Multiple Imputation via Generative Adversarial Network for High-dimensional Blockwise Missing Value Problems.

Proceedings of the ... International Conference on Machine Learning and Applications. International Conference on Machine Learning and Applications Pub Date : 2021-12-01 DOI:10.1109/icmla52953.2021.00131

Zongyu Dai, Zhiqi Bu, Qi Long

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引用次数: 12

Abstract

Missing data are present in most real world problems and need careful handling to preserve the prediction accuracy and statistical consistency in the downstream analysis. As the gold standard of handling missing data, multiple imputation (MI) methods are proposed to account for the imputation uncertainty and provide proper statistical inference. In this work, we propose Multiple Imputation via Generative Adversarial Network (MI-GAN), a deep learning-based (in specific, a GAN-based) multiple imputation method, that can work under missing at random (MAR) mechanism with theoretical support. MI-GAN leverages recent progress in conditional generative adversarial neural works and shows strong performance matching existing state-of-the-art imputation methods on high-dimensional datasets, in terms of imputation error. In particular, MI-GAN significantly outperforms other imputation methods in the sense of statistical inference and computational speed.

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基于生成对抗网络的高维块缺失值问题多重插值。

在大多数现实世界的问题中都存在缺失数据，需要仔细处理以保持下游分析中的预测准确性和统计一致性。作为处理缺失数据的金标准，提出了多重插值方法来考虑插值的不确定性并提供适当的统计推断。在这项工作中，我们提出了通过生成对抗网络(MI-GAN)进行多重输入，这是一种基于深度学习(具体来说是基于gan)的多重输入方法，可以在随机缺失(MAR)机制下工作，并得到了理论支持。MI-GAN利用了条件生成对抗神经系统的最新进展，在输入误差方面，它在高维数据集上显示出与现有最先进的输入方法相匹配的强大性能。特别是，MI-GAN在统计推断和计算速度方面明显优于其他imputation方法。

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Proceedings of the ... International Conference on Machine Learning and Applications. International Conference on Machine Learning and Applications

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