First IMS Node, First Core Network Node, Second IMS Node, and Methods Performed Therein

Organization Name

Telefonaktiebolaget LM Ericsson (publ)

Inventor(s)

Ralf Keller of Würselen (DE)

Afshin Abtin of Sollentuna (SE)

Anders Ryde of Saltsjöbaden (SE)

Mattias Dahlqvist of Stockholm (SE)

First IMS Node, First Core Network Node, Second IMS Node, and Methods Performed Therein - A simplified explanation of the abstract

This abstract first appeared for US patent application 18547395 titled 'First IMS Node, First Core Network Node, Second IMS Node, and Methods Performed Therein

Simplified Explanation

The abstract describes a method performed by an IMS node for handling a network function in a communication network. The IMS node requests contact information from a core network node, receives a response with the information, and communicates with another node based on the received information.

• Explanation of the patent/innovation:

   * IMS node requests contact information from a core network node.
   * Core network node responds with at least a part of the contact information.
   * IMS node communicates with another node based on the received contact information.
   * Communication occurs over a service-based interface.

Potential Applications

The technology described in the patent application could be applied in various communication networks, such as VoIP services, video conferencing platforms, and messaging applications.

Problems Solved

This technology streamlines the process of handling network functions by efficiently requesting and receiving contact information from core network nodes, enabling seamless communication between different nodes in the network.

Benefits

• Improved efficiency in handling network functions.
• Enhanced communication between IMS nodes and core network nodes.
• Simplified network management processes.

Potential Commercial Applications

• Telecommunication companies could utilize this technology to enhance their network infrastructure.
• Software developers could integrate this innovation into their communication applications to improve performance and reliability.

Possible Prior Art

One possible prior art could be the use of similar methods in existing communication networks to facilitate communication between different network nodes.

Unanswered Questions

How does this technology impact network security?

This article does not delve into the potential security implications of implementing this technology in a communication network. It would be essential to explore how the exchange of contact information between nodes could affect network security measures.

What are the scalability limitations of this technology?

The article does not address the scalability of this technology in large-scale communication networks. Understanding the potential limitations in handling a high volume of network functions could be crucial for its practical implementation.

Original Abstract Submitted

A method performed by a first IP multimedia system, IMS, node (), for handling a network function in a communication network. The first IMS node () requests a first core network node () for at least a part of contact information of a network function instance, and receives a response from the first core network node () with at least the part of the contact information for the network function instance. The first IMS node () communicates with a second IMS node () or a core network node over a service based interface, based on the received part of the contact information for the network function instance.