Simulation of Urban MObility - Wiki
Welcome to SUMOWiki
This Wiki contains information about the SUMO simulation framework. "Simulation of Urban MObility" (SUMO) is an open source, highly portable, microscopic road traffic simulation package designed to handle large road networks. It is mainly developed by employees of the Institute of Transportation Systems at the German Aerospace Center.
Here you can get answers to frequently asked questions or follow Tutorials. Furthermore this Wiki serves as communication platform for the Sumo developers and last but not least as a project reference concerning projects and publications in connection with Sumo.
The content of this Wiki is freely editable according to the wiki style. That means, whenever You find a solution to a problem mentioned on the mailing lists, feel free to add an article to this Wiki or an entry to the frequently asked questions. Here is a short help on editing articles.
SUMO started as an open source project in 2000. The idea was to support the traffic research community with a common platform to test and compare models of vehicle behaviour, traffic light optimisation, routing etc.
The package contains the following applications:
- command-line simulation (SUMO)
- simulation with a graphical user interface (GUI); Screenshots
- network builder/converter (NETCONVERT)
- network builder/generator (NETGEN)
- OD-matrix to trip definitions converter (OD2TRIPS)
- a router using a dynamic user assignement approach (DUAROUTER)
- a router using junction ratio descriptions (JTRROUTER)
- a router using induction loop measures (DFROUTER)
- a polygon importer (POLYCONVERT)
The car movement model is a microscopic, space-continuous and time-discrete car-following model developed by Stefan Krauß (see Krauss1998_1, Krauss1998_2). The traffic assignment is made using the DUA-approach by Christian Gawron (see Gawron1998_1).
SUMO is licensed under the GPL.
From the begin on the following design principles were followed: the software has to be as portable and as fast as possible. The first is reached by usage of the standard C++ - functions only, the second by using Krauß' fast car-following model for the computation of vehicle movements.
Other limitations such as the memory usage are not considered that much, although a simulation of large areas shall be possible on normal desktop computers.
Release 0.9.10 (latest stable), from 16.09.2008:
- Precompiled, runnable binaries for MS Windows: sumo-winbin-0.9.10.zip, ~6.6MB
- Source code tar-ball: sumo-src-0.9.10.tar.gz, ~3.8MB
Other packages can be obtained from the Downloads section.
- FAQ - frequently asked questions
- InstallBinary - How to use the binary Windows distribution
- Tutorials - first steps in Sumo
- Glossary - Sumo terms and abbreviations explained
- ChangeLog - information about the changes between subsequent releases
- DataDefinitions - more documentation about data formats (in work)
- AdditionalTools - some additional applications that ease the work
- FreeNetworks - some information about sources of networks and how to parse them
- Additional Documentation
- Persian SUMO tutorial on version 0.9.8; thanks to Omid Mohajerani
- Persian tutorial on "Vehicular Adhoc Network Simulation With NS2, SUMO And MOVE"; thanks to Omid Mohajerani
- Contact - how to get in touch with other sumo users and developers
- DeveloperDocumentation - additional documentation for developers (building, modules, etc.)
- Projects - this contains references to all projects using Sumo, if you start a new one, please add a line (and possibly a link) there
- Publications - a list of publications either referring to Sumo or referred by Sumo (e.g. in the user documentation), if you publish something please add a link
- Links - related projects and other pages of interest
- Diplom- und Studienarbeiten - proposals for diploma and other theses (in German)
Related to C2C
- TraCI: A Framework for Coupling Road Traffic and Network Simulators
- TraceExporter - Transforms SUMO-netstate dumps into ns2-trace files (home: http://www.auto-nomos.de)
- TraNS - Traffic and Network Simulation environment for design, implementation and realistic evaluation of VANET applications. It is based on TraCI (home: http://trans.epfl.ch)
- RapidGenerationOfRealisticSimulationForVANET - Connection between SUMO and ns2 (home: http://lens1.csie.ncku.edu.tw/MOVE/index.htm)
- Veins - Connection between SUMO and OMNeT++ (home: http://www7.informatik.uni-erlangen.de/veins/)
Related to online calibration
- iTranSIM - extension of SUMO by online-calibration using induction loop data by Tino Morenz
Related to other topics
- eWorld - an application that allows to convert and enrich roads networks; interaction is done via the TraCI-protocol (home: http://eworld.sourceforge.net/)