Artículos de revistas
Technical note—An expectation-maximization method to estimate a rank-based choice model of demand
Fecha
2017-02Registro en:
van Ryzin, Garrett; Vulcano, Gustavo; Technical note—An expectation-maximization method to estimate a rank-based choice model of demand; Informs; Operations Research; 65; 2; 2-2017; 396-407
0030-364X
1526-5463
CONICET Digital
CONICET
Autor
van Ryzin, Garrett
Vulcano, Gustavo
Resumen
We propose an expectation-maximization (EM) method to estimate customer preferences for a category of products using only sales transaction and product availability data. The demand model combines a general, rank-based discrete choice model of preferences with a Bernoulli process of customer arrivals over time. The discrete choice model is defined by a probability mass function (pmf) on a given set of preference rankings of alternatives, including the no-purchase alternative. Each customer is represented by a preference list, and when faced with a given choice set is assumed to either purchase the available option that ranks highest in her preference list, or not purchase at all if no available product ranks higher than the no-purchase alternative.We apply the EM method to jointly estimate the arrival rate of customers and the pmf of the rank-based choice model, and show that it leads to a remarkably simple and highly efficient estimation procedure. All limit points of the procedure are provably stationary points of the associated incomplete data log-likelihood function, and the output produced are maximum likelihood estimates (MLEs). Our numerical experiments confirm the practical potential of the proposal.