Improving Classification Performance in Credit Card Fraud Detection by Using New Data Augmentation

Authors: Strelcenia, E. and Prakoonwit, S.

Journal: AI (Switzerland)

Volume: 4

Issue: 1

Pages: 172-198

eISSN: 2673-2688

DOI: 10.3390/ai4010008

Abstract:

In many industrialized and developing nations, credit cards are one of the most widely used methods of payment for online transactions. Credit card invention has streamlined, facilitated, and enhanced internet transactions. It has, however, also given criminals more opportunities to commit fraud, which has raised the rate of fraud. Credit card fraud has a concerning global impact; many businesses and ordinary users have lost millions of US dollars as a result. Since there is a large number of transactions, many businesses and organizations rely heavily on applying machine learning techniques to automatically classify or identify fraudulent transactions. As the performance of machine learning techniques greatly depends on the quality of the training data, the imbalance in the data is not a trivial issue. In general, only a small percentage of fraudulent transactions are presented in the data. This greatly affects the performance of machine learning classifiers. In order to deal with the rarity of fraudulent occurrences, this paper investigates a variety of data augmentation techniques to address the imbalanced data problem and introduces a new data augmentation model, K-CGAN, for credit card fraud detection. A number of the main classification techniques are then used to evaluate the performance of the augmentation techniques. These results show that B-SMOTE, K-CGAN, and SMOTE have the highest Precision and Recall compared with other augmentation methods. Among those, K-CGAN has the highest F1 Score and Accuracy.

https://eprints.bournemouth.ac.uk/38336/

Source: Scopus

Improving Classification Performance in Credit Card Fraud Detection by Using New Data Augmentation

Authors: Strelcenia, E. and Prakoonwit, S.

Journal: AI

Volume: 4

Issue: 1

Pages: 172-198

eISSN: 2673-2688

DOI: 10.3390/ai4010008

https://eprints.bournemouth.ac.uk/38336/

Source: Web of Science (Lite)

Improving Classification Performance in Credit Card Fraud Detection by Using New Data Augmentation

Authors: Strelcenia, E. and Prakoonwit, S.

Journal: AI

DOI: 10.3390/ai4010008

https://eprints.bournemouth.ac.uk/38336/

Source: Manual

Improving Classification Performance in Credit Card Fraud Detection by Using New Data Augmentation

Authors: Strelcenia, E. and Prakoonwit, S.

Journal: AI

Volume: 2023

Issue: 4

Pages: 172-198

ISSN: 2673-2688

Abstract:

In many industrialized and developing nations, credit cards are one of the most widely used methods of payment for online transactions. Credit card invention has streamlined, facilitated, and enhanced internet transactions. It has, however, also given criminals more opportunities to commit fraud, which has raised the rate of fraud. Credit card fraud has a concerning global impact; many businesses and ordinary users have lost millions of US dollars as a result. Since there is a large number of transactions, many businesses and organizations rely heavily on applying machine learning techniques to automatically classify or identify fraudulent transactions. As the performance of machine learning techniques greatly depends on the quality of the training data, the imbalance in the data is not a trivial issue. In general, only a small percentage of fraudulent transactions are presented in the data. This greatly affects the performance of machine learning classifiers. In order to deal with the rarity of fraudulent occurrences, this paper investigates a variety of data augmentation techniques to address the imbalanced data problem and introduces a new data augmentation model, K‑CGAN, for credit card fraud detection. A number of the main classification techniques are then used to evaluate the performance of the augmentation techniques. These results show that B‑SMOTE, K‑CGAN, and SMOTE have the highest Precision and Recall compared with other augmentation methods. Among those, K‑CGAN has the highest F1 Score and Accuracy.

https://eprints.bournemouth.ac.uk/38336/

Source: BURO EPrints