Novelty-organizing classifiers applied to classification and reinforcement learning: towards flexible algorithms

Proceedings of the Companion Publication of the 2014 Annual Conference on Genetic and Evolutionary Computation Pub Date : 2014-07-12 DOI:10.1145/2598394.2598429

Danilo Vasconcellos Vargas, H. Takano, J. Murata

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引用次数: 1

Abstract

It is widely known that reinforcement learning is a more general problem than supervised learning. In fact, supervised learning can be seen as a class of reinforcement learning problems. However, only a couple of papers tested reinforcement learning algorithms in supervised learning problems. Here we propose a new and simpler way to abstract supervised learning for any reinforcement learning algorithm. Moreover, a new algorithm called Novelty-Organizing Classifiers is developed based on a Novelty Map population that focuses more on the novelty of the inputs than their frequency. A comparison of the proposed method with Self-Organizing Classifiers and BioHel on some datasets is presented. Even though BioHel is specialized in solving supervised learning problems, the results showed only a trade-off between the algorithms. Lastly, results on a maze problem validate the flexibility of the proposed algorithm beyond supervised learning problems. Thus, Novelty-Organizing Classifiers is capable of solving many supervised learning problems as well as a maze problem without changing any parameter at all. Considering the fact that no adaptation of parameters was executed, the proposed algorithm's basis seems interestingly flexible.

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应用于分类和强化学习的新颖组织分类器:走向灵活的算法

众所周知，强化学习是一个比监督学习更普遍的问题。事实上，监督学习可以看作是一类强化学习问题。然而，只有几篇论文在监督学习问题中测试了强化学习算法。在这里，我们提出了一种新的更简单的方法来抽象任何强化学习算法的监督学习。此外，一种新的算法被称为新颖性组织分类器是基于新颖性地图人口开发的，它更多地关注输入的新颖性而不是它们的频率。并在一些数据集上与自组织分类器和BioHel进行了比较。尽管BioHel专门解决监督式学习问题，但结果只显示了算法之间的权衡。最后，在一个迷宫问题上的结果验证了该算法超越监督学习问题的灵活性。因此，新奇组织分类器能够在不改变任何参数的情况下解决许多监督学习问题以及迷宫问题。考虑到没有执行参数的自适应，该算法的基础显得非常灵活。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Companion Publication of the 2014 Annual Conference on Genetic and Evolutionary Computation

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