Neural networks have proved to be very robust at processing unstructured data like images, text, videos, and audio. However, it has been observed that their performance is not up to the mark in tabular data; hence tree-based models are preferred in such scenarios. A popular model for tabular data is boosted trees, a highly efficacious and extensively used machine learning method, and it also provides good interpretability compared to neural networks. In this paper, we describe a novel architecture XBNet, which tries to combine tree-based models with that of neural networks to create a robust architecture trained by using a novel optimization technique, Boosted Gradient Descent for Tabular Data which increases its interpretability and performance.
翻译:事实证明,神经网络在处理图象、文本、视频和音频等非结构化数据时非常活跃,但发现其性能不及表层数据中的标记;因此在这种情景中偏好以树为基础的模型。一个流行的表层数据模型被提振树木,这是一种高效和广泛使用的机器学习方法,它也提供了与神经网络相比良好的解释性。在本文中,我们描述了一个新的结构XBNet,它试图将基于树的模型与神经网络的模型结合起来,以便通过使用新颖的优化技术(Boosted Gradient Emple for Tabular Data)来建立强有力的结构,从而增加其解释性和性能。
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