SUMO2019: Volume InformationSUMO User Conference 201922 articles•257 pages•Published: August 13, 2019 Papers| Moritz Klischat, Octav Dragoi, Mostafa Eissa and Matthias Althoff 1-9 | | Laura Bieker-Walz and Michael Behrisch 10-20 | | Jakob Kaths, Benedikt Schott and Frederic Chucholowski 21-28 | | Thanapapas Horsuwan and Chaodit Aswakul 29-47 | | Mirko Barthauer and Alexander Hafner 48-55 | | Yun-Pang Flötteröd, Michael Behrisch, Martijn Hendriks, Jean-Benoît Bonne, Erik Vullings and Rinze Bruining 56-67 | | Anna Braun, Mohcine Chraibi and Lukas Arnold 68-77 | | Jakub Krol, Bani Anvari and Roberto Lot 78-91 | | İsmet Gökşad Erdağı, Mehmet Ali Silgu and Hilmi Berk Çelikoğlu 92-100 | | Görkem Akyol, Mehmet Ali Silgu and Hilmi Berk Çelikoğlu 101-106 | | Levente Alekszejenkó and Tadeusz P. Dobrowiecki 107-123 | | Leonhard Lücken, Evangelos Mintsis, Kallirroi Porfyri, Robert Alms, Yun-Pang Flötteröd and Dimitrios Koutras 124-144 | | Jakub Sevcik and Jan Prikryl 145-157 | | Ei Ei Mon, Hideya Ochiai, Chaiyachet Saivichit and Chaodit Aswakul 158-171 | | Thomas Weber, Patrick Driesch and Dieter Schramm 172-186 | | Georgios Grigoropoulos, Leonhard Lücken, Jakob Erdmann and Heather Kaths 187-198 | | Heather Kaths, Andreas Keler, Jakob Kaths and Fritz Busch 199-205 | | Daniel Wesemeyer and Jan Trumpold 206-212 | | Philipp Heisig, Sven Erik Jeroschewski, Johannes Kristan, Robert Höttger, Ahmad Banijamali and Sabine Sachweh 213-229 | | Gerald Richter, Lukas Grohmann, Philippe Nitsche and Gernot Lenz 230-243 | | Peter Wagner, Robert Alms, Jakob Erdmann and Yun-Pang Flötteröd 244-255 | | Lara Codeca, Jérôme Härri and Jakob Erdmann 256-257 |
KeyphrasesAdaptive Cruise Control, Adaptive Traffic Control2, Automated connected vehicles, automated vehicles, Automation, autonomous vehicles, behaviour modelling, Bicycle Infrastructure Modelling, Bicycle simulator, Bicycle Traffic Simulation, Bicyclists, capacity of train stations, Car-following model, Car2X, Circuit Network Solver, Connected Vehicles, Cooperative Adaptive Cruise Control, Coupled simulators, crisis management, crossing scheduling, driver model2, driving performance, driving simulator, Electrification of Public Transport, Emissions, gridlock, gridlock detection, Hybrid Trolleybus, Infrastructure, intelligent traffic control systems, Interoperability, IoT, large-scale emergency evacuation, Large-scale Mobility Scenario, Mobility, motion planning, multiagent simulation platform, Overhead wires, Parking optimization, partial observability, pedestrian simulation, Pedestrian traffic, platooning, Reinforcement Learning, Road Surface Conditions, self-organizing traffic, simulation2, simulation coupling, Simulation of Urban Mobility, Smart Cars, smart mobility, software architecture, state estimation, SUMO3, SUMO Vehicle Device, takeover, traffic and crowd Simulation, traffic congestion, traffic flow simulation, traffic light control, Traffic Management2, traffic modelling, traffic signal co-ordination, traffic signal optimization, traffic simulation6, Transition of control, urban road network, vehicle simulation, Vehicles, Vehicular Communication, Velocity profile prediction. |
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