Evolution of fault management in telecommunications: From reactive response to AI-driven predictive analytics

Nadella, Venu Madhav (2025) Evolution of fault management in telecommunications: From reactive response to AI-driven predictive analytics. World Journal of Advanced Engineering Technology and Sciences, 15 (2). pp. 1338-1344. ISSN 2582-8266

This article examines the transformative shift occurring in telecommunications network fault management, from traditional reactive approaches to advanced artificial intelligence-driven predictive systems. As telecommunications networks grow increasingly complex with the proliferation of 5G infrastructure, cloud-native applications, and virtualized environments, conventional fault management methodologies face significant limitations. The reactive paradigm—characterized by alarm-based monitoring, manual analysis of system logs, and rule-based diagnostics—struggles with delayed detection, high false-positive rates, and prolonged resolution times. In contrast, AI-driven fault management leverages continuous telemetry analysis, advanced anomaly detection algorithms, predictive failure analysis, and automated root cause identification to fundamentally change how network reliability is maintained. This comprehensive article explores both the technological innovations enabling this evolution and their substantial operational benefits, including reduced repair times, enhanced preventive maintenance capabilities, improved resource utilization, and superior customer experience. The article also addresses implementation challenges related to data quality, legacy system integration, organizational change management, model transparency, and continuous learning requirements that organizations must navigate during this transformation.