METHOD AND SYSTEM FOR CONTROLLING 3GPP INTERFACE (E10) BETWEEN N3IWF-C AND N3IWF-U

Organization Name

Samsung Electronics Co., Ltd.

Inventor(s)

Murali Reddiboyana of Bangalore (IN)

Naveen Kumar Srinivasa Naidu of Bangalore (IN)

Suman Kumar of Bangalore (IN)

METHOD AND SYSTEM FOR CONTROLLING 3GPP INTERFACE (E10) BETWEEN N3IWF-C AND N3IWF-U - A simplified explanation of the abstract

This abstract first appeared for US patent application 17895576 titled 'METHOD AND SYSTEM FOR CONTROLLING 3GPP INTERFACE (E10) BETWEEN N3IWF-C AND N3IWF-U

Simplified Explanation

The abstract describes a method for controlling the execution of a non-3GPP interworking function (N3IWF) by splitting the signaling into control plane and user plane signaling. The control plane signaling is handled by an N3IWF-C device, while the user plane signaling is handled by an N3IWF-U device. The method also involves adding an E10 interface between the N3IWF-C and N3IWF-U devices, and monitoring this interface using E10AP. The N3IWF-C and N3IWF-U devices enable various services such as interface management, bear management, trace management, and load management.

• The method splits N3IWF signaling into control plane and user plane signaling.
• An N3IWF-C device handles control plane signaling, while an N3IWF-U device handles user plane signaling.
• An E10 interface is added between the N3IWF-C and N3IWF-U devices.
• The E10 interface is monitored using E10AP.
• The N3IWF-C and N3IWF-U devices provide multiple services, including interface management, bear management, trace management, and load management.

Potential Applications

This technology can be applied in various communication networks that require interworking between 3GPP and non-3GPP systems. It can be particularly useful in scenarios where control plane and user plane signaling need to be separated and handled by different devices.

Problems Solved

1. Efficient control of N3IWF execution: The method provides a way to split and handle N3IWF signaling, allowing for more efficient control and management of the interworking function. 2. Interworking between 3GPP and non-3GPP systems: The method enables seamless communication and interworking between different types of networks, improving interoperability and connectivity.

Benefits

1. Improved performance: By separating control plane and user plane signaling, the method allows for better resource allocation and optimization, leading to improved overall performance. 2. Enhanced flexibility: The addition of the E10 interface and the ability to monitor it provide greater flexibility in managing and controlling the N3IWF, enabling easier integration with different network architectures and protocols. 3. Streamlined management: The availability of various services, such as interface management, bear management, trace management, and load management, simplifies the overall management and operation of the N3IWF.

Original Abstract Submitted

A method for controlling an execution (signalling) of a non-3generation partnership project (3GPP) interworking function (N3IWF) is provided. The method includes splitting a signalling of a N3IWF into a control plane signalling and a user plane signalling, where the control plane signalling is handled by an N3IWF-C device and the user plane signalling is handled by an N3IWF-U device. Further, the method includes adding the E10 interface between the N3IWF-C device and the N3IWF-U device. Further, the method includes monitoring the E10 interface, whereas the E10 interface includes an E10AP. The N3IWF-C device and the N3IWF-U device enables a plurality of services between the N3IWF-C device and the N3IWF-U device. The plurality of services includes an interface management service, a bear management service, a trace management service, and a load management service.