An advanced hybrid classification technique for credit risk evaluation

Chong Wu; Dekun Gao; Qianqun Ma; Qi Wang; Yu Lu

doi:10.21314/JRMV.2019.210

An advanced hybrid classification technique for credit risk evaluation

Chong Wu
, Dekun Gao
, Qianqun Ma
, Qi Wang
, Yu Lu

School of Management, Harbin Institute of Technology
Southwest University of Political Science and Law
Beijing Technology and Business University

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Due to the important role that credit risk evaluation (CRE) plays in banks, it is crucial that we improve the accuracy of the CRE model. In this paper, we employ a hybrid approach to design a practical and effective CRE model based on a deep belief network (DBN) and the K-means method. First, using the K-means method, we preprocess the original data set and reclassify the unrepresentative data into high grades. Second, based on the results of our K-means method analysis, a DBN is used to construct a CRE model. We randomly select data in fixed proportions from the samples that have been assigned to new classes in order to train and test the DBN model. Finally, German and Australian credit data sets are applied to the proposed model. Our results show that the hybrid classifier we propose is effective in CRE and performs significantly better than classical CRE models.

Original language	English
Pages (from-to)	73-88
Number of pages	16
Journal	Journal of Risk Model Validation
Volume	13
Issue number	3
DOIs	https://doi.org/10.21314/JRMV.2019.210
State	Published - 1 Sep 2019
Externally published	Yes

Keywords

Cluster analysis
Credit risk evaluation (CRE)
Deep belief network (DBN)
Hybrid classifier
Pattern recognition

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10.21314/JRMV.2019.210

Cite this

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title = "An advanced hybrid classification technique for credit risk evaluation",

abstract = "Due to the important role that credit risk evaluation (CRE) plays in banks, it is crucial that we improve the accuracy of the CRE model. In this paper, we employ a hybrid approach to design a practical and effective CRE model based on a deep belief network (DBN) and the K-means method. First, using the K-means method, we preprocess the original data set and reclassify the unrepresentative data into high grades. Second, based on the results of our K-means method analysis, a DBN is used to construct a CRE model. We randomly select data in fixed proportions from the samples that have been assigned to new classes in order to train and test the DBN model. Finally, German and Australian credit data sets are applied to the proposed model. Our results show that the hybrid classifier we propose is effective in CRE and performs significantly better than classical CRE models.",

keywords = "Cluster analysis, Credit risk evaluation (CRE), Deep belief network (DBN), Hybrid classifier, Pattern recognition",

author = "Chong Wu and Dekun Gao and Qianqun Ma and Qi Wang and Yu Lu",

year = "2019",

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doi = "10.21314/JRMV.2019.210",

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AU - Wu, Chong

AU - Gao, Dekun

AU - Ma, Qianqun

AU - Wang, Qi

AU - Lu, Yu

PY - 2019/9/1

Y1 - 2019/9/1

N2 - Due to the important role that credit risk evaluation (CRE) plays in banks, it is crucial that we improve the accuracy of the CRE model. In this paper, we employ a hybrid approach to design a practical and effective CRE model based on a deep belief network (DBN) and the K-means method. First, using the K-means method, we preprocess the original data set and reclassify the unrepresentative data into high grades. Second, based on the results of our K-means method analysis, a DBN is used to construct a CRE model. We randomly select data in fixed proportions from the samples that have been assigned to new classes in order to train and test the DBN model. Finally, German and Australian credit data sets are applied to the proposed model. Our results show that the hybrid classifier we propose is effective in CRE and performs significantly better than classical CRE models.

AB - Due to the important role that credit risk evaluation (CRE) plays in banks, it is crucial that we improve the accuracy of the CRE model. In this paper, we employ a hybrid approach to design a practical and effective CRE model based on a deep belief network (DBN) and the K-means method. First, using the K-means method, we preprocess the original data set and reclassify the unrepresentative data into high grades. Second, based on the results of our K-means method analysis, a DBN is used to construct a CRE model. We randomly select data in fixed proportions from the samples that have been assigned to new classes in order to train and test the DBN model. Finally, German and Australian credit data sets are applied to the proposed model. Our results show that the hybrid classifier we propose is effective in CRE and performs significantly better than classical CRE models.

KW - Cluster analysis

KW - Credit risk evaluation (CRE)

KW - Deep belief network (DBN)

KW - Hybrid classifier

KW - Pattern recognition

UR - https://www.scopus.com/pages/publications/85073609788

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DO - 10.21314/JRMV.2019.210

M3 - 文章

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JO - Journal of Risk Model Validation

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An advanced hybrid classification technique for credit risk evaluation

Abstract

Keywords

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