FINGERPRINT-BASED vRAN CELL INTEGRITY MONITORING

Organization Name

Intel Corporation

Inventor(s)

Stephen T. Palermo of Chandler AZ (US)

Valerie J. Parker of Portland OR (US)

Vishal Gupta of San Diego CA (US)

Patrick L. Connor of Beaverton OR (US)

Kevin W. Bross of Tigard OR (US)

FINGERPRINT-BASED vRAN CELL INTEGRITY MONITORING - A simplified explanation of the abstract

This abstract first appeared for US patent application 18514418 titled 'FINGERPRINT-BASED vRAN CELL INTEGRITY MONITORING

Simplified Explanation

The patent application discusses various approaches for the deployment and coordination of network operation processing, compute processing, and communications for 5G networks, including the use of fingerprint-based vRAN cell integrity monitoring.

• Analyzing a state of a 5G network:

   - Obtaining initial fingerprint reference data of a network state between a virtualized radio access network (vRAN) node and at least one fingerprint reference unit (FRU) device wirelessly connected to the vRAN node.
   - Comparing the initial fingerprint reference data to subsequent fingerprint data of the network state between the vRAN node and the FRU device to detect a changed network condition.
   - Performing an action at the vRAN node to modify or disable a component of the 5G network in response to detection of the changed network condition.

---

1. 1. 1. Potential Applications

- This technology can be applied in the telecommunications industry for enhancing the security and integrity of 5G networks. - It can also be used in network management systems to automate the detection and response to network anomalies.

1. 1. 1. Problems Solved

- Provides a method for real-time monitoring of network conditions to ensure the stability and reliability of 5G networks. - Enables proactive measures to be taken in response to changes in the network state, improving overall network performance.

1. 1. 1. Benefits

- Enhances the security of 5G networks by detecting and responding to network anomalies promptly. - Increases the efficiency of network management by automating the monitoring and response processes.

1. 1. 1. Potential Commercial Applications
         1. Enhancing 5G Network Security with Fingerprint-based Monitoring

- This technology can be marketed to telecommunications companies looking to improve the security and reliability of their 5G networks. - Network equipment manufacturers can integrate this innovation into their products to offer enhanced security features to their customers.

1. 1. 1. Possible Prior Art

- Prior art related to network monitoring and anomaly detection systems in telecommunications networks. - Existing technologies for virtualized radio access networks and network management systems.

---

1. 1. 1. 1. Unanswered Questions

1. 1. 1. How does the fingerprint-based vRAN cell integrity monitoring compare to traditional network monitoring methods?

- Answer: The fingerprint-based approach offers a more granular and real-time analysis of network conditions compared to traditional methods, allowing for quicker detection and response to network anomalies.

1. 1. 1. What are the potential challenges in implementing this technology in large-scale 5G networks?

- Answer: Some challenges may include scalability issues, integration with existing network infrastructure, and ensuring compatibility with different network components and protocols.

Original Abstract Submitted

Various approaches for the deployment and coordination of network operation processing, compute processing, and communications for 5G networks, including with the use of fingerprint-based vRAN cell integrity monitoring, are discussed. In an example, analyzing a state of a 5G network includes: obtaining initial fingerprint reference data of a network state between a virtualized radio access network (vRAN) node and at least one fingerprint reference unit (FRU) device wirelessly connected to the vRAN node; comparing the initial fingerprint reference data to subsequent fingerprint data of the network state between the vRAN node (e.g., operating as vRAN gNB, or as an IAB Donor or IAB Node) and the at least one FRU device to detect a changed network condition; and performing an action at the vRAN node to modify or disable a component of the 5G network, in response to detection of the changed network condition.