学习样本外扩展的一般数据转换。

Matthew Amodio, David van Dijk, Guy Wolf, Smita Krishnaswamy
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引用次数: 0

摘要

虽然像gan这样的生成模型已经成功地从噪声映射到特定的数据分布,或者更普遍地从一种数据分布映射到另一种数据分布,但它们不能隔离正在发生的转换,并将其应用于训练中未见的新分布。因此,它们记住了变换的定义域,而不能将变换推广到样本外。为了解决这个问题,我们提出了一种新的神经网络,称为神经元变换网络(NTNet),它将表示变换本身的信号与表示内部分布变化的其他信号隔离开来。然后,这个信号可以从一个分布与原始训练数据不同的新数据集中移除。我们在十多个合成和生物医学单细胞RNA测序数据集上展示了我们的NTNet的有效性,其中NTNet能够学习由遗传和药物扰动对一个细胞样本进行的数据转换,并成功地将其应用于另一个细胞样本以预测治疗结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
LEARNING GENERAL TRANSFORMATIONS OF DATA FOR OUT-OF-SAMPLE EXTENSIONS.

While generative models such as GANs have been successful at mapping from noise to specific distributions of data, or more generally from one distribution of data to another, they cannot isolate the transformation that is occurring and apply it to a new distribution not seen in training. Thus, they memorize the domain of the transformation, and cannot generalize the transformation out of sample. To address this, we propose a new neural network called a Neuron Transformation Network (NTNet) that isolates the signal representing the transformation itself from the other signals representing internal distribution variation. This signal can then be removed from a new dataset distributed differently from the original one trained on. We demonstrate the effectiveness of our NTNet on more than a dozen synthetic and biomedical single-cell RNA sequencing datasets, where the NTNet is able to learn the data transformation performed by genetic and drug perturbations on one sample of cells and successfully apply it to another sample of cells to predict treatment outcome.

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