A Time-Series-Driven ResE-BiLSTM Framework for Post-Loan Default Detection

Yue Yang; Yuxiang Lin; Ying Zhang; Chang Chuan Goh; Tangtangfang Fang; Anthony Graham Bellotti; Boon Giin Lee

A Time-Series-Driven ResE-BiLSTM Framework for Post-Loan Default Detection

Yue Yang
, Yuxiang Lin
, Ying Zhang
, Chang Chuan Goh
, Tangtangfang Fang
, Anthony Graham Bellotti
, Boon Giin Lee

School of Computer Science

Research output: Working paper › Preprint

Abstract

Prediction of post-loan default is an important task in credit risk management, and can be addressed by detection of financial anomalies using machine learning. This study introduces a ResE-BiLSTM model, using a sliding window technique, and is evaluated on 44 independent cohorts from the extensive Freddie Mac US mortgage dataset, to improve prediction performance. The ResE-BiLSTM is compared with five baseline models: Long Short-Term Memory (LSTM), BiLSTM, Gated Recurrent Units (GRU), Convolutional Neural Networks (CNN), and Recurrent Neural Networks (RNN), across multiple metrics, including Accuracy, Precision, Recall, F1, and AUC. An ablation study was conducted to evaluate the contribution of individual components in the ResE-BiLSTM architecture. Additionally, SHAP analysis was employed to interpret the underlying features the model relied upon for its predictions. Experimental results demonstrate that ResE-BiLSTM achieves superior predictive performance compared to baseline models, underscoring its practical value and applicability in real-world scenarios.

Original language	English
Publication status	Published - 1 Aug 2025

Free Keywords

Credit risk
machine learning
loan prediction
anomaly detection

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https://arxiv.org/html/2508.00415v1

Cite this

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title = "A Time-Series-Driven ResE-BiLSTM Framework for Post-Loan Default Detection",

abstract = "Prediction of post-loan default is an important task in credit risk management, and can be addressed by detection of financial anomalies using machine learning. This study introduces a ResE-BiLSTM model, using a sliding window technique, and is evaluated on 44 independent cohorts from the extensive Freddie Mac US mortgage dataset, to improve prediction performance. The ResE-BiLSTM is compared with five baseline models: Long Short-Term Memory (LSTM), BiLSTM, Gated Recurrent Units (GRU), Convolutional Neural Networks (CNN), and Recurrent Neural Networks (RNN), across multiple metrics, including Accuracy, Precision, Recall, F1, and AUC. An ablation study was conducted to evaluate the contribution of individual components in the ResE-BiLSTM architecture. Additionally, SHAP analysis was employed to interpret the underlying features the model relied upon for its predictions. Experimental results demonstrate that ResE-BiLSTM achieves superior predictive performance compared to baseline models, underscoring its practical value and applicability in real-world scenarios.",

keywords = "Credit risk, machine learning, loan prediction, anomaly detection",

author = "Yue Yang and Yuxiang Lin and Ying Zhang and Goh, \{Chang Chuan\} and Tangtangfang Fang and Bellotti, \{Anthony Graham\} and Lee, \{Boon Giin\}",

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language = "English",

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T1 - A Time-Series-Driven ResE-BiLSTM Framework for Post-Loan Default Detection

AU - Yang, Yue

AU - Lin, Yuxiang

AU - Zhang, Ying

AU - Goh, Chang Chuan

AU - Fang, Tangtangfang

AU - Bellotti, Anthony Graham

AU - Lee, Boon Giin

PY - 2025/8/1

Y1 - 2025/8/1

N2 - Prediction of post-loan default is an important task in credit risk management, and can be addressed by detection of financial anomalies using machine learning. This study introduces a ResE-BiLSTM model, using a sliding window technique, and is evaluated on 44 independent cohorts from the extensive Freddie Mac US mortgage dataset, to improve prediction performance. The ResE-BiLSTM is compared with five baseline models: Long Short-Term Memory (LSTM), BiLSTM, Gated Recurrent Units (GRU), Convolutional Neural Networks (CNN), and Recurrent Neural Networks (RNN), across multiple metrics, including Accuracy, Precision, Recall, F1, and AUC. An ablation study was conducted to evaluate the contribution of individual components in the ResE-BiLSTM architecture. Additionally, SHAP analysis was employed to interpret the underlying features the model relied upon for its predictions. Experimental results demonstrate that ResE-BiLSTM achieves superior predictive performance compared to baseline models, underscoring its practical value and applicability in real-world scenarios.

AB - Prediction of post-loan default is an important task in credit risk management, and can be addressed by detection of financial anomalies using machine learning. This study introduces a ResE-BiLSTM model, using a sliding window technique, and is evaluated on 44 independent cohorts from the extensive Freddie Mac US mortgage dataset, to improve prediction performance. The ResE-BiLSTM is compared with five baseline models: Long Short-Term Memory (LSTM), BiLSTM, Gated Recurrent Units (GRU), Convolutional Neural Networks (CNN), and Recurrent Neural Networks (RNN), across multiple metrics, including Accuracy, Precision, Recall, F1, and AUC. An ablation study was conducted to evaluate the contribution of individual components in the ResE-BiLSTM architecture. Additionally, SHAP analysis was employed to interpret the underlying features the model relied upon for its predictions. Experimental results demonstrate that ResE-BiLSTM achieves superior predictive performance compared to baseline models, underscoring its practical value and applicability in real-world scenarios.

KW - Credit risk

KW - machine learning

KW - loan prediction

KW - anomaly detection

M3 - Preprint

BT - A Time-Series-Driven ResE-BiLSTM Framework for Post-Loan Default Detection

ER -

A Time-Series-Driven ResE-BiLSTM Framework for Post-Loan Default Detection

Abstract

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