International audienceWe propose a novel technique for answering routing queries in public transportation networks that allows unrestricted walking. We consider several types of queries: earliest arrival time, Pareto-optimal journeys regarding arrival time, number of transfers and walking time, and profile, i.e. finding all Pareto-optimal journeys regarding travel time and arrival time in a given time interval. Our techniques uses hub labeling to represent unlimited foot transfers and can be adapted to both classical algorithms RAPTOR and CSA. We obtain significant speedup compared to the state-of-the-art approach based on contraction hierarchies
Public transit is a backbone for well-functioning cities, forming a complicated system of interconne...
The first-mile transportation provides a transit service using ridesharing-based vehicles, e.g., fee...
Journey planning in (schedule-based) public transit networks has attracted interest from researchers...
International audienceWe propose a novel technique for answering routing queries in public transport...
We study the problem of answering profile queries in public transportation networks that allow unres...
We study the problem of planning Pareto-optimal journeys in public transit networks. Most existing a...
We study the problem of computing all Pareto-optimal journeys in a public transit network regarding ...
We study the problem of computing all Pareto-optimal journeys in a dynamic public transit network fo...
We study the problem of computing all Pareto-optimal journeys in a dynamic public transit network fo...
We study the problem of computing all Pareto-optimal journeys in a dynamic public transit network fo...
In the context of routing in public transit networks, we consider the issue of the customization of ...
We study a multi-modal route planning scenario consisting of a public transit network and a transfer...
We propose an additional preprocessing step for the Trip-Based Public Transit Routing algorithm, an ...
We present fast and efficient algorithms for routing in road and public transit networks. An algorit...
We present a holistic approach for pedestrian routing that allows computing shortest paths that may ...
Public transit is a backbone for well-functioning cities, forming a complicated system of interconne...
The first-mile transportation provides a transit service using ridesharing-based vehicles, e.g., fee...
Journey planning in (schedule-based) public transit networks has attracted interest from researchers...
International audienceWe propose a novel technique for answering routing queries in public transport...
We study the problem of answering profile queries in public transportation networks that allow unres...
We study the problem of planning Pareto-optimal journeys in public transit networks. Most existing a...
We study the problem of computing all Pareto-optimal journeys in a public transit network regarding ...
We study the problem of computing all Pareto-optimal journeys in a dynamic public transit network fo...
We study the problem of computing all Pareto-optimal journeys in a dynamic public transit network fo...
We study the problem of computing all Pareto-optimal journeys in a dynamic public transit network fo...
In the context of routing in public transit networks, we consider the issue of the customization of ...
We study a multi-modal route planning scenario consisting of a public transit network and a transfer...
We propose an additional preprocessing step for the Trip-Based Public Transit Routing algorithm, an ...
We present fast and efficient algorithms for routing in road and public transit networks. An algorit...
We present a holistic approach for pedestrian routing that allows computing shortest paths that may ...
Public transit is a backbone for well-functioning cities, forming a complicated system of interconne...
The first-mile transportation provides a transit service using ridesharing-based vehicles, e.g., fee...
Journey planning in (schedule-based) public transit networks has attracted interest from researchers...