Wang Yanbo Justin, Yang Xuan, Ju Chao, Zhang Yue, Zhang Jun, Xu Qi, Wang Yiduo, Gao Xinkai, Cao Xiaofeng, Ma Yin, Wu Jie
Longying Zhida (Beijing) Technology Co., Ltd., Beijing 100020, China.
Beijing QBoson Quantum Technology Co., Ltd., Beijing 100015, China.
Entropy (Basel). 2024 Nov 27;26(12):1026. doi: 10.3390/e26121026.
Fraud detection within transaction data is crucial for maintaining financial security, especially in the era of big data. This paper introduces a novel fraud detection method that utilizes quantum computing to implement community detection in transaction networks. We model transaction data as an undirected graph, where nodes represent accounts and edges indicate transactions between them. A modularity function is defined to measure the community structure of the graph. By optimizing this function through the Quadratic Unconstrained Binary Optimization (QUBO) model, we identify the optimal community structure, which is then used to assess the fraud risk within each community. Using a Coherent Ising Machine (CIM) to solve the QUBO model, we successfully divide 308 nodes into four communities. We find that the CIM computes faster than the classical Louvain and simulated annealing (SA) algorithms. Moreover, the CIM achieves better community structure than Louvain and SA as quantified by the modularity function. The structure also unambiguously identifies a high-risk community, which contains almost 70% of all the fraudulent accounts, demonstrating the practical utility of the method for banks' anti-fraud business.
交易数据中的欺诈检测对于维护金融安全至关重要,尤其是在大数据时代。本文介绍了一种新颖的欺诈检测方法,该方法利用量子计算在交易网络中进行社区检测。我们将交易数据建模为无向图,其中节点表示账户,边表示它们之间的交易。定义了一个模块度函数来衡量图的社区结构。通过二次无约束二进制优化(QUBO)模型优化该函数,我们识别出最优的社区结构,然后用于评估每个社区内的欺诈风险。使用相干伊辛机(CIM)求解QUBO模型,我们成功地将308个节点划分为四个社区。我们发现CIM的计算速度比经典的Louvain算法和模拟退火(SA)算法更快。此外,通过模块度函数量化,CIM比Louvain算法和SA算法实现了更好的社区结构。该结构还明确识别出一个高风险社区,其中包含几乎所有欺诈账户的70%,证明了该方法在银行反欺诈业务中的实际效用。
