X. A. Naidenova, V. A. Parkhomenko, T. A. Martirova, A. V. Schukin
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引用次数: 0
摘要
摘要 本文致力于将可信推理原则应用于符号机器学习。在我们看来,这些应用对于提高 ML 算法的效率是必不可少的。许多此类算法都以蕴涵的形式生成和使用规则。我们讨论了这些规则在对象类别方面的生成。我们的分类规则是具体的。它们的前提部分称为良好封闭测试(GCT),应涵盖尽可能多的对象。本文介绍了一种名为 NIAGARA 的 GCT 生成算法。对该算法进行了重新审视,并提出了基于可信推理的新程序。它们的正确性在命题中得到了证明。我们使用了以下规则:蕴涵、禁止、扩展当前目标导向对象集的归纳规则、剪枝搜索解决方案域的规则。这些规则有助于提高算法的有效性。
Plausible Reasoning in an Algorithm for Generation of Good Classification Tests
The paper is devoted to the application of the plausible reasoning principles to symbolic machine learning. It seems for us that the applications are essential and necessary to improve the efficiency of ML algorithms. Many such algorithms produce and use rules in the form of implication. The generation of these rules with respect to the object classes is discussed. Our classification rules are specific. Their premise part, called good closed tests (GCTs), should cover as many objects as possible. One of the algorithms of GCTs generation called NIAGARA is presented. The algorithm is revisited and new procedures based on plausible reasoning are proposed. Their correctness is proved in propositions. We use the following rules: implication, interdiction, inductive rules of extending current sets of goal-oriented objects, rules of pruning the domain of searching solution. They allow to rise the effectiveness of algorithms.
期刊介绍:
Automation and Remote Control is one of the first journals on control theory. The scope of the journal is control theory problems and applications. The journal publishes reviews, original articles, and short communications (deterministic, stochastic, adaptive, and robust formulations) and its applications (computer control, components and instruments, process control, social and economy control, etc.).
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