DeepContainer: A Deep Learning-based Framework for Real-time Anomaly Detection in Cloud-Native Container Environments

DeepContainer: A Deep Learning-based Framework for Real-time Anomaly Detection in Cloud-Native Container Environments

This paper presents DeepContainer, a novel deep learning-based framework for real-time anomaly detection in cloud-native container environments. The proposed framework addresses critical security challenges in containerized infrastructures through an innovative integration of neural network archite...

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Bibliographic Details
Main Authors: Ke Xiong, Zhonghao Wu,  Xuzhong Jia
Format: Article
Language:English
Published: Scientific Publication Center 2025-01-01
Series:Journal of Advanced Computing Systems
Subjects:
Cloud-Native Security
Container Anomaly Detection
Deep Learning
Real-time Threat Detection
Online Access:https://scipublication.com/index.php/JACS/article/view/79
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Summary:This paper presents DeepContainer, a novel deep learning-based framework for real-time anomaly detection in cloud-native container environments. The proposed framework addresses critical security challenges in containerized infrastructures through an innovative integration of neural network architectures and automated response mechanisms. DeepContainer implements a multi-layered detection approach, combining feature engineering techniques with optimized deep learning models to identify security anomalies across diverse container workloads. The system architecture incorporates specialized components for real-time data collection, processing, and analysis, achieving a detection accuracy of 96.8% with an average response latency of 7.3ms. Experimental evaluation in large-scale Kubernetes environments demonstrates significant performance improvements over existing solutions, including a 39.7% reduction in detection latency and a 25.5% decrease in resource utilization. The framework maintains linear scalability up to 10,000 monitored containers while achieving a false positive rate of 0.008. Comprehensive security testing validates the system's effectiveness across multiple attack vectors, including network-based attacks, resource exhaustion attempts, and access violations. Through automated response capabilities and sophisticated threat classification mechanisms, DeepContainer establishes a robust security foundation for modern containerized applications, addressing critical gaps in existing container security solutions.
ISSN:3066-3962

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