as node number in *Vertices. <br />
*destination node number – number of the node the population migrates from. Has to be defined as node number in *Vertices.<br />
*populationID – defines the ID of the migrating population.<br />
*rate - number population members migrating per day.<br />
<br />
'''Optional parameters:'''<br />
*date - specification a of date at which the migration rate is different from the standard value specified in the obligatory parameters. ISO 8601 standard is used (YYYY-MM-DD). This parameter may be used repeatedly.<br />
*rate - migration rate for the specified date. This parameter may be used repeatedly. The associated date is the last mentioned one.<br />
<br />
'''Example:'''<br />
1 2 popID beef rate 1.0 date 2012-01-01 rate 10.0<br />
<br />
=== Containment Edges ===<br />
<br />
'''[containing node number] [contained node number]:'''<br />
*containing node number – number of the node that contains the other node. Has to be defined as node number in *Vertices. <br />
*contained node number – number of the node that is contained by the other node. Has to be defined as node number in *Vertices.<br />
<br />
'''Example:'''<br />
<br />
*Vertices 3<br />
1 Berlin 1 1 popID men popCount 100 popID women popCount 110<br />
2 Bonn 1.5 1 popID men popCount 100 popID women popCount 110<br />
3 Germany 1.2 1.2<br />
*Edges<br />
1 2 popID men rate 0.1<br />
2 1 popID women rate 0.2<br />
3 1<br />
3 2<br />
<br />
Running the downloadable pajek scenario the map view should appear as shown below.<br />
<br />
[[Image:STEM_PajekExample.png|600px]]<br />
<br />
<br />
<br />
== Using the dialog ==<br />
<br />
[[Image:STEM_PajekDialog.png|right|300px]]<br />
The dialog to import a Pajek graph from a file is shown on the right. It is available in the STEM Graph Dialog. The following parameters are available for importing.<br />
*Pajek File - The file from which the graph is imported. A file dialog is available to select the file.<br />
*Scaling Factor - A factor by which all coordinates specified in the file are scaled during import. If node has the coordinates 10.0/20.0 in the file and the scaling factor is 2.0, the node's resulting coordinates in STEM are 20.0/40.0.<br />
*Node Size - In STEM each imported node appears as a square for visualization. This parameter specifies the edge length of the squares for all imported nodes.<br />
*Use global Region Names - If selected, the URIs for the imported nodes will be of the type ''stem://org.eclipse.stem/node/geo/region/*****''. This has the advantage, that the nodes can be accessed by just using that last part of the URI ''*****''. This option should only be used if node names specified in the Pajek file are unique and do not occur in other STEM graphs. If not selected, the node URIs will contain the graph's URI.<br />
*Move Nodes to Containers - If selected, all nodes that are contained by another node from a different graph will be moved close to this container. That means that coordinates specified for these nodes in the Pajek file will be ignored.<br />
<br />
== Tutorial ==<br />
<br />
A tutorial on how to import a Pajek graph that contains discrete migration events for a STEM graph is available at [[STEM Import Discrete Transportation Events|Import Discrete Transportation Events]]. Discrete events can be used to model commodity flows, e.g. the transportation of beef from slaughterhouses to supermarkets in order to model the spread of a foodborne disease.<br />
<br />
== Contributors ==<br />
<br />
The PajekNetGraphGenerator was created and developed by the Department of Biological Safety of the Federal Institute for Risk Assessment in Germany.<br />
<br />
Armin A. Weiser, Matthias Filter, Christian Thöns<br />
Dept. Biological Safety <br />
Federal Institute for Risk Assessment<br />
12277 Berlin<br />
Germany</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=Importing_a_Pajek_Graph&diff=390590Importing a Pajek Graph2015-08-28T15:14:06Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div>==Multi-Population Pajek Graph Example==<br />
<br />
<br />
This page is about the new '''Pajek''' format which is used in STEM releases since version 1.4.0 and in current milestone and integration builds. The old format that was used prior to 1.4.0 is still supported. Examples and documentation of the old format are available at the website download page for [http://www.eclipse.org/stem/download_sample.php?file=MultiPopulationExample_PajekGraphs.zip Multi-Population Pajek Graph Example].<br />
<br />
== File Format ==<br />
<br />
STEM allows users to create a custom graph using a format similar to the '''Pajek''' ([http://vlado.fmf.uni-lj.si/pub/networks/pajek/]) format. The PajekNetGraphGenerator, which is available in the graph creation dialogue of STEM, can create user-defined graphs for STEM and is based on this format.<br />
The format specification is as follows. <br />
<br />
*Vertices [number of nodes]<br />
[node number] [node name] [longitude] [latitude] [additional optional parameters] // spec for a new node<br />
[node number] [node URI] // spec for reference to existing node<br />
...<br />
*Edges<br />
[origin node number] [destination node number] popID [populationID] rate [rate] // spec for migration edges<br />
[containing node number] [contained node number] // spec for containment edges<br />
...<br />
<br />
A spreadsheet document with macros for easily creating STEM-Pajek file can be downloaded [https://wiki.eclipse.org/images/b/bb/STEM_Pajek_Creator.zip here].<br />
== Node Format ==<br />
<br />
The keyword "*Vertices [number of nodes]" is the starting point for the nodes section. New nodes and references to existing nodes can be defined. The formats are as follows.<br />
<br />
=== New Node ===<br />
<br />
'''[node number] [node name] [longitude] [latitude] [optional parameters]:'''<br />
*node number – unique node number (1, 2, 3, ...). Successive numbering of nodes is obligatory. <br />
*node name – unique name consisting of letters a..zA..Z and digits 0..9.<br />
*longitude, latitude – coordinates of the node. All values can be entered, but real world coordinates are: -180 <= longitude <= 180, 0 <= latitude <= 90.<br />
<br />
'''Optional parameters:'''<br />
*popID – identifier of a population of the node. This parameter may be used repeatedly.<br />
*popCount – number of individuals living in the node. This parameter may be used repeatedly. The associated popID is the last mentioned one.<br />
<br />
'''Example:'''<br />
1 Berlin 13.398889 52.500556 popID men popCount 1682900000 popID women popcount 1753500000<br />
<br />
=== Node Reference ===<br />
'''[node number] [node URI]:'''<br />
*node number – unique node number (1, 2, 3, ...). Successive numbering of nodes is obligatory. <br />
*node URI – URI of the node in STEM. If the URI starts with ''stem://org.eclipse.stem/node/geo/region/'', this prefix can be omitted.<br />
<br />
'''Examples:'''<br />
1 stem://org.eclipse.stem/node/geo/region/FR-IF<br />
1 FR-IF<br />
<br />
== Edges Format ==<br />
<br />
The keyword "*Edges" is the starting point for the edges section. Two types of edges can be described; they are migration edges and containment edges. The formats are as follows.<br />
<br />
=== Migration Edges ===<br />
<br />
'''[origin node number] [destination node number] popID [populationID] rate [rate]:'''<br />
*origin node number – number of the node the population migrates from. Has to be defined as node number in *Vertices. <br />
*destination node number – number of the node the population migrates from. Has to be defined as node number in *Vertices.<br />
*populationID – defines the ID of the migrating population.<br />
*rate - number population members migrating per day.<br />
<br />
'''Optional parameters:'''<br />
*date - specification a of date at which the migration rate is different from the standard value specified in the obligatory parameters. ISO 8601 standard is used (YYYY-MM-DD). This parameter may be used repeatedly.<br />
*rate - migration rate for the specified date. This parameter may be used repeatedly. The associated date is the last mentioned one.<br />
<br />
'''Example:'''<br />
1 2 popID beef rate 1.0 date 2012-01-01 rate 10.0<br />
<br />
=== Containment Edges ===<br />
<br />
'''[containing node number] [contained node number]:'''<br />
*containing node number – number of the node that contains the other node. Has to be defined as node number in *Vertices. <br />
*contained node number – number of the node that is contained by the other node. Has to be defined as node number in *Vertices.<br />
<br />
'''Example:'''<br />
<br />
*Vertices 3<br />
1 Berlin 1 1 popID men popCount 100 popID women popCount 110<br />
2 Bonn 1.5 1 popID men popCount 100 popID women popCount 110<br />
3 Germany 1.2 1.2<br />
*Edges<br />
1 2 popID men rate 0.1<br />
2 1 popID women rate 0.2<br />
3 1<br />
3 2<br />
<br />
Running the downloadable pajek scenario the map view should appear as shown below.<br />
<br />
[[Image:STEM_PajekExample.png|600px]]<br />
<br />
<br />
<br />
== Using the dialog ==<br />
<br />
[[Image:STEM_PajekDialog.png|right|300px]]<br />
The dialog to import a Pajek graph from a file is shown on the right. It is available in the STEM Graph Dialog. The following parameters are available for importing.<br />
*Pajek File - The file from which the graph is imported. A file dialog is available to select the file.<br />
*Scaling Factor - A factor by which all coordinates specified in the file are scaled during import. If node has the coordinates 10.0/20.0 in the file and the scaling factor is 2.0, the node's resulting coordinates in STEM are 20.0/40.0.<br />
*Node Size - In STEM each imported node appears as a square for visualization. This parameter specifies the edge length of the squares for all imported nodes.<br />
*Use global Region Names - If selected, the URIs for the imported nodes will be of the type ''stem://org.eclipse.stem/node/geo/region/*****''. This has the advantage, that the nodes can be accessed by just using that last part of the URI ''*****''. This option should only be used if node names specified in the Pajek file are unique and do not occur in other STEM graphs. If not selected, the node URIs will contain the graph's URI.<br />
*Move Nodes to Containers - If selected, all nodes that are contained by another node from a different graph will be moved close to this container. That means that coordinates specified for these nodes in the Pajek file will be ignored.<br />
<br />
== Tutorial ==<br />
<br />
A tutorial on how to import a Pajek graph that contains discrete migration events for a STEM graph is available at [[STEM Import Discrete Transportation Events|Import Discrete Transportation Events]]. Discrete events can be used to model commodity flows, e.g. the transportation of beef from slaughterhouses to supermarkets in order to model the spread of a foodborne disease.<br />
<br />
== Contributors ==<br />
<br />
The PajekNetGraphGenerator was created and developed by the Department of Biological Safety of the Federal Institute for Risk Assessment in Germany.<br />
<br />
Armin A. Weiser, Matthias Filter, Christian Thöns<br />
Dept. Biological Safety <br />
Federal Institute for Risk Assessment<br />
12277 Berlin<br />
Germany</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:STEM_Pajek_Creator.zip&diff=390589File:STEM Pajek Creator.zip2015-08-28T15:08:46Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=Eclipse_DemoCamps_November_2013/Berlin&diff=351403Eclipse DemoCamps November 2013/Berlin2013-11-13T09:38:08Z<p>Christian.thoens.bfr.bund.de: /* Who Is Attending */</p>
<hr />
<div>[[Image:Eclipse DemoCamp New.jpg]] [[Eclipse DemoCamps Juno 2012|What is an Eclipse DemoCamp?]] <br />
<br />
=== Location ===<br />
<br />
[http://www.fokus.fraunhofer.de/de/fokus/index.html Fraunhofer FOKUS] <br>Kaiserin-Augusta-Allee 31, 10589 Berlin<br><br />
LatLong: 52.5259087, 13.3142924<br><br />
<br />
=== Date and Time ===<br />
<br />
December 2nd, 2013<br />
<br />
=== Organizer ===<br />
<br />
Lars Martin, [http://www.smb-tec.com SMB GmbH]<br> Tom Ritter, [http://www.fokus.fraunhofer.de Fraunhofer FOKUS] <br />
<br />
Tweet about the Eclipse DemoCamp: #eclipse #democamp #berlin<br />
<br />
----<br />
<br />
=== Sponsors ===<br />
<br />
This Eclipse DemoCamp will be sponsored by [http://www.smb-tec.com SMB GmbH], [http://www.fokus.fraunhofer.de Fraunhofer FOKUS] and the [http://www.eclipse.org Eclipse Foundation]. <br />
<br />
[[Image:smb.png]] &nbsp; &nbsp; &nbsp; [[Image:Fokus logo en.gif]] [[Image:Eclipse.png]]<br> <br />
<br />
*SMB has been an independent IT consulting firm since 1998. We are devoted to providing high-quality RCP and OSGi software development, consulting and training to mid-sized organizations. Additionally we develop independent products and tools based on the Eclipse Rich Client Platform.<br />
*The Fraunhofer Institute for Open Communication Systems FOKUS is researching and developing demand-orientated solutions for partners in industry, research and public administration. <br> <br />
*Eclipse Foundation is a not-for-profit, member supported corporation that hosts the open-source Eclipse Projects.<br />
<br />
If you or your company would like to sponsor the venue, please get in touch with [https://www.xing.com/profile/Lars_Martin2 Lars] or [https://www.xing.com/profile/Tom_Ritter4 Tom].<br />
<br />
<br />
----<br />
<br />
=== Agenda ===<br />
<br />
<br />
* Macus Engelhardt (Fraunhofer FOKUS): Traceino - The Traceability Framework<br />
* Jens von Pilgrim: Beyond the box: How we built a JavaScript IDE with Xtext.<br />
----<br />
<br />
=== Presenters ===<br />
<br />
If you would like to present at this event, please add your name below. Please send us your presentation/proposal via '''eclipseday@fokus.fraunhofer.de'''. Should we receive more submissions than we can fit into the schedule, we will select the ones that we think are most interesting to the audience.<br />
<br />
* Jens von Pilgrim: '''Beyond the box: How we built a JavaScript IDE with Xtext.''' - ''People who know Xtext and ECMAScript a little bit have no problem describing such a project with a single word: it's crazy. And in deed, it is challenging for a number of reasons. One of them is the ECMAScript grammar, which requires certain parser features which cannot be implemented with a pure Xtext grammar. Another is performance. While all the nice default Xtext solutions work great for smaller to midsize modeling projects, it is a different story to process, i.e. validate and compile, not only hundreds, but thousands of files. And when you think you're done, more surprises are awaiting you, such as Maven build system difficulties or rough edges coming with new technologies such as Xcore. In this talk I will sketch out our solutions and thereby demonstrate how to customize Xtext to achieve things which will not work out of the box. I will also compare our Xtext based solution, and Xtext as a framework, with the DLTK, as a predecessor solution of our IDE was based on the DLTK and serves now as an indicator.''<br />
<br />
----<br />
<br />
=== Details ===<br />
<br />
If you added your demo to the list above, please add a short abstract to this list so people know what you will be talking about:<br />
<br />
t.b.d.<br />
<br />
----<br />
<br />
=== Who Is Attending ===<br />
<br />
If you plan on attending please add your name and company to the list below. <br />
<br />
'''If you're not able to come, please withdraw your registration. <br>We reserve the right to charge 10 Euros administrative fee, if you don't show up without having cancelled beforehand. Thanks for understanding.'''<br> <br />
<br />
#[https://www.xing.com/profile/Lars_Martin2 Lars Martin], [http://www.smb-tec.com SMB GmbH] <br />
#[https://www.xing.com/profile/Tom_Ritter4 Tom Ritter], [http://www.fokus.fraunhofer.de/en/motion Fraunhofer FOKUS]<br />
# [http://www.linkedin.com/in/catmedia Werner Keil], [http://www.catmedia.us Creative Arts &amp; Technologies]<br />
# Frank Brenner, [http://www.fokus.fraunhofer.de/en/motion Fraunhofer FOKUS]<br />
# Filiz Ludewig, [http://www.fokus.fraunhofer.de/en/motion Fraunhofer FOKUS]<br />
# [http://www.xing.com/profile/Matthias_Koester Matthias Köster], [http://binaere-bauten.de binaere bauten gmbh]<br />
# Ralph Mueller, Eclipse Foundation<br />
# Jens von Pilgrim, [http://numberfour.eu NumberFour AG]<br />
# Stephan Druskat [http://linktype.iaa.uni-jena.de FSU Jena]<br />
# Akos Kitta [http://www.b2international.com B2i Healthcare]<br />
# Helko Glathe<br />
# Christian Thöns, Bundesinstitut für Risikobewertung</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=Importing_an_Esri_Shapefile&diff=338260Importing an Esri Shapefile2013-05-30T08:17:45Z<p>Christian.thoens.bfr.bund.de: /* Example 1 */</p>
<hr />
<div>== The Esri Shapefile Format ==<br />
<br />
The Esri shapefile is a popular format for geographic information systems (GIS). Shapefiles can describe polygons, polylines and points. For example, polygons can represent geographical regions like countries and states while polylines can represent roads, rivers and so on. Points are currently not used used in the Shapefile Graph Generator.<br />
<br />
A shapefile is a set of various files: three of these files are used by the Shapefile Graph Generator.<br />
<br />
* <tt>.shp</tt> &mdash; shape format; contains the shapes (polygons, polylines and points)<br />
* <tt>.prj</tt> &mdash; projection format; contains the coordinate system and projection information<br />
* <tt>.dbf</tt> &mdash; attribute format; contains attributes for each shape<br />
<br />
== Using the Shapefile Graph Generator ==<br />
<br />
The Shapefile Graph Generator can read polygons and polylines from shapefiles. Polygons are imported as geographical regions while polylines can be processed to create different kinds of edges. If a shapefile contains a road network, the polylines could be used to create Road Transportation Edges.<br />
<br />
The UI for importing shapefiles can be displayed by choosing the item '''Shapefile Graph Generator''' in the '''New Graph''' wizard. Click on '''Select Shape Files''' to select multiple shapefiles in a file dialog. For each of the shapefiles, you must specify if the file contains regions, roads or polylines with migration data. Also you need to specify a unique ID for each shape by selecting an ID column in the related combo box. The data of all columns can be displayed by clicking on '''Show Data'''. <br />
For region shapefiles additional parameters can be specified (optional). These parameters are the '''Region Area''', '''Area Unit''' (all areas are converted to km^2) and any number of populations (specified by '''Population Name''' and '''Population Size'''). <br />
If the shapefile contains roads or polylines with migration data, the following additional parameters must be specified: '''Road Class''' / '''Migration Population''', '''Migration Rate'''. To do so, either use the data from a table column or enter the value for the parameter in the text field. In the latter case, the same value is used for all shapes.<br />
<br />
== Example 1 ==<br />
<br />
The shapefile used in this example can be downloaded from [http://sg.geodatenzentrum.de/web_download/vg/vg250-ew_3112/utm32s/shape/vg250-ew_3112.utm32s.shape.ebenen.zip].<br />
First the file '''vg250_bld.shp''' is loaded by clicking '''Select Shapefiles'''.<br />
The type is set to '''Regions''', '''RS''' is used as Region ID, '''SHAPE_AREA''' as Region Area, '''m^2''' as Area Unit.<br />
Then '''Add Population''' is clicked, Population Name is set to '''human''' and '''EWZ''' is used as Population Size.<br />
<br />
[[Image:ShapefileImporterRegions1.png|400px]]<br />
<br />
Running the Shapefile Graph Generator as shown above, the result should look like this in the Graph Editor.<br />
<br />
[[Image:ShapefileImporterResult1.png|400px]]<br />
<br />
== Example 2 ==<br />
<br />
The shapefiles used in this example can be downloaded from [http://www.eurogeographics.org/sites/default/files/imported-files/documents/EGM_shape_sample.zip].<br />
The files '''PolbndA.shp''' and '''RailrdL.shp''' are loaded by clicking '''Select Shapefiles'''.<br />
First '''PolbndA.shp''' is selected, the type is set to '''Regions''' and '''gfid''' is used as Region ID. Then '''RailrdL.shp''' is selected, the type is set to '''Roads''', '''gfid''' is used as Road ID and the Road Class is set to '''Railroad'''.<br />
<br />
<gallery widths="500px" heights="500px"><br />
Image:ShapefileImporterRegions.png | Configure Region Shapefile<br />
Image:ShapefileImporterRoads.png | Configure Road Shapefile<br />
</gallery><br />
<br />
Running the Shapefile Graph Generator as shown above, the result should look like this in the Graph Editor.<br />
<br />
[[Image:ShapefileImporterResult.png|400px]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=Importing_an_Esri_Shapefile&diff=338073Importing an Esri Shapefile2013-05-29T09:28:46Z<p>Christian.thoens.bfr.bund.de: /* Example 1 */</p>
<hr />
<div>== The Esri Shapefile Format ==<br />
<br />
The Esri shapefile is a popular format for geographic information systems (GIS). Shapefiles can describe polygons, polylines and points. For example, polygons can represent geographical regions like countries and states while polylines can represent roads, rivers and so on. Points are currently not used used in the Shapefile Graph Generator.<br />
<br />
A shapefile is a set of various files: three of these files are used by the Shapefile Graph Generator.<br />
<br />
* <tt>.shp</tt> &mdash; shape format; contains the shapes (polygons, polylines and points)<br />
* <tt>.prj</tt> &mdash; projection format; contains the coordinate system and projection information<br />
* <tt>.dbf</tt> &mdash; attribute format; contains attributes for each shape<br />
<br />
== Using the Shapefile Graph Generator ==<br />
<br />
The Shapefile Graph Generator can read polygons and polylines from shapefiles. Polygons are imported as geographical regions while polylines can be processed to create different kinds of edges. If a shapefile contains a road network, the polylines could be used to create Road Transportation Edges.<br />
<br />
The UI for importing shapefiles can be displayed by choosing the item '''Shapefile Graph Generator''' in the '''New Graph''' wizard. Click on '''Select Shape Files''' to select multiple shapefiles in a file dialog. For each of the shapefiles, you must specify if the file contains regions, roads or polylines with migration data. Also you need to specify a unique ID for each shape by selecting an ID column in the related combo box. The data of all columns can be displayed by clicking on '''Show Data'''. <br />
For region shapefiles additional parameters can be specified (optional). These parameters are the '''Region Area''', '''Area Unit''' (all areas are converted to km^2) and any number of populations (specified by '''Population Name''' and '''Population Size'''). <br />
If the shapefile contains roads or polylines with migration data, the following additional parameters must be specified: '''Road Class''' / '''Migration Population''', '''Migration Rate'''. To do so, either use the data from a table column or enter the value for the parameter in the text field. In the latter case, the same value is used for all shapes.<br />
<br />
== Example 1 ==<br />
<br />
The shapefile used in this example can be downloaded from [http://sg.geodatenzentrum.de/web_download/vg/vg250-ew_3112/utm32s/shape/vg250-ew_3112.utm32s.shape.ebenen.zip].<br />
First the file '''vg250_bld.shp''' is loaded by clicking '''Select Shapefiles'''.<br />
The type is set to '''Regions''', '''RS''' is used as Region ID, '''SHAPE_AREA''' as Region Area, '''m^2''' as Area Unit.<br />
Then the '''Add Population''' is clicked, Population Name is set to '''human''' and '''EWZ''' is used as Population Size.<br />
<br />
[[Image:ShapefileImporterRegions1.png|400px]]<br />
<br />
Running the Shapefile Graph Generator as shown above, the result should look like this in the Graph Editor.<br />
<br />
[[Image:ShapefileImporterResult1.png|400px]]<br />
<br />
== Example 2 ==<br />
<br />
The shapefiles used in this example can be downloaded from [http://www.eurogeographics.org/sites/default/files/imported-files/documents/EGM_shape_sample.zip].<br />
The files '''PolbndA.shp''' and '''RailrdL.shp''' are loaded by clicking '''Select Shapefiles'''.<br />
First '''PolbndA.shp''' is selected, the type is set to '''Regions''' and '''gfid''' is used as Region ID. Then '''RailrdL.shp''' is selected, the type is set to '''Roads''', '''gfid''' is used as Road ID and the Road Class is set to '''Railroad'''.<br />
<br />
<gallery widths="500px" heights="500px"><br />
Image:ShapefileImporterRegions.png | Configure Region Shapefile<br />
Image:ShapefileImporterRoads.png | Configure Road Shapefile<br />
</gallery><br />
<br />
Running the Shapefile Graph Generator as shown above, the result should look like this in the Graph Editor.<br />
<br />
[[Image:ShapefileImporterResult.png|400px]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:ShapefileImporterResult1.png&diff=338072File:ShapefileImporterResult1.png2013-05-29T09:28:19Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:ShapefileImporterRegions1.png&diff=338070File:ShapefileImporterRegions1.png2013-05-29T09:27:49Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=Importing_an_Esri_Shapefile&diff=338069Importing an Esri Shapefile2013-05-29T09:25:12Z<p>Christian.thoens.bfr.bund.de: /* Example 1 */</p>
<hr />
<div>== The Esri Shapefile Format ==<br />
<br />
The Esri shapefile is a popular format for geographic information systems (GIS). Shapefiles can describe polygons, polylines and points. For example, polygons can represent geographical regions like countries and states while polylines can represent roads, rivers and so on. Points are currently not used used in the Shapefile Graph Generator.<br />
<br />
A shapefile is a set of various files: three of these files are used by the Shapefile Graph Generator.<br />
<br />
* <tt>.shp</tt> &mdash; shape format; contains the shapes (polygons, polylines and points)<br />
* <tt>.prj</tt> &mdash; projection format; contains the coordinate system and projection information<br />
* <tt>.dbf</tt> &mdash; attribute format; contains attributes for each shape<br />
<br />
== Using the Shapefile Graph Generator ==<br />
<br />
The Shapefile Graph Generator can read polygons and polylines from shapefiles. Polygons are imported as geographical regions while polylines can be processed to create different kinds of edges. If a shapefile contains a road network, the polylines could be used to create Road Transportation Edges.<br />
<br />
The UI for importing shapefiles can be displayed by choosing the item '''Shapefile Graph Generator''' in the '''New Graph''' wizard. Click on '''Select Shape Files''' to select multiple shapefiles in a file dialog. For each of the shapefiles, you must specify if the file contains regions, roads or polylines with migration data. Also you need to specify a unique ID for each shape by selecting an ID column in the related combo box. The data of all columns can be displayed by clicking on '''Show Data'''. <br />
For region shapefiles additional parameters can be specified (optional). These parameters are the '''Region Area''', '''Area Unit''' (all areas are converted to km^2) and any number of populations (specified by '''Population Name''' and '''Population Size'''). <br />
If the shapefile contains roads or polylines with migration data, the following additional parameters must be specified: '''Road Class''' / '''Migration Population''', '''Migration Rate'''. To do so, either use the data from a table column or enter the value for the parameter in the text field. In the latter case, the same value is used for all shapes.<br />
<br />
== Example 1 ==<br />
<br />
The shapefile used in this example can be downloaded from [http://sg.geodatenzentrum.de/web_download/vg/vg250-ew_3112/utm32s/shape/vg250-ew_3112.utm32s.shape.ebenen.zip].<br />
First the file '''vg250_bld.shp''' is loaded by clicking '''Select Shapefiles'''.<br />
The type is set to '''Regions''', '''RS''' is used as Region ID, '''SHAPE_AREA''' as Region Area, '''m^2''' as Area Unit.<br />
Then the '''Add Population''' is clicked, Population Name is set to '''human''' and '''EWZ''' is used as Population Size.<br />
<br />
[[Image:ShapefileImporterRegions.png|400px]]<br />
<br />
Running the Shapefile Graph Generator as shown above, the result should look like this in the Graph Editor.<br />
<br />
[[Image:ShapefileImporterResult.png|400px]]<br />
<br />
== Example 2 ==<br />
<br />
The shapefiles used in this example can be downloaded from [http://www.eurogeographics.org/sites/default/files/imported-files/documents/EGM_shape_sample.zip].<br />
The files '''PolbndA.shp''' and '''RailrdL.shp''' are loaded by clicking '''Select Shapefiles'''.<br />
First '''PolbndA.shp''' is selected, the type is set to '''Regions''' and '''gfid''' is used as Region ID. Then '''RailrdL.shp''' is selected, the type is set to '''Roads''', '''gfid''' is used as Road ID and the Road Class is set to '''Railroad'''.<br />
<br />
<gallery widths="500px" heights="500px"><br />
Image:ShapefileImporterRegions.png | Configure Region Shapefile<br />
Image:ShapefileImporterRoads.png | Configure Road Shapefile<br />
</gallery><br />
<br />
Running the Shapefile Graph Generator as shown above, the result should look like this in the Graph Editor.<br />
<br />
[[Image:ShapefileImporterResult.png|400px]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=Importing_an_Esri_Shapefile&diff=338068Importing an Esri Shapefile2013-05-29T09:15:07Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div>== The Esri Shapefile Format ==<br />
<br />
The Esri shapefile is a popular format for geographic information systems (GIS). Shapefiles can describe polygons, polylines and points. For example, polygons can represent geographical regions like countries and states while polylines can represent roads, rivers and so on. Points are currently not used used in the Shapefile Graph Generator.<br />
<br />
A shapefile is a set of various files: three of these files are used by the Shapefile Graph Generator.<br />
<br />
* <tt>.shp</tt> &mdash; shape format; contains the shapes (polygons, polylines and points)<br />
* <tt>.prj</tt> &mdash; projection format; contains the coordinate system and projection information<br />
* <tt>.dbf</tt> &mdash; attribute format; contains attributes for each shape<br />
<br />
== Using the Shapefile Graph Generator ==<br />
<br />
The Shapefile Graph Generator can read polygons and polylines from shapefiles. Polygons are imported as geographical regions while polylines can be processed to create different kinds of edges. If a shapefile contains a road network, the polylines could be used to create Road Transportation Edges.<br />
<br />
The UI for importing shapefiles can be displayed by choosing the item '''Shapefile Graph Generator''' in the '''New Graph''' wizard. Click on '''Select Shape Files''' to select multiple shapefiles in a file dialog. For each of the shapefiles, you must specify if the file contains regions, roads or polylines with migration data. Also you need to specify a unique ID for each shape by selecting an ID column in the related combo box. The data of all columns can be displayed by clicking on '''Show Data'''. <br />
For region shapefiles additional parameters can be specified (optional). These parameters are the '''Region Area''', '''Area Unit''' (all areas are converted to km^2) and any number of populations (specified by '''Population Name''' and '''Population Size'''). <br />
If the shapefile contains roads or polylines with migration data, the following additional parameters must be specified: '''Road Class''' / '''Migration Population''', '''Migration Rate'''. To do so, either use the data from a table column or enter the value for the parameter in the text field. In the latter case, the same value is used for all shapes.<br />
<br />
== Example 1 ==<br />
<br />
== Example 2 ==<br />
<br />
The shapefiles used in this example can be downloaded from [http://www.eurogeographics.org/sites/default/files/imported-files/documents/EGM_shape_sample.zip].<br />
The files '''PolbndA.shp''' and '''RailrdL.shp''' are loaded by clicking '''Select Shapefiles'''.<br />
First '''PolbndA.shp''' is selected, the type is set to '''Regions''' and '''gfid''' is used as Region ID. Then '''RailrdL.shp''' is selected, the type is set to '''Roads''', '''gfid''' is used as Road ID and the Road Class is set to '''Railroad'''.<br />
<br />
<gallery widths="500px" heights="500px"><br />
Image:ShapefileImporterRegions.png | Configure Region Shapefile<br />
Image:ShapefileImporterRoads.png | Configure Road Shapefile<br />
</gallery><br />
<br />
Running the Shapefile Graph Generator as shown above, the result should look like this in the Graph Editor.<br />
<br />
[[Image:ShapefileImporterResult.png|400px]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=Importing_an_Esri_Shapefile&diff=338067Importing an Esri Shapefile2013-05-29T09:14:46Z<p>Christian.thoens.bfr.bund.de: /* Example */</p>
<hr />
<div>== The Esri Shapefile Format ==<br />
<br />
The Esri shapefile is a popular format for geographic information systems (GIS). Shapefiles can describe polygons, polylines and points. For example, polygons can represent geographical regions like countries and states while polylines can represent roads, rivers and so on. Points are currently not used used in the Shapefile Graph Generator.<br />
<br />
A shapefile is a set of various files: three of these files are used by the Shapefile Graph Generator.<br />
<br />
* <tt>.shp</tt> &mdash; shape format; contains the shapes (polygons, polylines and points)<br />
* <tt>.prj</tt> &mdash; projection format; contains the coordinate system and projection information<br />
* <tt>.dbf</tt> &mdash; attribute format; contains attributes for each shape<br />
<br />
== Using the Shapefile Graph Generator ==<br />
<br />
The Shapefile Graph Generator can read polygons and polylines from shapefiles. Polygons are imported as geographical regions while polylines can be processed to create different kinds of edges. If a shapefile contains a road network, the polylines could be used to create Road Transportation Edges.<br />
<br />
The UI for importing shapefiles can be displayed by choosing the item '''Shapefile Graph Generator''' in the '''New Graph''' wizard. Click on '''Select Shape Files''' to select multiple shapefiles in a file dialog. For each of the shapefiles, you must specify if the file contains regions, roads or polylines with migration data. Also you need to specify a unique ID for each shape by selecting an ID column in the related combo box. The data of all columns can be displayed by clicking on '''Show Data'''. <br />
For region shapefiles additional parameters can be specified (optional). These parameters are the '''Region Area''', '''Area Unit''' (all areas are converted to km^2) and any number of populations (specified by '''Population Name''' and '''Population Size'''). <br />
If the shapefile contains roads or polylines with migration data, the following additional parameters must be specified: '''Road Class''' / '''Migration Population''', '''Migration Rate'''. To do so, either use the data from a table column or enter the value for the parameter in the text field. In the latter case, the same value is used for all shapes.<br />
<br />
== Example 2 ==<br />
<br />
The shapefiles used in this example can be downloaded from [http://www.eurogeographics.org/sites/default/files/imported-files/documents/EGM_shape_sample.zip].<br />
The files '''PolbndA.shp''' and '''RailrdL.shp''' are loaded by clicking '''Select Shapefiles'''.<br />
First '''PolbndA.shp''' is selected, the type is set to '''Regions''' and '''gfid''' is used as Region ID. Then '''RailrdL.shp''' is selected, the type is set to '''Roads''', '''gfid''' is used as Road ID and the Road Class is set to '''Railroad'''.<br />
<br />
<gallery widths="500px" heights="500px"><br />
Image:ShapefileImporterRegions.png | Configure Region Shapefile<br />
Image:ShapefileImporterRoads.png | Configure Road Shapefile<br />
</gallery><br />
<br />
Running the Shapefile Graph Generator as shown above, the result should look like this in the Graph Editor.<br />
<br />
[[Image:ShapefileImporterResult.png|400px]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:ShapefileImporterRoads.png&diff=338066File:ShapefileImporterRoads.png2013-05-29T09:14:21Z<p>Christian.thoens.bfr.bund.de: uploaded a new version of "Image:ShapefileImporterRoads.png"</p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:ShapefileImporterRegions.png&diff=338065File:ShapefileImporterRegions.png2013-05-29T09:13:45Z<p>Christian.thoens.bfr.bund.de: uploaded a new version of "Image:ShapefileImporterRegions.png"</p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=Importing_an_Esri_Shapefile&diff=338064Importing an Esri Shapefile2013-05-29T09:09:30Z<p>Christian.thoens.bfr.bund.de: /* Example */</p>
<hr />
<div>== The Esri Shapefile Format ==<br />
<br />
The Esri shapefile is a popular format for geographic information systems (GIS). Shapefiles can describe polygons, polylines and points. For example, polygons can represent geographical regions like countries and states while polylines can represent roads, rivers and so on. Points are currently not used used in the Shapefile Graph Generator.<br />
<br />
A shapefile is a set of various files: three of these files are used by the Shapefile Graph Generator.<br />
<br />
* <tt>.shp</tt> &mdash; shape format; contains the shapes (polygons, polylines and points)<br />
* <tt>.prj</tt> &mdash; projection format; contains the coordinate system and projection information<br />
* <tt>.dbf</tt> &mdash; attribute format; contains attributes for each shape<br />
<br />
== Using the Shapefile Graph Generator ==<br />
<br />
The Shapefile Graph Generator can read polygons and polylines from shapefiles. Polygons are imported as geographical regions while polylines can be processed to create different kinds of edges. If a shapefile contains a road network, the polylines could be used to create Road Transportation Edges.<br />
<br />
The UI for importing shapefiles can be displayed by choosing the item '''Shapefile Graph Generator''' in the '''New Graph''' wizard. Click on '''Select Shape Files''' to select multiple shapefiles in a file dialog. For each of the shapefiles, you must specify if the file contains regions, roads or polylines with migration data. Also you need to specify a unique ID for each shape by selecting an ID column in the related combo box. The data of all columns can be displayed by clicking on '''Show Data'''. <br />
For region shapefiles additional parameters can be specified (optional). These parameters are the '''Region Area''', '''Area Unit''' (all areas are converted to km^2) and any number of populations (specified by '''Population Name''' and '''Population Size'''). <br />
If the shapefile contains roads or polylines with migration data, the following additional parameters must be specified: '''Road Class''' / '''Migration Population''', '''Migration Rate'''. To do so, either use the data from a table column or enter the value for the parameter in the text field. In the latter case, the same value is used for all shapes.<br />
<br />
== Example ==<br />
<br />
The shapefiles used in this example can be downloaded from [http://www.eurogeographics.org/sites/default/files/imported-files/documents/EGM_shape_sample.zip].<br />
The files '''PolbndA.shp''' and '''RailrdL.shp''' are loaded by clicking '''Select Shapefiles'''.<br />
First '''PolbndA.shp''' is selected, the type is set to '''Regions''' and '''gfid''' is used as Region ID. Then '''RailrdL.shp''' is selected, the type is set to '''Roads''', '''gfid''' is used as Road ID and the Road Class is set to '''Railroad'''.<br />
<br />
<gallery widths="500px" heights="500px"><br />
Image:ShapefileImporterRegions.png | Configure Region Shapefile<br />
Image:ShapefileImporterRoads.png | Configure Road Shapefile<br />
</gallery><br />
<br />
Running the Shapefile Graph Generator as shown above, the result should look like this in the Graph Editor.<br />
<br />
[[Image:ShapefileImporterResult.png|400px]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=Importing_an_Esri_Shapefile&diff=338062Importing an Esri Shapefile2013-05-29T09:06:22Z<p>Christian.thoens.bfr.bund.de: /* Using the Shapefile Graph Generator */</p>
<hr />
<div>== The Esri Shapefile Format ==<br />
<br />
The Esri shapefile is a popular format for geographic information systems (GIS). Shapefiles can describe polygons, polylines and points. For example, polygons can represent geographical regions like countries and states while polylines can represent roads, rivers and so on. Points are currently not used used in the Shapefile Graph Generator.<br />
<br />
A shapefile is a set of various files: three of these files are used by the Shapefile Graph Generator.<br />
<br />
* <tt>.shp</tt> &mdash; shape format; contains the shapes (polygons, polylines and points)<br />
* <tt>.prj</tt> &mdash; projection format; contains the coordinate system and projection information<br />
* <tt>.dbf</tt> &mdash; attribute format; contains attributes for each shape<br />
<br />
== Using the Shapefile Graph Generator ==<br />
<br />
The Shapefile Graph Generator can read polygons and polylines from shapefiles. Polygons are imported as geographical regions while polylines can be processed to create different kinds of edges. If a shapefile contains a road network, the polylines could be used to create Road Transportation Edges.<br />
<br />
The UI for importing shapefiles can be displayed by choosing the item '''Shapefile Graph Generator''' in the '''New Graph''' wizard. Click on '''Select Shape Files''' to select multiple shapefiles in a file dialog. For each of the shapefiles, you must specify if the file contains regions, roads or polylines with migration data. Also you need to specify a unique ID for each shape by selecting an ID column in the related combo box. The data of all columns can be displayed by clicking on '''Show Data'''. <br />
For region shapefiles additional parameters can be specified (optional). These parameters are the '''Region Area''', '''Area Unit''' (all areas are converted to km^2) and any number of populations (specified by '''Population Name''' and '''Population Size'''). <br />
If the shapefile contains roads or polylines with migration data, the following additional parameters must be specified: '''Road Class''' / '''Migration Population''', '''Migration Rate'''. To do so, either use the data from a table column or enter the value for the parameter in the text field. In the latter case, the same value is used for all shapes.<br />
<br />
== Example ==<br />
<br />
The shapefiles used in this example can be downloaded from [http://www.eurogeographics.org/sites/default/files/imported-files/documents/EGM_shape_sample.zip].<br />
The images give an example of how to use the GUI. First '''PolbndA.shp''' is selected, the type is set to '''Regions''' and '''gfid''' is used as Region ID. Then '''RailrdL.shp''' is selected, the type is set to '''Roads''', '''gfid''' is used as Road ID and the Road Class is set to '''Railroad'''.<br />
<br />
<gallery widths="500px" heights="500px"><br />
Image:ShapefileImporterRegions.png | Configure Region Shapefile<br />
Image:ShapefileImporterRoads.png | Configure Road Shapefile<br />
</gallery><br />
<br />
Running the Shapefile Graph Generator as shown above, the result should look like this in the Graph Editor.<br />
<br />
[[Image:ShapefileImporterResult.png|400px]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=Importing_an_Esri_Shapefile&diff=338052Importing an Esri Shapefile2013-05-29T08:54:46Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div>== The Esri Shapefile Format ==<br />
<br />
The Esri shapefile is a popular format for geographic information systems (GIS). Shapefiles can describe polygons, polylines and points. For example, polygons can represent geographical regions like countries and states while polylines can represent roads, rivers and so on. Points are currently not used used in the Shapefile Graph Generator.<br />
<br />
A shapefile is a set of various files: three of these files are used by the Shapefile Graph Generator.<br />
<br />
* <tt>.shp</tt> &mdash; shape format; contains the shapes (polygons, polylines and points)<br />
* <tt>.prj</tt> &mdash; projection format; contains the coordinate system and projection information<br />
* <tt>.dbf</tt> &mdash; attribute format; contains attributes for each shape<br />
<br />
== Using the Shapefile Graph Generator ==<br />
<br />
The Shapefile Graph Generator can read polygons and polylines from shapefiles. Polygons are imported as geographical regions while polylines can be processed to create different kinds of edges. If a shapefile contains a road network, the polylines could be used to create Road Transportation Edges.<br />
<br />
The UI for importing shapefiles can be displayed by choosing the item '''Shapefile Graph Generator''' in the '''New Graph''' wizard. Click on '''Select Shape Files''' to select multiple shapefiles in a file dialog. For each of the shapefiles, you must specify if the file contains regions, roads or polylines with migration data. Also you need to specify a unique ID for each shape by selecting an ID column in the related combo box. The data of all columns can be displayed by clicking on '''Show Data'''. If the shapefile contains roads or polylines with migration data, additional parameters like '''Road Class''', '''Migration Rate''' and so on must be specified. To do so, either use the data from a table column or enter the value for the parameter in the text field. In the latter case, the same value is used for all shapes.<br />
<br />
== Example ==<br />
<br />
The shapefiles used in this example can be downloaded from [http://www.eurogeographics.org/sites/default/files/imported-files/documents/EGM_shape_sample.zip].<br />
The images give an example of how to use the GUI. First '''PolbndA.shp''' is selected, the type is set to '''Regions''' and '''gfid''' is used as Region ID. Then '''RailrdL.shp''' is selected, the type is set to '''Roads''', '''gfid''' is used as Road ID and the Road Class is set to '''Railroad'''.<br />
<br />
<gallery widths="500px" heights="500px"><br />
Image:ShapefileImporterRegions.png | Configure Region Shapefile<br />
Image:ShapefileImporterRoads.png | Configure Road Shapefile<br />
</gallery><br />
<br />
Running the Shapefile Graph Generator as shown above, the result should look like this in the Graph Editor.<br />
<br />
[[Image:ShapefileImporterResult.png|400px]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=Eclipse_DemoCamps_Kepler_2013/Berlin&diff=334662Eclipse DemoCamps Kepler 2013/Berlin2013-04-23T16:03:43Z<p>Christian.thoens.bfr.bund.de: /* Who Is Attending */</p>
<hr />
<div>[[Image:Eclipse DemoCamp New.jpg]] [[Eclipse DemoCamps Juno 2012|What is an Eclipse DemoCamp?]] <br />
<br />
=== Location ===<br />
<br />
[http://www.fokus.fraunhofer.de/de/fokus/index.html Fraunhofer FOKUS] <br>Kaiserin-Augusta-Allee 31 <br>10589 Berlin<br />
<br />
=== Date and Time ===<br />
<br />
Monday, 10 June 2013<br />
<br />
Opening 5.30 pm<br />
Presentations and Demos 6 pm - 10 pm<br />
<br />
=== Organizer ===<br />
<br />
Lars Martin, [http://www.smb-tec.com SMB GmbH]<br> Tom Ritter, [http://www.fokus.fraunhofer.de Fraunhofer FOKUS] <br />
<br />
<br />
<br />
Tweet about the Eclipse DemoCamp: #eclipse #democamp #berlin <br>TinyURL of our website: http://s.fhg.de/eclipseDC-June13 <br />
<br />
----<br />
<br />
<br><br />
<br />
=== Sponsors ===<br />
<br />
This Eclipse DemoCamp will be sponsored by [http://www.smb-tec.com SMB GmbH], [http://www.fokus.fraunhofer.de Fraunhofer FOKUS] and the [http://www.eclipse.org Eclipse Foundation]. <br />
<br />
[[Image:smb.png]] &nbsp; [[Image:Fokus logo en.gif]]&nbsp;&nbsp;&nbsp; [[Image:Eclipse.png]]<br> <br />
<br />
*SMB has been an independent IT consulting firm since 1998. We are devoted to providing high-quality RCP and OSGi software development, consulting and training to mid-sized organizations. Additionally we develop independent products and tools based on the Eclipse Rich Client Platform.<br />
*The Fraunhofer Institute for Open Communication Systems FOKUS is researching and developing demand-orientated solutions for partners in industry, research and public administration. <br> <br />
*Eclipse Foundation is a not-for-profit, member supported corporation that hosts the open-source Eclipse Projects.<br />
<br />
If you or your company would like to sponsor the venue, please get in touch with [https://www.xing.com/profile/Lars_Martin2 Lars] or [https://www.xing.com/profile/Tom_Ritter4 Tom].<br />
<br />
----<br />
<br />
=== Agenda ===<br />
<br />
If you would like to give a demo, please feel free to add it to the list. Should we receive more submissions than we can fit into the schedule, we will select the ones that we think are most interesting to the audience. <br />
<br />
----<br />
<br />
=== Details ===<br />
<br />
If you added your demo to the list above, please add a short abstract to this list so people know what you will be talking about. <br />
<br />
----<br />
<br />
=== Who Is Attending ===<br />
<br />
If you plan on attending please add your name and company to the list below. <br />
<br />
#[https://www.xing.com/profile/Lars_Martin2 Lars Martin], [http://www.smb-tec.com SMB GmbH] <br />
#[https://www.xing.com/profile/Tom_Ritter4 Tom Ritter], [http://www.fokus.fraunhofer.de/en/motion Fraunhofer FOKUS] <br />
#Sabrina Waffenschmidt, [http://www.fokus.fraunhofer.de/en/motion Fraunhofer FOKUS]<br />
#David Rogers, Heads4IT<br />
#Filiz Ludewig, [http://www.fokus.fraunhofer.de/en/motion Fraunhofer FOKUS]<br />
#Oliver Normann, [http://www.axway.de Axway]<br />
#Christian Thöns, [http://www.bfr.bund.de/de/start.html Bundesinstitut für Risikobewertung]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=Eclipse_DemoCamps_November_2012/Berlin&diff=321035Eclipse DemoCamps November 2012/Berlin2012-11-05T21:46:36Z<p>Christian.thoens.bfr.bund.de: /* Who Is Attending */</p>
<hr />
<div>[[Image:Eclipse DemoCamp New.jpg]] [[Eclipse DemoCamps Juno 2012|What is an Eclipse DemoCamp?]] <br />
<br />
=== Location ===<br />
<br />
[http://www.fokus.fraunhofer.de/de/fokus/index.html Fraunhofer FOKUS] <br>Kaiserin-Augusta-Allee 31 <br>10589 Berlin<br />
<br />
=== Date and Time ===<br />
<br />
<br />
November 26th 2012<br />
<br />
Opening 5.30 pm<br>Presentations and Demos 6 pm - 10 pm<br><br />
<br />
=== Organizer ===<br />
<br />
Lars Martin, [http://www.itemis.de itemis AG]<br/><br />
Tom Ritter, [http://www.fokus.fraunhofer.de, Fraunhofer FOKUS]<br />
<br />
=== Sponsors ===<br />
<br />
This Eclipse DemoCamp will be sponsored by [http://www.itemis.de itemis AG], [http://www.fokus.fraunhofer.de Fraunhofer FOKUS] and the [http://www.eclipse.org Eclipse Foundation]. <br />
<br />
[[Image:Itemis pos-2.JPG|168px]] &nbsp; [[Image:Fokus logo en.gif]]&nbsp;&nbsp;&nbsp; [[Image:Eclipse.png]]<br> <br />
<br />
*itemis is Eclipse strategic member and the leading company for model-driven software development. <br />
*The Fraunhofer Institute for Open Communication Systems FOKUS is researching and developing demand-orientated solutions for partners in industry, research and public administration. <br> <br />
*Eclipse Foundation is a not-for-profit, member supported corporation that hosts the open-source Eclipse Projects.<br />
<br />
If you or your company would like to sponsor the venue, please get in touch with [https://www.xing.com/profile/Lars_Martin2 Lars] or [https://www.xing.com/profile/Tom_Ritter4 Tom].<br />
<br />
=== Agenda ===<br />
<br />
If you would like to give a demo, please feel free to add it to the list. Should we receive more submissions than we can fit into the schedule, we will select the ones that we think are most interesting to the audience. <br />
<br />
*Let's try this again: Hibernate Code-Generation for Pragmatic Developers with HEDL - [http://www.xing.com/profile/Mirko_Seifert4 Mirko Seifert]<br />
*One for all: IDE and Workspace Provisioning with p3 - [http://www.xing.com/profile/Lars_Martin2 Lars Martin]<br />
*GMF on the Internet - [http://www.fokus.fraunhofer.de/en/motion/ueber_motion/unser_team/prakash_arun/index.jsp Arun Prakash] & Grit Dudeck<br />
*The Eclipse M2M IWG and Standards for the Internet of Things - [http://www.linkedin.com/catmedia Werner Keil], [http://www.catmedia.us Creative Arts & Technologies]<br />
*Refacola: Refactoring Constraint Language, or: why name refactorings are not that simple, or: how we developed a DSL with Xtext - Jens von Pilgrim (NumberFour AG)<br />
<br />
=== Details ===<br />
<br />
If you added your demo to the list above, please add a short abstract to this list so people know what you will be talking about. <br />
<br />
*'''Let's try this again: Hibernate Code-Generation for Pragmatic Developers with HEDL''' ([http://www.xing.com/profile/Mirko_Seifert4 Mirko Seifert], [http://www.devboost.de DevBoost GmbH])<br />
<br />
:To ease the implementation of data models and to perform ORM, code generation is advertised as a solution for years already. Yet, ORM frameworks like Hiberante are far more popular than any code generation approach. Still, annotation-based frameworks such as Hibernate require a lot of boilerplate code writing. The [http://www.hibernate-dsl.org/ Hibernate Entity Definition Language (HEDL)] combines the benefits of ORM frameworks and code generation, by generating code for the Hibernate framework. Thus, HEDL is an excelent example of a pragmatic domain specific language (DSL), where the benefits of using DSLs and code generation for one important technical aspect of almost every Java software project can be directly observed (the average LOC ratio between the DSL and Java code is 1:100). <br />
:In this talk, we will not only demonstrate HEDL in action, but also discuss the properties that make HEDL a popular and useful DSL. Furthermore, we give insights about how HEDL was developed and how you can extend and modify it for your needs.<br />
<br />
*'''One for all: IDE and Workspace Provisioning with p3''' ([http://www.xing.com/profile/Lars_Martin2 Lars Martin], [http://www.itemis.de itemis AG])<br />
<br />
:Immer wieder kommt es im Entwickleralltag vor, dass neue Mitglieder zum Team hinzukommen. Immer wieder stehen diese Entwickler vor der Herausforderung, ihre Entwicklungsumgebung auf den Stand der anderen Teammitglieder zu bringen. Hier ein zusätzlich zu installierendes Plugin, dort eine Konfiguration der IDE. Und wie lautete der Zugang zum zentralen Issuetracker gleich nochmal? Eh man produktiv sein kann, vergehen gern Stunden oder gar Tage. Hier behilft man sich gern durch eine zentral gepflegte Dokumentation. <br />
:Mit p2 bringt die Eclipse Plattform bereits einen Mechanismus mit, um das Provisioning von einzelnen Plug-Ins und deren Abhängigkeiten zu realisieren. Mit p3 wollen wir nun einen Mechanismus vorstellen, der auf den bekannten Eclipse Standards und Produkten wie etwa p2 aufsetzt, sich zusätzlich aber um das Provisioning der gesamten IDE und der zugehörigen Workspace Einstellungen bietet. Lange Ramp-up Zeiten für neue Teammitglieder sind damit Geschichte. Darüber hinaus können mit p3 firmenweit einheitliche Entwicklungsstandards besser etabliert und gesteuert werden.<br />
<br />
*'''The Eclipse M2M IWG and Standards for the Internet of Things''' (Werner Keil, [http://www.catmedia.us Creative Arts &amp; Technologies])<br />
<br />
:This session highlights how the [[Machine-to-Machine|M2M IWG]] can play a role in the Internet of Things and Distributed Sensor Web as well as related technologies like Smart Home or Automotive. We demonstrate how existing Java standards like JSR 256 (Mobile Sensor API) can be improved or replaced towards a new generation of Java Embedded and Mobile. <br />
:Taking technologies like the IEEE 1451 "Smart Sensor" standard into consideration, as well as OGC standards like SensorML or The Unified Code for Units of Measurement (UCUM) allowing type and context safe data transfer using various formats and protocols, whether it is XML, JSON or specific M2M protocols like MQTT.<br />
<br />
*'''Refacola: Refactoring Constraint Language, or: why name refactorings are not that simple, or: how we developed a DSL with Xtext'''<br />
<br />
:In the context of a DFG project we (a team at the FernUniversität in Hagen) developed Refacola, a language for expressing constraint based refactorings. In this talk I will briefly demonstrate refactoring problems (they are harder than you probably expect -- search bugzilla for [rename] or [pull up] for examples) and constraint based approaches (one is, BTW, used by Eclipse refactorings). I will talk about my personal experiences with developing a DSL with Xtext and other model-driven tools, and how the DSL helped us (as researchers and tool developers) to focus on our domain (in this case refactoring).<br />
<br />
=== Who Is Attending ===<br />
<br />
If you plan on attending please add your name and company to the list below.<br />
<br />
#[http://www.xing.com/profile/Mirko_Seifert4 Mirko Seifert], [http://www.devboost.de DevBoost GmbH]<br />
#[http://www.xing.com/profile/Lars_Martin2 Lars Martin], [http://www.itemis.de itemis AG]<br />
#[https://www.xing.com/profile/Tom_Ritter4 Tom Ritter], [http://www.fokus.fraunhofer.de/en/motion Fraunhofer FOKUS]<br />
#Christian Lange, [http://www.gipa.de/ GIPA mbH]<br />
#Markus Seltmann, [http://www.gipa.de/ GIPA mbH]<br />
#Mirko Streckenbach, Capgemini<br />
#Diana Cerbu, Capgemini<br />
#Kristine Jetzke, Biotronik SE & Co. KG<br />
#Thomas Kipar, Humboldt-Universität zu Berlin<br />
#[http://www.linkedin.com/catmedia Werner Keil], [http://www.catmedia.us Creative Arts & Technologies]<br />
#[http://murygin.wordpress.com Daniel Murygin], [http://sernet.de SerNet GmbH] / [http://v.de verinice]<br />
#Kamran Mohtadi, TU Berlin<br />
#Amir Matallaoui, TU Berlin<br />
#Henning Agt, [http://www.dima.tu-berlin.de/ TU Berlin DIMA]<br />
#Koenig, Jennifer<br />
#Aleksander Kosicki, NumberFour AG<br />
#Torsten Krämer, TU Berlin<br />
#Christian Thöns, Bundesinstitut für Risikobewertung</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=Importing_a_Pajek_Graph&diff=310989Importing a Pajek Graph2012-07-19T14:48:21Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div>This page is about the new '''Pajek''' format which is used in STEM releases since version 1.4.0 and in current milestone and integration builds. The old format that was used prior to 1.4.0 is still supported. Examples and documentation of the old format are available at [http://www.eclipse.org/stem/download_sample.php?file=MultiPopulationExample_PajekGraphs.zip Multi-Population Pajek Graph Example].<br />
<br />
== File Format ==<br />
<br />
STEM allows users to create a custom graph using a format similar to the '''Pajek''' ([http://vlado.fmf.uni-lj.si/pub/networks/pajek/]) format. The PajekNetGraphGenerator, which is available in the graph creation dialogue of STEM, can create user-defined graphs for STEM and is based on this format.<br />
The format specification is as follows. <br />
<br />
*Vertices [number of nodes]<br />
[node number] [node name] [longitude] [latitude] [additional optional parameters] // spec for a new node<br />
[node number] [node URI] // spec for reference to existing node<br />
...<br />
*Edges<br />
[origin node number] [destination node number] popID [populationID] rate [rate] // spec for migration edges<br />
[containing node number] [contained node number] // spec for containment edges<br />
...<br />
<br />
== Node Format ==<br />
<br />
The keyword "*Vertices [number of nodes]" is the starting point for the nodes section. New nodes and references to existing nodes can be defined. The formats are as follows.<br />
<br />
=== New Node ===<br />
<br />
'''[node number] [node name] [longitude] [latitude] [optional parameters]:'''<br />
*node number – unique node number (1, 2, 3, ...). Successive numbering of nodes is obligatory. <br />
*node name – unique name consisting of letters a..zA..Z and digits 0..9.<br />
*longitude, latitude – coordinates of the node. All values can be entered, but real world coordinates are: -180 <= longitude <= 180, 0 <= latitude <= 90.<br />
<br />
'''Optional parameters:'''<br />
*popID – identifier of a population of the node. This parameter may be used repeatedly.<br />
*popCount – number of individuals living in the node. This parameter may be used repeatedly. The associated popID is the last mentioned one.<br />
<br />
'''Example:'''<br />
1 Berlin 13.398889 52.500556 popID men popCount 1682900000 popID women popcount 1753500000<br />
<br />
=== Node Reference ===<br />
'''[node number] [node URI]:'''<br />
*node number – unique node number (1, 2, 3, ...). Successive numbering of nodes is obligatory. <br />
*node URI – URI of the node in STEM. If the URI starts with ''stem://org.eclipse.stem/node/geo/region/'', this prefix can be omitted.<br />
<br />
'''Examples:'''<br />
1 stem://org.eclipse.stem/node/geo/region/FR-IF<br />
1 FR-IF<br />
<br />
== Edges Format ==<br />
<br />
The keyword "*Edges" is the starting point for the edges section. Two types of edges can be described; they are migration edges and containment edges. The formats are as follows.<br />
<br />
=== Migration Edges ===<br />
<br />
'''[origin node number] [destination node number] popID [populationID] rate [rate]:'''<br />
*origin node number – number of the node the population migrates from. Has to be defined as node number in *Vertices. <br />
*destination node number – number of the node the population migrates from. Has to be defined as node number in *Vertices.<br />
*populationID – defines the ID of the migrating population.<br />
*rate - number population members migrating per day.<br />
<br />
'''Optional parameters:'''<br />
*date - specification a of date at which the migration rate is different from the standard value specified in the obligatory parameters. ISO 8601 standard is used (YYYY-MM-DD). This parameter may be used repeatedly.<br />
*rate - migration rate for the specified date. This parameter may be used repeatedly. The associated date is the last mentioned one.<br />
<br />
'''Example:'''<br />
1 2 popID beef rate 1.0 date 2012-01-01 rate 10.0<br />
<br />
=== Containment Edges ===<br />
<br />
'''[containing node number] [contained node number]:'''<br />
*containing node number – number of the node that contains the other node. Has to be defined as node number in *Vertices. <br />
*contained node number – number of the node that is contained by the other node. Has to be defined as node number in *Vertices.<br />
<br />
'''Example:'''<br />
<br />
*Vertices 3<br />
1 Berlin 1 1 popID men popCount 100 popID women popCount 110<br />
2 Bonn 1.5 1 popID men popCount 100 popID women popCount 110<br />
3 Germany 1.2 1.2<br />
*Edges<br />
1 2 popID men rate 0.1<br />
2 1 popID women rate 0.2<br />
3 1<br />
3 2<br />
<br />
Running the downloadable pajek scenario the map view should appear as shown below.<br />
<br />
[[Image:STEM_PajekExample.png|600px]]<br />
<br />
<br />
<br />
== Using the dialog ==<br />
<br />
[[Image:STEM_PajekDialog.png|right|300px]]<br />
The dialog to import a Pajek graph from a file is shown on the right. It is available in the STEM Graph Dialog. The following parameters are available for importing.<br />
*Pajek File - The file from which the graph is imported. A file dialog is available to select the file.<br />
*Scaling Factor - A factor by which all coordinates specified in the file are scaled during import. If node has the coordinates 10.0/20.0 in the file and the scaling factor is 2.0, the node's resulting coordinates in STEM are 20.0/40.0.<br />
*Node Size - In STEM each imported node appears as a square for visualization. This parameter specifies the edge length of the squares for all imported nodes.<br />
*Use global Region Names - If selected, the URIs for the imported nodes will be of the type ''stem://org.eclipse.stem/node/geo/region/*****''. This has the advantage, that the nodes can be accessed by just using that last part of the URI ''*****''. This option should only be used if node names specified in the Pajek file are unique and do not occur in other STEM graphs. If not selected, the node URIs will contain the graph's URI.<br />
*Move Nodes to Containers - If selected, all nodes that are contained by another node from a different graph will be moved close to this container. That means that coordinates specified for these nodes in the Pajek file will be ignored.<br />
<br />
== Tutorial ==<br />
<br />
A tutorial on how to import a Pajek graph that contains discrete migration events for a STEM graph is available at [[STEM Import Discrete Transportation Events|Import Discrete Transportation Events]]. Discrete events can be used to model commodity flows, e.g. the transportation of beef from slaughterhouses to supermarkets in order to model the spread of a foodborne disease.<br />
<br />
== Contributors ==<br />
<br />
The PajekNetGraphGenerator was created and developed by the Department of Biological Safety of the Federal Institute for Risk Assessment in Germany.<br />
<br />
Armin A. Weiser, Matthias Filter, Christian Thöns<br />
Dept. Biological Safety <br />
Federal Institute for Risk Assessment<br />
12277 Berlin<br />
Germany</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM&diff=310987STEM2012-07-19T14:39:30Z<p>Christian.thoens.bfr.bund.de: /* Tutorials */</p>
<hr />
<div>[[Image:STEM TOP BAR.gif|800px]]<br />
<br />
{| align="right"<br />
| __TOC__<br />
|}<br />
<br />
The '''Spatio-Temporal Epidemiological Modeler (STEM)''' is a tool designed to help scientists and public health officials create and use models of emerging infectious diseases. STEM uses mathematical models of diseases (based on differential equations) to simulate the development or evolution of a disease in space and time (e.g., avian flu or salmonella). These models could aid in understanding, and potentially preventing, the spread of such diseases. STEM also comes pre-configured with a vast amount of reference or denominator data for the entire world. By using and extending the data and models in STEM it is possible to rapidly prototype and test models for emerging infectious disease. STEM also provides tools to help you compare and validate your models. As an open source project, the ultimate goal of STEM is to support and encourage a community of scientists that not only use STEM as a tool but also contribute back to it. STEM is designed so that models and scenarios can be easily shared, extended, and built upon. <br />
<br />
== '''STEM Documentation''' ==<br />
<br />
<!--outer table-->{| style="width:98% ; border="0" ; cellpadding="0" <br />
<!--outer table-->|-<br />
<!--outer table-->| <br />
{| style="width: 100%; height: 100%; background: #f1f5fc" ; border="0" ; cellpadding="5" <br />
|- style="background: #cceeff"<br />
! <br />
=== Introductory Resources ===<br />
|-<br />
| <br />
*[http://www.eclipse.org/stem/ The STEM Website] <br />
*[[About STEM]] <br />
*[[Whats New in STEM|What's New in STEM]] <br />
*STEM Tutorials on YouTube<sup>TM</sup><br />
<br />
#Full length video [http://www.youtube.com/watch?v=LfiibQX4IFE In English] <br />
#Full length video [http://www.youtube.com/watch?v=AFYXvazKkms In Hebrew] <br />
#Full length video [http://www.youtube.com/watch?v=NM5X8-MaiKo In Japanese] <br />
#Full length video [http://www.youtube.com/watch?v=3S5DbjCHsx4 In Spanish] <br />
#[http://www.youtube.com/watch?v=OoiFLemepw4 5 min Video (English)]<br />
<br />
*[http://www.eclipse.org/stem/talksOnline.php Scientific Talks Online] &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;<br />
*[[STEM FAQ|STEM FAQ]] <br />
*[[Publications and Presentations on STEM]] <br />
*[[Join the STEM Community|How to Join the STEM Community]] <br />
*[[The STEM Development Team]] <br />
*[[Join the STEM Community|Weekly phone call]]<br />
<br />
==== Getting Started ====<br />
<br />
*[[STEM Installation Guide|Installing the STEM Application]]<br />
*[[STEM Addons|Installing Additional Features]]<br />
*[[Sample Projects available for Download|Sample Projects (Downloadable Scenarios)]]<br />
<br />
<br />
<br/><br />
<br/><br />
<br />
<br />
|}<br />
<!--inner table start-->|<br />
{| style="width: 100%; height: 100%; background: #f1f5fc" ; border="0" ; cellpadding="5" <br />
|-style="background: #cceeff"<br />
!<br />
=== Tutorials ===<br />
|-<br />
| <br />
*'''[[Creating a STEM Scenario]]''' '''step by step'''<br />
*'''[[How_scenarios_are_structured|How Scenarios are Structured]]'''<br />
*'''[[Initializing Disease Compartments|Initializing Diseases ''(Infectors, Inoculators, and Initializers)'']]'''<br />
*'''[[STEM Import Discrete Transportation Events|Import Discrete Transportation Events]]'''<br />
*'''[[Triggering interventions|Triggering Interventions]]'''<br />
#[[Triggering interventions#Social Distancing Example|Social Distancing Example]]<br />
#[[Triggering interventions#Vaccination Example|Vaccination Example]]<br />
#[[Triggering interventions#Evacuation Example|Evacuation Example]]<br />
#[[Triggering interventions#Air Transportation Example|Air Transportation Example]]<br />
<br />
*'''Using Population Models'''<br />
# [[Initializing a Population]] <br />
#[[Using Structured Populations in STEM|Using Structured Populations in STEM]] <br />
#[[Using Aging Populations in STEM|Using Aging Populations in STEM]] <br />
<br />
*'''Running Simulations'''<br />
#[[STEM_Map_View|The STEM Map View]] <br />
#[[Batch Mode (Running Experiments)|Running Experiments in Batch Mode]] <br />
#[[Running an Automated Experiment]] <br />
#[[STEM Headless|Running STEM Headless]]<br />
#[[Importing Data from Files]] <br />
#[[STEM Loggers|Simulation Data Logging]]<br />
<br />
*'''[[Importing and Exporting Projects]]''' <br />
*'''[[Analysis|Some Built in Tools for Analysis]]'''<br />
*'''[[Context-Sensitive Help]]'''<br />
|}<br />
<!--outer table-->|- style="width:45%"<br />
<!--outer table-->|<br />
{| style="width: 100%; background: #f1f5fc" ; border="0" ; cellpadding="5" <br />
|-style="background: #cceeff"<br />
!<br />
<br />
=== Advanced Guides ===<br />
<br />
|-<br />
| <br />
====Developers====<br />
*[[Welcome STEM Developers]]<br />
*[[STEM Eclipse Setup|Setting up a STEM Development Environment]]<br />
*[[STEM Design Document]]<br />
*[[STEM National Language Support | National Language Support]]<br />
*[http://www.eclipse.org/projects/project.php?id=technology.stem Project Stats]<br />
<br />
*[[Building the STEM RCP Application|Building the STEM RCP Application]]<br />
*[[Running STEM from the Development Environment]]<br />
*[[Creating a Customized Color Provider|Customizing Colors]]<br />
*[[STEM Performance Tips |General tips when writing performance critical code]]<br />
<br />
====Working with Graphs====<br />
#[[Composing a Graph]]<br />
#[[Creating a new Graph|Creating a Custom Graph]]<br />
#[[Visualizing and Editing Graphs]] ''with the STEM Graph Editor ''&nbsp;&nbsp;<br />
#[[Importing a Pajek Graph|Importing a Graph from a Pajek File]]<br />
#[[Importing an Esri Shapefile|Importing a Graph from an Esri Shapefile]]<br />
<br />
====Modeling New Diseases====<br />
#[[Creating a new Disease Model Plug-in|Creating a New Disease Model Plug-in Using EMF]] <br />
#[[Creating a new disease label|Creating a New Disease Label]]<br />
<br />
==== Epidemiological Modeling ====<br />
*[[Sample Projects available for Download|Sample Projects (Downloadable Scenarios)]]<br />
*[[Introduction to Compartment Models|Intro to Compartment Models]] <br />
*[[STEM Disease Models|Disease Models]]<br />
*[[STEM Population Models|Population Models]]<br />
*[[STEM Food and Food Borne Disease|Food Borne Disease Models]]<br />
*[[Transportation Models|Transportation Models]]<br />
*[[Air Travel Model|Air Travel Model]]<br />
*[[STEM_Solvers|Solvers]]<br />
<br />
<br />
|}<br />
<!--outer table-->|<br />
{| style="width: 100%; height: 100%; background: #f1f5fc" ; border="0" ; cellpadding="5" <br />
|-style="background: #cceeff"<br />
!<br />
<br />
=== Release Planning ===<br />
|-<br />
| <br />
''please also see our [http://www.eclipse.org/stem website]'' and [[Whats New in STEM|What's New in STEM]] <br />
<br/><br />
<br/><br />
<br />
====V1.4.0 ====<br />
'''Plan Features: (''Tentative Date 9/15/2012'')'''<br />
*Performance improvements<br />
*Simplified creation of new Disease and Population models (Tools for generating new disease plugins)<br />
*Pajek-file Importer:<br />
**Enable import of discrete transportation events<br />
**Enable integration between user graphs and existing STEM graphs<br />
*New improved MapView<br />
**Enable visualization of discrete transportation events<br />
**Enable multiple views of the same simulation <br />
*Polio Example<br />
*Stochastic Modeling Framework<br />
*Ability to delete items inside a graph from Designer Perspective <br />
*Deep copy drag and drop for models <br />
*Refactor<br />
*Create new mixing edges (chris to put edges back, jk to do generator)<br />
*Improved UI for decorators view<br />
<br />
====V1.3.1====<br />
<br />
'''Current Release'''<br />
* Bug Fixes to 1.3.0<br />
* STEM EMF update to version 2.7.2 <br />
* Generalized model replay mechanism<br />
* Modifiable Modifiers (batch mode)<br />
* Shape File Importer: Improvements to GUI<br />
* Population Transformer: food mediated disease <br />
* Graph Editor: improved features<br />
* New Population re-scaler<br />
* New Polio model<br />
<br />
====...future====<br />
* Running Distributed STEM<br />
* parameter sensitivity analysis<br />
* mcmc optimizer<br />
* Scenario ''"compile"'' proof of concept<br />
<br />
<br />
|}<br />
<!--outer table-->|}<br />
<br />
==[[Disclaimer]]==<br />
<br />
<br><br />
<br />
[[Category:Eclipse Technology Project]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309241STEM Import Discrete Transportation Events2012-06-29T15:31:07Z<p>Christian.thoens.bfr.bund.de: /* Run the Simulation Step by Step */</p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create a new Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
This model is created as a container for all graphs used in this tutorial.<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
The Pajek file must contain the text from [[STEM_Import_Discrete_Transportation_Events#The_Pajek_File|The Pajek File]].<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
The population initializer is needed for initializing the regions from the Austria with the population beef. Each region is initialized with 1000 units of beef.<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
The trigger was automatically created during the Pajek-Import step. It contains the time dependent migration rates.<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
Since the dates in the Pajek file are the first 8 days of 2012, our Sequencer will start on December 31st 2011.<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]<br />
<br />
== Create a Population Model for beef ==<br />
<br />
In STEM there has to be a population model for each population. We just set the birth and death rates to zero.<br />
<br />
[[Image:STEM_DiscreteImport_CreatePopulationModel.png]]<br />
<br />
== Drag the Population Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPopulationModelToScenario.png]]<br />
<br />
== Start the Simulation ==<br />
<br />
We have finished creating the Scenario. Now we can start the Simulation. Press the '''step''' button to perform the initial step.<br />
<br />
[[Image:STEM_DiscreteImport_StartSimulation.png]]<br />
<br />
== Configure the GraphMapView (1) ==<br />
<br />
The Trigger has to be selected in the upper left combo box. Thereby regions regions are colored based on the number of beef units already transported to the regions. If you select '''Migration (Triggered)''' in the '''Edges''' combo box, all migration migration edges with rates >0 at the current date are shown.<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation1.png]]<br />
<br />
== Configure the GraphMapView (2) ==<br />
<br />
Now we set the '''Gain Factor''' in the context menu to 0.001. This factor scales the red coloration of the regions.<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation2.png]]<br />
<br />
== Run the Simulation Step by Step ==<br />
<br />
Now you can run the simulation step by step by pressing the step button.<br />
<br />
[[Image:STEM_DiscreteImport_RunSimulation.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309239STEM Import Discrete Transportation Events2012-06-29T15:30:07Z<p>Christian.thoens.bfr.bund.de: /* Configure the GraphMapView (2) */</p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create a new Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
This model is created as a container for all graphs used in this tutorial.<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
The Pajek file must contain the text from [[STEM_Import_Discrete_Transportation_Events#The_Pajek_File|The Pajek File]].<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
The population initializer is needed for initializing the regions from the Austria with the population beef. Each region is initialized with 1000 units of beef.<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
The trigger was automatically created during the Pajek-Import step. It contains the time dependent migration rates.<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
Since the dates in the Pajek file are the first 8 days of 2012, our Sequencer will start on December 31st 2011.<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]<br />
<br />
== Create a Population Model for beef ==<br />
<br />
In STEM there has to be a population model for each population. We just set the birth and death rates to zero.<br />
<br />
[[Image:STEM_DiscreteImport_CreatePopulationModel.png]]<br />
<br />
== Drag the Population Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPopulationModelToScenario.png]]<br />
<br />
== Start the Simulation ==<br />
<br />
We have finished creating the Scenario. Now we can start the Simulation. Press the '''step''' button to perform the initial step.<br />
<br />
[[Image:STEM_DiscreteImport_StartSimulation.png]]<br />
<br />
== Configure the GraphMapView (1) ==<br />
<br />
The Trigger has to be selected in the upper left combo box. Thereby regions regions are colored based on the number of beef units already transported to the regions. If you select '''Migration (Triggered)''' in the '''Edges''' combo box, all migration migration edges with rates >0 at the current date are shown.<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation1.png]]<br />
<br />
== Configure the GraphMapView (2) ==<br />
<br />
Now we set the '''Gain Factor''' in the context menu to 0.001. This factor scales the red coloration of the regions.<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation2.png]]<br />
<br />
== Run the Simulation Step by Step ==<br />
<br />
[[Image:STEM_DiscreteImport_RunSimulation.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309234STEM Import Discrete Transportation Events2012-06-29T15:24:21Z<p>Christian.thoens.bfr.bund.de: /* Configure the GraphMapView (1) */</p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create a new Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
This model is created as a container for all graphs used in this tutorial.<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
The Pajek file must contain the text from [[STEM_Import_Discrete_Transportation_Events#The_Pajek_File|The Pajek File]].<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
The population initializer is needed for initializing the regions from the Austria with the population beef. Each region is initialized with 1000 units of beef.<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
The trigger was automatically created during the Pajek-Import step. It contains the time dependent migration rates.<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
Since the dates in the Pajek file are the first 8 days of 2012, our Sequencer will start on December 31st 2011.<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]<br />
<br />
== Create a Population Model for beef ==<br />
<br />
In STEM there has to be a population model for each population. We just set the birth and death rates to zero.<br />
<br />
[[Image:STEM_DiscreteImport_CreatePopulationModel.png]]<br />
<br />
== Drag the Population Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPopulationModelToScenario.png]]<br />
<br />
== Start the Simulation ==<br />
<br />
We have finished creating the Scenario. Now we can start the Simulation. Press the '''step''' button to perform the initial step.<br />
<br />
[[Image:STEM_DiscreteImport_StartSimulation.png]]<br />
<br />
== Configure the GraphMapView (1) ==<br />
<br />
The Trigger has to be selected in the upper left combo box. Thereby regions regions are colored based on the number of beef units already transported to the regions. If you select '''Migration (Triggered)''' in the '''Edges''' combo box, all migration migration edges with rates >0 at the current date are shown.<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation1.png]]<br />
<br />
== Configure the GraphMapView (2) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation2.png]]<br />
<br />
== Run the Simulation Step by Step ==<br />
<br />
[[Image:STEM_DiscreteImport_RunSimulation.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309232STEM Import Discrete Transportation Events2012-06-29T15:18:50Z<p>Christian.thoens.bfr.bund.de: /* Start the Simulation */</p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create a new Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
This model is created as a container for all graphs used in this tutorial.<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
The Pajek file must contain the text from [[STEM_Import_Discrete_Transportation_Events#The_Pajek_File|The Pajek File]].<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
The population initializer is needed for initializing the regions from the Austria with the population beef. Each region is initialized with 1000 units of beef.<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
The trigger was automatically created during the Pajek-Import step. It contains the time dependent migration rates.<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
Since the dates in the Pajek file are the first 8 days of 2012, our Sequencer will start on December 31st 2011.<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]<br />
<br />
== Create a Population Model for beef ==<br />
<br />
In STEM there has to be a population model for each population. We just set the birth and death rates to zero.<br />
<br />
[[Image:STEM_DiscreteImport_CreatePopulationModel.png]]<br />
<br />
== Drag the Population Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPopulationModelToScenario.png]]<br />
<br />
== Start the Simulation ==<br />
<br />
We have finished creating the Scenario. Now we can start the Simulation. Press the '''step''' button to perform the initial step.<br />
<br />
[[Image:STEM_DiscreteImport_StartSimulation.png]]<br />
<br />
== Configure the GraphMapView (1) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation1.png]]<br />
<br />
== Configure the GraphMapView (2) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation2.png]]<br />
<br />
== Run the Simulation Step by Step ==<br />
<br />
[[Image:STEM_DiscreteImport_RunSimulation.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309229STEM Import Discrete Transportation Events2012-06-29T15:16:42Z<p>Christian.thoens.bfr.bund.de: /* Create a Population Model for beef */</p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create a new Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
This model is created as a container for all graphs used in this tutorial.<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
The Pajek file must contain the text from [[STEM_Import_Discrete_Transportation_Events#The_Pajek_File|The Pajek File]].<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
The population initializer is needed for initializing the regions from the Austria with the population beef. Each region is initialized with 1000 units of beef.<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
The trigger was automatically created during the Pajek-Import step. It contains the time dependent migration rates.<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
Since the dates in the Pajek file are the first 8 days of 2012, our Sequencer will start on December 31st 2011.<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]<br />
<br />
== Create a Population Model for beef ==<br />
<br />
In STEM there has to be a population model for each population. We just set the birth and death rates to zero.<br />
<br />
[[Image:STEM_DiscreteImport_CreatePopulationModel.png]]<br />
<br />
== Drag the Population Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPopulationModelToScenario.png]]<br />
<br />
== Start the Simulation ==<br />
<br />
[[Image:STEM_DiscreteImport_StartSimulation.png]]<br />
<br />
== Configure the GraphMapView (1) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation1.png]]<br />
<br />
== Configure the GraphMapView (2) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation2.png]]<br />
<br />
== Run the Simulation Step by Step ==<br />
<br />
[[Image:STEM_DiscreteImport_RunSimulation.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309227STEM Import Discrete Transportation Events2012-06-29T15:14:19Z<p>Christian.thoens.bfr.bund.de: /* Create a Sequencer */</p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create a new Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
This model is created as a container for all graphs used in this tutorial.<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
The Pajek file must contain the text from [[STEM_Import_Discrete_Transportation_Events#The_Pajek_File|The Pajek File]].<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
The population initializer is needed for initializing the regions from the Austria with the population beef. Each region is initialized with 1000 units of beef.<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
The trigger was automatically created during the Pajek-Import step. It contains the time dependent migration rates.<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
Since the dates in the Pajek file are the first 8 days of 2012, our Sequencer will start on December 31st 2011.<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]<br />
<br />
== Create a Population Model for beef ==<br />
<br />
[[Image:STEM_DiscreteImport_CreatePopulationModel.png]]<br />
<br />
== Drag the Population Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPopulationModelToScenario.png]]<br />
<br />
== Start the Simulation ==<br />
<br />
[[Image:STEM_DiscreteImport_StartSimulation.png]]<br />
<br />
== Configure the GraphMapView (1) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation1.png]]<br />
<br />
== Configure the GraphMapView (2) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation2.png]]<br />
<br />
== Run the Simulation Step by Step ==<br />
<br />
[[Image:STEM_DiscreteImport_RunSimulation.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309225STEM Import Discrete Transportation Events2012-06-29T15:01:54Z<p>Christian.thoens.bfr.bund.de: /* Drag the Trigger (was created during Pajek Import) to the Scenario */</p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create a new Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
This model is created as a container for all graphs used in this tutorial.<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
The Pajek file must contain the text from [[STEM_Import_Discrete_Transportation_Events#The_Pajek_File|The Pajek File]].<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
The population initializer is needed for initializing the regions from the Austria with the population beef. Each region is initialized with 1000 units of beef.<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
The trigger was automatically created during the Pajek-Import step. It contains the time dependent migration rates.<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]<br />
<br />
== Create a Population Model for beef ==<br />
<br />
[[Image:STEM_DiscreteImport_CreatePopulationModel.png]]<br />
<br />
== Drag the Population Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPopulationModelToScenario.png]]<br />
<br />
== Start the Simulation ==<br />
<br />
[[Image:STEM_DiscreteImport_StartSimulation.png]]<br />
<br />
== Configure the GraphMapView (1) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation1.png]]<br />
<br />
== Configure the GraphMapView (2) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation2.png]]<br />
<br />
== Run the Simulation Step by Step ==<br />
<br />
[[Image:STEM_DiscreteImport_RunSimulation.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309224STEM Import Discrete Transportation Events2012-06-29T15:00:12Z<p>Christian.thoens.bfr.bund.de: /* Create a Population Initializer */</p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create a new Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
This model is created as a container for all graphs used in this tutorial.<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
The Pajek file must contain the text from [[STEM_Import_Discrete_Transportation_Events#The_Pajek_File|The Pajek File]].<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
The population initializer is needed for initializing the regions from the Austria with the population beef. Each region is initialized with 1000 units of beef.<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]<br />
<br />
== Create a Population Model for beef ==<br />
<br />
[[Image:STEM_DiscreteImport_CreatePopulationModel.png]]<br />
<br />
== Drag the Population Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPopulationModelToScenario.png]]<br />
<br />
== Start the Simulation ==<br />
<br />
[[Image:STEM_DiscreteImport_StartSimulation.png]]<br />
<br />
== Configure the GraphMapView (1) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation1.png]]<br />
<br />
== Configure the GraphMapView (2) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation2.png]]<br />
<br />
== Run the Simulation Step by Step ==<br />
<br />
[[Image:STEM_DiscreteImport_RunSimulation.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309223STEM Import Discrete Transportation Events2012-06-29T14:51:47Z<p>Christian.thoens.bfr.bund.de: /* Import the Pajek Graph */</p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create a new Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
This model is created as a container for all graphs used in this tutorial.<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
The Pajek file must contain the text from [[STEM_Import_Discrete_Transportation_Events#The_Pajek_File|The Pajek File]].<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]<br />
<br />
== Create a Population Model for beef ==<br />
<br />
[[Image:STEM_DiscreteImport_CreatePopulationModel.png]]<br />
<br />
== Drag the Population Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPopulationModelToScenario.png]]<br />
<br />
== Start the Simulation ==<br />
<br />
[[Image:STEM_DiscreteImport_StartSimulation.png]]<br />
<br />
== Configure the GraphMapView (1) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation1.png]]<br />
<br />
== Configure the GraphMapView (2) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation2.png]]<br />
<br />
== Run the Simulation Step by Step ==<br />
<br />
[[Image:STEM_DiscreteImport_RunSimulation.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309222STEM Import Discrete Transportation Events2012-06-29T14:43:44Z<p>Christian.thoens.bfr.bund.de: /* Create a new Model */</p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create a new Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
This model is created as a container for all graphs used in this tutorial.<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]<br />
<br />
== Create a Population Model for beef ==<br />
<br />
[[Image:STEM_DiscreteImport_CreatePopulationModel.png]]<br />
<br />
== Drag the Population Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPopulationModelToScenario.png]]<br />
<br />
== Start the Simulation ==<br />
<br />
[[Image:STEM_DiscreteImport_StartSimulation.png]]<br />
<br />
== Configure the GraphMapView (1) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation1.png]]<br />
<br />
== Configure the GraphMapView (2) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation2.png]]<br />
<br />
== Run the Simulation Step by Step ==<br />
<br />
[[Image:STEM_DiscreteImport_RunSimulation.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309221STEM Import Discrete Transportation Events2012-06-29T14:42:29Z<p>Christian.thoens.bfr.bund.de: /* Create Project */</p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create a new Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]<br />
<br />
== Create a Population Model for beef ==<br />
<br />
[[Image:STEM_DiscreteImport_CreatePopulationModel.png]]<br />
<br />
== Drag the Population Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPopulationModelToScenario.png]]<br />
<br />
== Start the Simulation ==<br />
<br />
[[Image:STEM_DiscreteImport_StartSimulation.png]]<br />
<br />
== Configure the GraphMapView (1) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation1.png]]<br />
<br />
== Configure the GraphMapView (2) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation2.png]]<br />
<br />
== Run the Simulation Step by Step ==<br />
<br />
[[Image:STEM_DiscreteImport_RunSimulation.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:STEM_DiscreteImport_StartSimulation.png&diff=309197File:STEM DiscreteImport StartSimulation.png2012-06-29T10:41:19Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:STEM_DiscreteImport_RunSimulation.png&diff=309141File:STEM DiscreteImport RunSimulation.png2012-06-28T15:19:17Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:STEM_DiscreteImport_ConfigureSimulation2.png&diff=309140File:STEM DiscreteImport ConfigureSimulation2.png2012-06-28T15:19:04Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309138STEM Import Discrete Transportation Events2012-06-28T15:18:44Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]<br />
<br />
== Create a Population Model for beef ==<br />
<br />
[[Image:STEM_DiscreteImport_CreatePopulationModel.png]]<br />
<br />
== Drag the Population Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPopulationModelToScenario.png]]<br />
<br />
== Start the Simulation ==<br />
<br />
[[Image:STEM_DiscreteImport_StartSimulation.png]]<br />
<br />
== Configure the GraphMapView (1) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation1.png]]<br />
<br />
== Configure the GraphMapView (2) ==<br />
<br />
[[Image:STEM_DiscreteImport_ConfigureSimulation2.png]]<br />
<br />
== Run the Simulation Step by Step ==<br />
<br />
[[Image:STEM_DiscreteImport_RunSimulation.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:STEM_DiscreteImport_ConfigureSimulation1.png&diff=309136File:STEM DiscreteImport ConfigureSimulation1.png2012-06-28T15:16:44Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309135STEM Import Discrete Transportation Events2012-06-28T15:03:49Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]<br />
<br />
== Create a Population Model for beef ==<br />
<br />
[[Image:STEM_DiscreteImport_CreatePopulationModel.png]]<br />
<br />
== Drag the Population Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPopulationModelToScenario.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:STEM_DiscreteImport_DragPopulationModelToScenario.png&diff=309133File:STEM DiscreteImport DragPopulationModelToScenario.png2012-06-28T15:02:32Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:STEM_DiscreteImport_CreatePopulationModel.png&diff=309132File:STEM DiscreteImport CreatePopulationModel.png2012-06-28T14:57:53Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309129STEM Import Discrete Transportation Events2012-06-28T14:26:12Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]<br />
<br />
== Drag the Sequencer into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragSequencerToScenario.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:STEM_DiscreteImport_DragSequencerToScenario.png&diff=309128File:STEM DiscreteImport DragSequencerToScenario.png2012-06-28T14:25:14Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309127STEM Import Discrete Transportation Events2012-06-28T14:21:48Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]<br />
<br />
== Drag the Trigger (was created during Pajek Import) to the Scenario<br />
<br />
[[Image:STEM_DiscreteImport_DragTriggerToScenario.png]]<br />
<br />
== Create a Sequencer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateSequencer.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:STEM_DiscreteImport_CreateSequencer.png&diff=309126File:STEM DiscreteImport CreateSequencer.png2012-06-28T14:21:15Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:STEM_DiscreteImport_DragTriggerToScenario.png&diff=309125File:STEM DiscreteImport DragTriggerToScenario.png2012-06-28T14:16:14Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309124STEM Import Discrete Transportation Events2012-06-28T14:13:59Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]<br />
<br />
== Drag the Model into the Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_DragModelToScenario.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:STEM_DiscreteImport_DragModelToScenario.png&diff=309122File:STEM DiscreteImport DragModelToScenario.png2012-06-28T14:12:55Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309120STEM Import Discrete Transportation Events2012-06-28T14:10:18Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]<br />
<br />
== Create a new Scenario ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateScenario.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:STEM_DiscreteImport_CreateScenario.png&diff=309119File:STEM DiscreteImport CreateScenario.png2012-06-28T14:09:17Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=STEM_Import_Discrete_Transportation_Events&diff=309116STEM Import Discrete Transportation Events2012-06-28T14:03:36Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div>This tutorial shows how to import the discrete transporation events from a Pajek file and visualize the events. Documentation on the Pajek format is available at [[Importing a Pajek Graph]]. The import of transportation data of beef for Austria is used as an example here.<br />
<br />
== The Pajek File ==<br />
<br />
The following text must be copied into a new textfile named '''graph.net'''. In the Vertices* section node references are specified for '''AT-2, AT-3, ... AT-10'''. These are nodes from the STEM library graph of Austria. In the Edges* section migration edges between these nodes are defined. The edges have default migration rate of zero and a rate >0 for a specified date. That means only a this date beef moves from one region to another.<br />
<br />
*Vertices 9<br />
1 AT-10<br />
2 AT-2<br />
3 AT-3<br />
4 AT-4<br />
5 AT-5<br />
6 AT-6<br />
7 AT-7<br />
8 AT-8<br />
9 AT-9<br />
*Edges<br />
1 2 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 3 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 4 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 5 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 6 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 7 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 8 popID beef rate 0 date 2012-01-01 rate 10.0<br />
1 9 popID beef rate 0 date 2012-01-01 rate 10.0<br />
2 3 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 4 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 5 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 6 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 7 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 8 popID beef rate 0 date 2012-01-02 rate 20.0<br />
2 9 popID beef rate 0 date 2012-01-02 rate 20.0<br />
3 4 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 5 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 6 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 7 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 8 popID beef rate 0 date 2012-01-03 rate 30.0<br />
3 9 popID beef rate 0 date 2012-01-03 rate 30.0<br />
4 5 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 6 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 7 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 8 popID beef rate 0 date 2012-01-04 rate 40.0<br />
4 9 popID beef rate 0 date 2012-01-04 rate 40.0<br />
5 6 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 7 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 8 popID beef rate 0 date 2012-01-05 rate 50.0<br />
5 9 popID beef rate 0 date 2012-01-05 rate 50.0<br />
6 7 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 8 popID beef rate 0 date 2012-01-06 rate 60.0<br />
6 9 popID beef rate 0 date 2012-01-06 rate 60.0<br />
7 8 popID beef rate 0 date 2012-01-07 rate 70.0<br />
7 9 popID beef rate 0 date 2012-01-07 rate 70.0<br />
8 9 popID beef rate 0 date 2012-01-08 rate 80.0<br />
<br />
== Create Project ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateProject.png]]<br />
<br />
== Create a new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateModel.png]]<br />
<br />
== Drag the Austria Geography Model into the new Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragAustriaToModel.png]]<br />
<br />
== Import the Pajek Graph ==<br />
<br />
[[Image:STEM_DiscreteImport_ImportPajek.png]]<br />
<br />
== Drag the imported Graph into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragPajekToModel.png]]<br />
<br />
== Create a Population Initializer ==<br />
<br />
[[Image:STEM_DiscreteImport_CreateInitializer.png]]<br />
<br />
== Drag the Initializer into the Model ==<br />
<br />
[[Image:STEM_DiscreteImport_DragInitializerToModel.png]]</div>Christian.thoens.bfr.bund.dehttps://wiki.eclipse.org/index.php?title=File:STEM_DiscreteImport_DragInitializerToModel.png&diff=309115File:STEM DiscreteImport DragInitializerToModel.png2012-06-28T14:01:43Z<p>Christian.thoens.bfr.bund.de: </p>
<hr />
<div></div>Christian.thoens.bfr.bund.de