Publications [#382728] of Guillermo Sapiro

Papers Published

1. Kim, YK; Matías Di Martino, J; Sapiro, G, Generalizing Neural Additive Models via Statistical Multimodal Analysis, Transactions on Machine Learning Research, vol. 2024 (January, 2024)
   (last updated on 2025/04/04)

   Abstract:
   Interpretable models are gaining increasing attention in the machine learning community, and significant progress is being made to develop simple, interpretable, yet powerful deep learning approaches. Generalized Additive Models (GAM) and Neural Additive Models (NAM) are prime examples. Despite these methods’ great potential and popularity in critical applications, e.g., medical applications, they fail to generalize to distributions with more than one mode (multimodal1). The main reason behind this limitation is that these "all-fit-one" models collapse multiple relationships by being forced to fit the data unimodally. We address this critical limitation by proposing interpretable multimodal network frameworks capable of learning a Mixture of Neural Additive Models (MNAM). The proposed MNAM learns relationships between input features and outputs in a multimodal fashion and assigns a probability to each mode. The proposed method shares similarities with Mixture Density Networks (MDN) while keeping the interpretability that characterizes GAM and NAM. We demonstrate how the proposed MNAM balances between rich representations and interpretability with numerous empirical observations and pedagogical studies. We present and discuss different training alternatives and provided extensive practical evaluation to assess the proposed framework. The code is available at https://github.com/youngkyungkim93/MNAM.