| People | Locations | Statistics |
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| Seuring, Stefan |
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| Nor Azizi, S. |
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| Pato, Margarida Vaz |
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| Kölker, Katrin |
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| Huber, Oliver |
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| Király, Tamás |
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| Spengler, Thomas Stefan |
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| Al-Ammar, Essam A. |
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| Dargahi, Fatemeh |
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| Mota, Rui |
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| Mazalan, Nurul Aliah Amirah |
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| Macharis, Cathy | Brussels |
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| Arunasari, Yova Tri |
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| Nunez, Alfredo | Delft |
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| Bouhorma, Mohammed |
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| Bonato, Matteo |
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| Fitriani, Ira |
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| Autor Correspondente Coelho, Sílvia. |
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| Pond, Stephen |
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| Okwara, Ukoha Kalu |
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| Toufigh, Vahid |
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| Campisi, Tiziana | Enna |
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| Ermolieva, Tatiana |
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| Sánchez-Cambronero, Santos |
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| Agzamov, Akhror |
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Schreckenberg, Michael
Deutsche Forschungsgemeinschaft
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (14/14 displayed)
- 2020Cellular Automata Intersection Modelcitations
- 2020Correlations in Spatiotemporal Headway Dynamics of Road Traffic Using Extremely Accurate Microscopic Empirical Data
- 2020Movement Characteristics of Processions
- 2018Simulation and Optimization of Ground Traffic on Airports using Cellular Automatacitations
- 2016Impact of Synchronised Flow in Oversaturated City Traffic on Energy Efficiency of Conventional and Electrical Vehiclescitations
- 20141st SUMO User Conference 2013
- 2013Statistische Analyse von Hochflusszuständen im Verkehr ; Statistical Analysis of High-Flow Traffic States
- 2013SPECIAL ISSUE Application of Cellular Automata to Crowds and Traffic Dynamics
- 2013Editorial
- 2011Stauforschung und Elektromobilität: Wie wird sich der Verkehr auf unseren Straßen durch Elektromobile verändern?
- 2005Traffic and Granular Flow ’03citations
- 2003Optimal traffic states in a cellular automaton for city traffic
- 2002A Microscopic Simulator for Freeway Trafficcitations
- 2002Experiments and Simulations on Day-to-Day Route Choice-Behaviour
Places of action
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article
Movement Characteristics of Processions
Abstract
Processions are a scientifically not much investigated traffic system. Recent studies found that the first participant in the Cologne Rose Monday parade has a remarkable higher travel time than the last participant. The velocity profiles of the participants are explained by the constant moving vehicle driving ahead of the parade leaving the pathway and partly due to a spatial contraction of the parade during the procession. This contribution compares the traffic kinematics of the Cologne Rose Monday parade in Germany with other processions (Schuetzenausmarsch Hanover 2017, Niederrheinischer Kinderkarnevalsumzug 2018). The kinematics of these processions were analysed based on GPS data from participants. Their kinematics differ from those of the Cologne Rose Monday parade. In general, the observations depend on the size of a procession, the length of its pathway, the composition of the procession and especially on the catching up behaviour, of the participants, when gaps occur in front of them. Furthermore, we examine the influence of the pathway on the traffic flow. This can be used to choose a parade’s pathway avoiding flow reducing infrastructure characteristics like traffic area transitions, narrow curves etc. In summary, this work extends the understanding of the kinematics of processions. It can serve as a basis upon which the parade’s movement can be predicted and so the duration of such events can be estimated better.
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