About This Architecture

Three-layer 5G private network architecture on OCI integrating gNodeB base stations, industrial CPE, AGV robots, and IoT sensors at the access layer. Edge aggregation via MEC nodes in Campus A and Factory B routes traffic through edge gateways to core network functions including UPF, SMF, AMF, and UDM/AUSF with network slicing via NSSF and SLA monitoring. This architecture enables ultra-low latency, network slicing, and localized compute for industrial automation and smart manufacturing use cases. Fork and customize this diagram on Diagrams.so to model your enterprise 5G deployment topology, MEC placement strategy, or network slice policies.

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How do I design a three-layer 5G private network on OCI with edge computing and network slicing for industrial automation?

This diagram shows a three-layer 5G private network: access layer with gNodeB, 5G indoor systems, industrial CPE, AGV robots, and IoT sensors; edge aggregation via MEC nodes in Campus A and Factory B with SLA monitoring; and core layer with UPF, SMF, AMF, UDM/AUSF, and NSSF for session management, access control, authentication, and network slice selection. Deploy on OCI for low-latency, localized