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| Tekkaya, A. Erman |
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| Förster, Peter |
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| Mudimu, George T. |
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| Shibata, Lillian Marie |
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| Talabbeydokhti, Nasser |
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| Laffite, Ernesto Dante Rodriguez |
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| Schöpke, Benito |
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| Gobis, Anna |
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| Alfares, Hesham K. |
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| Münzel, Thomas |
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| Joy, Gemini Velleringatt |
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| Oubahman, Laila |
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| Filali, Youssef |
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| Philippi, Paula |
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| George, Alinda |
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| Lucia, Caterina De |
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| Avril, Ludovic |
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| Belachew, Zigyalew Gashaw |
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| Kassens-Noor, Eva | Darmstadt |
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| Cho, Seongchul |
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| Tonne, Cathryn |
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| Hosseinlou, Farhad |
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| Ganvit, Harsh |
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| Schmitt, Konrad Erich Kork |
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| Grimm, Daniel |
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Wolfermann, Axel
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (15/15 displayed)
- 2018Quantifying the climate impact of emissions from land-based transport in Germanycitations
- 2017Quantifying the climate impact of emissions from land-based transport in Germanycitations
- 2016Transport cost: An aggregated model for surface freight transport based on cost components and market segments
- 2015Impact of ITS on CO2 emissions - the contribution of a standardised assessment frameworkcitations
- 2013Estimating service related traffic demand from trip chain datacitations
- 2013The impact of ITS on CO2 emissions – An analysis of effect chains
- 2012Did commercial traffic models already reach adulthood?
- 2012A nation-wide macroscopic freight traffic model
- 2012User needs for a standardized CO2 emission assessment methodology for Intelligent Transport Systems
- 2011Data fusion for traffic flow estimation at intersections
- 2011Data issues in Europe: From the EU to the German Aerospace Center
- 2011Implications of Cooperative Adaptive Cruise Control�for the Traffic Flow
- 2011Multimodal Assessment of Signalized Intersections Considering the Number of Travellers
- 2010A methodology for the simulation based assessment of coordination strategies for signalized networks using Particle Swarm Optimization
- 2009Influence of Intergreen Times on the Capacity of Signalised Intersections
Places of action
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conferencepaper
A methodology for the simulation based assessment of coordination strategies for signalized networks using Particle Swarm Optimization
Abstract
The coordination of signal programs at adjacent intersections offers many advantages, the most important being that travel times and emissions can be reduced. However, coordination is a multivariate optimization problem with many constraints. Numerous optimization strategies have been devised in the past. The quality of these coordination strategies depends on three major factors: the quality of the optimization procedure itself, the performance measures it is based upon, and the quality of the input data. In real world applications, the impact of the latter factor in relation to the other factors is commonly a source of great uncertainty. To be able to analyze all three factors, a methodology has been developed to compare different offline optimization strategies using complete information of the traffic flow. The complete information is obtained by using a mesoscopic traffic flow simulation (AVENUE). To have a benchmark for a given optimization function, the best possible coordination for given conditions (traffic demand etc.) is computed using Particle Swarm Optimization (PSO). Different strategies can then be compared to this benchmark and with each other. Furthermore, the stability of the strategies under changing traffic demand and the effect on different performance indices (e.g. number of stops, average delay) can be evaluated. This article describes the methodology, expands upon Particle Swarm Optimiza-tion as a useful tool in signal control, and highlights the opportunities arising out of the chosen approach.
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