Research Article

Intelligent Anomaly Detection for Complex Cloud Systems: A Deep Learning Framework

Authors

  • Vishal Mukeshbhai Shah International Institute of Information Technology, Hyderabad, India

Abstract

This article investigates the application of deep learning approaches for anomaly detection in complex distributed cloud environments. Traditional rule-based monitoring systems face significant limitations in modern cloud infrastructures characterized by massive scale, heterogeneity, concept drift, and cross-organizational dependencies. The article explores how Long Short-Term Memory (LSTM) autoencoders and Transformer models can effectively analyze time-series telemetry and log data, respectively, providing superior anomaly detection capabilities. LSTM autoencoders demonstrate exceptional performance in processing numerical metrics and capturing temporal dependencies across multiple time scales, while Transformer architectures excel at analyzing textual log data through their self-attention mechanism. The article further presents a hierarchical, distributed architecture for implementing these models at scale, incorporating edge preprocessing, specialized regional processing nodes, continuous model evaluation, and federated learning. This comprehensive article enables real-time anomaly detection with improved accuracy, reduced latency, and enhanced operational efficiency while respecting data sovereignty requirements.

Article information

Journal

Journal of Computer Science and Technology Studies

Volume (Issue)

7 (8)

Pages

526-532

Published

2025-08-04

How to Cite

Vishal Mukeshbhai Shah. (2025). Intelligent Anomaly Detection for Complex Cloud Systems: A Deep Learning Framework. Journal of Computer Science and Technology Studies, 7(8), 526-532. https://doi.org/10.32996/jcsts.2025.7.8.60

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Keywords:

Cloud Anomaly Detection, LSTM Autoencoders, Transformer Models, Federated Learning, Distributed AI Architecture