学习离散分布的任意统计混合

Jian Li, Y. Rabani, L. Schulman, Chaitanya Swamy
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引用次数: 19

摘要

我们研究了在大有限集上从未标记样本中学习非常一般的统计混合模型的问题。具体来说,要学习的模型mix是概率分布p上的概率分布,其中每个这样的p都是[n] ={1,2,…,n}上的概率分布。当我们从混合物中取样时,我们不直接观察到p,而只是间接地以非常嘈杂的方式观察到p,通过从分布p中独立地从[n]中重复采样K次。问题是在运输(推土机)距离上以高精度推断混合物。我们给出了学习这个混合模型的第一个有效算法,而没有对分布$\mix$的结构做任何限制假设。我们将溶液的质量限定为样本大小K和所用样本数量的函数。我们的模型和结果适用于各种无监督学习场景,包括学习主题模型和协同过滤。
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Learning Arbitrary Statistical Mixtures of Discrete Distributions
We study the problem of learning from unlabeled samples very general statistical mixture models on large finite sets. Specifically, the model to be learned, mix, is a probability distribution over probability distributions p, where each such p is a probability distribution over [n] = {1,2,...,n}. When we sample from mix, we do not observe p directly, but only indirectly and in very noisy fashion, by sampling from [n] repeatedly, independently K times from the distribution p. The problem is to infer mix to high accuracy in transportation (earthmover) distance. We give the first efficient algorithms for learning this mixture model without making any restricting assumptions on the structure of the distribution $\mix$. We bound the quality of the solution as a function of the size of the samples K and the number of samples used. Our model and results have applications to a variety of unsupervised learning scenarios, including learning topic models and collaborative filtering.
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