At the DLR#
Current Projects#
- MAVEN Managing Automated Vehicles Enhances Network
- TransAID new hierarchical traffic management procedures to allow the smooth integration of automated vehicles in traffic systems
- VITAL: innovative traffic light control with V2X Communication.
- VABENE. SUMO simulates and predicts large-scale traffic for disaster and public event management
- I.MoVe developing additional car following models
- Urban Mobility Intermodal routing and modeling of transfer between vehicles in SUMO
- Mobility Inside Using SUMO's intermodal routing engine
- HubChain (german) simulating autonomous public transport in rural areas
- MENDEL modeling electric buses and optimizing charging with respect to grid load
Past Projects#
- VEU. In this project, SUMO is used to simulated the traffic of Berlin
- COLOMBO Cooperative Self-Organizing System for low Carbon Mobility at low Penetration Rates
- AMITRAN
- MODUM
- iTetris An Integrated Wireless and Traffic Platform for Real-Time Road Traffic Management Solutions
- Delphi: country-wide traffic analysis and prognosis for Germany
- ORINOKO: improvements on mobility in the city of Nürnberg
- TrafficOnline: traffic flow estimation using cellular phones
- Soccer2006: Traffic prognosis during the FIFA-WorldCup 2006
- Weltjugendtag2005: Traffic prognosis during the world youth day 2005
- TrafficTower: A virtual traffic management centre
- INVENT: Evaluation of modern traffic management approaches
- OIS: Verification of using optical sensors for optimization of traffic lights
- CityMobil Automatic urban transportation. A simulation for a parking lot inspired by the Rome demonstrator is included with SUMO.
- DRIVE C2X Driving implementation and evaluation of C2X communication technology
At other Institutions#
Current Projects#
- MultiAgent Control of Traffic Signals
- VENTOS a VEhicular NeTwork Open Simulator
- Webots a 3D physics robot simulator connected to SUMO
- eWorld - an application that allows to convert and enrich roads networks; interaction is done via the TraCI-protocol
- Environmental Monitoring in/of Metropolitan Areas by Sven Lahde, Michael Doering, Wolf-Bastian Pöttner, Moritz Rosin, Gerrit Lammert and Lars Wolf from the University of Braunschweig, Germany
- AutoNomos - A Distributed and Self-Regulating Approach for Organizing a Large System of Mobile Objects. Axel Wegener, Horst Hellbrück and Stefan Fischer from the University of Luebeck, Germany in cooperation with Sándor Fekete from Braunschweig Technical University, Germany
- TraNS - Traffic and Network Simulation environment for design, implementation and realistic evaluation of VANET applications by Michal Piorkowski, Maxim Raya, Ada Lezama Lugo and Jean-Pierre Hubaux from Laboratory for Computer Communications and Applications (LCA), EPFL, Switzerland TraNS is the first open-source project providing a full-blown application-centric evaluation framework for VANETs. It has a unique set of features necessary to build VANET applications and evaluate them in realistic conditions. It comes with a set of ready to use examples. publications: Piorkowski, Raya, Lugo, Papadimitratos, Grossglauser, Hubaux 2007
- Veins - "Vehicles in Network Simulation" by Christoph Sommer from the Department of Computer Science, University of Erlangen, Germany publications: Sommer, Yao, German, Dressler, 2008, Sommer, Yao, German, Dressler, 2008 (2)
- "Assessment of traffic regulation policies for the minimization of pollutants emissions" by Mauro Bianchi at CEFRIEL, Italy. This project uses SUMO in combination with EMEP/CORINAIR methodology for evaluating the impact of different traffic regulation strategies on pollutants emissions. Traffic simulations are performed offline for identifying some optimal regulation policies for different local traffic conditions, using a simple evolutionary algorithm. We hypothesize an online regulation system with a network of sensors that is used to recognize the current traffic situations and deploy the optimal traffic regulation policies.
- Fidens – Trust between Cooperative Systems in Application to VANETs This project investigates trust in vehicular networks (VANETs). Besides the trust research, it features a simulation environment for large scale vehicular network applications. Our typical scenario involves about 13000 vehicles per day over 26 weeks. We build on top of SUMO and the network simulator Shawn. Shawn aims on investigating an algorithm in a network while the underlying layers are kept well controlled. To do so, it simulates the effects of the underlying layers, not their protocols in detail. This makes it especially fast and suitable for application developers.
Past Projects#
- Congestion-Aware Vehicular Traffic Routing Using WiFi Hotspots by David N. Cottingham, Jonathan J. Davies, & Alastair R. Beresford from the University of Cambridge, UK publications: Cottingham, Davies, Beresford, 2005
- GPS-Route by Stefan Edelkamp, Shahidd Jabar and Tilman Mehrer (supervisors) from the University of Dortmund, Germany many thanks go to students who have extendended SUMO: Maik Drozdzynski, Andreas Gaubatz and Miguel Liebe publications: Edelkamp, Jabar, Mehrer, 2005
- Rapid Generation of Realistic Simulation for VANET by Feliz Karnadi, Zhi Hai Mo, and Kun Chan Lan from the University of New South Wales, Sydney, Australia many thanks for extending SUMO! publications: Karnadi, Mo, Lan, 2005
- "iTranSIM - Simulation-based Vehicle Location" by Tino Morenz; Master thesis; 2008
- "Analyse und Simulation von Verkettbarkeitsmaßen in pseudonymer, mobiler Kommunikation" by Clemens Honomichl; Diploma thesis; 2008
- emil - Elektrobusse mit induktiver Ladetechnik (german only)
- Metro Traffic Simulator
Code repositories with SUMO related stuff#
- NetPopulate Demand generation for SUMO
- C# and ANSI C TraCI interface
- Integrated Framework for Mathematical Simulations (IFMS)
- Veins
- Secure Cycle project established during the BCX 2018
- An open source traffic light control program
- PyPML - Python Parking Monitoring Library
- SAGA - An Activity-based Multi-modal Mobility Scenario Generator for SUMO.
- RLLIB+SUMO Utils is a connector between the RLLIB library and SUMO that uses TraCI. It can be tested using RLLIB+SUMO Docker based on a GPU-enabled official TensorFlow image.
- DCARP-SUMO-Simulation Benchmarking Dynamic Capacitated Arc Routing Algorithms Using Real-World Traffic Simulation. There is also a related paper
Visualization related#
- Web-based 3D visualization of SUMO microsimulations using TraCI and three.js
- Unity based 3D driving simulator
- Unity visualization of pedestrian trajectories based on a WebGL project
- SUMO3d - A partial unity 3D project for coupling SUMO and Unity3D
- Unity frontend for SUMO
- https://github.com/BMEAutomatedDrive/SUMO-Unity3D-connection