Hypercongestion in downtown metropolis

Mogens Fosgerau; Kenneth A. Small

doi:10.1016/j.jue.2012.12.004

Hypercongestion in downtown metropolis

Mogens Fosgerau^*, Kenneth A. Small

^*Corresponding author for this work

Department of Economics

32 Citations (Scopus)

Abstract

Engineering studies demonstrate that traffic in dense downtown areas obeys a stable functional relationship between average speed and density, including a region of 'hypercongestion', where flow decreases with density. This situation can be described as queuing behind a bottleneck whose capacity declines when the queue is large. We combine such a variable-capacity bottleneck with Vickrey scheduling preferences for the special case, where there are only two possible levels of capacity. Solving the model leads to several new insights, including that the marginal cost of adding a traveler is especially sensitive to the lowest level of capacity reached. We analyze an optimal toll, a coarse toll, and metering, showing substantial benefits from using these policies to eliminate the period of reduced capacity. Under hypercongestion, all of these policies can be designed so that travelers gain even without considering any toll revenues.

Original language	English
Journal	Journal of Urban Economics
Volume	76
Issue number	1
Pages (from-to)	122-134
Number of pages	13
ISSN	0094-1190
DOIs	https://doi.org/10.1016/j.jue.2012.12.004
Publication status	Published - Jul 2013

Keywords

Congestion
Hypercongestion
Road pricing

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10.1016/j.jue.2012.12.004

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AB - Engineering studies demonstrate that traffic in dense downtown areas obeys a stable functional relationship between average speed and density, including a region of 'hypercongestion', where flow decreases with density. This situation can be described as queuing behind a bottleneck whose capacity declines when the queue is large. We combine such a variable-capacity bottleneck with Vickrey scheduling preferences for the special case, where there are only two possible levels of capacity. Solving the model leads to several new insights, including that the marginal cost of adding a traveler is especially sensitive to the lowest level of capacity reached. We analyze an optimal toll, a coarse toll, and metering, showing substantial benefits from using these policies to eliminate the period of reduced capacity. Under hypercongestion, all of these policies can be designed so that travelers gain even without considering any toll revenues.

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Hypercongestion in downtown metropolis

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Keywords

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