In today’s high-speed 4G/5G networks, fragmented GTP traffic creates visibility gaps—disrupting security monitoring, analytics, and troubleshooting. NEOX’s GTP Correlation reassembles mobile subscriber sessions across tunnels, delivering complete, end-to-end visibility for carriers, enterprises, and security teams.
- Security teams gain a powerful advantage with GTP Correlation’s ability to detect sophisticated tunnel-based attacks like GTP flooding and data exfiltration. By maintaining session integrity across distributed network functions, the solution provides security tools with correlated, subscriber-aware traffic flows. This not only strengthens threat detection but also optimizes monitoring infrastructure by reducing false positives and tool overload from uncorrelated data streams.
- As networks evolve to 5G and beyond, NEOX’s carrier-grade solution scales effortlessly to handle millions of concurrent GTP sessions while adapting to new protocols and architectures. The AI-enhanced correlation engine future-proofs mobile visibility, ensuring compliance with evolving standards and maintaining peak performance even as traffic volumes grow. With seamless integration into existing monitoring infrastructure, GTP Correlation delivers the precision and reliability mobile operators and enterprises need in an increasingly connected world.
- For mobile operators and enterprises alike, GTP Correlation represents more than just improved visibility—it’s a strategic advantage in today’s data-driven landscape. By transforming raw, fragmented GTP data into actionable intelligence, organizations can unlock new levels of operational efficiency, security effectiveness, and customer experience management. This intelligent correlation capability becomes particularly crucial as networks embrace edge computing and network slicing, where traditional monitoring approaches often fall short. With NEOX’s solution, teams gain the clarity and confidence needed to navigate the complexities of modern mobile networks while maintaining rigorous security standards and service reliability.
