TELECOMMUNICATIONS INFRASTRUCTURE GENERATION AND PROVISIONING FOR TRANSPORT NETWORKS

Organization Name

VMWARE, INC.

Inventor(s)

Victor Cionca of Cork (IE)

Hemanth Kumar Pannem of Danville CA (US)

Akshatha Sathyanarayan of San Jose CA (US)

Archit Baweja of San Francisco CA (US)

Ki Suh Lee of San Francisco CA (US)

Sacheth Hegde of Cupertino CA (US)

Donna O'shea of Cork (IE)

TELECOMMUNICATIONS INFRASTRUCTURE GENERATION AND PROVISIONING FOR TRANSPORT NETWORKS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240040396 titled 'TELECOMMUNICATIONS INFRASTRUCTURE GENERATION AND PROVISIONING FOR TRANSPORT NETWORKS

Simplified Explanation

The abstract describes a method for defining a telecommunications network deployment in a specific geographic region. The method involves determining the population density of user equipment (UEs) in the region and dividing it into sub-regions. For each sub-region, the method simulates the performance of the network to explore different configurations for access nodes that connect UEs to the network. The configurations are based on the population density of each sub-region, and a particular configuration is selected for use in defining the network deployment.

• The method determines population density of UEs in a geographic region.
• The region is divided into sub-regions based on the determined population density.
• The method simulates network performance for each sub-region.
• Multiple configurations for access nodes are explored for each sub-region.
• Each configuration is defined based on the population density of the sub-region.
• A particular configuration is selected for use in defining the network deployment.

Potential applications of this technology:

• Efficient deployment of telecommunications networks in specific geographic regions.
• Optimization of network configurations based on population density.

Problems solved by this technology:

• Determining the most suitable network deployment for a specific geographic region.
• Ensuring efficient connectivity for UEs based on population density.

Benefits of this technology:

• Improved network performance and coverage in specific geographic regions.
• Cost-effective deployment of telecommunications networks.
• Enhanced user experience and connectivity for UEs.

Original Abstract Submitted

some embodiments of the invention provide a method for defining a telecommunications network deployment for a particular geographic region, the telecommunications network including an access network, an edge network, and a core network. the method determines population density of ues (user equipment) for the particular geographic region. based on the determined population density, the method divides the particular geographic region into a set of sub-regions. for each sub-region in the set of sub-regions, the method simulates performance of the telecommunications network to explore multiple configurations for access nodes that connect ues in the sub-region to the telecommunications network. each configuration in the multiple configurations is defined based on population density of the sub-region. the method selects a particular configuration for access nodes from the multiple configurations for use in defining a deployment of the telecommunications network.