数据驱动的多叉随机森林:具有强一致性的新型随机森林变体

IF 8.6 2区 计算机科学 Q1 COMPUTER SCIENCE, THEORY & METHODS
JunHao Chen, XueLi Wang, Fei Lei
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引用次数: 0

摘要

本文将以往一些弱一致性随机森林变体的证明方法修改为强一致性证明方法,并改进了这些变体的数据利用率,以获得更好的理论特性和实验性能。此外,我们还提出了数据驱动多叉随机森林(DMRF)算法,该算法与 BreimanRF(由 Breiman 提出)具有相同的复杂度,同时满足概率为 1 的强一致性。与之前只满足弱一致性的 RF 变体相比,DMRF 在分类和回归任务中的表现更好,在大多数情况下,它在分类任务中的表现甚至超过了 BreimanRF。据我们所知,DMRF 是目前一种低复杂度、高性能的随机森林变体,它能实现概率为 1 的强一致性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Data-driven multinomial random forest: a new random forest variant with strong consistency

Data-driven multinomial random forest: a new random forest variant with strong consistency

In this paper, we modify the proof methods of some previously weakly consistent variants of random forest into strongly consistent proof methods, and improve the data utilization of these variants in order to obtain better theoretical properties and experimental performance. In addition, we propose the Data-driven Multinomial Random Forest (DMRF) algorithm, which has the same complexity with BreimanRF (proposed by Breiman) while satisfying strong consistency with probability 1. It has better performance in classification and regression tasks than previous RF variants that only satisfy weak consistency, and in most cases even surpasses BreimanRF in classification tasks. To the best of our knowledge, DMRF is currently a low-complexity and high-performing variation of random forest that achieves strong consistency with probability 1.

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来源期刊
Journal of Big Data
Journal of Big Data Computer Science-Information Systems
CiteScore
17.80
自引率
3.70%
发文量
105
审稿时长
13 weeks
期刊介绍: The Journal of Big Data publishes high-quality, scholarly research papers, methodologies, and case studies covering a broad spectrum of topics, from big data analytics to data-intensive computing and all applications of big data research. It addresses challenges facing big data today and in the future, including data capture and storage, search, sharing, analytics, technologies, visualization, architectures, data mining, machine learning, cloud computing, distributed systems, and scalable storage. The journal serves as a seminal source of innovative material for academic researchers and practitioners alike.
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