Fuzzy Inference System for Credit Scoring: Legal Clients in Banking Industry
Subject Areas : Fuzzy Optimization and Modeling Journal
Samaneh Shariatmadari
1
,
Mahdi Homayounfar
2
,
Keyhan Azadi
3
,
Amir Daneshvar
4
1 - Department of Industrial Management, Rasht Branch, Islamic Azad University, Rasht, Iran
2 - Department of Industrial Management, Rasht Branch, Islamic Azad University, Rasht, Iran.
3 - Department of Accounting, Rasht Branch, Islamic Azad University, Rasht, Iran.
4 - Department of Management Information Technology, Electronic Branch, Islamic Azad University, Tehran, Iran
Keywords: Credit Scoring, Legal Clients, Bank Loan, Fuzzy Inference System,
Abstract :
Credit scoring is one of the fundamental concepts in bank industry, used for analysing and evaluating all of the customers requesting for facilities. Because of its importance to banks’ profitability, especially in the developing countries, this study aims to propose a fuzzy inference system (FIS) model for credit scoring of legal clients. This research is applied in terms of purpose and survey in terms of method. In the first step, after reviewing the literature, the evaluation criteria for legal client’s appraisal were identified, and 29 out of them were selected. In the next step, these criteria were analysed by the research experts and using a Delphi method, and 12 more important criteria were selected and organized in 4 categories for FIS modelling. Then, a researcher made questionnaire was developed to constitute rules for Main FIS and its 4 sub-FISs. Performance measure (Sub-FIS1) has four inputs: return of asset, fixed assets to equity, average customer account and customer capital. Leverage measure (Sub-FIS2) has two inputs: debt ratio and equity ratio. Borrowing measure (Sub-FIS3) has four inputs: ratio of deferred amount to current assets, amount of received facilities, borrowing capacity and amount of requested facilities, and finally, credit risk measure (Sub-FIS4) has two inputs; type of guarantee and the credit risk of the previous period. The proposed system designed based on Gaussian membership function and implemented in MATLAB. Finally, model’s validity was tested by extreme condition test. Comparing the results of the proposed FIS and the bank validation system, shows the proposed model can be considered suitable for credit scoring.
1. Aburime, U. T. (2009). Impact of political affiliation on bank profitability in Nigeria, African Journal of Accounting, Economics, Finance and Banking Research, 4(4), 61-75.
2. Asteriou, D., & Spanos, K. (2019). The relationship between financial development and economic growth during the recent crisis: Evidence from the EU. Finance Research. Finance Research Letters, 28, 235-248.
3. Barra, C., & Ruggiero, N. (2021). Do microeconomic and macroeconomic factors influence Italian bank credit risk in different local markets? Evidence from cooperative and non-cooperative banks. Journal of Economics and Business, (114),141-169.
4. Bekhet, H.A., & Eletter S.F.K. (2014). Credit risk assessment model for Jordanian commercial banks: Neural scoring approach, Review of Development Finance, 4, 20-28.
5. Bojadziev, G. (2007). Fuzzy logic for business, finance, and management, 23 edition, World Scientific.
6. Blanco, A., Pino-Mejías, R., Lara, J., & Rayo, S. (2013). Credit scoring models for the microfinance industry using neural networks: Evidence from Peru. Expert Systems with Applications, 40 (1), 356-364.
7. Bülbül, D., Hakenes, H., & Lambert, C. (2019). What influences banks’ choice of credit risk management practices? Theory and evidence. Journal of Financial Stability, 40, 1-14.
8. Ceylan, O. (2020), Time-Varying Risk Aversion and its Macroeconomic and Financial Determinants: A Comparative Analysis in the U.S. and French Financial Markets. Finance Research Letters, 15(20), 1- 27.
9. Delafrooz, N., Homayounfar, M., & Taghipour Tamijani, M. (2019). Credit risk management in banks using a hybrid approach. Financial Engineering and Portfolio Management, 10 (38), 94-116.
10. Ehtesham Rasi, R., Karimipour, M., & Azad, M. (2020). Rating the Actual Customers of Banks based on Credit Risk using Multiple Criteria Decision Making and Artificial Intelligence Hyperbolic Regression. International Journal of Finance & Managerial Accounting, 16(6), 51-63.
11. Farre-Danesh, K., & Homayounfar, M. (2015). Ranking the affecting factors in performance evaluation of banking sector based on fuzzy AHP. Universal Journal of Management and Social Sciences 5 (4), 9-18.
12. Fernandes, G.B., & Artes, R. (2016). Spatial dependence in credit risk and its improvement in credit scoring. European Journal of Operational Research, 249 (2), 517-524.
13. Florio, C., & Giulia, L. (2017). Enterprise risk management and firm performance: The Italian case, The British Accounting Review 49, 56-74.
14. Ghane, F., Gilaninia, S., & Homayounfar, M. (2016). The effect of cloud computing on effectiveness of customer relation management in electronic banking industry: a case study of Eghtesad Novin bank. Kuwait Chapter of the Arabian Journal of Business and Management Review 5 (8), 52-105.
15. Gulati, R., Goswami, A., & Kumar, S. (2019). What drives credit risk in the Indian banking industry? An empirical investigation. Economic Systems, 43(1), 42-62.
16. Habibi, A., Jahantigh, F.F., & Sarafrazi, A. (2015). Fuzzy Delphi technique for forecasting and screening items. Asian Journal of Research in Business Economics and Management, 5(2), 130-143.
17. Hoyt, R.E., & Liebenberg, A.P. (2011). The Value of Enterprise Risk Management. The Journal of Risk and Insurance, 78(4), 795-822.
18. Kabir, M.N., Worthington, A., & Gupta, R. (2015). Credit Risk in Islamic and Conventional Banking. International Atlantic Economic Society, 34, 327-353.
19. Koford, K. and Tschoegl, A. D. (1997). Problems of Banking Lending in Bulgaria: Information Asymmetry and Institutional learning, Financial Institutions center, The Wharton School University of Pennsylvania, Philadelphia, P. A.
20. Kozodoi, N., Jacob, J., & Lessmann, S. (2022). Fairness in credit scoring: Assessment, implementation and profit implications. European Journal of Operational Research, 297 (3), 1083-1094.
21. Li, Y., Wang, X., Djehiche, B., & Hu, X. (2020). Credit scoring by incorporating dynamic networked information. European Journal of Operational Research, 286 (3), 1103-1112.
22. Luo, Y., & Zhang, C. (2020). Economic policy uncertainty and stock price crash risk. Research in International Business and Finance, 51, 101112.
23. Maldonado, S., Peters, G., & Weber, R. (2020). Credit scoring using three-way decisions with probabilistic rough sets. Information Sciences, 507, 700-714.
24. Movahedi, M., Homayounfar, M., Fadaei Eshkiki, M., & Soufi, M. (2023). Development of a model based on fuzzy cognitive map to analyze the performance of stock exchange firms. Journal of Securities Exchange, 16 (61), 41-60.
25. Navas de Maya, B., Kurt, R.E. (2020). Marine accident learning with fuzzy cognitive maps (MALFCMs). Methods X, 28 (7), 100940.
26. Nikolic, N., Zarkic-Joksimovic, N., Stojanovski, D., & Joksimovic, I. (2013). The application of brute force logistic regression to corporate credit scoring models: Evidence from Serbian financial statements. Expert Systems with Applications, 40 (15), 5932-5944.
27. Peng, J., Liu, W., Huang, Z., Xu, D., Cai, O., & Quan, J. (2023). Risk and Revenue Management in the Chinese Auto Loan Industry. Information Resources Management Journal, 36(1), 1-12.
28. Racicot, F.E., Théoret, R., & Gregoriou, G.N. (2021). The response of hedge fund higher moment risk to macroeconomic and illiquidity shocks, International Review of Economics & inance,14(26), 289 – 318.
29. Teller, J., & Kock, A. (2012). An empirical investigation on how portfolio risk management influences project portfolio success, International Journal of Project Management, 1-13.
30. Ullah, S., Wang, Z., Stokes, P., & Xiao, W. (2019). Risk perceptions and risk management approaches of Chinese overseas investors: An empirical investigation. Research in International Business and Finance, 47, 470-486.
31. Vural-Yavas, C. (2020). Corporate risk-taking in developed countries: The influence of economic policy uncertainty and macroeconomic conditions. Journal of Multinational Financial Management, 54 (124), 17-41.
32. Wang, G., & Ma, J. (2011). Study of corporate credit risk prediction based on integrating boosting and random subspace. Expert Systems with Applications, 38 (11), 13871-13878.
33. Witzany, J. (2017). Credit Risk Management: Pricing, Measurement and Modeling, Springer.
34. Xu, Y., Kou, G., Peng, Y., Ding, K., Ergu, D., & Alotaibi, F.S. (2024). Profit- and risk-driven credit scoring under parameter uncertainty: A multi-objective approach. Omega, 125,103004.
35. Yang, D., Xiao, B., Cao, M., & Shen, H. (2024). A new hybrid credit scoring ensemble model with feature enhancement and soft voting weight optimization. Expert Systems with Applications, 238, 122101.
36. Yousofi Tezerjan, M., Safi Samghabadi, A., Memariani, A. (2021). ARF: A hybrid model for credit scoring in complex systems. Expert Systems with Applications, 185, 2021, 115634.
37. Zhang, W., Xu, W., Hao, H., & Zhu, D. (2020). Cost-sensitive multiple-instance learning method with dynamic transactional data for personal credit scoring. Expert Systems with Applications, 157,113489.