A simple theory for training response of deep neural networks

Kenichi Nakazato
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Abstract

Deep neural networks give us a powerful method to model the training dataset's relationship between input and output. We can regard that as a complex adaptive system consisting of many artificial neurons that work as an adaptive memory as a whole. The network's behavior is training dynamics with a feedback loop from the evaluation of the loss function. We already know the training response can be constant or shows power law-like aging in some ideal situations. However, we still have gaps between those findings and other complex phenomena, like network fragility. To fill the gap, we introduce a very simple network and analyze it. We show the training response consists of some different factors based on training stages, activation functions, or training methods. In addition, we show feature space reduction as an effect of stochastic training dynamics, which can result in network fragility. Finally, we discuss some complex phenomena of deep networks.
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深度神经网络响应训练的简单理论
深度神经网络为我们提供了一种强大的方法来模拟训练数据集的输入和输出之间的关系。我们可以将其视为一个复杂的自适应系统,由许多人工神经元组成,作为一个整体的自适应存储器工作。该网络的行为是动态训练,并通过评估损失函数形成反馈回路。我们已经知道,在某些理想情况下,训练响应可以是恒定的,也可以表现出类似幂律的老化。然而,这些发现与其他复杂现象(如网络脆弱性)之间仍存在差距。为了填补这一空白,我们引入了一个非常简单的网络并对其进行了分析。我们表明,训练响应由一些基于训练阶段、激活函数或训练方法的不同因素组成。此外,我们还展示了作为随机训练动态效应的特征空间缩减,这可能会导致网络的脆弱性。最后,我们讨论了深度网络的一些复杂现象。
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