TY - JOUR
T1 - A Novel Heuristic-Based Selective Ensemble Prediction Method for Digital Financial Fraud Risk
AU - Xia, Pingfan
AU - Zhu, Xuhui
AU - Charles, Vincent
AU - Zhao, Xin
AU - Peng, Mingsheng
N1 - Publisher Copyright:
© 1988-2012 IEEE.
PY - 2024
Y1 - 2024
N2 - In the era of Artificial Intelligence and Big Data, financial fraud is inevitable. This article proposes ENKMRH, a novel selective ENsemble prediction method based on K-Means++ and the Refractive Inverse Learning Harris Hawks Optimization algorithm (RILHHO), for combatting fraud risk in digital financial systems, designed to adapt to complex, high-dimensional, and nonlinear financial data. First, we innovatively apply K-means++ for the diversified selection of well-performing base learners and employ distance-based selection to preliminarily select partial learners with better overall performance. This approach conserves computing resources and improves the generalization ability and stability of the ensemble system. Second, we introduce chaos initialization, an improved position update, an escape energy strategy based on biological principles, and RILHHO. RILHHO is designed to provide an efficient and precise selection strategy for the selective ensemble prediction of digital financial fraud risk. Finally, we apply the proposed model to three typical real-world problems in digital financial fraud: internet consumer credit fraud, online lending fraud, and money laundering risk prediction. The experimental results demonstrate that ENKMRH outperforms other state-of-the-art basic techniques and ensemble learning models, achieving the highest accuracy rates of 81.39%, 88.68%, and 93.80% across three financial fraud datasets. The research findings offer crucial guidance to financial practitioners, aiding in investment decisions and bolstering financial stability and security. Furthermore, they enhance institutions' risk management capabilities, fostering sustainable growth and prosperity. This article intertwines financial risk management with the domains of technology and engineering management, utilizing advanced algorithms and data analytics techniques to tackle modern challenges in digital financial systems.
AB - In the era of Artificial Intelligence and Big Data, financial fraud is inevitable. This article proposes ENKMRH, a novel selective ENsemble prediction method based on K-Means++ and the Refractive Inverse Learning Harris Hawks Optimization algorithm (RILHHO), for combatting fraud risk in digital financial systems, designed to adapt to complex, high-dimensional, and nonlinear financial data. First, we innovatively apply K-means++ for the diversified selection of well-performing base learners and employ distance-based selection to preliminarily select partial learners with better overall performance. This approach conserves computing resources and improves the generalization ability and stability of the ensemble system. Second, we introduce chaos initialization, an improved position update, an escape energy strategy based on biological principles, and RILHHO. RILHHO is designed to provide an efficient and precise selection strategy for the selective ensemble prediction of digital financial fraud risk. Finally, we apply the proposed model to three typical real-world problems in digital financial fraud: internet consumer credit fraud, online lending fraud, and money laundering risk prediction. The experimental results demonstrate that ENKMRH outperforms other state-of-the-art basic techniques and ensemble learning models, achieving the highest accuracy rates of 81.39%, 88.68%, and 93.80% across three financial fraud datasets. The research findings offer crucial guidance to financial practitioners, aiding in investment decisions and bolstering financial stability and security. Furthermore, they enhance institutions' risk management capabilities, fostering sustainable growth and prosperity. This article intertwines financial risk management with the domains of technology and engineering management, utilizing advanced algorithms and data analytics techniques to tackle modern challenges in digital financial systems.
KW - Digital financial fraud risk prediction
KW - K-means++
KW - heuristics
KW - refractive inverse learning Harris Hawks optimization (RILHHO)
KW - selective ensemble
UR - http://www.scopus.com/inward/record.url?scp=85189635379&partnerID=8YFLogxK
U2 - 10.1109/TEM.2024.3385298
DO - 10.1109/TEM.2024.3385298
M3 - Article
AN - SCOPUS:85189635379
SN - 0018-9391
VL - 71
SP - 8002
EP - 8018
JO - IEEE Transactions on Engineering Management
JF - IEEE Transactions on Engineering Management
ER -