Abstract
Maximum entropy models are often used to describe supply and demand behavior in urban transportation and land use systems. However, they have been criticized for not representing behavioral rules of system agents and because their parameters seems to adjust only to modeler-imposed constraints. In response, it is demonstrated that the solution to the entropy maximization problem with linear constraints is a multinomial logit model whose parameters solve the likelihood maximization problem of this probabilistic model. But this result neither provides a microeconomic interpretation of the entropy maximization problem nor explains the equivalence of these two optimization problems. This work demonstrates that an analysis of the dual of the entropy maximization problem yields two useful alternative explanations of its solution. The first shows that the maximum entropy estimators of the multinomial logit model parameters reproduce rational user behavior, while the second shows that the likelihood maximization problem for multinomial logit models is the dual of the entropy maximization problem.
Highlights
The maximum entropy approach is widely used for formulating demand models, primarily aggregate, for urban transportation and land use systems
Maximum entropy models have been widely applied to various economic systems, and are common in representations of supply and demand behavior in urban transportation and land use modeling
A major criticism of these models, is that they do not embody actual behavioral rules of the agents in the system and their parameters adjust only to the constraints imposed by the modeler
Summary
Estimator of Multinomial Logit Models and Its Equivalence to the Maximum Likelihood Estimator. Escuela de Ingeniería Civil Industrial, Universidad Diego Portales, Santiago, Chile. Received: 21 August 2010 / Accepted: 8 September 2010 / Published: 29 September 2010
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