Advanced urban traffic control systems are often based on feed-back algorithms. For instance, current traffic control systems often operate on the basis of adaptive green phases and flexible co-ordination in road (sub) networks based on measured traffic conditions. However, these approaches are still not very efficient during unforeseen situations such as road incidents when changes in traffic are requested in a short time interval. Therefore, we need self-managing systems that can plan and act effectively in order to restore an unexpected road traffic situations into the normal order. A significant step towards this is exploiting Automated Planning techniques which can reason about unforeseen situations in the road network and come up with...
Part 4: Problem Solving, Planning and SchedulingInternational audienceControl systems embodying arti...
The connected and automated vehicle (CAV) is a promising technology that will reshape the transport....
Transportation network capacity variations arising from accidents, roadway maintenance activity, and...
Advanced urban traffic control systems are often based on feed-back algorithms. For instance, curren...
Solving traffic congestions represents a high priority issue in many big cities. Traditional traffic...
Advanced urban traffic control systems are often based on feed-back algorithms. They use road traffic da...
One of the pivotal challenges presented to urban traffic controllers is the effective utilization of...
One of the pivotal challenges presented to urban road traffic controllers is the effective utilisati...
This paper is an experience report on the results of an industry-led collaborative project aimed at ...
Traffic systems are highly complex multi-component systems suffering from instabilities and non-line...
This thesis explores ways to improve the self-organised urban traffic management system Organic Traf...
Most control systems embodying artificial intelligence (AI) techniques tend to be “reactive” rather ...
Local authorities that manage traffic-related issues in urban areas have to optimise the use of ava...
Adaptive traffic signal control (ATSC) is an effective method to reduce traffic congestion in modern...
A model of a smart road network consisting of unsignalised intersections and smart roads connecting ...
Part 4: Problem Solving, Planning and SchedulingInternational audienceControl systems embodying arti...
The connected and automated vehicle (CAV) is a promising technology that will reshape the transport....
Transportation network capacity variations arising from accidents, roadway maintenance activity, and...
Advanced urban traffic control systems are often based on feed-back algorithms. For instance, curren...
Solving traffic congestions represents a high priority issue in many big cities. Traditional traffic...
Advanced urban traffic control systems are often based on feed-back algorithms. They use road traffic da...
One of the pivotal challenges presented to urban traffic controllers is the effective utilization of...
One of the pivotal challenges presented to urban road traffic controllers is the effective utilisati...
This paper is an experience report on the results of an industry-led collaborative project aimed at ...
Traffic systems are highly complex multi-component systems suffering from instabilities and non-line...
This thesis explores ways to improve the self-organised urban traffic management system Organic Traf...
Most control systems embodying artificial intelligence (AI) techniques tend to be “reactive” rather ...
Local authorities that manage traffic-related issues in urban areas have to optimise the use of ava...
Adaptive traffic signal control (ATSC) is an effective method to reduce traffic congestion in modern...
A model of a smart road network consisting of unsignalised intersections and smart roads connecting ...
Part 4: Problem Solving, Planning and SchedulingInternational audienceControl systems embodying arti...
The connected and automated vehicle (CAV) is a promising technology that will reshape the transport....
Transportation network capacity variations arising from accidents, roadway maintenance activity, and...