On a Mallows-Type Model for (Ranked) Choices
Abstract
We consider a preference learning setting where every participant chooses an ordered list of $k$ most preferred items among a displayed set of candidates. (The set can be different for every participant.) We identify a distance-based ranking model for the population's preferences and their (ranked) choice behavior. The ranking model resembles the Mallows model but uses a new distance function called Reverse Major Index (RMJ). We find that despite the need to sum over all permutations, the RMJ-based ranking distribution aggregates into (ranked) choice probabilities with simple closed-form expression. We develop effective methods to estimate the model parameters and showcase their generalization power using real data, especially when there is a limited variety of display sets.
Cite
Text
Feng and Tang. "On a Mallows-Type Model for (Ranked) Choices." Neural Information Processing Systems, 2022.Markdown
[Feng and Tang. "On a Mallows-Type Model for (Ranked) Choices." Neural Information Processing Systems, 2022.](https://mlanthology.org/neurips/2022/feng2022neurips-mallowstype/)BibTeX
@inproceedings{feng2022neurips-mallowstype,
title = {{On a Mallows-Type Model for (Ranked) Choices}},
author = {Feng, Yifan and Tang, Yuxuan},
booktitle = {Neural Information Processing Systems},
year = {2022},
url = {https://mlanthology.org/neurips/2022/feng2022neurips-mallowstype/}
}