Efficient Comparison Of Independence Structures Of Log-Linear Models

Log-linear models are a family of probability distributions which capture relationships between variables. They have been proven useful in a wide variety of fields such as epidemiology, economics and sociology. The interest in using these models is that they are able to capture context-specific independencies, relationships that provide richer structure to the model. Many approaches exist for automatic learning of the independence structure of log-linear models from data. The methods for evaluating these approaches, however, are limited, and are mostly based on indirect measures of the complete density of the probability distribution. Such computation requires additional learning of the numerical parameters of the distribution, which introduces distortions when used for comparing structures. This work addresses this issue by presenting the first measure for the direct and efficient comparison of independence structures of log-linear models. Our method relies only on the independence structure of the models, which is useful when the interest lies in obtaining knowledge from said structure, or when comparing the performance of structure learning algorithms, among other possible uses. We present proof that the measure is a metric, and a method for its computation that is efficient in the number of variables of the domain.

Automated summary

Log-linear models are probability distributions that capture the relationships between variables, and they have been widely used in various fields. This work proposes a measure for the direct and efficient comparison of independence structures in log-linear models, which only requires the independence structure of the models. This measure is useful for obtaining knowledge from the structure or comparing the performance of structure learning algorithms.