Combating the Challenges of False Positives in AI-Driven Anomaly Detection Systems and Enhancing Data Security in the Cloud

29 Pages Posted: 12 Jul 2024

See all articles by Omobolaji Olateju

Omobolaji Olateju

University of Ibadan - Department of Chemistry

Samuel Ufom Okon

First Bank of Nigeria

Udochukwu Igwenagu

Prairie View A&M University

Abidemi Ayodotun Salami

Illinois State University

Tunboson Oyewale Oladoyinbo

University of Maryland University College (UMUC)

Oluwaseun Oladeji Olaniyi

University of the Cumberlands

Date Written: June 10, 2024

Abstract

Anomaly detection is critical for network security, fraud detection, and system health monitoring applications. Traditional methods like statistical approaches and distance-based techniques often struggle with high-dimensional and complex data, leading to high false positive rates. This study addresses the challenge by investigating advanced AI-driven techniques to reduce false positives and enhance data security within cloud computing environments. This study employs deep learning models, integrates contextual data, and incorporates comprehensive security measures to enhance anomaly detection performance. Data from synthetic sources, such as the NSL-KDD dataset and real-world cloud environments, were utilized to capture user behavior logs, system states, and network traffic. Over 50 academic journals were reviewed, and 21 were selected based on inclusion criteria, such as relevance to AI-driven anomaly detection, empirical performance metrics, and the focus on cloud environments, and exclusion criteria that filtered out studies lacking empirical data or not specific to cloud-based systems. Methodologically, the research involves a comparative analysis of different AI techniques and their impact on false positive rates, accuracy, precision, and recall. The findings demonstrate that deep learning techniques significantly outperform traditional methods, achieving a lower false positive rate and higher accuracy. The results underscore the importance of contextual data and robust security protocols in reliable anomaly detection. This research fills a gap by thoroughly evaluating advanced AI techniques for reducing false positives in cloud environments. The study's significance lies in guiding the development of more effective anomaly detection systems, thereby enhancing security and reliability across various applications. Additionally, organizations should invest in continuously developing and integrating AI-driven anomaly detection systems with comprehensive security measures to improve their effectiveness the study suggests that further study be conducted with large datasets to evaluate the effectiveness of Hybrid anomaly detection systems in detecting and addressing false positives.

Keywords: Anomaly detection, deep learning, cloud security, data security, adaptive techniques

Suggested Citation

Olateju, Omobolaji and Okon, Samuel Ufom and Igwenagu, Udochukwu and Salami, Abidemi Ayodotun and Oladoyinbo, Tunboson Oyewale and Olaniyi, Oluwaseun Oladeji, Combating the Challenges of False Positives in AI-Driven Anomaly Detection Systems and Enhancing Data Security in the Cloud (June 10, 2024). Available at SSRN: https://ssrn.com/abstract=4859958 or http://dx.doi.org/10.2139/ssrn.4859958

Omobolaji Olateju (Contact Author)

University of Ibadan - Department of Chemistry ( email )

Samuel Ufom Okon

First Bank of Nigeria ( email )

Udochukwu Igwenagu

Prairie View A&M University ( email )

Abidemi Ayodotun Salami

Illinois State University ( email )

Tunboson Oyewale Oladoyinbo

University of Maryland University College (UMUC)

Oluwaseun Oladeji Olaniyi

University of the Cumberlands ( email )

6178 College Station Drive
Williamsburg, KY 40769
United States

HOME PAGE: http://www.ucumberlands.edu

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