鲍姆-韦尔奇算法的统计和计算保证

2015 53rd Annual Allerton Conference on Communication, Control, and Computing (Allerton) Pub Date : 2015-09-01 DOI:10.1109/ALLERTON.2015.7447067

Fanny Yang, Sivaraman Balakrishnan, M. Wainwright

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引用次数: 34

摘要

隐马尔可夫模型(HMM)是离散时间序列统计建模的主要方法之一，有着广泛的应用。从观察过程中估计HMM通常通过Baum-Welch算法来解决，当初始化合理地接近事实时，该算法在经验上表现良好。这种行为不能用现有的预测对坏局部最优的易感性的理论来解释。在本文中，我们的目标是缩小这一差距，并提供一个框架来表征任何全局最优的足够吸引力盆地，其中Baum-Welch保证在全局最优周围线性收敛到一个“最优”小球。然后，该框架用于确定线性收敛速率和一个足够的初始化区域，用于双分量各向同性隐藏马尔可夫混合高斯函数。

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Statistical and computational guarantees for the Baum-Welch algorithm

The Hidden Markov Model (HMM) is one of the main-stays of statistical modeling of discrete time series and is widely used in many applications. Estimating an HMM from its observation process is often addressed via the Baum-Welch algorithm, which performs well empirically when initialized reasonably close to the truth. This behavior could not be explained by existing theory which predicts susceptibility to bad local optima. In this paper we aim at closing the gap and provide a framework to characterize a sufficient basin of attraction for any global optimum in which Baum-Welch is guaranteed to converge linearly to an “optimally” small ball around the global optimum. The framework is then used to determine the linear rate of convergence and a sufficient initialization region for Baum-Welch applied on a two component isotropic hidden Markov mixture of Gaussians.

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2015 53rd Annual Allerton Conference on Communication, Control, and Computing (Allerton)

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