Evaluating the Impact of Synthetic Data on Financial Machine Learning Models: A Comprehensive Study of AI Techniques for Data Augmentation and Model Training

Authors

  • Debasish Paul JPMorgan Chase & Co, USA Author
  • Praveen Sivathapandi Citi, USA Author
  • Rajalakshmi Soundarapandiyan Elementalent Technologies, USA Author

Keywords:

synthetic data, financial machine learning

Abstract

The application of synthetic data in financial machine learning has garnered significant attention due to its potential to enhance data availability, improve model robustness, and mitigate privacy concerns. This paper presents a comprehensive study on the impact of synthetic data on financial machine learning models, focusing on AI-driven techniques for data augmentation and model training. Financial institutions and researchers increasingly leverage synthetic data as a viable alternative to real-world data, which is often limited by accessibility, privacy constraints, and regulatory requirements. The research examines various methods of synthetic data generation, such as Generative Adversarial Networks (GANs), Variational Autoencoders (VAEs), and other advanced statistical techniques, emphasizing their effectiveness in generating high-quality financial datasets. These techniques have shown promise in augmenting data for financial applications, including credit risk assessment, fraud detection, and investment strategy optimization, where real-world data is scarce, biased, or sensitive.

The paper explores the strengths and limitations of these synthetic data generation methods in financial contexts, providing a critical analysis of their impact on the performance, generalization, and interpretability of machine learning models. The study underscores the significance of maintaining a balance between synthetic and real data, highlighting the potential risks of over-reliance on synthetic datasets, such as the introduction of artificial patterns, data leakage, and diminished model reliability in real-world scenarios. Furthermore, the research delves into the challenges of synthetic data integration, including model drift, domain adaptation, and transfer learning complexities, which are crucial for ensuring that models trained on synthetic data can effectively generalize to real financial data.

The paper also discusses practical implications and case studies demonstrating the benefits of synthetic data in enhancing model performance and decision-making processes in finance. For instance, in credit risk modeling, synthetic data allows for the simulation of rare but critical credit events, improving the predictive power of risk assessment models. Similarly, in fraud detection, synthetic data can be utilized to create diverse fraud scenarios, thereby enhancing the model's ability to detect and respond to evolving fraudulent patterns. In investment strategy development, synthetic data facilitates the backtesting of trading strategies in varied market conditions, thereby providing robustness against market volatilities. These case studies illustrate that synthetic data can complement real data by providing additional variations and scenarios, leading to more robust and resilient models.

Moreover, the paper examines the ethical considerations and regulatory challenges associated with using synthetic data in financial machine learning. While synthetic data can help mitigate privacy risks by obfuscating sensitive information, it also poses ethical questions regarding the authenticity and transparency of data-driven decisions. The research emphasizes the need for standardized frameworks and best practices to ensure that synthetic data use aligns with regulatory guidelines and ethical standards in the financial sector. Additionally, the study explores how advancements in explainable AI (XAI) can be integrated with synthetic data techniques to enhance the interpretability and trustworthiness of financial models, thereby addressing concerns around "black-box" decision-making.

Finally, this comprehensive study provides insights into future research directions, highlighting the need for developing more sophisticated synthetic data generation techniques that can better capture the complexities of financial data. This includes exploring hybrid models that combine multiple synthetic data generation approaches, incorporating domain-specific knowledge, and leveraging reinforcement learning for dynamic data augmentation. The paper concludes by advocating for a balanced approach to synthetic data utilization, wherein financial institutions and researchers strategically integrate synthetic data into their modeling workflows to enhance model robustness, scalability, and compliance, without compromising on accuracy and reliability.

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References

Machireddy, Jeshwanth Reddy. "Assessing the Impact of Medicare Broker Commissions on Enrollment Trends and Consumer Costs: A Data-Driven Analysis." Journal of AI in Healthcare and Medicine 2.1 (2022): 501-518.

D. Kingma and M. Welling, "Auto-Encoding Variational Bayes," Proceedings of the 2nd International Conference on Learning Representations, Banff, Canada, Apr. 2014.

Pelluru, Karthik. "Prospects and Challenges of Big Data Analytics in Medical Science." Journal of Innovative Technologies 3.1 (2020): 1-18.

Rachakatla, Sareen Kumar, Prabu Ravichandran, and Jeshwanth Reddy Machireddy. "The Role of Machine Learning in Data Warehousing: Enhancing Data Integration and Query Optimization." Journal of Bioinformatics and Artificial Intelligence 1.1 (2021): 82-104.

Machireddy, Jeshwanth Reddy, Sareen Kumar Rachakatla, and Prabu Ravichandran. "AI-Driven Business Analytics for Financial Forecasting: Integrating Data Warehousing with Predictive Models." Journal of Machine Learning in Pharmaceutical Research 1.2 (2021): 1-24.

Devapatla, Harini, and Jeshwanth Reddy Machireddy. "Architecting Intelligent Data Pipelines: Utilizing Cloud-Native RPA and AI for Automated Data Warehousing and Advanced Analytics." African Journal of Artificial Intelligence and Sustainable Development 1.2 (2021): 127-152.

Machireddy, Jeshwanth Reddy, and Harini Devapatla. "Leveraging Robotic Process Automation (RPA) with AI and Machine Learning for Scalable Data Science Workflows in Cloud-Based Data Warehousing Environments." Australian Journal of Machine Learning Research & Applications 2.2 (2022): 234-261.

Potla, Ravi Teja. "Privacy-Preserving AI with Federated Learning: Revolutionizing Fraud Detection and Healthcare Diagnostics." Distributed Learning and Broad Applications in Scientific Research 8 (2022): 118-134.

J. Y. Zou, X. Zeng, and Y. Zhang, "A Review on Synthetic Data for Financial Machine Learning: Theoretical Perspectives and Practical Implementations," IEEE Transactions on Neural Networks and Learning Systems, vol. 33, no. 6, pp. 2350-2365, Jun. 2022.

R. M. D. Scott, J. J. H. Lee, and A. W. Smith, "Synthetic Data in Finance: Methods, Applications, and Challenges," Journal of Financial Data Science, vol. 4, no. 2, pp. 45-59, Spring 2022.

A. M. Turing, "Computing Machinery and Intelligence," Mind, vol. 59, no. 236, pp. 433-460, Oct. 1950.

H. Chen, T. Xie, and X. Zhang, "Hybrid Models for Financial Time Series Forecasting Using Synthetic Data," Proceedings of the 2021 International Conference on Artificial Intelligence and Statistics, Virtual Event, Apr. 2021, pp. 3156-3164.

S. J. Lee and C. L. Smith, "Leveraging Synthetic Data for Enhanced Credit Risk Assessment Models," Financial Engineering Review, vol. 21, no. 1, pp. 67-83, Mar. 2022.

M. P. Wainwright and M. I. Jordan, "Graphical Models, Exponential Families, and Variational Inference," Foundations and Trends in Machine Learning, vol. 1, no. 1, pp. 1-305, 2008.

Y. Liu, Q. Liu, and R. Zhang, "Evaluation of Synthetic Fraud Scenarios in Financial Fraud Detection Models," Proceedings of the 2021 IEEE Conference on Artificial Intelligence and Security, New York, NY, Dec. 2021, pp. 57-65.

J. C. B. Yao and W. M. Zhan, "Understanding and Addressing Overfitting in Models Trained on Synthetic Data," Journal of Computational Finance, vol. 26, no. 4, pp. 91-110, Jul. 2022.

A. K. Jain and K. S. Rajan, "Synthetic Data Generation for Investment Strategies: A Comprehensive Review," IEEE Access, vol. 10, pp. 14876-14892, Jan. 2022.

E. K. Miller and R. T. Black, "Ethical and Regulatory Considerations in the Use of Synthetic Data," IEEE Transactions on Big Data, vol. 8, no. 3, pp. 523-536, Sep. 2022.

C. C. Ho and S. Y. Chang, "Reinforcement Learning Techniques for Adaptive Synthetic Data Generation," Proceedings of the 2022 Conference on Machine Learning and Data Mining, Berlin, Germany, Jun. 2022, pp. 189-200.

K. M. Tuan and F. M. Lang, "Balancing Synthetic and Real Data: Strategies for Financial Applications," Journal of Financial Risk Management, vol. 19, no. 2, pp. 103-119, May 2022.

A. J. Mitra, "Model Drift in Machine Learning: Challenges and Solutions," Machine Learning Review, vol. 34, no. 1, pp. 7-22, Feb. 2022.

L. M. O’Connor and P. V. Singh, "Privacy-Preserving Synthetic Data: Techniques and Applications," Proceedings of the 2022 International Workshop on Privacy and Security, San Francisco, CA, Aug. 2022, pp. 1-10.

B. S. Xu, H. C. Wu, and G. M. Smith, "Explainable AI for Financial Models Using Synthetic Data," Journal of Artificial Intelligence Research, vol. 73, pp. 55-70, Oct. 2022.

T. M. Iorio and E. H. Garcia, "Domain Adaptation Techniques for Synthetic Data in Financial Machine Learning," IEEE Transactions on Knowledge and Data Engineering, vol. 34, no. 5, pp. 2103-2116, May 2022.

S. B. Ahmad and L. Y. Choi, "Synthetic Data for Privacy-Preserving Finance Applications," Proceedings of the 2021 IEEE International Conference on Privacy, Security and Trust, Chicago, IL, Nov. 2021, pp. 145-155.

J. L. Carter and R. A. Morris, "Future Directions in Synthetic Data Research for Financial Machine Learning," IEEE Transactions on Neural Networks and Learning Systems, vol. 33, no. 8, pp. 2746-2759, Aug. 2022.

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Published

09-10-2022

How to Cite

[1]
Debasish Paul, Praveen Sivathapandi, and Rajalakshmi Soundarapandiyan, “Evaluating the Impact of Synthetic Data on Financial Machine Learning Models: A Comprehensive Study of AI Techniques for Data Augmentation and Model Training”, J. of Artificial Int. Research and App., vol. 2, no. 2, pp. 303–341, Oct. 2022, Accessed: Dec. 25, 2024. [Online]. Available: https://aimlstudies.co.uk/index.php/jaira/article/view/214

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