Journal ArticleDOI
A scalable non-myopic dynamic dial-a-ride and pricing problem
TLDR
In this paper, a new dynamic dial-a-ride policy is introduced, one that features non-myopic pricing based on optimal tolling of queues to fit with the multi-server queueing approximation method proposed by Hyttia et al. (2012) for large-scale systems.Abstract:
Non-myopic dial-a-ride problem and other related dynamic vehicle routing problems often ignore the need for non-myopic pricing under the assumption of elastic demand, which leads to an overestimation of the benefits in level of service and resulting inefficiencies. To correct this problem, a new dynamic dial-a-ride policy is introduced, one that features non-myopic pricing based on optimal tolling of queues to fit with the multi-server queueing approximation method proposed by Hyttia et al. (2012) for large-scale systems. By including social optimal pricing, the social welfare of the resulting system outperforms the marginal pricing assumed for previous approaches over a range of test instances. In the examples tested, improvements in social welfare of the non-myopic pricing over the myopic pricing were in the 20–31% range. For a given demand function, we can derive the optimal fleet size to maximize social welfare. Sensitivity tests to the optimal price confirm that it leads to an optimal social welfare while the marginal pricing policy does not. A comparison of single passenger taxis to shared-taxis shows that system cost may reduce at the expense of decreased social welfare, which agrees with the results of Jung et al. (2013).read more
Citations
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Journal ArticleDOI
A survey of dial-a-ride problems: Literature review and recent developments
Sin C. Ho,Wai Yuen Szeto,Yong-Hong Kuo,Yong-Hong Kuo,Janny M. Y. Leung,Matthew E. H. Petering,Terence W.H. Tou +6 more
TL;DR: This paper surveys the research developments on the Dial-A-Ride Problem (DARP) since 2007, and provides a classification of the problem variants and the solution methodologies, and references to benchmark instances.
Journal ArticleDOI
Ridesourcing systems: A framework and review
TL;DR: In this paper, a general framework to describe ridesourcing systems is proposed, which can aid understanding of the interactions between endogenous and exogenous variables, their changes in response to platforms' operational strategies and decisions, multiple system objectives, and market equilibria in a dynamic manner.
Exploiting Knowledge About Future Demands for Real-Time Vehicle Dispatching
TL;DR: In this article, a probabilistic knowledge about future request arrivals is used to better manage the fleet of vehicles in a real-time setting, where dummy customers (representing forecasted requests) are introduced in vehicle routes to provide a good coverage of the territory.
Journal ArticleDOI
Dynamic autonomous vehicle fleet operations: Optimization-based strategies to assign AVs to immediate traveler demand requests
TL;DR: In this paper, the authors present an agent-based simulation of a shared-use AV mobility service with no shared rides and compare the assignment strategies for a fleet of fully-autonomous vehicles (AVs).
Journal ArticleDOI
Pricing and equilibrium in on-demand ride-pooling markets
TL;DR: In this paper, the authors developed a mathematical model to elucidate the complex relationships between the variables and decisions involved in a ride-pooling market, and proved that the monopoly optimum, social optimum and second-best solutions in both ridepooling and non-pooled markets are always in a normal regime rather than the wild goose chase (WGC) regime.
References
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BookDOI
Approximate dynamic programming : solving the curses of dimensionality
TL;DR: This book discusses the challenges of dynamic programming, the three curses of dimensionality, and some experimental comparisons of stepsize formulas that led to the creation of ADP for online applications.
Journal ArticleDOI
On the regulation of queue size by levying tolls
TL;DR: In this paper, the authors demonstrate that analogous conclusions can be drawn for queueing models if two basic conditions are satisfied: (i) the individual car driver on making an optimal routing choice for himself-does not optimize the system at large, and (ii) the traffic load is not maximized by the individual driver.
Journal ArticleDOI
The dial-a-ride problem: models and algorithms
TL;DR: The Dial-a-Ride Problem (DARP) as mentioned in this paper is a well-known problem in the field of vehicle scheduling for door-to-door transportation for elderly or disabled people.
Journal ArticleDOI
Dynamic pickup and delivery problems
TL;DR: This article surveys the subclass of problems called dynamic pickup and delivery problems, in which objects or people have to be collected and delivered in real-time, and discusses some general issues as well as solution strategies.
The Dial-a-Ride Problem: Models and Algorithms
TL;DR: The main features of the problem are described and a summary of the most important models and algorithms is provided.