TIME-RELATED NETWORK RESOURCE MANAGEMENT

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TIME-RELATED NETWORK RESOURCE MANAGEMENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240251376 titled 'TIME-RELATED NETWORK RESOURCE MANAGEMENT

The method described in the abstract involves collecting time-related geospatial location information from an access network element for multiple mobile devices, developing a time series cumulative distribution function based on this information, generating configuration information for network resource allocation, and providing this information back to the access network element.

Collecting time-related geospatial location information from an access network element for multiple mobile devices
Developing a time series cumulative distribution function based on the collected information
Generating configuration information for network resource allocation based on the cumulative distribution function
Providing the configuration information back to the access network element

Potential Applications: - Network resource optimization - Location-based services - Traffic management

Problems Solved: - Efficient allocation of network resources - Improved geospatial data analysis - Enhanced network performance

Benefits: - Enhanced network efficiency - Better user experience - Cost savings for network operators

Commercial Applications: Title: "Optimized Network Resource Allocation Technology for Enhanced Performance" This technology can be used in telecommunications, IoT, and smart city applications to optimize network resource allocation and improve overall performance.

Questions about the technology: 1. How does this method improve network resource allocation efficiency? 2. What are the potential cost savings for network operators with this technology?

Original Abstract Submitted

a method, comprising the steps of collecting, from an access network element, a plurality of time-related geospatial location information associated to a respective one out of a plurality of mobile devices, wherein the plurality of time-related geospatial location information indicates the respective mobile devices' geospatial locations at certain times; developing, based on the plurality of time-related geospatial location information, a time series cumulative distribution function, wherein the time series cumulative distribution function indicates a probability that a geospatial location defined by its coordinate values of a respective one out of the plurality of mobile devices has coordinate values less than or equal to a selected geospatial location's coordinate values; generating configuration information for the access network element, indicative of a time-related allocation of network resources to the plurality of mobile devices based on the time series cumulative distribution function; and providing the configuration information to the access network element.