Two-stagegenetic programming (2SGP) for the credit scoring model
Resource
Applied Mathematics and Computation 174 (2): 1039-1053
Journal
Applied Mathematics and Computation
Journal Volume
174
Journal Issue
2
Pages
1039-1053
Date Issued
2006
Date
2006
Author(s)
Abstract
Credit scoring models have been widely studied in the areas of statistics, machine learning, and artificial intelligence (AI). Many novel approaches such as artificial neural networks (ANNs), rough sets, or decision trees have been proposed to increase the accuracy of credit scoring models. Since an improvement in accuracy of a fraction of a percent might translate into significant savings, a more sophisticated model should be proposed for significantly improving the accuracy of the credit scoring models. In this paper, two-stage genetic programming (2SGP) is proposed to deal with the credit scoring problem by incorporating the advantages of the IF-THEN rules and the discriminant function. On the basis of the numerical results, we can conclude that 2SGP can provide the better accuracy than other models.
Subjects
Artificial neural network (ANN); Credit scoring model; Decision trees; Rough sets; Two-stage genetic programming (2SGP)
Other Subjects
Artificial intelligence; Functions; Learning systems; Neural networks; Rough set theory; Trees (mathematics); Credit scoring models; Decision trees; Rough sets; Two-stage genetic programming (2SGP); Computer programming
Type
journal article
File(s)![Thumbnail Image]()
Loading...
Name
5.pdf
Size
163.81 KB
Format
Adobe PDF
Checksum
(MD5):72ffa9409eb468ed1b27732882d5c9a2