A Framework and Benchmark for Deep Batch Active Learning for Regression

David Holzmüller, V. Zaverkin, Johannes Kastner, Ingo Steinwart
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引用次数: 13

Abstract

The acquisition of labels for supervised learning can be expensive. To improve the sample efficiency of neural network regression, we study active learning methods that adaptively select batches of unlabeled data for labeling. We present a framework for constructing such methods out of (network-dependent) base kernels, kernel transformations, and selection methods. Our framework encompasses many existing Bayesian methods based on Gaussian process approximations of neural networks as well as non-Bayesian methods. Additionally, we propose to replace the commonly used last-layer features with sketched finite-width neural tangent kernels and to combine them with a novel clustering method. To evaluate different methods, we introduce an open-source benchmark consisting of 15 large tabular regression data sets. Our proposed method outperforms the state-of-the-art on our benchmark, scales to large data sets, and works out-of-the-box without adjusting the network architecture or training code. We provide open-source code that includes efficient implementations of all kernels, kernel transformations, and selection methods, and can be used for reproducing our results.
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面向回归的深度批处理主动学习框架与基准
为监督学习获取标签可能是昂贵的。为了提高神经网络回归的样本效率,我们研究了一种主动学习方法,该方法可以自适应地选择批量的未标记数据进行标记。我们提出了一个框架,用于从(依赖于网络的)基核、核转换和选择方法中构造这样的方法。我们的框架包含了许多现有的基于神经网络高斯过程近似的贝叶斯方法以及非贝叶斯方法。此外,我们提出用草图有限宽度神经切线核取代常用的最后一层特征,并将它们与一种新的聚类方法相结合。为了评估不同的方法,我们引入了一个由15个大型表格回归数据集组成的开源基准。我们提出的方法在基准测试中优于最先进的方法,可扩展到大型数据集,并且无需调整网络架构或训练代码即可开箱即用。我们提供的开源代码包括所有内核、内核转换和选择方法的有效实现,并可用于再现我们的结果。
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