A Comprehensive Approach to Safeguard Credit Card Transactions and Fraud Prevention

Manish Kumar, Sushma Kumari, Rinku Kumar, Ajit Kumar, Somnath Banerjee, Kaustuv Bhattacharjee, Anirban Das
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Abstract

The escalating prevalence of financial fraud within the financial sector poses profound challenges. Detecting credit card fraud in online transactions necessitates data mining due to inherent complexities. Addressing two key issues—evolving patterns in legitimate and fraudulent behaviors and highly skewed datasets of credit card frauds—renders the task challenging. This paper scrutinizes the performance of naive Bayes, KNN, and logistic regression on significantly imbalanced credit card fraud data comprising 284,807 transactions from European cardholders. The dataset's skewness is addressed through a hybrid under-sampling and oversampling approach. The three techniques are applied to both unprocessed and preprocessed data. Fraud detection, defined as a set of activities thwarting illicit acquisition of assets or funds through deceptive means, varies across industries and methods. Credit card fraud, particularly susceptible due to its ease and prevalence in e-commerce and online platforms, prompted the adoption of diverse machine learning strategies to combat rising fraud rates. This paper employs machine learning algorithms for credit card fraud detection, utilizing a publicly available credit card dataset for model evaluation. While acknowledging that achieving 100% accuracy in fraud detection is elusive, the paper emphasizes the real-world applicability of its findings through the analysis of credit card data from a financial institution. In addition to assessing model efficacy, the study introduces noise into the data samples to evaluate algorithm robustness. Experimental outcomes underscore the effectiveness of the majority voting method, achieving commendable accuracy rates in detecting credit card fraud cases. The study sheds light on the pressing issue of credit card fraud, emphasizing the importance of deploying robust machine learning approaches for timely and accurate detection in real-world scenarios.
保障信用卡交易和预防欺诈的综合方法
金融行业内金融欺诈的日益猖獗带来了深刻的挑战。由于固有的复杂性,检测在线交易中的信用卡欺诈需要进行数据挖掘。要解决两个关键问题--不断变化的合法和欺诈行为模式以及高度倾斜的信用卡欺诈数据集--使得这项任务充满挑战。本文仔细研究了天真贝叶斯、KNN 和逻辑回归在严重失衡的信用卡欺诈数据(包括来自欧洲持卡人的 284,807 笔交易)上的表现。数据集的偏斜性是通过一种混合的欠采样和超采样方法来解决的。这三种技术同时适用于未经处理和预处理的数据。欺诈检测被定义为通过欺骗手段阻止非法获取资产或资金的一系列活动,不同行业和方法的欺诈检测方法各不相同。信用卡欺诈因其在电子商务和在线平台中的便捷性和普遍性而尤其容易受到影响,这促使人们采用多种机器学习策略来应对不断上升的欺诈率。本文采用机器学习算法进行信用卡欺诈检测,并利用公开的信用卡数据集进行模型评估。在承认欺诈检测准确率难以达到 100% 的同时,本文通过分析一家金融机构的信用卡数据,强调了其研究结果在现实世界中的适用性。除了评估模型的有效性,该研究还在数据样本中引入了噪声,以评估算法的鲁棒性。实验结果凸显了多数投票法的有效性,在检测信用卡欺诈案件方面取得了令人称道的准确率。该研究揭示了信用卡欺诈这一紧迫问题,强调了在现实世界场景中部署稳健的机器学习方法以实现及时准确检测的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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