Leveraging AI for Cybersecurity in Agile Cloud-Based Platforms: Real-Time Anomaly Detection and Threat Mitigation in DevOps Pipelines

Authors

  • Seema Kumari Independent Researcher, USA Author

Keywords:

artificial intelligence, cloud-based platforms, cybersecurity, real-time anomaly detection

Abstract

As cloud-based platforms continue to dominate modern IT infrastructures, security challenges have evolved in complexity, particularly in the highly dynamic and iterative environment of DevOps pipelines. Agile development practices, which emphasize rapid deployment and continuous integration, have further accelerated the need for robust, real-time cybersecurity solutions capable of detecting and mitigating threats without compromising the operational efficiency of cloud-native applications. In this context, artificial intelligence (AI) presents transformative potential by automating and augmenting traditional security frameworks to offer adaptive, scalable, and proactive defense mechanisms.

This paper delves into the intersection of AI, cloud-based platforms, and DevOps pipelines, exploring how AI-driven solutions can significantly enhance cybersecurity postures. The primary focus is on real-time anomaly detection and threat mitigation—critical capabilities in addressing the unique security risks posed by agile cloud environments. We examine the role of machine learning (ML), deep learning (DL), and natural language processing (NLP) models in building advanced anomaly detection systems that can identify deviations from normal patterns across distributed cloud architectures. Unlike conventional rule-based systems that rely on predefined signatures or known attack vectors, AI systems can autonomously learn from vast datasets, detecting zero-day vulnerabilities and novel attack patterns with unprecedented accuracy.

A key component of the paper is the exploration of the integration of AI-driven security tools into the continuous deployment and integration (CI/CD) processes that underpin DevOps pipelines. These tools are designed to ensure real-time monitoring, allowing for the automatic identification and mitigation of security breaches during different stages of the software development lifecycle. We discuss how AI can be used to assess code vulnerabilities, analyze container security, and protect against supply chain attacks by learning from both historical security incidents and emerging threats. In particular, the paper addresses the growing importance of cloud-native security tools like AI-enhanced Intrusion Detection Systems (IDS) and Intrusion Prevention Systems (IPS) for safeguarding microservices, containers, and APIs that are integral to cloud-based applications.

Additionally, this paper evaluates the challenges of implementing AI solutions in agile, cloud-native environments. These challenges include the high computational cost associated with training sophisticated AI models, the complexity of ensuring real-time performance, and the necessity of addressing the interpretability of AI-driven decisions in a security context. We propose a framework for deploying AI models that balance scalability with security, leveraging techniques such as federated learning and transfer learning to overcome data privacy concerns and computational bottlenecks. This framework is particularly important for organizations aiming to implement security solutions that can evolve alongside their cloud-based infrastructures without introducing significant latency or overhead into their DevOps processes.

Case studies and real-world implementations are discussed to provide empirical evidence of the efficacy of AI-driven anomaly detection and threat mitigation. These examples highlight how enterprises have successfully used AI to secure their cloud environments against advanced persistent threats (APTs), distributed denial-of-service (DDoS) attacks, insider threats, and other sophisticated cyberattacks that have become increasingly prevalent in the cloud era. The paper also addresses the regulatory implications of leveraging AI for cybersecurity, especially in industries subject to stringent compliance standards such as healthcare, finance, and government sectors. We explore how AI-based security measures align with regulatory frameworks like GDPR, HIPAA, and PCI-DSS, and how organizations can achieve compliance while enhancing their security posture.

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Published

10-05-2023

How to Cite

[1]
S. Kumari, “Leveraging AI for Cybersecurity in Agile Cloud-Based Platforms: Real-Time Anomaly Detection and Threat Mitigation in DevOps Pipelines”, J. of Artificial Int. Research and App., vol. 3, no. 1, pp. 698–715, May 2023, Accessed: Nov. 14, 2024. [Online]. Available: https://aimlstudies.co.uk/index.php/jaira/article/view/272

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