Deep Neural Decision Forests

2015 IEEE International Conference on Computer Vision (ICCV) Pub Date : 2015-12-07 DOI:10.1109/ICCV.2015.172

P. Kontschieder, M. Fiterau, A. Criminisi, S. R. Bulò

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引用次数: 458

Abstract

We present Deep Neural Decision Forests - a novel approach that unifies classification trees with the representation learning functionality known from deep convolutional networks, by training them in an end-to-end manner. To combine these two worlds, we introduce a stochastic and differentiable decision tree model, which steers the representation learning usually conducted in the initial layers of a (deep) convolutional network. Our model differs from conventional deep networks because a decision forest provides the final predictions and it differs from conventional decision forests since we propose a principled, joint and global optimization of split and leaf node parameters. We show experimental results on benchmark machine learning datasets like MNIST and ImageNet and find on-par or superior results when compared to state-of-the-art deep models. Most remarkably, we obtain Top5-Errors of only 7.84%/6.38% on ImageNet validation data when integrating our forests in a single-crop, single/seven model GoogLeNet architecture, respectively. Thus, even without any form of training data set augmentation we are improving on the 6.67% error obtained by the best GoogLeNet architecture (7 models, 144 crops).

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深度神经决策森林

我们提出了深度神经决策森林——一种新的方法，通过端到端方式训练分类树，将分类树与深度卷积网络中已知的表示学习功能结合起来。为了结合这两个世界，我们引入了一个随机和可微的决策树模型，该模型指导通常在(深度)卷积网络的初始层进行的表示学习。我们的模型与传统的深度网络不同，因为决策森林提供最终预测，它与传统的决策森林不同，因为我们提出了分裂和叶节点参数的原则，联合和全局优化。我们在基准机器学习数据集(如MNIST和ImageNet)上展示了实验结果，并与最先进的深度模型相比，发现了同等或更好的结果。最值得注意的是，当我们在单一作物和单一/七个模型的GoogLeNet架构中整合我们的森林时，我们在ImageNet验证数据上获得的top5误差分别为7.84%和6.38%。因此，即使没有任何形式的训练数据集增强，我们也在改进最好的GoogLeNet架构(7个模型，144个作物)所获得的6.67%的误差。

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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2015 IEEE International Conference on Computer Vision (ICCV)

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