Add to ORKGAbstract—In this paper we develop methods for maximizing the throughput of a mobility-on-demand urban transportation system. We consider a finite group of shared vehicles, located at a set of stations. Users arrive at the stations, pickup vehicles, and drive (or are driven) to their destination station where they drop-off the vehicle. When some origins and destinations are more popular than others, the system will inevitably become out of balance: Vehicles will build up at some stations, and become depleted at others. We propose a robotic solution to this rebalancing problem that involves empty robotic vehicles autonomously driving between stations. We develop a rebalancing policy that minimizes the number of vehicles performing rebalancing...
This paper studies optimal pricing and rebalancing policies for Autonomous Mobility-on-Demand (AMoD)...
Abstract—In this paper, we present a novel optimization framework for the load balancing problem in ...
A control-oriented model for mobility-on-demand systems is here proposed. The system is first descri...
Abstract—In this paper we present and analyze a queueing-theoretical model for autonomous mobility-o...
Abstract—In this paper we present and analyze a queueing-theoretical model for autonomous mobility-o...
Abstract—In this paper we study rebalancing strategies for a mobility-on-demand urban transportation...
Recent developments in Mobility-on-Demand (MoD) systems have demonstrated the potential of road vehi...
Abstract — This paper presents a queueing network approach to the analysis and control of mobility-o...
We are observing a disruption in the urban transportation worldwide. The number of cities offering s...
Challenged by urbanization and increasing travel needs, existing trans- portation systems call for n...
Technological advances in self-driving vehicles will soon enable the implementation of large-scale m...
Mobility on Demand (MoD) systems utilize shared vehicles to supplement or replace mass transit and p...
In recent years, Shared Mobility-on-Demand systems have emerged as a great method for door-to-door t...
Current mobility services cannot compete on equal terms with self-owned mobility products concerning...
The performance of four different dispatching and rebalancing algorithms for the control of an autom...
This paper studies optimal pricing and rebalancing policies for Autonomous Mobility-on-Demand (AMoD)...
Abstract—In this paper, we present a novel optimization framework for the load balancing problem in ...
A control-oriented model for mobility-on-demand systems is here proposed. The system is first descri...
Abstract—In this paper we present and analyze a queueing-theoretical model for autonomous mobility-o...
Abstract—In this paper we present and analyze a queueing-theoretical model for autonomous mobility-o...
Abstract—In this paper we study rebalancing strategies for a mobility-on-demand urban transportation...
Recent developments in Mobility-on-Demand (MoD) systems have demonstrated the potential of road vehi...
Abstract — This paper presents a queueing network approach to the analysis and control of mobility-o...
We are observing a disruption in the urban transportation worldwide. The number of cities offering s...
Challenged by urbanization and increasing travel needs, existing trans- portation systems call for n...
Technological advances in self-driving vehicles will soon enable the implementation of large-scale m...
Mobility on Demand (MoD) systems utilize shared vehicles to supplement or replace mass transit and p...
In recent years, Shared Mobility-on-Demand systems have emerged as a great method for door-to-door t...
Current mobility services cannot compete on equal terms with self-owned mobility products concerning...
The performance of four different dispatching and rebalancing algorithms for the control of an autom...
This paper studies optimal pricing and rebalancing policies for Autonomous Mobility-on-Demand (AMoD)...
Abstract—In this paper, we present a novel optimization framework for the load balancing problem in ...
A control-oriented model for mobility-on-demand systems is here proposed. The system is first descri...