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@article{TRB-18,
title="Marginal Cost Pricing for System Optimal Traffic Assignment with Recourse under Supply-Side Uncertainty",
JOURNAL={Transportation Research Part B: Methodological},
year="2018",
volume="110",
pages="104-21",
issn = "0191-2615",
doi = "https://doi.org/10.1016/j.trb.2018.02.008",
url = "https://www.sciencedirect.com/science/article/pii/S0191261516301540",
author="Tarun Rambha and Stephen D.\ Boyles and Avinash Unnikrishnan and Peter Stone",
abstract = {Transportation networks are often subject to
fluctuations in supply-side parameters such as capacity
and free-flow travel time due to factors such as
incidents, poor weather, and bottlenecks. In such
scenarios, assuming that network arcs exist in a finite
number of states with different delay functions with
different probabilities, a marginal cost pricing scheme
that leads to a socially optimal outcome is
proposed. The suggested framework makes the behavioral
assumption that travelers do not just choose paths but
follow routing policies that respond to en route
information. Specifically, it is assumed that travelers
are fully- rational and that they compute the optimal
online shortest path assuming full-reset. However, such
policies may involve cycling, which is unrealistic in
practice. Hence, a network transformation that helps
restrict cycles up to a certain length is devised and
the problem is reformulated as a convex optimization
problem with symmetric delay functions. The results of
numerical tests on the Sioux Falls test network are
presented using the Frank-Wolfe algorithm.
},
wwwnote = {Official version from Publisher's Webpage},
}