鲁棒学习一般高斯混合

IF 2.3 2区计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

Journal of the ACM Pub Date : 2023-02-15 DOI:10.1145/3583680

Allen Liu, Ankur Moitra

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引用次数: 2

摘要

这项工作代表了两条重要工作线的自然结合-高斯和算法鲁棒统计的学习混合。特别地，我们给出了第一个可证明的鲁棒算法，用于学习任意常数高斯分布的混合物。我们只需要对混合权值进行温和的假设，并且各分量之间的总变化距离有界远离零。我们算法的核心是一种新方法，用于证明一种与维无关的多项式可辨识性——我们称之为鲁棒可辨识性——通过对某些生成函数应用精心选择的微分运算序列，这些函数不仅编码了我们想要学习的参数，而且编码了我们想要求解的多项式方程系统。我们展示了我们推导的符号恒等式如何直接用于分析自然的平方和松弛。

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Robustly Learning General Mixtures of Gaussians

This work represents a natural coalescence of two important lines of work — learning mixtures of Gaussians and algorithmic robust statistics. In particular, we give the first provably robust algorithm for learning mixtures of any constant number of Gaussians. We require only mild assumptions on the mixing weights and that the total variation distance between components is bounded away from zero. At the heart of our algorithm is a new method for proving a type of dimension-independent polynomial identifiability — which we call robust identifiability — through applying a carefully chosen sequence of differential operations to certain generating functions that not only encode the parameters we would like to learn but also the system of polynomial equations we would like to solve. We show how the symbolic identities we derive can be directly used to analyze a natural sum-of-squares relaxation.

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来源期刊

Journal of the ACM 工程技术-计算机：理论方法

CiteScore

7.50

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： The best indicator of the scope of the journal is provided by the areas covered by its Editorial Board. These areas change from time to time, as the field evolves. The following areas are currently covered by a member of the Editorial Board: Algorithms and Combinatorial Optimization; Algorithms and Data Structures; Algorithms, Combinatorial Optimization, and Games; Artificial Intelligence; Complexity Theory; Computational Biology; Computational Geometry; Computer Graphics and Computer Vision; Computer-Aided Verification; Cryptography and Security; Cyber-Physical, Embedded, and Real-Time Systems; Database Systems and Theory; Distributed Computing; Economics and Computation; Information Theory; Logic and Computation; Logic, Algorithms, and Complexity; Machine Learning and Computational Learning Theory; Networking; Parallel Computing and Architecture; Programming Languages; Quantum Computing; Randomized Algorithms and Probabilistic Analysis of Algorithms; Scientific Computing and High Performance Computing; Software Engineering; Web Algorithms and Data Mining