MANAGING DATA STORAGE IN A COMMUNICATION SYSTEM

Organization Name

Telefonaktiebolaget LM Ericsson (publ)

Inventor(s)

[[:Category:Róbert Szab� of Budapest (HU)|Róbert Szab� of Budapest (HU)]][[Category:Róbert Szab� of Budapest (HU)]]

Ákos Recse of Halasztelek (HU)

MANAGING DATA STORAGE IN A COMMUNICATION SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18579650 titled 'MANAGING DATA STORAGE IN A COMMUNICATION SYSTEM

Simplified Explanation

The patent application describes a method for storing data in a communication system where certain data blocks are required to recover the data. The method involves distributing these data blocks across different storage nodes in a cluster closest to the data source.

• Data is stored in a communication system with n data blocks, where k data blocks are needed for data recovery.
• The system consists of multiple clusters of data storage nodes, with the closest cluster to the data source being the primary one.
• Information about the storage nodes in each cluster is received from network operators.
• At least k data blocks are stored in different storage nodes within the primary cluster.

Key Features and Innovation

• Data storage method for communication systems with redundancy for data recovery.
• Utilization of multiple clusters of storage nodes for efficient data distribution.
• Collaboration with network operators to identify and allocate storage nodes within clusters.

Potential Applications

• Data storage and recovery in telecommunications networks.
• Cloud storage systems requiring high reliability and fault tolerance.
• Distributed computing environments where data integrity is crucial.

Problems Solved

• Ensures data availability and integrity by distributing data blocks across multiple storage nodes.
• Reduces the risk of data loss or corruption by storing redundant data blocks.
• Facilitates efficient data recovery processes in case of node failures.

Benefits

• Improved data reliability and fault tolerance.
• Enhanced data recovery capabilities.
• Optimal utilization of storage resources within clusters.

Commercial Applications

Title: Enhanced Data Storage and Recovery System

This technology can be applied in:

• Telecommunications companies for secure data storage.
• Cloud service providers for reliable data backup solutions.
• Data centers for efficient data management and recovery processes.

Prior Art

For prior art related to this technology, researchers can explore patents and publications in the fields of data storage, distributed systems, and telecommunications networks.

Frequently Updated Research

Researchers in the fields of data storage, network security, and distributed computing continue to explore advancements in data storage and recovery systems. Stay updated on the latest research in these areas for insights into future developments.

Questions about Data Storage and Recovery

How does this technology improve data reliability in communication systems?

This technology enhances data reliability by distributing data blocks across multiple storage nodes, ensuring redundancy for data recovery in case of failures.

What are the potential commercial applications of this data storage and recovery system?

The technology can be applied in telecommunications, cloud services, and data centers for secure and efficient data storage and recovery solutions.

Original Abstract Submitted

Methods and apparatus are provided. In an example aspect, a method of storing data in a communication system is provided. The data comprises n data blocks, and k data blocks of the n data blocks are required to recover the data. The communication system includes a plurality of clusters of data storage nodes including a first cluster that is a closest cluster of the plurality of clusters to a source of the data. The method comprises receiving, from a node associated with a respective network operator of each of the clusters of storage nodes, information identifying the data storage nodes that are in each of the clusters. The method also comprises causing each of at least k data blocks of the n data blocks to be stored in a different storage node in the first cluster.