18261184. LOCAL BREAKOUT FOR MULTI-ACCESS EDGE COMPUTING USING A DEDICATED BEARER simplified abstract (Nokia Solutions and Networks Oy)

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LOCAL BREAKOUT FOR MULTI-ACCESS EDGE COMPUTING USING A DEDICATED BEARER

Organization Name

Nokia Solutions and Networks Oy

Inventor(s)

Praveen Muley of Sunnyvale CA (US)

Sajiv Selvaraj of Sunnyvale CA (US)

Kiran Mundla of Sunnyvale CA (US)

Sudeep Patwardhan of Mountain View CA (US)

LOCAL BREAKOUT FOR MULTI-ACCESS EDGE COMPUTING USING A DEDICATED BEARER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18261184 titled 'LOCAL BREAKOUT FOR MULTI-ACCESS EDGE COMPUTING USING A DEDICATED BEARER

The abstract describes a system where a gateway establishes a local breakout (LBO) bearer alongside other bearers for a communication session involving a user equipment. The gateway routes packets based on LBO rules, which may consider factors like quality of service (QoS) class identifier, QoS flow identifier, and uplink classifier.

  • Gateway establishes a local breakout (LBO) bearer for user equipment.
  • Selectively routes packets based on LBO rules.
  • Factors considered for routing include QoS class identifier, QoS flow identifier, and uplink classifier.
  • Uplink packets are routed to a local application via the LBO bearer if LBO rules are satisfied.
  • Otherwise, uplink packets are routed to an external network via the bearers associated with the communication session.

Potential Applications: - Enhanced network traffic management. - Improved quality of service for users. - Efficient routing of packets based on specific criteria.

Problems Solved: - Efficiently manage network traffic. - Provide better quality of service to users. - Optimize packet routing based on various factors.

Benefits: - Enhanced user experience. - Improved network performance. - Efficient resource utilization.

Commercial Applications: Title: Enhanced Network Traffic Management System This technology can be used in telecommunications companies to optimize network traffic and improve user experience. It can also be applied in IoT devices to ensure efficient data transmission.

Prior Art: Prior research may include studies on network traffic management systems and QoS optimization in communication networks.

Frequently Updated Research: Researchers may be exploring new algorithms for dynamic packet routing based on real-time network conditions.

Questions about the Technology: 1. How does this technology improve network efficiency compared to traditional routing methods? 2. What impact does the implementation of LBO rules have on overall network performance and user satisfaction?


Original Abstract Submitted

A gateway establishes a local breakout (LBO) bearer concurrently with one or more bearers associated with a communication session involving a user equipment. The gateway selectively routes packets associated with the user equipment to the LBO bearer or the one or more bearers associated with the communication session based on one or more LBO rules implemented at the gateway. In some cases, the LBO rules are based on one or more of a quality of service (QoS) class identifier (QCI), a QoS flow identifier (QFI), and an uplink classifier (ULCL) associated with packets received by the gateway. Uplink packets from the user equipment are routed to a local application via the LBO bearer in response to one or more of the LBO rules being satisfied. Otherwise, uplink packets are routed to an external network via the one or more bearers associated with the communication session.

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