Exact MCMC for Choices from Menus—Measuring Substitution and Complementarity Among Menu Items
Published Online:4 Mar 2020https://doi.org/10.1287/mksc.2019.1191
References
- (1972) Nearest-neighbour systems and the auto-logistic model for binary data. J. Roy. Statist. Soc. B 34(1):75–83.Google Scholar
- (1974) Spatial interaction and the statistical analysis of lattice systems. J. Roy. Statist. Soc. B 36(2):192–236.Google Scholar
- (1989) Price-induced patterns of competition. Marketing Sci. 8(4):291–309.Link, Google Scholar
- (1988) Modeling asymmetric competition. Marketing Sci. 7(4):393–412.Link, Google Scholar
- (2003) A general choice model for bundles with multiple-category products: Application to market segmentation and optimal pricing for bundles. J. Marketing Res. 40(2):115–130.Crossref, Google Scholar
- (1976) A balance model for evaluating subsets of multiattributed items. Management Sci. 22(5):528–539.Link, Google Scholar
- (2007) Valuing new goods in a model with complementarity: Online newspapers. Amer. Econom. Rev. 97(3):713–744.Crossref, Google Scholar
- (1981) Pseudo maximum likelihood estimation: Theory and applications. Ann. Statist. 9(4):861–869.Google Scholar
- (1995) Determinants of store-level price elasticity. J. Marketing Res. 32(1):17–29.Crossref, Google Scholar
- (2003) Measuring heterogeneous reservation prices for product bundles. Marketing Sci. 22(1):107–130.Link, Google Scholar
- (2012) Menu-choice modeling. Working paper, Rice University, Houston, TX.Google Scholar
- (2015) An analysis of assortment choice in grocery retailing. J. Retailing 91(1):19–33.Crossref, Google Scholar
- (2010) A double Metropolis-Hastings sampler for spatial models with intractable normalizing constants. J. Statist. Comput. Simulation 80(9):1007–1022.Crossref, Google Scholar
- (2016) An adaptive exchange algorithm for sampling from distributions with intractable normalizing constants. J. Amer. Statist. Assoc. 111(513):377–393.Crossref, Google Scholar
- (2001) Choice menus for mass customization: An experimental approach for analyzing customer demand with an application to a web-based information service. J. Marketing Res. 38(2):183–196.Crossref, Google Scholar
- (2007) Investigating endogeneity bias in marketing. Marketing Sci. 26(5):642–650.Link, Google Scholar
- (2004) Response modeling with nonrandom marketing-mix variables. J. Marketing Res. 41(4):467–478.Crossref, Google Scholar
- (2006) An efficient Markov chain Monte Carlo method for distributions with intractable normalising constants. Biometrika 93(2):451–458.Crossref, Google Scholar
- (2006) MCMC for doubly intractable distributions. Proc. 22nd Annual Conf. Uncertainty Artificial Intelligence, Arlington, Virginia.Google Scholar
- (2010) Menu-based choice modeling using traditional tools. Sawtooth Software Conf. Proc., Sequim, WA, 85–110.Google Scholar
- (2013) MBC v1-Software for Menu-Based Choice Analysis (Sawtooth Software, Orem, UT).Google Scholar
- (1996) Exact sampling with coupled Markov chains and applications to statistical mechanics. Random Structures Algorithms 9(1–2):223–252.Crossref, Google Scholar
- (2000) Analysis of cross category dependence in market basket selection. J. Retailing 76(3):367–392.Crossref, Google Scholar
- (1996) Outlying observations and their influence on maximum pseudo-likelihood estimates of Gibbs point processes. Working paper, University of Gothenburg, Gothenburg, Sweden.Google Scholar
- (2004) Analyzing brand competition across subcategories. J. Marketing Res. 41(4):448–456.Crossref, Google Scholar
- (2005) Composite likelihood estimation in multivariate data analysis. Canadian J. Statist. 33(3):335–356.Crossref, Google Scholar
