$\ell_1$-regularized Neural Networks are Improperly Learnable in Polynomial Time
October 13, 2015 ยท Declared Dead ยท ๐ arXiv.org
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Authors
Yuchen Zhang, Jason D. Lee, Michael I. Jordan
arXiv ID
1510.03528
Category
cs.LG: Machine Learning
Citations
103
Venue
arXiv.org
Last Checked
4 months ago
Abstract
We study the improper learning of multi-layer neural networks. Suppose that the neural network to be learned has $k$ hidden layers and that the $\ell_1$-norm of the incoming weights of any neuron is bounded by $L$. We present a kernel-based method, such that with probability at least $1 - ฮด$, it learns a predictor whose generalization error is at most $ฮต$ worse than that of the neural network. The sample complexity and the time complexity of the presented method are polynomial in the input dimension and in $(1/ฮต,\log(1/ฮด),F(k,L))$, where $F(k,L)$ is a function depending on $(k,L)$ and on the activation function, independent of the number of neurons. The algorithm applies to both sigmoid-like activation functions and ReLU-like activation functions. It implies that any sufficiently sparse neural network is learnable in polynomial time.
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