Wireless Communication Method and Device

Organization Name

Huawei Technologies Co., Ltd.

Inventor(s)

Hui Jin of Shenzhen (CN)

Xiaoyan Duan of Shenzhen (CN)

Guowei Ouyang of Beijing (CN)

Wireless Communication Method and Device - A simplified explanation of the abstract

This abstract first appeared for US patent application 18601556 titled 'Wireless Communication Method and Device

The abstract describes a wireless communication method in a communications system involving a User Equipment (UE), Radio Access Network (RAN), a first core network entity, and at least one network slice. The method includes establishing a signaling connection to the UE by the first core network entity, receiving network slice information and a non-access stratum (NAS) message from the UE via the signaling connection, determining a target network slice based on the received information, and sending the NAS message to the second core network entity.

• The method involves establishing a signaling connection between the first core network entity and the UE.
• Network slice information and a NAS message are received from the UE via the signaling connection.
• Based on the network slice information, a target network slice is determined from the available network slices.
• The target network slice includes a second core network entity, with which the UE performs NAS communication using the RAN and the first core network entity.
• The NAS message is then sent to the second core network entity by the first core network entity.

Potential Applications: - This technology can be applied in 5G networks to efficiently manage network slices for different services. - It can be used in IoT applications where devices require specific network configurations. - Telecommunication companies can utilize this method to optimize network resources and enhance user experience.

Problems Solved: - Efficient management of network slices in a complex communications system. - Seamless communication between different core network entities. - Enhanced network performance and resource allocation.

Benefits: - Improved network efficiency and resource utilization. - Enhanced user experience with optimized network configurations. - Facilitates the implementation of diverse services in a single network infrastructure.

Commercial Applications: Title: "Wireless Communication Method for Efficient Network Slice Management in 5G Networks" This technology can be commercially applied by telecommunication companies to enhance their network management capabilities in 5G networks. It can also be utilized by IoT service providers to ensure reliable and optimized connectivity for their devices.

Questions about Wireless Communication Method for Efficient Network Slice Management in 5G Networks: 1. How does this method improve network efficiency in 5G networks? - This method improves network efficiency by allowing for the seamless management of network slices tailored to specific services and applications. 2. What are the key benefits of using network slicing in wireless communication systems? - Network slicing enables operators to provide customized services with varying requirements on a single network infrastructure, leading to improved resource allocation and user experience.

Original Abstract Submitted

A wireless communication method is applied to a communications system including a UE, a RAN, a first core network entity, and at least one network slice. The wireless communication method includes: establishing, by the first core network entity, a signaling connection to the UE; receiving, by the first core network entity and from the UE via the signaling connection, network slice information and a non-access stratum NAS message; determining, by the first core network entity and based on the network slice information, a target network slice from the at least one network slice, where the target network slice includes a second core network entity, and the UE performs NAS communication with the second core network entity using the RAN and the first core network entity; and sending, by the first core network entity, the NAS message to the second core network entity.