Linear Concepts and Hidden Variables

作者:Adam J. Grove, Dan Roth

摘要

We study a learning problem which allows for a “fair” comparison between unsupervised learning methods—probabilistic model construction, and more traditional algorithms that directly learn a classification. The merits of each approach are intuitively clear: inducing a model is more expensive computationally, but may support a wider range of predictions. Its performance, however, will depend on how well the postulated probabilistic model fits that data. To compare the paradigms we consider a model which postulates a single binary-valued hidden variable on which all other attributes depend. In this model, finding the most likely value of any one variable (given known values for the others) reduces to testing a linear function of the observed values. We learn the model with two techniques: the standard EM algorithm, and a new algorithm we develop based on covariances. We compare these, in a controlled fashion, against an algorithm (a version of Winnow) that attempts to find a good linear classifier directly. Our conclusions help delimit the fragility of using a model that is even “slightly” simpler than the distribution actually generating the data, vs. the relative robustness of directly searching for a good predictor.

论文关键词:linear functions, Winnow, expectation-maximization, Naire Bayes

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论文官网地址:https://doi.org/10.1023/A:1007655119445