用联合扩散模型学习数据表示

Machine learning and knowledge discovery in databases : European Conference, ECML PKDD ... : proceedings. ECML PKDD (Conference) Pub Date : 2023-01-31 DOI:10.48550/arXiv.2301.13622

K. Deja, T. Trzciński, Jakub M. Tomczak

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引用次数: 3

摘要

允许综合和分类数据的联合机器学习模型通常在这些任务之间表现不平衡，或者训练不稳定。在这项工作中，我们偏离了一组经验观察，这些观察表明，当代基于深度扩散的生成模型构建的内部表征不仅用于生成，而且用于预测。然后，我们提出用一个分类器扩展香草扩散模型，该分类器允许在这些目标之间共享参数化进行稳定的联合端到端训练。由此产生的联合扩散模型在所有评估基准的分类和生成质量方面都优于最近最先进的混合方法。在我们的联合训练方法之上，我们介绍了如何通过引入视觉反事实解释的方法，直接受益于共享的生成和判别表征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Learning Data Representations with Joint Diffusion Models

Joint machine learning models that allow synthesizing and classifying data often offer uneven performance between those tasks or are unstable to train. In this work, we depart from a set of empirical observations that indicate the usefulness of internal representations built by contemporary deep diffusion-based generative models not only for generating but also predicting. We then propose to extend the vanilla diffusion model with a classifier that allows for stable joint end-to-end training with shared parameterization between those objectives. The resulting joint diffusion model outperforms recent state-of-the-art hybrid methods in terms of both classification and generation quality on all evaluated benchmarks. On top of our joint training approach, we present how we can directly benefit from shared generative and discriminative representations by introducing a method for visual counterfactual explanations.

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Machine learning and knowledge discovery in databases : European Conference, ECML PKDD ... : proceedings. ECML PKDD (Conference)

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