18131445. SIGNAL STORM AVOIDANCE BETWEEN SATELLITES AND USER EQUIPMENT simplified abstract (T-Mobile Innovations LLC)
Contents
SIGNAL STORM AVOIDANCE BETWEEN SATELLITES AND USER EQUIPMENT
Organization Name
Inventor(s)
Nagi A. Mansour of Arlington VA (US)
Kevin Almon Hart of Sammamish WA (US)
SIGNAL STORM AVOIDANCE BETWEEN SATELLITES AND USER EQUIPMENT - A simplified explanation of the abstract
This abstract first appeared for US patent application 18131445 titled 'SIGNAL STORM AVOIDANCE BETWEEN SATELLITES AND USER EQUIPMENT
Embodiments of the present disclosure focus on systems and methods to prevent or lessen signal storms on satellite radio access networks. When a determination is made that a User Equipment (UE) is connected to a satellite, specific uplink mitigation measures are implemented. These measures work to restrict the uplink signaling between the UE and the satellite, thus conserving the satellite's radio resources to potentially serve a larger number of user equipment terminals within its coverage area.
- Uplink mitigation measures are activated when a UE is connected to a satellite.
- These measures limit uplink signaling between the UE and the satellite.
- The goal is to preserve the satellite's radio resources for a greater coverage area.
- This allows for the potential to serve more user equipment terminals within the satellite's coverage area.
- The system and methods help avoid or mitigate signal storms on satellite radio access networks.
Potential Applications: - Satellite communication networks - Wireless communication systems - Telecommunication infrastructure
Problems Solved: - Signal storms on satellite radio access networks - Efficient utilization of satellite radio resources - Providing coverage for a larger number of user equipment terminals
Benefits: - Enhanced satellite network performance - Improved connectivity for user equipment terminals - Optimal utilization of radio resources
Commercial Applications: Title: Satellite Communication Network Optimization This technology can be utilized in satellite communication networks to optimize radio resource allocation, improve network performance, and enhance connectivity for user equipment terminals. This can have significant implications in the telecommunications industry, especially for satellite service providers.
Questions about Satellite Communication Network Optimization: 1. How does the implementation of uplink mitigation measures benefit satellite radio access networks?
- The implementation of uplink mitigation measures helps preserve the satellite's radio resources, allowing for better coverage and connectivity for user equipment terminals.
2. What are the potential applications of this technology beyond satellite communication networks?
- This technology can also be applied in wireless communication systems and other telecommunication infrastructure to improve network efficiency and performance.
Original Abstract Submitted
Embodiments of the present disclosure are directed to systems and methods for avoiding or mitigating signals storms on satellite radio access networks. Based on a determination that a UE is connected to a satellite, one or more uplink mitigation measures will be carried out. The uplink mitigation measures function to limit the uplink signaling between the UE and the satellite, preserving the radio resources of the satellite in order, for example, to provide coverage for a greater number of user equipment terminals within the satellite's coverage area.