Sarcouncil Journal of Multidisciplinary

Abstract: Traditional mobile voice and messaging cores built on monolithic Session Initiation Protocol (SIP) and IP Multimedia Subsystem (IMS) appliances present significant challenges in terms of upgrade complexity, operational inflexibility, and maintenance overhead. This article presents a comprehensive architectural transformation that decomposes legacy IMS functions into logically stateless microservices. Session state is off-loaded to highly available, distributed data stores, while Kubernetes orchestrates the containers. The proposed architecture externalizes critical functions including registration management, policy enforcement, and dialog management into discrete services, enabling independent scaling and deployment. A service mesh layer provides fine-grained traffic management (circuit breaking and retries) and secures all call-control traffic with mutual TLS (mTLS); media streams are protected separately with Secure Real-time Transport Protocol (SRTP) using Datagram Transport Layer Security (DTLS) for key exchange. The architecture incorporates an event-driven backbone utilizing publish/subscribe streaming to capture billing records, analytics data, and lawful intercept information without impacting real-time call processing performance. Each microservice maintains strict alignment with relevant 3GPP specifications while embracing DevSecOps practices that treat OpenAPI contracts as primary development artifacts. By separating immutable container images from configuration data and using blue-green deployment with automated rollout gates, the architecture significantly reduces maintenance windows while maintaining carrier-grade reliability. The transformation enables telecommunications operators to achieve operational agility comparable to cloud-native enterprises while adhering to stringent regulatory requirements and zero-trust security principles, ultimately delivering enhanced service availability.