MITIGATION OF INTERFERENCE FROM SUPPLEMENTAL COVERAGE FROM SPACE (SCS) NETWORKING

Organization Name

Unknown Organization

Inventor(s)

Stephen T. Palermo of Chandler AZ (US)

Valerie J' Parker of Portland OR (US)

MITIGATION OF INTERFERENCE FROM SUPPLEMENTAL COVERAGE FROM SPACE (SCS) NETWORKING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240014892 titled 'MITIGATION OF INTERFERENCE FROM SUPPLEMENTAL COVERAGE FROM SPACE (SCS) NETWORKING

Simplified Explanation

The patent application describes various approaches for detecting and mitigating interference in a Supplemental Coverage from Space (SCS) networking arrangement. This involves using an SCS zone for a geographic area to manage the exclusion, coordination, or inclusion of SCS communications in that area.

• The approach includes obtaining orbital position data for at least one satellite vehicle (e.g., low-earth orbit (LEO) SV) that can perform SCS network communications to a geographic area with a terrestrial network (e.g., 5G network).
• Operational parameters are determined to mitigate terrestrial interference of the SCS network communications in the identified geographic area, based on the obtained orbital position data.
• The operation of the SCS network communications in the geographic area is modified based on the determined operational parameters.

Potential applications of this technology:

• Improved communication in areas with limited terrestrial network coverage.
• Enhanced network connectivity in remote or rural areas.
• Support for disaster response and emergency communication in areas with damaged or disrupted terrestrial infrastructure.

Problems solved by this technology:

• Interference mitigation in SCS network communications to ensure reliable and uninterrupted connectivity.
• Efficient utilization of satellite resources to optimize network performance.
• Seamless integration of SCS and terrestrial networks for improved coverage and capacity.

Benefits of this technology:

• Extended network coverage and connectivity options in underserved areas.
• Enhanced reliability and resilience of communication networks.
• Flexibility in adapting network operations based on changing orbital positions and terrestrial interference conditions.

Original Abstract Submitted

various approaches for detecting and mitigating interference in a supplemental coverage from space (scs) networking arrangement are disclosed, using an scs zone for a geographic area in connection with exclusion, coordination, or inclusion of scs communications in the geographic area. in an example, an approach for dynamically mitigating interference includes: obtaining orbital position data for at least one satellite vehicle (e.g., low-earth orbit (leo) sv), which can perform scs network communications to a geographic area that includes a terrestrial network (e.g., 5g network); determining operational parameters to mitigate terrestrial interference of the scs network communications in the geographic area, with the geographic area identified based on the orbital position data; and modifying operation of the scs network communications in the geographic area, based on the determined operational parameters.