Sarcouncil Journal of Engineering and Computer Sciences

Abstract: Modern enterprise middleware platforms face escalating complexity in managing distributed traffic across global and local networks as organizations adopt multi-cloud architectures and microservices. The architecture presented in this article addresses these challenges through a layered traffic management framework that integrates Global Traffic Management (GTM), Local Traffic Management (LTM), dynamic Member-Switch architectures, and Sniffer-based monitoring for comprehensive traffic visibility and control. By unifying traditionally separated traffic domains with bidirectional feedback mechanisms, the architecture enables sophisticated routing decisions, rapid fault isolation, adaptive load balancing, and proactive anomaly detection across diverse middleware environments. Experimental evaluation demonstrates enhanced response times, improved failover efficiency, and superior anomaly detection compared to conventional approaches, providing robust performance across financial services, e-commerce, healthcare, and critical infrastructure applications. The integration of deep packet inspection with configurable member-switch mechanisms creates a self-optimizing traffic control system that maintains service continuity during both routine operations and adverse conditions, addressing a critical gap in contemporary middleware infrastructure.