Help
Cart
Skip main navigation

Available Issues

April 10, 2013 - May 13, 2026

Available Issues

April 10, 2013 - May 13, 2026

Optimization for Multiclass Residential Location Models with Congestible Transportation Networks

Published Online:25 Jul 2014https://doi.org/10.1287/trsc.2014.0522

References

  • Abrantes PAL, Wardman MR (2011) Meta-analysis of UK values of travel time: An update. Transportation Res. Part A 45:1–17.CrossrefGoogle Scholar
  • Akamatsu T (1996) Cyclic flows, Markov process and stochastic traffic assignment. Transportation Res. Part B 30:369–386.CrossrefGoogle Scholar
  • Axhausen KW, Hess S, Konig A, Abay G, Bates JJ, Bierlaire M (2008) Income and distance elasticities of values of travel time savings: New Swiss results. Transport Policy 15:173–185.CrossrefGoogle Scholar
  • Beckmann MJ (1974) Spatial equilibrium in the housing market. J. Urban Econom. 1:99–107.CrossrefGoogle Scholar
  • Bellei G, Gentile G, Papola N (2002) Network pricing optimization in multi-user and multimodal context with elastic demand. Transportation Res. Part B 36:779–798.CrossrefGoogle Scholar
  • Ben-Akiva M, Lerman SR (1985) Discrete Choice Analysis: Theory and Application to Travel Demand (MIT Press, Cambridge, MA).Google Scholar
  • Boyce DE, Mattsson L-G (1999) Modeling residential location in relation to housing location and road tolls on congested urban highway networks. Transportation Res. Part B 33:581–591.CrossrefGoogle Scholar
  • Bravo M, Briceño L, Cominetti R, Cortés CE, Martínez F (2010) An integrated behavioral model of the land-use and transport systems with network congestion and location externalities. Transportation Res. Part B 44:584–596.CrossrefGoogle Scholar
  • Briceño L, Cominetti R, Cortés C, Martínez FJ (2008) An integrated behavioral model of land-use and transport system: An extended network equilibrium approach. Networks Spatial Econom. 8:201–224.CrossrefGoogle Scholar
  • Ciccone A, Hall RE (1996) Productivity and the density of economic activity. Amer. Econom. Rev. 86:54–70.Google Scholar
  • Coelho D, Williams HCWL (1978) On the design of land use plans through locational surplus maximization. Papers Regional Sci. Assoc. 40:71–85.CrossrefGoogle Scholar
  • Connors RD, Sumalee A, Watling DP (2007) Sensitivity analysis of the variable demand probit stochastic user equilibrium with multiple user-classes. Transportation Res. Part B 41:593–615.CrossrefGoogle Scholar
  • DeSerpa A (1971) A theory of the economics of time. Econom. J. 81:828–846.Google Scholar
  • Dial RB (1971) A probabilistic multipath traffic assignment model which obviates path enumeration. Transportation Res. 5:88–111.CrossrefGoogle Scholar
  • Dial RB (2000) Minimal-revenue congestion pricing. Part II: An efficient algorithm for the general case. Transportation Res. Part B 34:645–665.CrossrefGoogle Scholar
  • DiPasquale D, Wheaton WC (1996) Urban Economics and Real Estate Markets (Prentice Hall, Englewood Cliffs, NJ).Google Scholar
  • Ellickson B (1981) An alternative test of the hedonic theory of housing markets. J. Urban Econom. 9:56–79.CrossrefGoogle Scholar
  • Engelson L, Lindberg PO (2006) Congestion pricing of road networks with users having different time values. Lawphongpanich S, Hearn DW, Smith MJ, eds. Mathematical and Computational Models for Congestion Charging (Springer, Berlin), 81–104.CrossrefGoogle Scholar
  • Farsi M, Filippini M, Kuenzle M (2007) Cost efficiency in the Swiss gas distribution sector. Energy Econom. 29:64–78.CrossrefGoogle Scholar
  • Fowkes AS, Bristow AL, Bonsall PW, May AD (1998) A shortcut method for optimisation of strategic transport models. Transportation Res. Part A 32:149–157.Google Scholar
  • Fujita M (1989) Urban Economics Theory: Land Use and City Size (Cambridge University Press, Cambridge, UK).CrossrefGoogle Scholar
  • Fujita M, Thisse J-F (2002) Economics of Agglomeration (Cambridge University Press, Cambridge, UK).CrossrefGoogle Scholar
  • Gabriel SA, Bernstein D (1997) The traffic equilibrium problem with non-additive path costs. Transportation Sci. 31:337–348.LinkGoogle Scholar
  • Gale D, Nikaido H (1965) The Jacobian matrix and global univalence of mappings. Mathematische Annalen 159:81–93.CrossrefGoogle Scholar
  • Glaeser EL (2008) Cities, Agglomeration and Spatial Equilibrium (Oxford University Press, New York).Google Scholar
  • Hattori T (2002) Relative performance of U.S. and Japanese electricity distribution: An application of stochastic frontier analysis. J. Productivity Anal. 18:269–284.CrossrefGoogle Scholar
  • Hearn DW, Ramana MV (1998) Solving congestion toll pricing models. Marcotte P, Nguyen S, eds. Equilibrium and Advanced Transportation Modeling (Kluwer Academic Publishers, Norwell, MA), 109–124.CrossrefGoogle Scholar
  • Izmailov AF, Solodov MV (2004) Newton-type methods for optimization problems without constraint qualifications. SIAM J. Optim. 15:210–228.CrossrefGoogle Scholar
  • Izmailov AF, Solodov MV, Uskov EI (2012) Global convergence of augmented Lagrangian methods applied to optimization problems with degenerate constraints, including problems with complementarity constraints. SIAM J. Optim. 22:1579–1606.CrossrefGoogle Scholar
  • Jara-Díaz SR (2007) Transport Economic Theory (Elsevier, Oxford, UK).Google Scholar
  • Kanemoto Y (1980) Theories of Urban Externalities (North-Holland Press, Amsterdam).Google Scholar
  • Larsson T, Lindberg PO, Patriksson M, Rydergren C (2002) On traffic equilibrium models with a nonlinear time/money relation. Patriksson M, Labbé M, eds. Transportation Planning—State of the Art (Kluwer, Boston), 19–31.Google Scholar
  • Luenberger DG (1996) Linear and Nonlinear Programming, 2nd ed. (Addison-Wesley, Reading, MA).Google Scholar
  • Luo Z-Q, Pang J-S, Ralph D (1996) Mathematical Programs with Equilibrium Constraints (Cambridge University Press, Cambridge, UK).CrossrefGoogle Scholar
  • Ma X, Lo HK (2012) Modeling transport management and land use over time. Transportation Res. Part B 46:687–709.CrossrefGoogle Scholar
  • Mackie PJ, Wardman M, Fowkes AS, Whelan GA, Nellthorp J, Bates J (2003) Value of travel time savings in the UK. Report to the Department for Transport, http://eprints.whiterose.ac.uk/2079/.Google Scholar
  • Marcotte P, Zhu DL (2009) Existence and computation of optimal tolls in multiclass network equilibrium problems. Oper. Res. Lett. 37:211–214.CrossrefGoogle Scholar
  • Martínez FJ (1992) The bid-choice land use model: An integrated economic framework. Environment Planning A24:871–885.CrossrefGoogle Scholar
  • Mattsson L-G (1987) Urban welfare maximization and housing market equilibrium in a random utility setting. Environment Planning A19:247–261.CrossrefGoogle Scholar
  • May AD, Shepherd SP, Emberger G, Ash A, Zhang X, Paulley N (2005) Optimal land use—Transport strategies methodology and application to European cities. Transportation Res. Record 1924:129–138.CrossrefGoogle Scholar
  • Meyer MD, Miller EJ (2001) Urban Transportation Planning: A Decision-Oriented Approach, 2nd ed. (McGraw-Hill, Boston).Google Scholar
  • Nash C (2003) Marginal cost and other pricing principles for user charging in transport: A comment. Transport Policy 10:345–348.CrossrefGoogle Scholar
  • Nelder JA, Mead R (1965) A simplex method for function minimization. Comput. J. 7:308–313.CrossrefGoogle Scholar
  • Rothengatter W (2003) How good is first best? Marginal cost and other pricing principles for user charging in transportation. Transportation Policy 10:121–130.CrossrefGoogle Scholar
  • Sheffi Y (1985) Urban Transportation Networks: Equilibrium Analysis with Mathematical Programming Methods (Prentice-Hall, Englewood Cliffs, NJ).Google Scholar
  • Takayama A (1985) Mathematical Economics, 2nd ed. (Cambridge University Press, Cambridge, UK).Google Scholar
  • Timothy D, Wheaton W (2001) Intra-urban wage variation, employment location, and commuting times. J. Urban Econom. 50:338–366.CrossrefGoogle Scholar
  • Train K, McFadden D (1978) The goods/leisure trade-off and disaggregate work trip mode choice models. Transportation Res. 12:349–353.CrossrefGoogle Scholar
  • Tsatsomeros MJ (2002) Generating and detecting matrices with positive principal minors. Asian Inform.-Sci.-Life 1:115–132.Google Scholar
  • Venables AJ (2007) Evaluating urban transport improvements: Cost-benefit analysis in the presence of agglomeration and income taxation. J. Transport Econom. Policy 41:173–188.Google Scholar
  • Verhoef ET (2002) Second-best congestion pricing in general static transportation networks with elastic demands. Regional Sci. Urban Econom. 32:281–310.CrossrefGoogle Scholar
  • Vold A (2005) Optimal land use and transport planning for the Greater Oslo area. Transportation Res. Part A 39:548–565.Google Scholar
  • Walter M, Cullmann A, von Hirschhausen C, Wand R, Zschille M (2009) Quo vadis efficiency analysis of water distribution? A comparative literature review. Utilities Policy 17:225–232.CrossrefGoogle Scholar
  • Wegener M (2004) Overview of land-use and transport models. Henscher DA, Button K, Haynes KE, Stopher P, eds. Handbook of Transport Geography and Spatial Systems (Pergamon/Elsevier Science, Kidlington, UK), 127–146.Google Scholar
  • Williams HCWL (1977) On the formation of travel demand models and economic evaluation measures of user benefit. Environment Planning 9A:285–344.CrossrefGoogle Scholar
  • Wright SJ (2005) An algorithm for degenerate nonlinear programming with rapid local convergence. SIAM J. Optim. 15:673–696.CrossrefGoogle Scholar
  • Yang H (1999) System optimum, stochastic user equilibrium, and optimal link tolls. Transportation Sci. 33:354–360.LinkGoogle Scholar
  • Yang H, Huang H-J (2004) The multi-class, multi-criteria traffic network equilibrium and system optimum problem. Transportation Res. Part B 38:1–15.CrossrefGoogle Scholar
  • Ying JQ (2007a) Optimal congestion pricing design methods in integrated location/transportation models. Heydecker B, ed. Mathematics in Transport (Elsevier, Oxford, UK), 153–166.Google Scholar
  • Ying JQ (2007b) Continuous optimization method for integrated land use/transportation models. J. Transportation Systems Engrg. Inform. Tech. 7:64–72.CrossrefGoogle Scholar
  • Ying JQ, Miyagi T (2001) Sensitivity analysis for stochastic user equilibrium network flows—A dual approach. Transportation Sci. 35:124–133.LinkGoogle Scholar
  • Ying JQ, Yang H (2005) Sensitivity analysis of stochastic user equilibrium flows in a bi-modal network with application to optimal pricing. Transportation Res. Part B 39:769–795.CrossrefGoogle Scholar
  • Zhang X, Yang H (2004) The optimal cordon-based network congestion pricing problem. Transportation Res. Part B 38:517–537.CrossrefGoogle Scholar
Previous
Back to Top
Next
INFORMS site uses cookies to store information on your computer. Some are essential to make our site work; Others help us improve the user experience. By using this site, you consent to the placement of these cookies. Please read our Privacy Statement to learn more.
Agree