Related papers: Bayesian Joint Additive Factor Models for Multiview Learning

Bayesian Joint Additive Factor Models for Multiview Learning

URL: http://arxiv.org/abs/2406.00778v1
Date: Sun, 2 Jun 2024 15:35:45 GMT
Title: Bayesian Joint Additive Factor Models for Multiview Learning
Authors: Niccolo Anceschi, Federico Ferrari, David B. Dunson, Himel Mallick,
Abstract summary: A motivating application arises in the context of precision medicine where multi-omics data are collected to correlate with clinical outcomes. We propose a joint additive factor regression model (JAFAR) with a structured additive design, accounting for shared and view-specific components. Prediction of time-to-labor onset from immunome, metabolome, and proteome data illustrates performance gains against state-of-the-art competitors.
Score: 7.254731344123118
License: http://creativecommons.org/licenses/by/4.0/
Abstract: It is increasingly common in a wide variety of applied settings to collect data of multiple different types on the same set of samples. Our particular focus in this article is on studying relationships between such multiview features and responses. A motivating application arises in the context of precision medicine where multi-omics data are collected to correlate with clinical outcomes. It is of interest to infer dependence within and across views while combining multimodal information to improve the prediction of outcomes. The signal-to-noise ratio can vary substantially across views, motivating more nuanced statistical tools beyond standard late and early fusion. This challenge comes with the need to preserve interpretability, select features, and obtain accurate uncertainty quantification. We propose a joint additive factor regression model (JAFAR) with a structured additive design, accounting for shared and view-specific components. We ensure identifiability via a novel dependent cumulative shrinkage process (D-CUSP) prior. We provide an efficient implementation via a partially collapsed Gibbs sampler and extend our approach to allow flexible feature and outcome distributions. Prediction of time-to-labor onset from immunome, metabolome, and proteome data illustrates performance gains against state-of-the-art competitors. Our open-source software (R package) is available at https://github.com/niccoloanceschi/jafar.

Related papers

Mitigating Shortcut Learning with Diffusion Counterfactuals and Diverse Ensembles [95.49699178874683]
We propose DiffDiv, an ensemble diversification framework exploiting Diffusion Probabilistic Models (DPMs) We show that DPMs can generate images with novel feature combinations, even when trained on samples displaying correlated input features. We show that DPM-guided diversification is sufficient to remove dependence on shortcut cues, without a need for additional supervised signals.
arXiv Detail & Related papers (2023-11-23T15:47:33Z)
Leveraging Diffusion Disentangled Representations to Mitigate Shortcuts in Underspecified Visual Tasks [92.32670915472099]
We propose an ensemble diversification framework exploiting the generation of synthetic counterfactuals using Diffusion Probabilistic Models (DPMs) We show that diffusion-guided diversification can lead models to avert attention from shortcut cues, achieving ensemble diversity performance comparable to previous methods requiring additional data collection.
arXiv Detail & Related papers (2023-10-03T17:37:52Z)
Revisiting the Evaluation of Image Synthesis with GANs [55.72247435112475]
This study presents an empirical investigation into the evaluation of synthesis performance, with generative adversarial networks (GANs) as a representative of generative models. In particular, we make in-depth analyses of various factors, including how to represent a data point in the representation space, how to calculate a fair distance using selected samples, and how many instances to use from each set.
arXiv Detail & Related papers (2023-04-04T17:54:32Z)
Bayesian predictive modeling of multi-source multi-way data [0.0]
We consider molecular data from multiple 'omics sources as predictors of early-life iron deficiency (ID) in a rhesus monkey model. We use a linear model with a low-rank structure on the coefficients to capture multi-way dependence. We show that our model performs as expected in terms of misclassification rates and correlation of estimated coefficients with true coefficients.
arXiv Detail & Related papers (2022-08-05T21:58:23Z)
Improving Multi-Interest Network with Stable Learning [13.514488368734776]
We propose a novel multi-interest network, named DEep Stable Multi-Interest Learning (DESMIL) DESMIL tries to eliminate the influence of subtle dependencies among captured interests via learning weights for training samples. We conduct extensive experiments on public recommendation datasets, a large-scale industrial dataset and the synthetic datasets.
arXiv Detail & Related papers (2022-07-14T07:49:28Z)
Equivariance Allows Handling Multiple Nuisance Variables When Analyzing Pooled Neuroimaging Datasets [53.34152466646884]
In this paper, we show how bringing recent results on equivariant representation learning instantiated on structured spaces together with simple use of classical results on causal inference provides an effective practical solution. We demonstrate how our model allows dealing with more than one nuisance variable under some assumptions and can enable analysis of pooled scientific datasets in scenarios that would otherwise entail removing a large portion of the samples.
arXiv Detail & Related papers (2022-03-29T04:54:06Z)
Self-Supervised Multimodal Domino: in Search of Biomarkers for Alzheimer's Disease [19.86082635340699]
We propose a taxonomy of all reasonable ways to organize self-supervised representation-learning algorithms. We first evaluate models on toy multimodal MNIST datasets and then apply them to a multimodal neuroimaging dataset with Alzheimer's disease patients. Results show that the proposed approach outperforms previous self-supervised encoder-decoder methods.
arXiv Detail & Related papers (2020-12-25T20:28:13Z)
Modeling Shared Responses in Neuroimaging Studies through MultiView ICA [94.31804763196116]
Group studies involving large cohorts of subjects are important to draw general conclusions about brain functional organization. We propose a novel MultiView Independent Component Analysis model for group studies, where data from each subject are modeled as a linear combination of shared independent sources plus noise. We demonstrate the usefulness of our approach first on fMRI data, where our model demonstrates improved sensitivity in identifying common sources among subjects.
arXiv Detail & Related papers (2020-06-11T17:29:53Z)
Transformer Hawkes Process [79.16290557505211]
We propose a Transformer Hawkes Process (THP) model, which leverages the self-attention mechanism to capture long-term dependencies. THP outperforms existing models in terms of both likelihood and event prediction accuracy by a notable margin. We provide a concrete example, where THP achieves improved prediction performance for learning multiple point processes when incorporating their relational information.
arXiv Detail & Related papers (2020-02-21T13:48:13Z)

This list is automatically generated from the titles and abstracts of the papers in this site.