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Optimization Methods for Interpretable Differentiable Decision Trees in Reinforcement Learning

Decision trees are ubiquitous in machine learning for their ease of use and interpretability. Yet, these models are not typically employed in reinforcement learning as they cannot be updated online via stochastic gradient descent. We overcome this limitation by allowing for a gradient update over the entire tree that improves sample complexity affords interpretable policy extraction. First, we include theoretical motivation on the need for policy-gradient learning by examining the properties of gradient descent over differentiable decision trees. Second, we demonstrate that our approach equals or outperforms a neural network on all domains and can learn discrete decision trees online with average rewards up to 7x higher than a batch-trained decision tree. Third, we conduct a user study to quantify the interpretability of a decision tree, rule list, and a neural network with statistically significant results ($p < 0.001$).

preprint2020arXivOpen access
Andrew SilvaTaylor KillianIvan Dario Jimenez RodriguezSung-Hyun SonMatthew Gombolay
Machine Learning
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Andrew SilvaTaylor KillianIvan Dario Jimenez RodriguezSung-Hyun SonMatthew Gombolay

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