Stochastic optimization for deep CCA via nonlinear orthogonal iterations

Weiran Wang, R. Arora, Karen Livescu, N. Srebro
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引用次数: 63

Abstract

Deep CCA is a recently proposed deep neural network extension to the traditional canonical correlation analysis (CCA), and has been successful for multi-view representation learning in several domains. However, stochastic optimization of the deep CCA objective is not straightforward, because it does not decouple over training examples. Previous optimizers for deep CCA are either batch-based algorithms or stochastic optimization using large minibatches, which can have high memory consumption. In this paper, we tackle the problem of stochastic optimization for deep CCA with small minibatches, based on an iterative solution to the CCA objective, and show that we can achieve as good performance as previous optimizers and thus alleviate the memory requirement.
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基于非线性正交迭代的深度CCA随机优化
深度关联分析(Deep CCA)是近年来在传统典型相关分析(CCA)基础上提出的一种深度神经网络扩展方法,在多个领域的多视图表示学习中取得了成功。然而,深度CCA目标的随机优化并不简单,因为它不能在训练样本上解耦。以前的深度CCA优化器要么是基于批处理的算法,要么是使用大minibatch的随机优化,这可能会有很高的内存消耗。在本文中,我们基于对CCA目标的迭代求解,解决了小批量深度CCA的随机优化问题,并表明我们可以获得与以前的优化器一样好的性能,从而减轻了内存需求。
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