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  1. Enhancing frontline security with DPI for radio access networks (RAN)

    With more base stations and cell sites dotting today’s skylines, attackers targeting mobile networks are in close proximity to their targets. Also, vRAN, C-RAN and O-RAN are aimed at improving network efficiencies and scalability. The shift to these architectures, however, opens up new security threats for radio access networks (RAN). What are these new threats and how does deep packet inspection help in addressing them?

    Blog post

  2. Game changer 5G - Capture new opportunities using DPI

    Deep packet inspection (DPI) becomes key in 5G as it provides real-time network visibility and real-time application awareness from the core to the edge and across all layers and nodes within the network. At this page, we have summarized all our expert knowledge and publications providing a detailed understanding of how DPI enhances 5G to help you capture new opportunities. Get insights on how to accelerate 5G for your business with real-time application awareness powered by deep packet inspection technology.

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  3. DPI supporting SASE for 5G security

    SASE is a secure gateway at the edge of a network, bundling network and security functions provided on-demand as a cloud service. DPI can augment the capacities of SASE in securing enterprise 5G networks. This article examines the need for highly reliable and seamless authentication of remote users and endpoints at the edge and explains how DPI in SASE provides the real-time traffic visibility and traffic filtering to enable this.

    Blog post

  4. Building trust and security for 6G networks with DPI

    Distributed AI, intelligent edge and intelligent RAN are some of 6G’s prime characteristics. Managing 6G security requires deep packet inspection for real-time insights on new and emerging threat patterns arising from vulnerabilities of a new architecture, an expanded network surface and the rapid proliferation of end nodes. With DPI, operators can implement application-aware security policies for high-performant, reliable and trustable 6G networks.

    Blog post

  5. User and control plane correlation for intelligent load balancing in mobile networks

    As mobile network operators face the challenges of increased traffic demands and security threats, intelligent load balancing has become more important than ever. This article discusses the deployment of our GTP correlation module R&S®GSRM for Niagara Networks’ Open Visibility Platform (OVP). It explains how the OEM software module enables subscriber awareness, allowing mobile network operators to benefit from intelligent load balancing and how this improves network efficiency, performance, traffic management, security, visibility and automation.

    Blog post

  6. DPI for service assurance

    Use Case

  7. DPI for 5G UPFs

    Use Case

  8. ipoque at Mobile World Congress 2024

    Come and meet with our team of experts.

    Date: 26 - 29 February 2024
    Location: Fira Gran Via, Barcelona
    Booth: Hall 5, Stand 5A80

    Event

  9. Rohde & Schwarz showcases next-gen DPI technology for visibility into encrypted traffic at MWC Barcelona 2024

    Leipzig, Germany, February 13, 2024 — ipoque, a Rohde & Schwarz company and leading provider of next-gen deep packet inspection (DPI) software, will be demonstrating its revolutionary DPI and encrypted traffic intelligence (ETI) solutions at MWC Barcelona 2024. The event will take place from February 26 to 29, at Fira Gran Via.

    Press release

  10. Enhancing mobile experiences: DPI in 5G and 5.5G networks

    As 5G-Advanced (5.5G) enters commercial use, mobile networks will usher vastly improved computing capabilities, enabling operators to boost existing use cases including 5G private networks, UAVs, FWA services and various XR/VR and multi-party, interactive applications. This article discusses how deep packet inspection (DPI) supports the evolution of 5G and 5.5G. It explores how real-time traffic classification information is used to enhance network slicing, cloud computing, edge processing and in-network computing. It also assesses how traffic visibility enhances personalized experiences and optimizes overall network performance.

    Blog post