Commute Scheduling and Congestion in a Monocentric City

Økonomisk Institut

Commute Scheduling and Congestion in a Monocentric City

Publikation: Working paper › Forskning

Standard

Commute Scheduling and Congestion in a Monocentric City. / Fosgerau, Mogens; Kim, Jinwon; Ranjan, Abhishek.

2017.

Publikation: Working paper › Forskning

Harvard

Fosgerau, M, Kim, J & Ranjan, A 2017 'Commute Scheduling and Congestion in a Monocentric City'. <https://papers.ssrn.com/sol3/papers.cfm?abstract_id=3067873>

APA

Fosgerau, M., Kim, J., & Ranjan, A. (2017). Commute Scheduling and Congestion in a Monocentric City. University of Copenhagen. Institute of Economics. Discussion Papers (Online) Nr. 17-25 https://papers.ssrn.com/sol3/papers.cfm?abstract_id=3067873

Vancouver

Fosgerau M, Kim J, Ranjan A. Commute Scheduling and Congestion in a Monocentric City. 2017.

Author

Fosgerau, Mogens ; Kim, Jinwon ; Ranjan, Abhishek. / Commute Scheduling and Congestion in a Monocentric City. 2017. (University of Copenhagen. Institute of Economics. Discussion Papers (Online); Nr. 17-25).

Bibtex

@techreport{6dbc3545aa4244c3913a53ed37724eca,

title = "Commute Scheduling and Congestion in a Monocentric City",

abstract = "This paper studies the interaction between dynamic traffic congestion and urban spatial equilibrium, using a model that is a straight unification of the Vickrey (1969) bottleneck congestion model and the Alonso (1964) monocentric city model. In a monocentric city with a bottleneck at the entrance to the CBD, residents choose their commute departure time jointly with residential location and housing consumption. Commuters arrive at the bottleneck in sequence sorted by residential location, so that more distant residents arrive later. The socially optimal toll makes central residents commute earlier in the morning than they would without the toll, which in turn induces a city that is less dense in the center and more dense further out. This is the opposite effect of what is found in models with static congestion.",

keywords = "Faculty of Social Sciences, Congestion, Toll, Land Use, Bottleneck Model, Monocentric Model, D62, R14, R41",

author = "Mogens Fosgerau and Jinwon Kim and Abhishek Ranjan",

year = "2017",

language = "English",

series = "University of Copenhagen. Institute of Economics. Discussion Papers (Online)",

number = "17-25",

type = "WorkingPaper",

}

RIS

TY - UNPB

T1 - Commute Scheduling and Congestion in a Monocentric City

AU - Fosgerau, Mogens

AU - Kim, Jinwon

AU - Ranjan, Abhishek

PY - 2017

Y1 - 2017

N2 - This paper studies the interaction between dynamic traffic congestion and urban spatial equilibrium, using a model that is a straight unification of the Vickrey (1969) bottleneck congestion model and the Alonso (1964) monocentric city model. In a monocentric city with a bottleneck at the entrance to the CBD, residents choose their commute departure time jointly with residential location and housing consumption. Commuters arrive at the bottleneck in sequence sorted by residential location, so that more distant residents arrive later. The socially optimal toll makes central residents commute earlier in the morning than they would without the toll, which in turn induces a city that is less dense in the center and more dense further out. This is the opposite effect of what is found in models with static congestion.

AB - This paper studies the interaction between dynamic traffic congestion and urban spatial equilibrium, using a model that is a straight unification of the Vickrey (1969) bottleneck congestion model and the Alonso (1964) monocentric city model. In a monocentric city with a bottleneck at the entrance to the CBD, residents choose their commute departure time jointly with residential location and housing consumption. Commuters arrive at the bottleneck in sequence sorted by residential location, so that more distant residents arrive later. The socially optimal toll makes central residents commute earlier in the morning than they would without the toll, which in turn induces a city that is less dense in the center and more dense further out. This is the opposite effect of what is found in models with static congestion.

KW - Faculty of Social Sciences

KW - Congestion

KW - Toll

KW - Land Use

KW - Bottleneck Model

KW - Monocentric Model

KW - D62

KW - R14

KW - R41

M3 - Working paper

T3 - University of Copenhagen. Institute of Economics. Discussion Papers (Online)

BT - Commute Scheduling and Congestion in a Monocentric City

ER -

ID: 190436161