Litcius/Paper detail

Enhancing Cloud Resilience through AI-Driven Root Cause Analysis

Saravanan Raj

2025Journal of Computational Analysis and Applications13 citationsDOIOpen Access PDF

Abstract

Modern cloud systems with their distributed architectures demand robust reliability engineering practices, particularly for rapid and accurate root cause analysis (RCA) during incidents.Traditional manual troubleshooting approaches increasingly struggle amid the complexity of microservice environments and overwhelming data volumes.This article explores how Artificial Intelligence techniques-specifically large language models, graph-based analytics, and intelligent anomaly detection-are transforming RCA in cloud reliability engineering.These AI-driven approaches address fundamental challenges, including data fragmentation, ephemeral infrastructure, alert fatigue, and limited context, that hinder conventional methods.By examining innovative techniques from leading organizations, implementation challenges, and the progression toward closed-loop automation, the article provides a comprehensive overview of how AI enhances cloud resilience through faster and more accurate root cause identification.The integration of these technologies represents a significant advancement toward self-healing cloud systems where incidents can be detected, diagnosed, and remediated with minimal human intervention, fundamentally changing how organizations ensure the reliability of critical digital infrastructure.

Topics & Concepts

Resilience (materials science)Cloud computingRoot causeRoot cause analysisEnvironmental resource managementComputer scienceEnvironmental planningRoot (linguistics)BusinessRemote sensingEnvironmental scienceRisk analysis (engineering)Computer securitySoftware System Performance and ReliabilitySupply Chain Resilience and Risk ManagementNetwork Security and Intrusion Detection