SUMO2019: Author Index| Author | Papers |
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| A | | Akyol, Görkem | Pedestrian-Friendly Traffic Signal Control Using SUMO | | Alekszejenkó, Levente | SUMO Based Platform for Cooperative Intelligent Automotive Agents | | Alms, Robert | From Automated to Manual - Modeling Control Transitions with SUMO
Remarks on Traffic Signal Coordination | | Althoff, Matthias | Coupling SUMO with a Motion Planning Framework for Automated Vehicles | | Anvari, Bani | Low-dimensional estimation and prediction framework for description of the oscillatory traffic dynamics | | Arnold, Lukas | Investigation of the capacity of train stations in case of a large-scale emergency evacuation | | Aswakul, Chaodit | Reinforcement Learning Agent under Partial Observability for Traffic Light Control in Presence of Gridlocks
Recurrent and Non-recurrent Congestion Based Gridlock Detection on Chula-SSS Urban Road Network | | B | | Banijamali, Ahmad | Bridging the Gap between SUMO & Kuksa: Using A Traffic Simulator for Testing Cloud-based Connected Vehicle Services | | Barthauer, Mirko | Testing an Adaptive Cruise Controller with coupled traffic and driving simulations | | Behrisch, Michael | Modelling green waves for emergency vehicles using connected traffic data
Co-simulation of vehicles and crowds for rescue trials | | Bieker-Walz, Laura | Modelling green waves for emergency vehicles using connected traffic data | | Bonne, Jean-Benoît | Co-simulation of vehicles and crowds for rescue trials | | Braun, Anna | Investigation of the capacity of train stations in case of a large-scale emergency evacuation | | Bruining, Rinze | Co-simulation of vehicles and crowds for rescue trials | | Busch, Fritz | Analyzing the behavior of bicyclists using a bicycle simulator with a coupled SUMO and DYNA4 simulated environment | | C | | Chraibi, Mohcine | Investigation of the capacity of train stations in case of a large-scale emergency evacuation | | Chucholowski, Frederic | Co-simulation of the virtual vehicle in virtual traffic considering tactical driver decisions | | Codeca, Lara | DEMO - A Simulation Framework for Multi-modal Commuting and Parking Optimization. | | D | | Dobrowiecki, Tadeusz P. | SUMO Based Platform for Cooperative Intelligent Automotive Agents | | Dragoi, Octav | Coupling SUMO with a Motion Planning Framework for Automated Vehicles | | Driesch, Patrick | Introducing Road Surface Conditions into a Microscopic Traffic Simulation | | E | | Eissa, Mostafa | Coupling SUMO with a Motion Planning Framework for Automated Vehicles | | Erdağı, İsmet Gökşad | Emission Effects of Cooperative Adaptive Cruise Control: A Simulation Case Using SUMO | | Erdmann, Jakob | Modelling Bicycle Infrastructure in SUMO
Remarks on Traffic Signal Coordination
DEMO - A Simulation Framework for Multi-modal Commuting and Parking Optimization. | | F | | Flötteröd, Yun-Pang | Co-simulation of vehicles and crowds for rescue trials
From Automated to Manual - Modeling Control Transitions with SUMO
Remarks on Traffic Signal Coordination | | G | | Grigoropoulos, Georgios | Modelling Bicycle Infrastructure in SUMO | | Grohmann, Lukas | Anticipating Automated Vehicle Presence and the Effects on Interactions with Conventional Traffic and Infrastructure | | H | | Hafner, Alexander | Testing an Adaptive Cruise Controller with coupled traffic and driving simulations | | Heisig, Philipp | Bridging the Gap between SUMO & Kuksa: Using A Traffic Simulator for Testing Cloud-based Connected Vehicle Services | | Hendriks, Martijn | Co-simulation of vehicles and crowds for rescue trials | | Horsuwan, Thanapapas | Reinforcement Learning Agent under Partial Observability for Traffic Light Control in Presence of Gridlocks | | Härri, Jérôme | DEMO - A Simulation Framework for Multi-modal Commuting and Parking Optimization. | | Höttger, Robert | Bridging the Gap between SUMO & Kuksa: Using A Traffic Simulator for Testing Cloud-based Connected Vehicle Services | | J | | Jeroschewski, Sven Erik | Bridging the Gap between SUMO & Kuksa: Using A Traffic Simulator for Testing Cloud-based Connected Vehicle Services | | K | | Kaths, Heather | Modelling Bicycle Infrastructure in SUMO
Analyzing the behavior of bicyclists using a bicycle simulator with a coupled SUMO and DYNA4 simulated environment | | Kaths, Jakob | Co-simulation of the virtual vehicle in virtual traffic considering tactical driver decisions
Analyzing the behavior of bicyclists using a bicycle simulator with a coupled SUMO and DYNA4 simulated environment | | Keler, Andreas | Analyzing the behavior of bicyclists using a bicycle simulator with a coupled SUMO and DYNA4 simulated environment | | Klischat, Moritz | Coupling SUMO with a Motion Planning Framework for Automated Vehicles | | Koutras, Dimitrios | From Automated to Manual - Modeling Control Transitions with SUMO | | Kristan, Johannes | Bridging the Gap between SUMO & Kuksa: Using A Traffic Simulator for Testing Cloud-based Connected Vehicle Services | | Krol, Jakub | Low-dimensional estimation and prediction framework for description of the oscillatory traffic dynamics | | L | | Lenz, Gernot | Anticipating Automated Vehicle Presence and the Effects on Interactions with Conventional Traffic and Infrastructure | | Lot, Roberto | Low-dimensional estimation and prediction framework for description of the oscillatory traffic dynamics | | Lücken, Leonhard | From Automated to Manual - Modeling Control Transitions with SUMO
Modelling Bicycle Infrastructure in SUMO | | M | | Mintsis, Evangelos | From Automated to Manual - Modeling Control Transitions with SUMO | | Mon, Ei Ei | Recurrent and Non-recurrent Congestion Based Gridlock Detection on Chula-SSS Urban Road Network | | N | | Nitsche, Philippe | Anticipating Automated Vehicle Presence and the Effects on Interactions with Conventional Traffic and Infrastructure | | O | | Ochiai, Hideya | Recurrent and Non-recurrent Congestion Based Gridlock Detection on Chula-SSS Urban Road Network | | P | | Porfyri, Kallirroi N. | From Automated to Manual - Modeling Control Transitions with SUMO | | Prikryl, Jan | A Vehicle Device Tailored for Hybrid Trolleybuses and Overhead Wires Implementation in SUMO | | R | | Richter, Gerald | Anticipating Automated Vehicle Presence and the Effects on Interactions with Conventional Traffic and Infrastructure | | S | | Sachweh, Sabine | Bridging the Gap between SUMO & Kuksa: Using A Traffic Simulator for Testing Cloud-based Connected Vehicle Services | | Saivichit, Chaiyachet | Recurrent and Non-recurrent Congestion Based Gridlock Detection on Chula-SSS Urban Road Network | | Schott, Benedikt | Co-simulation of the virtual vehicle in virtual traffic considering tactical driver decisions | | Schramm, Dieter | Introducing Road Surface Conditions into a Microscopic Traffic Simulation | | Sevcik, Jakub | A Vehicle Device Tailored for Hybrid Trolleybuses and Overhead Wires Implementation in SUMO | | Silgu, Mehmet Ali | Emission Effects of Cooperative Adaptive Cruise Control: A Simulation Case Using SUMO
Pedestrian-Friendly Traffic Signal Control Using SUMO | | T | | Trumpold, Jan | Controlling a real-world intersection with connected vehicle information provided by CAMs (Cooperative Awareness Messages) | | V | | Vullings, Erik | Co-simulation of vehicles and crowds for rescue trials | | W | | Wagner, Peter | Remarks on Traffic Signal Coordination | | Weber, Thomas | Introducing Road Surface Conditions into a Microscopic Traffic Simulation | | Wesemeyer, Daniel | Controlling a real-world intersection with connected vehicle information provided by CAMs (Cooperative Awareness Messages) | | Ç | | Çelikoğlu, Hilmi Berk | Emission Effects of Cooperative Adaptive Cruise Control: A Simulation Case Using SUMO
Pedestrian-Friendly Traffic Signal Control Using SUMO |
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