可解释推荐系统的元决策树

Eyal Shulman, Lior Wolf
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引用次数: 11

摘要

我们解决了构建基于每个用户决策树的可解释推荐系统的问题,该系统的决策规则基于单个属性值。我们通过应用学习到的回归函数来构建树,以获得决策规则以及叶节点的值。回归函数接收用户训练集的嵌入作为输入,以及到达当前节点的样本的嵌入。嵌入和回归量是端到端学习的,损失鼓励决策规则是稀疏的。通过应用我们的方法,我们获得了一个协同过滤解决方案,该解决方案为它提供的每个评级提供了直接的解释。在准确性方面,它与其他算法具有竞争力。然而,正如预期的那样,可解释性是有代价的,其准确性通常略低于文献中报道的最先进结果的状态。我们的代码可在\urlhttps://github.com/shulmaneyal/metatrees获得。
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Meta Decision Trees for Explainable Recommendation Systems
We tackle the problem of building explainable recommendation systems that are based on a per-user decision tree, with decision rules that are based on single attribute values. We build the trees by applying learned regression functions to obtain the decision rules as well as the values at the leaf nodes. The regression functions receive as input the embedding of the user's training set, as well as the embedding of the samples that arrive at the current node. The embedding and the regressors are learned end-to-end with a loss that encourages the decision rules to be sparse. By applying our method, we obtain a collaborative filtering solution that provides a direct explanation to every rating it provides. With regards to accuracy, it is competitive with other algorithms. However, as expected, explainability comes at a cost and the accuracy is typically slightly lower than the state of the art result reported in the literature. Our code is available at \urlhttps://github.com/shulmaneyal/metatrees.
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