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引用次数: 0

摘要

大多数高维估计和分类方法建议最小化损失函数(经验风险),即与每个观测数据点相关的损失总和。我们考虑二元分类问题的特殊情况,其中损失是特征向量和权向量的内积的函数。对于这类特殊的分类任务,当损失为光滑函数时,经验风险最小化问题可以转化为具有唯一鞍点的极大极小优化问题。提出了一种求解极大极小问题的分布式近端原始对偶方法。我们还分析了所提出的原对偶方法的收敛性,并证明了其收敛到唯一鞍点。为了证明收敛性结果,我们提出了一种考虑参数空间的非欧几里德几何的一致项的新分析。在Erdos-Reyni随机图和格上验证了该算法的收敛性。
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Distributed Primal-Dual Proximal Method for Regularized Empirical Risk Minimization
Most high-dimensional estimation and classification methods propose to minimize a loss function (empirical risk) that is the sum of losses associated with each observed data point. We consider the special case of binary classification problems, where the loss is a function of the inner product of the feature vectors and a weight vector. For this special class of classification tasks, the empirical risk minimization problem can be recast as a minimax optimization which has a unique saddle point when the losses are smooth functions. We propose a distributed proximal primal-dual method to solve the minimax problem. We also analyze the convergence of the proposed primal-dual method and show its convergence to the unique saddle point. To prove the convergence results, we present a novel analysis of the consensus terms that takes into account the non-Euclidean geometry of the parameter space. We also numerically verify the convergence of the proposed algorithm for the logistic regression on the Erdos-Reyni random graphs and lattices.
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