学习单隐层神经网络中交叉熵损失的局部几何

H. Fu, Yuejie Chi, Yingbin Liang
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引用次数: 4

摘要

我们研究了数据分类的模型恢复,其中训练标签是由具有s型激活的单隐藏层神经网络生成的,目标是恢复神经网络的权值。我们考虑两种网络模型,全连接网络(FCN)和无重叠卷积神经网络(CNN)。我们证明了在高斯输入下,只要样本复杂度足够大,基于交叉熵的经验风险在基真值的局部邻域内均匀地表现出强的凸性和光滑性。因此,如果在这个邻域中初始化,它建立了局部收敛保证,通过梯度下降使用交叉熵来学习单隐藏层神经网络,在接近最优的样本和相对于网络输入维的计算复杂性下,不需要在每次迭代时需要一组新的样本。
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Local Geometry of Cross Entropy Loss in Learning One-Hidden-Layer Neural Networks
We study model recovery for data classification, where the training labels are generated from a one-hidden-layer neural network with sigmoid activations, and the goal is to recover the weights of the neural network. We consider two network models, the fully-connected network (FCN) and the non-overlapping convolutional neural network (CNN). We prove that with Gaussian inputs, the empirical risk based on cross entropy exhibits strong convexity and smoothness uniformly in a local neighborhood of the ground truth, as soon as the sample complexity is sufficiently large. Hence, if initialized in this neighborhood, it establishes the local convergence guarantee for empirical risk minimization using cross entropy via gradient descent for learning one-hidden-layer neural networks, at the near-optimal sample and computational complexity with respect to the network input dimension without unrealistic assumptions such as requiring a fresh set of samples at each iteration.
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