WLAN traffic offload in LTE

WLAN traffic offload in LTE

WLAN traffic offload in LTE

Mobile customers' ever increasing traffic demands, especially indoors and in dense signal environments, have motivated operators to integrate WLAN capacity to offload traffic. To address this need, 3GPP has been working since Rel. 8 on the smooth integration of WLAN into the mobile network architecture. This was initially with loose interworking between the two radio access technologies (RAT). Starting in Rel. 13, however, interworking could be specified at RAN level, allowing simultaneous access via WLAN and LTE. Besides the related network infrastructure features, this functionality requires specific capabilites on the mobile device that needs to be tested in R&D and conformance labs.

Tight LTE-WLAN integration

Mobile operators have now a couple of possibilities for integration of WLAN into the LTE network: LTE-WLAN aggregation (LWA) using dual connectivity and LTE-WLAN radio level integration with IPsec tunnel (LWIP), where the user and control plane are handled by the eNB. For LWA, the WLAN function could be fully eNB integrated or separated using a new Xw interface. RAN assisted interworking (RALWI) and RAN controlled interworking (RCLWI) are both based on the original WLAN offloading schemes, such as RALWI defined in Rel. 8. The eNB has a specific functionality for controlling the WLAN access, but the user planes are separated. Consequently, different functionalities are required on the mobile device for network discovery, network selection, handover, etc.

WLAN integration into the LTE network

Comprehensive protocol and end-to-end testing

Testing for smooth LTE-WLAN interworking requires a test setup that allows simultaneous WLAN and LTE access as well as the support for the related interworking functionalities such as ePDG or IMS for VoWLAN services. Ideally, these functions are integrated into a single test instrument with the ability to inspect the protocol layers in detail, but also the possibility to run scenarios such as handovers as well as end-to-end performance and security testing. It is also important to test the very often underestimated impact of in-device interference caused by WLAN and LTE operating simultaneously.

Smart network emulation with R&S CMWcards

Benefits of Rohde & Schwarz solutions

  • Complete set of solutions covering tests for all major aspects of LTE-WLAN integration
  • Test solutions for every purpose – from R&D to production and certification
  • One-box solution for testing WLAN and LTE together in a simple, easy-to-use setup

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Products for WLAN traffic offload in LTE

R&S®CMW500 wireless communication tester

The expert for cellular and non-cellular testing in one box – the ideal solution to test all LTE-WLAN aggregation aspects

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R&S®CMWcards

Create WLAN/LTE test scenarios on the R&S®CMW500 wideband radio communication tester just by setting up a hand of cards.

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R&S®DST200 RF diagnostic chamber

The ideal environment for RF analysis during development. Supports a wide range of radiated test applications for WLAN devices

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R&S®CMW100 communications manufacturing test set

The ultra compact non-signaling tester optimized for production lines. Supports WLAN and LTE testing

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More about WLAN traffic offload in LTE

Video: Testing 5G WLAN offloading with Voice over WLAN in a single box

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White paper: WLAN traffic offload in LTE

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Brochure: IEEE 802.11 wireless LAN testing with the R&S®CMW wideband radio communication tester

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App note: WLAN tests with signaling and packet data

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White paper: LTE-Advanced Pro introduction (3GPP Rel. 13/14)

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