利用隐含量子网络估算不确定性

Yi Hung Lim
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引用次数: 0

摘要

不确定性量化是许多性能关键应用的重要组成部分。本文为现有的集合学习和贝叶斯神经网络等方法提供了一个简单的替代方案。通过使用隐含量子网络直接模拟损失分布,我们可以估算出模型预测的不确定性有多大。在使用 MNIST 和 CIFAR 数据集进行的实验中,对于不正确的预测,估计损失分布的平均值要高出 2 倍。当从测试数据集中移除估计不确定性较高的数据时,模型的准确性会提高 10%。这种方法实现起来很简单,同时还能为用户必须知道模型何时可能出错的应用(如医疗保健领域的深度学习)提供重要信息。
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Estimating Uncertainty with Implicit Quantile Network
Uncertainty quantification is an important part of many performance critical applications. This paper provides a simple alternative to existing approaches such as ensemble learning and bayesian neural networks. By directly modeling the loss distribution with an Implicit Quantile Network, we get an estimate of how uncertain the model is of its predictions. For experiments with MNIST and CIFAR datasets, the mean of the estimated loss distribution is 2x higher for incorrect predictions. When data with high estimated uncertainty is removed from the test dataset, the accuracy of the model goes up as much as 10%. This method is simple to implement while offering important information to applications where the user has to know when the model could be wrong (e.g. deep learning for healthcare).
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