ENHANCING TELECOM PLATFORM EFFICIENCY: AN EVENT-DRIVEN ARCHITECTURE APPROACH FOR REAL-TIME COMMUNICATION SYSTEMS
Keywords:
Event-Driven Architecture, Omnichannel Communications, Telecom Platforms, Real-Time Processing, Microservices IntegrationAbstract
This article presents a comprehensive analysis of Event-Driven Architecture (EDA) implementation in modern telecom platforms, focusing on enhancing real-time communication across omnichannel environments. The article examines the integration of EDA with existing microservices architectures, emphasizing its role in improving system scalability and reducing latency in distributed systems. Through detailed investigation of implementation patterns, security protocols, and testing frameworks, this article demonstrates how EDA can transform traditional synchronous communication models in telecom platforms. The article addresses critical challenges in event processing, data consistency, and schema evolution, while proposing practical mitigation strategies for large-scale deployments. The article indicates that despite implementation complexities, EDA offers significant advantages in handling high-volume real-time communications, particularly in customer-facing telecom applications. The article contributes to the growing body of knowledge on modern architectural patterns in telecommunications, providing valuable insights for practitioners and researchers in the field.
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