Two-Dimensional-Reduction Random Forest

Shuquan Ye; Zhiwen Yu; Jiaying Lin; Kaixiang Yang; Dan Dai; Zhi-Hui Zhan; Wei-Neng Chen; Jun Zhang

doi:10.1109/icist.2018.8426168

Two-Dimensional-Reduction Random Forest

Shuquan Ye
, Zhiwen Yu
, Jiaying Lin
, Kaixiang Yang
, Dan Dai
, Zhi-Hui Zhan
, Wei-Neng Chen
, Jun Zhang

Research output: Chapter in Book/Published conference output › Conference publication

1 Citation (Scopus)

Abstract

Random forest (RF) is a competitive machine learning theorem, while one of the big challenges for it is imbalanced real-world data. A Two-dimensional-reduction RF (2DRRF) is presented in this paper, which is optimized based on traditional RF and three innovation points as follows. To improve RF in terms of performance on imbalanced data, a two-dimensional-reduction approach is created. Then, a modified T-link is proposed focusing on detecting and reducing safe samples. Moreover, a biased sampling manner is employed to build up optimal training datasets. Across 13 imbalanced datasets from KEEL-dataset with imbalance-ratio ranging from 6.38 to 129.44, experiments are carried out indicating that 2DRRF steadily holds advantages over the other two relevant implementations of RF in terms of accuracy, recall, precision and F-value.

Original language	English
Title of host publication	2018 Eighth International Conference on Information Science and Technology (ICIST)
Publisher	IEEE
DOIs	https://doi.org/10.1109/icist.2018.8426168
Publication status	Published - 9 Aug 2018

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10.1109/icist.2018.8426168

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@inproceedings{bb45028f5dea480ba4a21b29bfd88312,

title = "Two-Dimensional-Reduction Random Forest",

abstract = "Random forest (RF) is a competitive machine learning theorem, while one of the big challenges for it is imbalanced real-world data. A Two-dimensional-reduction RF (2DRRF) is presented in this paper, which is optimized based on traditional RF and three innovation points as follows. To improve RF in terms of performance on imbalanced data, a two-dimensional-reduction approach is created. Then, a modified T-link is proposed focusing on detecting and reducing safe samples. Moreover, a biased sampling manner is employed to build up optimal training datasets. Across 13 imbalanced datasets from KEEL-dataset with imbalance-ratio ranging from 6.38 to 129.44, experiments are carried out indicating that 2DRRF steadily holds advantages over the other two relevant implementations of RF in terms of accuracy, recall, precision and F-value.",

author = "Shuquan Ye and Zhiwen Yu and Jiaying Lin and Kaixiang Yang and Dan Dai and Zhi-Hui Zhan and Wei-Neng Chen and Jun Zhang",

year = "2018",

month = aug,

day = "9",

doi = "10.1109/icist.2018.8426168",

language = "English",

booktitle = "2018 Eighth International Conference on Information Science and Technology (ICIST)",

publisher = "IEEE",

address = "United States",

}

TY - GEN

T1 - Two-Dimensional-Reduction Random Forest

AU - Ye, Shuquan

AU - Yu, Zhiwen

AU - Lin, Jiaying

AU - Yang, Kaixiang

AU - Dai, Dan

AU - Zhan, Zhi-Hui

AU - Chen, Wei-Neng

AU - Zhang, Jun

PY - 2018/8/9

Y1 - 2018/8/9

N2 - Random forest (RF) is a competitive machine learning theorem, while one of the big challenges for it is imbalanced real-world data. A Two-dimensional-reduction RF (2DRRF) is presented in this paper, which is optimized based on traditional RF and three innovation points as follows. To improve RF in terms of performance on imbalanced data, a two-dimensional-reduction approach is created. Then, a modified T-link is proposed focusing on detecting and reducing safe samples. Moreover, a biased sampling manner is employed to build up optimal training datasets. Across 13 imbalanced datasets from KEEL-dataset with imbalance-ratio ranging from 6.38 to 129.44, experiments are carried out indicating that 2DRRF steadily holds advantages over the other two relevant implementations of RF in terms of accuracy, recall, precision and F-value.

AB - Random forest (RF) is a competitive machine learning theorem, while one of the big challenges for it is imbalanced real-world data. A Two-dimensional-reduction RF (2DRRF) is presented in this paper, which is optimized based on traditional RF and three innovation points as follows. To improve RF in terms of performance on imbalanced data, a two-dimensional-reduction approach is created. Then, a modified T-link is proposed focusing on detecting and reducing safe samples. Moreover, a biased sampling manner is employed to build up optimal training datasets. Across 13 imbalanced datasets from KEEL-dataset with imbalance-ratio ranging from 6.38 to 129.44, experiments are carried out indicating that 2DRRF steadily holds advantages over the other two relevant implementations of RF in terms of accuracy, recall, precision and F-value.

UR - https://ieeexplore.ieee.org/document/8426168

U2 - 10.1109/icist.2018.8426168

DO - 10.1109/icist.2018.8426168

M3 - Conference publication

BT - 2018 Eighth International Conference on Information Science and Technology (ICIST)

PB - IEEE

ER -

Two-Dimensional-Reduction Random Forest

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