13 research outputs found
A Deep Reinforcement Learning Approach for Dynamic Traffic Light Control with Transit Signal Priority
Traffic light control (TLC) with transit signal priority (TSP) is an effective way to deal with urban congestion and travel delay. The growing amount of available connected vehicle data offers opportunities for signal control with transit priority, but the conventional control algorithms fall short in fully exploiting those datasets. This paper proposes a novel approach for dynamic TLC with TSP at an urban intersection. We propose a deep reinforcement learning based framework JenaRL to deal with the complex real-world intersections. The optimisation focuses on TSP while balancing the delay of all vehicles. A two-layer state space is defined to capture the real-time traffic information, i.e. vehicle position, type and incoming lane. The discrete action space includes the optimal phase and phase duration based on the real-time traffic situation. An intersection in the inner city of Jena is constructed in an open-source microscopic traffic simulator SUMO. A time-varying traffic demand of motorised individual traffic (MIT), the current TLC controller of the city, as well as the original timetables of the public transport (PT) are implemented in simulation to construct a realistic traffic environment. The results of the simulation with the proposed framework indicate a significant enhancement in the performance of traffic light controller by reducing the delay of all vehicles, and especially minimising the loss time of PT
Proceedings of the 4th Symposium on Management of Future Motorway and Urban Traffic Systems 2022
The 4th Symposium on Management of Future Motorway and Urban Traffic Systems (MFTS) was held in Dresden, Germany, from November 30th to December 2nd, 2022. Organized by the Chair of Traffic Process Automation (VPA) at the âFriedrich Listâ Faculty of Transport and Traffic Sciences of the TU Dresden, the proceedings of this conference are published as volume 9 in the Chairâs publication series âVerkehrstelematikâ and contain a large part of the presented conference extended abstracts.
The focus of the MFTS conference 2022 was cooperative management of multimodal transport and reflected the vision of the professorship to be an internationally recognized group in ITS research and education with the goal of optimizing the operation of multimodal transport systems.
In 14 MFTS sessions, current topics in demand and traffic management, traffic control in conventional, connected and automated transport, connected and autonomous vehicles, traffic flow modeling and simulation, new and shared mobility systems, digitization, and user behavior and safety were discussed. In addition, special sessions were organized, for example on âHuman aspects in traffic modeling and simulationâ and âLesson learned from Covid19 pandemicâ, whose descriptions and analyses are also included in these proceedings.:1 Connected and Automated Vehicles
1.1 Traffic-based Control of Truck Platoons on Freeways
1.2 A Lateral Positioning Strategy for Connected and Automated Vehicles in Lane-free Traffic
1.3 Simulation Methods for Mixed Legacy-Autonomous Mainline Train Operations
1.4 Can Dedicated Lanes for Automated Vehicles on Urban Roads Improve Traffic Efficiency?
1.5 GLOSA System with Uncertain Green and Red Signal Phases
2 New Mobility Systems
2.1 A New Model for Electric Vehicle Mobility and Energy Consumption in Urban Traffic Networks
2.2 Shared Autonomous Vehicles Implementation for a Disrupted Public Transport Network
3 Traffic Flow and Simulation
3.1 Multi-vehicle Stochastic Fundamental Diagram Consistent with Transportations Systems Theory
3.2 A RoundD-like Roundabout Scenario in CARLA Simulator
3.3 Multimodal Performance Evaluation of Urban Traffic Control: A Microscopic Simulation Study
3.4 A MILP Framework to Solve the Sustainable System Optimum with Link MFD Functions
3.5 On How Traffic Signals Impact the Fundamental Diagrams of Urban Roads
4 Traffic Control in Conventional Traffic
4.1 Data-driven Methods for Identifying Travel Conditions Based on Traffic and Weather Characteristics
4.2 AI-based Multi-class Traffic Model Oriented to Freeway Traffic Control
4.3 Exploiting Deep Learning and Traffic Models for Freeway Traffic Estimation
4.4 Automatic Design of Optimal Actuated Traffic Signal Control with Transit Signal Priority
4.5 A Deep Reinforcement Learning Approach for Dynamic Traffic Light Control with Transit Signal Priority
4.6 Towards Efficient Incident Detection in Real-time Traffic Management
4.7 Dynamic Cycle Time in Traffic Signal of Cyclic Max-Pressure Control
5 Traffic Control with Autonomous Vehicles
5.1 Distributed Ordering and Optimization for Intersection Management with Connected and Automated Vehicles
5.2 Prioritization of an Automated Shuttle for V2X Public Transport at a Signalized Intersection â a Real-life Demonstration
6 User Behaviour and Safety
6.1 Local Traffic Safety Analyzer (LTSA) - Improved Road Safety and Optimized Signal Control for Future Urban Intersections
7 Demand and Traffic Management
7.1 A Stochastic Programming Method for OD Estimation Using LBSN Check-in Data
7.2 Delineation of Traffic Analysis Zone for Public Transportation OD Matrix Estimation Based on Socio-spatial Practices
8 Workshops
8.1 How to Integrate Human Aspects Into Engineering Science of Transport and Traffic? - a Workshop Report about Discussions on Social Contextualization of Mobility
8.2 Learning from Covid: How Can we Predict Mobility Behaviour in the Face of Disruptive Events? â How to Investigate the Mobility of the FutureDas 4. Symposium zum Management zukĂŒnftiger Autobahn- und Stadtverkehrssysteme (MFTS) fand vom 30. November bis 2. Dezember 2022 in Dresden statt und wurde vom Lehrstuhl fĂŒr Verkehrsprozessautomatisierung (VPA) an der FakultĂ€t VerkehrswissenschaftenâFriedrich Listâ der TU Dresden organisiert. Der Tagungsband erscheint als Band 9 in der Schriftenreihe âVerkehrstelematikâ des Lehrstuhls und enthĂ€lt einen GroĂteil der vorgestellten Extended-Abstracts des Symposiums.
Der Schwerpunkt des MFTS-Symposiums 2022 lag auf dem kooperativen Management multimodalen Verkehrs und spiegelte die Vision der Professur wider, eine international anerkannte Gruppe in der ITS-Forschung und -Ausbildung mit dem Ziel der Optimierung des Betriebs multimodaler Transportsysteme zu sein.
In 14 MFTS-Sitzungen wurden aktuelle Themen aus den Bereichen Nachfrage- und Verkehrsmanagement, Verkehrssteuerung im konventionellen, vernetzten und automatisierten Verkehr, vernetzte und autonome Fahrzeuge, Verkehrsflussmodellierung und -simulation, neue und geteilte MobilitĂ€tssysteme, Digitalisierung sowie Nutzerverhalten und Sicherheit diskutiert. DarĂŒber hinaus wurden Sondersitzungen organisiert, beispielsweise zu âMenschlichen Aspekten bei der Verkehrsmodellierung und -simulationâ und âLektionen aus der Covid-19-Pandemieâ, deren Beschreibungen und Analysen ebenfalls in diesen Tagungsband einflieĂen.:1 Connected and Automated Vehicles
1.1 Traffic-based Control of Truck Platoons on Freeways
1.2 A Lateral Positioning Strategy for Connected and Automated Vehicles in Lane-free Traffic
1.3 Simulation Methods for Mixed Legacy-Autonomous Mainline Train Operations
1.4 Can Dedicated Lanes for Automated Vehicles on Urban Roads Improve Traffic Efficiency?
1.5 GLOSA System with Uncertain Green and Red Signal Phases
2 New Mobility Systems
2.1 A New Model for Electric Vehicle Mobility and Energy Consumption in Urban Traffic Networks
2.2 Shared Autonomous Vehicles Implementation for a Disrupted Public Transport Network
3 Traffic Flow and Simulation
3.1 Multi-vehicle Stochastic Fundamental Diagram Consistent with Transportations Systems Theory
3.2 A RoundD-like Roundabout Scenario in CARLA Simulator
3.3 Multimodal Performance Evaluation of Urban Traffic Control: A Microscopic Simulation Study
3.4 A MILP Framework to Solve the Sustainable System Optimum with Link MFD Functions
3.5 On How Traffic Signals Impact the Fundamental Diagrams of Urban Roads
4 Traffic Control in Conventional Traffic
4.1 Data-driven Methods for Identifying Travel Conditions Based on Traffic and Weather Characteristics
4.2 AI-based Multi-class Traffic Model Oriented to Freeway Traffic Control
4.3 Exploiting Deep Learning and Traffic Models for Freeway Traffic Estimation
4.4 Automatic Design of Optimal Actuated Traffic Signal Control with Transit Signal Priority
4.5 A Deep Reinforcement Learning Approach for Dynamic Traffic Light Control with Transit Signal Priority
4.6 Towards Efficient Incident Detection in Real-time Traffic Management
4.7 Dynamic Cycle Time in Traffic Signal of Cyclic Max-Pressure Control
5 Traffic Control with Autonomous Vehicles
5.1 Distributed Ordering and Optimization for Intersection Management with Connected and Automated Vehicles
5.2 Prioritization of an Automated Shuttle for V2X Public Transport at a Signalized Intersection â a Real-life Demonstration
6 User Behaviour and Safety
6.1 Local Traffic Safety Analyzer (LTSA) - Improved Road Safety and Optimized Signal Control for Future Urban Intersections
7 Demand and Traffic Management
7.1 A Stochastic Programming Method for OD Estimation Using LBSN Check-in Data
7.2 Delineation of Traffic Analysis Zone for Public Transportation OD Matrix Estimation Based on Socio-spatial Practices
8 Workshops
8.1 How to Integrate Human Aspects Into Engineering Science of Transport and Traffic? - a Workshop Report about Discussions on Social Contextualization of Mobility
8.2 Learning from Covid: How Can we Predict Mobility Behaviour in the Face of Disruptive Events? â How to Investigate the Mobility of the Futur
A Deep Reinforcement Learning Approach for Dynamic Traffic Light Control with Transit Signal Priority
Traffic light control (TLC) with transit signal priority (TSP) is an effective way to deal with urban congestion and travel delay. The growing amount of available connected vehicle data offers opportunities for signal control with transit priority, but the conventional control algorithms fall short in fully exploiting those datasets. This paper proposes a novel approach for dynamic TLC with TSP at an urban intersection. We propose a deep reinforcement learning based framework JenaRL to deal with the complex real-world intersections. The optimisation focuses on TSP while balancing the delay of all vehicles. A two-layer state space is defined to capture the real-time traffic information, i.e. vehicle position, type and incoming lane. The discrete action space includes the optimal phase and phase duration based on the real-time traffic situation. An intersection in the inner city of Jena is constructed in an open-source microscopic traffic simulator SUMO. A time-varying traffic demand of motorised individual traffic (MIT), the current TLC controller of the city, as well as the original timetables of the public transport (PT) are implemented in simulation to construct a realistic traffic environment. The results of the simulation with the proposed framework indicate a significant enhancement in the performance of traffic light controller by reducing the delay of all vehicles, and especially minimising the loss time of PT
Proceedings of the 4th Symposium on Management of Future Motorway and Urban Traffic Systems 2022
The 4th Symposium on Management of Future Motorway and Urban Traffic Systems (MFTS) was held in Dresden, Germany, from November 30th to December 2nd, 2022. Organized by the Chair of Traffic Process Automation (VPA) at the âFriedrich Listâ Faculty of Transport and Traffic Sciences of the TU Dresden, the proceedings of this conference are published as volume 9 in the Chairâs publication series âVerkehrstelematikâ and contain a large part of the presented conference extended abstracts.
The focus of the MFTS conference 2022 was cooperative management of multimodal transport and reflected the vision of the professorship to be an internationally recognized group in ITS research and education with the goal of optimizing the operation of multimodal transport systems.
In 14 MFTS sessions, current topics in demand and traffic management, traffic control in conventional, connected and automated transport, connected and autonomous vehicles, traffic flow modeling and simulation, new and shared mobility systems, digitization, and user behavior and safety were discussed. In addition, special sessions were organized, for example on âHuman aspects in traffic modeling and simulationâ and âLesson learned from Covid19 pandemicâ, whose descriptions and analyses are also included in these proceedings.:1 Connected and Automated Vehicles
1.1 Traffic-based Control of Truck Platoons on Freeways
1.2 A Lateral Positioning Strategy for Connected and Automated Vehicles in Lane-free Traffic
1.3 Simulation Methods for Mixed Legacy-Autonomous Mainline Train Operations
1.4 Can Dedicated Lanes for Automated Vehicles on Urban Roads Improve Traffic Efficiency?
1.5 GLOSA System with Uncertain Green and Red Signal Phases
2 New Mobility Systems
2.1 A New Model for Electric Vehicle Mobility and Energy Consumption in Urban Traffic Networks
2.2 Shared Autonomous Vehicles Implementation for a Disrupted Public Transport Network
3 Traffic Flow and Simulation
3.1 Multi-vehicle Stochastic Fundamental Diagram Consistent with Transportations Systems Theory
3.2 A RoundD-like Roundabout Scenario in CARLA Simulator
3.3 Multimodal Performance Evaluation of Urban Traffic Control: A Microscopic Simulation Study
3.4 A MILP Framework to Solve the Sustainable System Optimum with Link MFD Functions
3.5 On How Traffic Signals Impact the Fundamental Diagrams of Urban Roads
4 Traffic Control in Conventional Traffic
4.1 Data-driven Methods for Identifying Travel Conditions Based on Traffic and Weather Characteristics
4.2 AI-based Multi-class Traffic Model Oriented to Freeway Traffic Control
4.3 Exploiting Deep Learning and Traffic Models for Freeway Traffic Estimation
4.4 Automatic Design of Optimal Actuated Traffic Signal Control with Transit Signal Priority
4.5 A Deep Reinforcement Learning Approach for Dynamic Traffic Light Control with Transit Signal Priority
4.6 Towards Efficient Incident Detection in Real-time Traffic Management
4.7 Dynamic Cycle Time in Traffic Signal of Cyclic Max-Pressure Control
5 Traffic Control with Autonomous Vehicles
5.1 Distributed Ordering and Optimization for Intersection Management with Connected and Automated Vehicles
5.2 Prioritization of an Automated Shuttle for V2X Public Transport at a Signalized Intersection â a Real-life Demonstration
6 User Behaviour and Safety
6.1 Local Traffic Safety Analyzer (LTSA) - Improved Road Safety and Optimized Signal Control for Future Urban Intersections
7 Demand and Traffic Management
7.1 A Stochastic Programming Method for OD Estimation Using LBSN Check-in Data
7.2 Delineation of Traffic Analysis Zone for Public Transportation OD Matrix Estimation Based on Socio-spatial Practices
8 Workshops
8.1 How to Integrate Human Aspects Into Engineering Science of Transport and Traffic? - a Workshop Report about Discussions on Social Contextualization of Mobility
8.2 Learning from Covid: How Can we Predict Mobility Behaviour in the Face of Disruptive Events? â How to Investigate the Mobility of the FutureDas 4. Symposium zum Management zukĂŒnftiger Autobahn- und Stadtverkehrssysteme (MFTS) fand vom 30. November bis 2. Dezember 2022 in Dresden statt und wurde vom Lehrstuhl fĂŒr Verkehrsprozessautomatisierung (VPA) an der FakultĂ€t VerkehrswissenschaftenâFriedrich Listâ der TU Dresden organisiert. Der Tagungsband erscheint als Band 9 in der Schriftenreihe âVerkehrstelematikâ des Lehrstuhls und enthĂ€lt einen GroĂteil der vorgestellten Extended-Abstracts des Symposiums.
Der Schwerpunkt des MFTS-Symposiums 2022 lag auf dem kooperativen Management multimodalen Verkehrs und spiegelte die Vision der Professur wider, eine international anerkannte Gruppe in der ITS-Forschung und -Ausbildung mit dem Ziel der Optimierung des Betriebs multimodaler Transportsysteme zu sein.
In 14 MFTS-Sitzungen wurden aktuelle Themen aus den Bereichen Nachfrage- und Verkehrsmanagement, Verkehrssteuerung im konventionellen, vernetzten und automatisierten Verkehr, vernetzte und autonome Fahrzeuge, Verkehrsflussmodellierung und -simulation, neue und geteilte MobilitĂ€tssysteme, Digitalisierung sowie Nutzerverhalten und Sicherheit diskutiert. DarĂŒber hinaus wurden Sondersitzungen organisiert, beispielsweise zu âMenschlichen Aspekten bei der Verkehrsmodellierung und -simulationâ und âLektionen aus der Covid-19-Pandemieâ, deren Beschreibungen und Analysen ebenfalls in diesen Tagungsband einflieĂen.:1 Connected and Automated Vehicles
1.1 Traffic-based Control of Truck Platoons on Freeways
1.2 A Lateral Positioning Strategy for Connected and Automated Vehicles in Lane-free Traffic
1.3 Simulation Methods for Mixed Legacy-Autonomous Mainline Train Operations
1.4 Can Dedicated Lanes for Automated Vehicles on Urban Roads Improve Traffic Efficiency?
1.5 GLOSA System with Uncertain Green and Red Signal Phases
2 New Mobility Systems
2.1 A New Model for Electric Vehicle Mobility and Energy Consumption in Urban Traffic Networks
2.2 Shared Autonomous Vehicles Implementation for a Disrupted Public Transport Network
3 Traffic Flow and Simulation
3.1 Multi-vehicle Stochastic Fundamental Diagram Consistent with Transportations Systems Theory
3.2 A RoundD-like Roundabout Scenario in CARLA Simulator
3.3 Multimodal Performance Evaluation of Urban Traffic Control: A Microscopic Simulation Study
3.4 A MILP Framework to Solve the Sustainable System Optimum with Link MFD Functions
3.5 On How Traffic Signals Impact the Fundamental Diagrams of Urban Roads
4 Traffic Control in Conventional Traffic
4.1 Data-driven Methods for Identifying Travel Conditions Based on Traffic and Weather Characteristics
4.2 AI-based Multi-class Traffic Model Oriented to Freeway Traffic Control
4.3 Exploiting Deep Learning and Traffic Models for Freeway Traffic Estimation
4.4 Automatic Design of Optimal Actuated Traffic Signal Control with Transit Signal Priority
4.5 A Deep Reinforcement Learning Approach for Dynamic Traffic Light Control with Transit Signal Priority
4.6 Towards Efficient Incident Detection in Real-time Traffic Management
4.7 Dynamic Cycle Time in Traffic Signal of Cyclic Max-Pressure Control
5 Traffic Control with Autonomous Vehicles
5.1 Distributed Ordering and Optimization for Intersection Management with Connected and Automated Vehicles
5.2 Prioritization of an Automated Shuttle for V2X Public Transport at a Signalized Intersection â a Real-life Demonstration
6 User Behaviour and Safety
6.1 Local Traffic Safety Analyzer (LTSA) - Improved Road Safety and Optimized Signal Control for Future Urban Intersections
7 Demand and Traffic Management
7.1 A Stochastic Programming Method for OD Estimation Using LBSN Check-in Data
7.2 Delineation of Traffic Analysis Zone for Public Transportation OD Matrix Estimation Based on Socio-spatial Practices
8 Workshops
8.1 How to Integrate Human Aspects Into Engineering Science of Transport and Traffic? - a Workshop Report about Discussions on Social Contextualization of Mobility
8.2 Learning from Covid: How Can we Predict Mobility Behaviour in the Face of Disruptive Events? â How to Investigate the Mobility of the Futur
Proceedings of the 4th Symposium on Management of Future Motorway and Urban Traffic Systems 2022
The 4th Symposium on Management of Future Motorway and Urban Traffic Systems (MFTS) was held in Dresden, Germany, from November 30th to December 2nd, 2022. Organized by the Chair of Traffic Process Automation (VPA) at the âFriedrich Listâ Faculty of Transport and Traffic Sciences of the TU Dresden, the proceedings of this conference are published as volume 9 in the Chairâs publication series âVerkehrstelematikâ and contain a large part of the presented conference extended abstracts.
The focus of the MFTS conference 2022 was cooperative management of multimodal transport and reflected the vision of the professorship to be an internationally recognized group in ITS research and education with the goal of optimizing the operation of multimodal transport systems.
In 14 MFTS sessions, current topics in demand and traffic management, traffic control in conventional, connected and automated transport, connected and autonomous vehicles, traffic flow modeling and simulation, new and shared mobility systems, digitization, and user behavior and safety were discussed. In addition, special sessions were organized, for example on âHuman aspects in traffic modeling and simulationâ and âLesson learned from Covid19 pandemicâ, whose descriptions and analyses are also included in these proceedings.:1 Connected and Automated Vehicles
1.1 Traffic-based Control of Truck Platoons on Freeways
1.2 A Lateral Positioning Strategy for Connected and Automated Vehicles in Lane-free Traffic
1.3 Simulation Methods for Mixed Legacy-Autonomous Mainline Train Operations
1.4 Can Dedicated Lanes for Automated Vehicles on Urban Roads Improve Traffic Efficiency?
1.5 GLOSA System with Uncertain Green and Red Signal Phases
2 New Mobility Systems
2.1 A New Model for Electric Vehicle Mobility and Energy Consumption in Urban Traffic Networks
2.2 Shared Autonomous Vehicles Implementation for a Disrupted Public Transport Network
3 Traffic Flow and Simulation
3.1 Multi-vehicle Stochastic Fundamental Diagram Consistent with Transportations Systems Theory
3.2 A RoundD-like Roundabout Scenario in CARLA Simulator
3.3 Multimodal Performance Evaluation of Urban Traffic Control: A Microscopic Simulation Study
3.4 A MILP Framework to Solve the Sustainable System Optimum with Link MFD Functions
3.5 On How Traffic Signals Impact the Fundamental Diagrams of Urban Roads
4 Traffic Control in Conventional Traffic
4.1 Data-driven Methods for Identifying Travel Conditions Based on Traffic and Weather Characteristics
4.2 AI-based Multi-class Traffic Model Oriented to Freeway Traffic Control
4.3 Exploiting Deep Learning and Traffic Models for Freeway Traffic Estimation
4.4 Automatic Design of Optimal Actuated Traffic Signal Control with Transit Signal Priority
4.5 A Deep Reinforcement Learning Approach for Dynamic Traffic Light Control with Transit Signal Priority
4.6 Towards Efficient Incident Detection in Real-time Traffic Management
4.7 Dynamic Cycle Time in Traffic Signal of Cyclic Max-Pressure Control
5 Traffic Control with Autonomous Vehicles
5.1 Distributed Ordering and Optimization for Intersection Management with Connected and Automated Vehicles
5.2 Prioritization of an Automated Shuttle for V2X Public Transport at a Signalized Intersection â a Real-life Demonstration
6 User Behaviour and Safety
6.1 Local Traffic Safety Analyzer (LTSA) - Improved Road Safety and Optimized Signal Control for Future Urban Intersections
7 Demand and Traffic Management
7.1 A Stochastic Programming Method for OD Estimation Using LBSN Check-in Data
7.2 Delineation of Traffic Analysis Zone for Public Transportation OD Matrix Estimation Based on Socio-spatial Practices
8 Workshops
8.1 How to Integrate Human Aspects Into Engineering Science of Transport and Traffic? - a Workshop Report about Discussions on Social Contextualization of Mobility
8.2 Learning from Covid: How Can we Predict Mobility Behaviour in the Face of Disruptive Events? â How to Investigate the Mobility of the FutureDas 4. Symposium zum Management zukĂŒnftiger Autobahn- und Stadtverkehrssysteme (MFTS) fand vom 30. November bis 2. Dezember 2022 in Dresden statt und wurde vom Lehrstuhl fĂŒr Verkehrsprozessautomatisierung (VPA) an der FakultĂ€t VerkehrswissenschaftenâFriedrich Listâ der TU Dresden organisiert. Der Tagungsband erscheint als Band 9 in der Schriftenreihe âVerkehrstelematikâ des Lehrstuhls und enthĂ€lt einen GroĂteil der vorgestellten Extended-Abstracts des Symposiums.
Der Schwerpunkt des MFTS-Symposiums 2022 lag auf dem kooperativen Management multimodalen Verkehrs und spiegelte die Vision der Professur wider, eine international anerkannte Gruppe in der ITS-Forschung und -Ausbildung mit dem Ziel der Optimierung des Betriebs multimodaler Transportsysteme zu sein.
In 14 MFTS-Sitzungen wurden aktuelle Themen aus den Bereichen Nachfrage- und Verkehrsmanagement, Verkehrssteuerung im konventionellen, vernetzten und automatisierten Verkehr, vernetzte und autonome Fahrzeuge, Verkehrsflussmodellierung und -simulation, neue und geteilte MobilitĂ€tssysteme, Digitalisierung sowie Nutzerverhalten und Sicherheit diskutiert. DarĂŒber hinaus wurden Sondersitzungen organisiert, beispielsweise zu âMenschlichen Aspekten bei der Verkehrsmodellierung und -simulationâ und âLektionen aus der Covid-19-Pandemieâ, deren Beschreibungen und Analysen ebenfalls in diesen Tagungsband einflieĂen.:1 Connected and Automated Vehicles
1.1 Traffic-based Control of Truck Platoons on Freeways
1.2 A Lateral Positioning Strategy for Connected and Automated Vehicles in Lane-free Traffic
1.3 Simulation Methods for Mixed Legacy-Autonomous Mainline Train Operations
1.4 Can Dedicated Lanes for Automated Vehicles on Urban Roads Improve Traffic Efficiency?
1.5 GLOSA System with Uncertain Green and Red Signal Phases
2 New Mobility Systems
2.1 A New Model for Electric Vehicle Mobility and Energy Consumption in Urban Traffic Networks
2.2 Shared Autonomous Vehicles Implementation for a Disrupted Public Transport Network
3 Traffic Flow and Simulation
3.1 Multi-vehicle Stochastic Fundamental Diagram Consistent with Transportations Systems Theory
3.2 A RoundD-like Roundabout Scenario in CARLA Simulator
3.3 Multimodal Performance Evaluation of Urban Traffic Control: A Microscopic Simulation Study
3.4 A MILP Framework to Solve the Sustainable System Optimum with Link MFD Functions
3.5 On How Traffic Signals Impact the Fundamental Diagrams of Urban Roads
4 Traffic Control in Conventional Traffic
4.1 Data-driven Methods for Identifying Travel Conditions Based on Traffic and Weather Characteristics
4.2 AI-based Multi-class Traffic Model Oriented to Freeway Traffic Control
4.3 Exploiting Deep Learning and Traffic Models for Freeway Traffic Estimation
4.4 Automatic Design of Optimal Actuated Traffic Signal Control with Transit Signal Priority
4.5 A Deep Reinforcement Learning Approach for Dynamic Traffic Light Control with Transit Signal Priority
4.6 Towards Efficient Incident Detection in Real-time Traffic Management
4.7 Dynamic Cycle Time in Traffic Signal of Cyclic Max-Pressure Control
5 Traffic Control with Autonomous Vehicles
5.1 Distributed Ordering and Optimization for Intersection Management with Connected and Automated Vehicles
5.2 Prioritization of an Automated Shuttle for V2X Public Transport at a Signalized Intersection â a Real-life Demonstration
6 User Behaviour and Safety
6.1 Local Traffic Safety Analyzer (LTSA) - Improved Road Safety and Optimized Signal Control for Future Urban Intersections
7 Demand and Traffic Management
7.1 A Stochastic Programming Method for OD Estimation Using LBSN Check-in Data
7.2 Delineation of Traffic Analysis Zone for Public Transportation OD Matrix Estimation Based on Socio-spatial Practices
8 Workshops
8.1 How to Integrate Human Aspects Into Engineering Science of Transport and Traffic? - a Workshop Report about Discussions on Social Contextualization of Mobility
8.2 Learning from Covid: How Can we Predict Mobility Behaviour in the Face of Disruptive Events? â How to Investigate the Mobility of the Futur
A Deep Reinforcement Learning Approach for Dynamic Traffic Light Control with Transit Signal Priority
Traffic light control (TLC) with transit signal priority (TSP) is an effective way to deal with urban congestion and travel delay. The growing amount of available connected vehicle data offers opportunities for signal control with transit priority, but the conventional control algorithms fall short in fully exploiting those datasets. This paper proposes a novel approach for dynamic TLC with TSP at an urban intersection. We propose a deep reinforcement learning based framework JenaRL to deal with the complex real-world intersections. The optimisation focuses on TSP while balancing the delay of all vehicles. A two-layer state space is defined to capture the real-time traffic information, i.e. vehicle position, type and incoming lane. The discrete action space includes the optimal phase and phase duration based on the real-time traffic situation. An intersection in the inner city of Jena is constructed in an open-source microscopic traffic simulator SUMO. A time-varying traffic demand of motorised individual traffic (MIT), the current TLC controller of the city, as well as the original timetables of the public transport (PT) are implemented in simulation to construct a realistic traffic environment. The results of the simulation with the proposed framework indicate a significant enhancement in the performance of traffic light controller by reducing the delay of all vehicles, and especially minimising the loss time of PT
3D Printed AllâNatural Hydrogels: FlameâRetardant Materials Toward Attaining Green Sustainability
Abstract Biomassâbased hydrogel is a promising flameâretardant material and has a high potential for applications in transportation, aerospace, building and electrical engineering, and electronics. However, rapid vat photopolymerization (VP) 3D printing of biomassâbased hydrogels, especially that of allânatural ones, is still rare. Herein, a new class of VP 3Dâprinted hydrogels with strong covalent networks, fabricating using fully biomass materials and a commercial liquid crystal display (LCD) printer assembled with lowâintensity visible light is presented. Encouragingly, the highly ordered layerâbyâlayer packing structures provided by VP 3D printing technology endow these hydrogels with remarkable flame retardancy, exceptional temperature resistance, advantageous combustion behaviors, and favorable mechanical strength, in particular, giving them a better limit oxygen index (83.5%) than various biomassâbased hydrogels. The proposed approach enables the green design as well as the precise and efficient preparation for flameâretardant materials, paving the way for the future flameâretardant materials toward attaining green sustainability
Reconstruction of High-Precision Semantic Map
We present a real-time Truncated Signed Distance Field (TSDF)-based three-dimensional (3D) semantic reconstruction for LiDAR point cloud, which achieves incremental surface reconstruction and highly accurate semantic segmentation. The high-precise 3D semantic reconstruction in real time on LiDAR data is important but challenging. Lighting Detection and Ranging (LiDAR) data with high accuracy is massive for 3D reconstruction. We so propose a line-of-sight algorithm to update implicit surface incrementally. Meanwhile, in order to use more semantic information effectively, an online attention-based spatial and temporal feature fusion method is proposed, which is well integrated into the reconstruction system. We implement parallel computation in the reconstruction and semantic fusion process, which achieves real-time performance. We demonstrate our approach on the CARLA dataset, Apollo dataset, and our dataset. When compared with the state-of-art mapping methods, our method has a great advantage in terms of both quality and speed, which meets the needs of robotic mapping and navigation
Manipulation of Ï-aromatic conjugation in two-dimensional Sn-organic materials for efficient lithium storage
Sn-based materials are promising candidates for lithium storage but suffer generally from huge volume change during the (de)lithiation processes. Sn-organic materials with monodispersed Sn centers surrounded by lithium active ligands can alleviate the volume change of anode materials based on reversible (de)lithiation processes. However, the structural factors governing the kinetics of lithium storage and utilization efficiency of active sites are not well understood to date. Herein, we report three two-dimensional Sn-organic materials with enhanced lithium storage performance by manipulation of Ï-aromatic conjugation of the ligands. The increasing Ï-aromatic conjugation plays a key role in promoting efficient lithium storage, and the volume expansion during the (de)lithiation reaction is suppressed in these Sn-organic materials. This work reveals that the Ï-aromatic conjugation of the ligand is crucial for improving the kinetics of lithium storage and the utilization of active sites in metal-organic materials with minimised volume expansion