Random Utility Models with Cardinality Context Effects for Online Subscription Service Platforms

33 Pages Posted: 13 Nov 2017 Last revised: 15 Mar 2019

See all articles by Uzma Mushtaque

Uzma Mushtaque

Rensselaer Polytechnic Institute (RPI)

Jennifer Pazour

Rensselaer Polytechnic Institute (RPI)

Date Written: May 15, 2018

Abstract

This work creates new random utility models able to capture a cognitive heuristic known as consideration set theory. These choice models, which capture cardinality context effects in addition to item and user attributes, are ideal for recommending personalized assortments in online subscription service platforms. In such situations, users may be overwhelmed by a large amount of options, increasing their no-choice probability. Our new models modify the multinomial logit model by subtracting from an item’s perceived representative utility a disutility caused by the cardinality of the recommended assortment. Because this disutility does not affect the no-choice option, the user’s net benefit from evaluating a certain number of items is captured as a trade-off between the benefits and the costs of considering those items. Using an empirical data set capturing changing no-choice probabilities for different assortment sizes, a gradient descent algorithm estimates model input parameters. An algorithm is presented to efficiently solve the optimal assortment problem under cardinality context effects with equal profit margin. Computational experiments and statistical tests using the MovieLens dataset analyze the sensitivity of model parameters on the optimal assortment cardinality and no-choice probability.

Keywords: Recommender Systems, Consideration Sets, Random Utility Models, Assortment Optimization, Subscription Platforms

Suggested Citation

Mushtaque, Uzma and Pazour, Jennifer, Random Utility Models with Cardinality Context Effects for Online Subscription Service Platforms (May 15, 2018). Available at SSRN: https://ssrn.com/abstract=3066388 or http://dx.doi.org/10.2139/ssrn.3066388

Uzma Mushtaque (Contact Author)

Rensselaer Polytechnic Institute (RPI) ( email )

Troy, NY 12180
United States

Jennifer Pazour

Rensselaer Polytechnic Institute (RPI) ( email )

Troy, NY 12180
United States

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