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Main Authors: Shuster, Shaun, Zaloof, Eyal, Shabtai, Asaf, Puzis, Rami
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.11635
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author Shuster, Shaun
Zaloof, Eyal
Shabtai, Asaf
Puzis, Rami
author_facet Shuster, Shaun
Zaloof, Eyal
Shabtai, Asaf
Puzis, Rami
contents The continuous growth of the e-commerce industry attracts fraudsters who exploit stolen credit card details. Companies often investigate suspicious transactions in order to retain customer trust and address gaps in their fraud detection systems. However, analysts are overwhelmed with an enormous number of alerts from credit card transaction monitoring systems. Each alert investigation requires from the fraud analysts careful attention, specialized knowledge, and precise documentation of the outcomes, leading to alert fatigue. To address this, we propose a fraud analyst assistant (FAA) framework, which employs multi-modal large language models (LLMs) to automate credit card fraud investigations and generate explanatory reports. The FAA framework leverages the reasoning, code execution, and vision capabilities of LLMs to conduct planning, evidence collection, and analysis in each investigation step. A comprehensive empirical evaluation of 500 credit card fraud investigations demonstrates that the FAA framework produces reliable and efficient investigations comprising seven steps on average. Thus we found that the FAA framework can automate large parts of the workload and help reduce the challenges faced by fraud analysts.
format Preprint
id arxiv_https___arxiv_org_abs_2506_11635
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle FAA Framework: A Large Language Model-Based Approach for Credit Card Fraud Investigations
Shuster, Shaun
Zaloof, Eyal
Shabtai, Asaf
Puzis, Rami
Cryptography and Security
Artificial Intelligence
The continuous growth of the e-commerce industry attracts fraudsters who exploit stolen credit card details. Companies often investigate suspicious transactions in order to retain customer trust and address gaps in their fraud detection systems. However, analysts are overwhelmed with an enormous number of alerts from credit card transaction monitoring systems. Each alert investigation requires from the fraud analysts careful attention, specialized knowledge, and precise documentation of the outcomes, leading to alert fatigue. To address this, we propose a fraud analyst assistant (FAA) framework, which employs multi-modal large language models (LLMs) to automate credit card fraud investigations and generate explanatory reports. The FAA framework leverages the reasoning, code execution, and vision capabilities of LLMs to conduct planning, evidence collection, and analysis in each investigation step. A comprehensive empirical evaluation of 500 credit card fraud investigations demonstrates that the FAA framework produces reliable and efficient investigations comprising seven steps on average. Thus we found that the FAA framework can automate large parts of the workload and help reduce the challenges faced by fraud analysts.
title FAA Framework: A Large Language Model-Based Approach for Credit Card Fraud Investigations
topic Cryptography and Security
Artificial Intelligence
url https://arxiv.org/abs/2506.11635