Design and Creation of a Neural Network for the Classification of Bank Loan Applicants into Suitable and Non-Suitable Candidates

AUTHORS

Bogart Yail Márquez,Tecnologico Nacional de Mexico Campus Tijuana, Master in Information Technology, Mexico
Angeles Quezada,Tecnologico Nacional de Mexico Campus Tijuana, Master in Information Technology, Mexico
Ashlee Robles-Gallegos,Tecnologico Nacional de Mexico Campus Tijuana, Master in Information Technology, Mexico
Arnulfo Alanis,Tecnologico Nacional de Mexico Campus Tijuana, Master in Information Technology, Mexico

ABSTRACT

In the contemporary digital era, financial institutions are actively seeking ways to enhance and streamline their decision-making processes, particularly in critical areas like the approval of bank loans. Traditionally, this procedure has heavily relied on the manual examination of applicant information against predetermined criteria. However, the advent of artificial intelligence and machine learning has ushered in a new era, where neural networks are emerging as a promising tool for intelligent decision-making, aiming to significantly enhance the precision and efficiency of these crucial determinations. The system is developed using supervised artificial neural networks. This system is trained with 8 input variables to make predictions about the feasibility of granting a loan to a user. The goal is to determine whether the application is favorable, or, on the contrary, if it presents risks or disadvantages that could make granting a loan unfavorable. It is worth noting that the system has shown good performance in terms of favorable predictions.

 

KEYWORDS

Neural network, Bank loan, Data mining, Intelligent decision-making

REFERENCES

[1] H. Tang, C. Wang, J. Zheng, and C. Jiang, “Enabling graph neural networks for semi-supervised risk prediction in online credit loan services,” ACM Trans. Intell. Syst. Technol. (2023)
[2] J. Gawlikowski et al., “A survey of uncertainty in deep neural networks,” Artif. Intell. Rev., vol.56, no.1, pp.1513-1589 (2023)
[3] H. Allioui and Y. Mourdi, “Exploring the full potentials of IoT for better financial growth and stability: A comprehensive survey,” Sensors, vol.23, no.19, pp.8015 (2023)
[4] M. Al-Laham, S. Abdullah, M. A. Al-Ma’aitah, M. A. Al-Betar, S. Kassaymeh, and A. Azzazi, “Parameter identification of a multilayer perceptron neural network using an optimized salp swarm algorithm,” Int. J. Adv. Comput. Sci. Appl., vol.14, no 6 (2023)
[5] D. Ciuriak, “The Silicon Valley bank failure: Historical perspectives and knock-on risks,” Available SSRN (2023)
[6] M. King, “The end of alchemy: Money, banking, and the future of the global economy,” WW Norton & Company (2016)
[7] V. Nwani, “Automation of creditworthiness appraisal for small businesses,” J. Bank., vol.8, no.1 (2019)
[8] C. G. Logeais and M. Ilieva, “The use of digital technology in decision-making processes,” (2021)
[9] H. E. Wang, “A bias evaluation checklist for predictive models and its pilot application for 30-day hospital readmission models,” J. Am. Med. Informatics Assoc., vol.29, no.8, pp.1323–1333 (2022)
[10] M. I. Jordan, “Artificial intelligence—the revolution hasn’t happened yet,” Harvard Data Sci. Rev., vol.1, no.1, pp.1–9 (2019)
[11] Y. Duan, J. S. Edwards, and Y. K. Dwivedi, “Artificial intelligence for decision making in the era of big data–evolution, challenges, and research agenda," Int. J. Inf. Manage., vol.48, pp.63-71 (2019)
[12] V. Djurisic, L. Kascelan, S. Rogic, and B. Melovic, “Bank CRM optimization using predictive classification based on the support vector machine method,” Appl. Artif. Intell., vol.34, no.12, pp.941-955 (2020)
[13] E. Koksalmis and Ö. Kabak, “Deriving decision makers’ weights in group decision making: An overview of objective methods,” Inf. Fusion, vol.49, pp.146-160 (2019)
[14] W. Chen and M. Zheng, “Multi-objective optimization for pavement maintenance and rehabilitation decision-making: A critical review and future directions,” Autom. Constr., vol.130, pp.103840 (2021)
[15] S. Khan and M. Iqbal, “AI-Powered Customer Service: Does it Optimize Customer Experience?,” in 2020 8th International Conference on Reliability, Infocom Technologies and Optimization (Trends and Future Directions)(ICRITO), pp.590-594, (2020)
[16] J. Goodman, Strategic customer service: Managing the customer experience to increase positive word of mouth, build loyalty, and maximize profits. Amacom (2019)
[17] M. Wu, D. C. Kozanoglu, C. Min, and Y. Zhang, “Unraveling the capabilities that enable digital transformation: A data-driven methodology and the case of artificial intelligence,” Adv. Eng. Informatics, vol.50, pp.101368 (2021)
[18] M.-S. Jameaba, “Digitization revolution, FinTech disruption, and financial stability: Using the case of Indonesian banking ecosystem to highlight wide-ranging digitization opportunities and major challenges,” FinTech Disruption, Financ. Stab. Using Case Indones. Bank. Ecosyst. to highlight wide-ranging Digit. Oppor. major challenges, July 16 (2020)
[19] M. Raissi, P. Perdikaris, and G. E. Karniadakis, “Physics-informed neural networks: A deep learning framework for solving forward and inverse problems involving nonlinear partial differential equations,” J. Comput. Phys., vol.378, pp.686-707 (2019)
[20] D. K. Riyazahmed, “Neural networks in finance: A descriptive systematic review,” Riyazahmed, K (2021). Neural Networks Financ. Descr. Syst. Rev. Indian J. Bank. Financ., vol.5, no.2, pp.1-27 (2021)
[21] L. A. Schintler and C. L. McNeely, “Artificial intelligence, institutions, and resilience: Prospects and provocations for cities,” J. Urban Manag., vol.11, no.2, pp.256-268 (2022)
[22] T. Ahmad, "Artificial intelligence in the sustainable energy industry: Status quo, challenges, and opportunities," J. Clean. Prod., vol.289, pp.125834 (2021)
[23] J. P. Bharadiya, “Machine learning and AI in business intelligence: Trends and opportunities,” Int. J. Comput., vol.48, no.1, pp.123-134 (2023)
[24] J. D. Kelleher, Deep learning. MIT Press, (2019)

CITATION

  • APA:
    Márquez,B.Y.& Quezada,A.& Robles-Gallegos,A.& Alanis,A.(2023). Design and Creation of a Neural Network for the Classification of Bank Loan Applicants into Suitable and Non-Suitable Candidates. International Journal of Smart Business and Technology, 11(2), 53-62. 10.21742/IJSBT.2023.11.2.05
  • Harvard:
    Márquez,B.Y., Quezada,A., Robles-Gallegos,A., Alanis,A.(2023). "Design and Creation of a Neural Network for the Classification of Bank Loan Applicants into Suitable and Non-Suitable Candidates". International Journal of Smart Business and Technology, 11(2), pp.53-62. doi:10.21742/IJSBT.2023.11.2.05
  • IEEE:
    [1] B.Y.Márquez, A.Quezada, A.Robles-Gallegos, A.Alanis, "Design and Creation of a Neural Network for the Classification of Bank Loan Applicants into Suitable and Non-Suitable Candidates". International Journal of Smart Business and Technology, vol.11, no.2, pp.53-62, Dec. 2023
  • MLA:
    Márquez Bogart Yail, Quezada Angeles, Robles-Gallegos Ashlee and Alanis Arnulfo. "Design and Creation of a Neural Network for the Classification of Bank Loan Applicants into Suitable and Non-Suitable Candidates". International Journal of Smart Business and Technology, vol.11, no.2, Dec. 2023, pp.53-62, doi:10.21742/IJSBT.2023.11.2.05

ISSUE INFO

  • Volume 11, No. 2, 2023
  • ISSN(p):2288-8969
  • ISSN(e):2207-516X
  • Published:Dec. 2023

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