NETWORK MANAGEMENT SYSTEM FOR SOFTWARE DEFINED RADIO NETWORKS FOR USE IN MOBILE NETWORKS

Organization Name

Anuvu IP Holdings LLC

Inventor(s)

Graeme Hardy of Los Angeles CA (US)

Claudio Vignali of Huntington Beach CA (US)

Jay Lorenzana of Wheaton IL (US)

Parva Bhayani of Lombard IL (US)

Steve Redford of Naperville IL (US)

Kuan Chin of Las Vegas NV (US)

Steve Tucker of Naperville IL (US)

Simon Mclellan of Canyon Lake IL (US)

Scott Kamara of Lisle IL (US)

NETWORK MANAGEMENT SYSTEM FOR SOFTWARE DEFINED RADIO NETWORKS FOR USE IN MOBILE NETWORKS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240048458 titled 'NETWORK MANAGEMENT SYSTEM FOR SOFTWARE DEFINED RADIO NETWORKS FOR USE IN MOBILE NETWORKS

Simplified Explanation

The present disclosure is about a software-defined radio for a mobile network system that includes multiple satellite transponders. Each transponder operates using single channel per carrier (SCPC) transmission, allocating the entire bandwidth of a given frequency channel to the network management system. The system also includes at least one ground station that communicates with the satellite transponders on one or more of the channels, transmitting data to a remote host. A management server sets a predetermined maximum bandwidth available for a particular channel and dynamically adjusts the allocated bandwidth based on the current utilization of that channel.

• The patent/application is about a software-defined radio system for a mobile network with satellite transponders.
• The system uses single channel per carrier (SCPC) transmission, allocating the entire bandwidth of a frequency channel to the network management system.
• At least one ground station communicates with the satellite transponders on one or more channels.
• The system dynamically adjusts the allocated bandwidth based on the current utilization of a particular channel.
• A management server sets a predetermined maximum bandwidth available for a channel.

Potential Applications:

• Mobile network systems using satellite transponders.
• Communication systems requiring dynamic bandwidth allocation.
• Remote host communication with ground stations via satellite transponders.

Problems Solved:

• Efficient allocation of bandwidth in a mobile network system.
• Dynamic adjustment of bandwidth based on channel utilization.
• Improved communication between ground stations and remote hosts.

Benefits:

• Optimal utilization of available bandwidth.
• Improved efficiency and performance of mobile network systems.
• Flexibility in allocating and adjusting bandwidth based on demand.

Original Abstract Submitted

the present disclosure relates to a software defined radio for a mobile network system including a plurality of satellite transponders, each satellite transponder operating using single channel per carrier (scpc) transmission to allocate an entire bandwidth of a given frequency channel of a plurality of channels to the network management system, at least one ground station in communication with the plurality of satellite transponders, the at least one ground station communicating on at least one of the plurality of channels, using the plurality of satellite transponders, to a remote host, and a management server, that sets a bandwidth available for a particular channel of the plurality of channels at a predetermined maximum and dynamically adjusts the bandwidth allocated to a particular channel of the plurality of channels based upon a present determination of a utilization of the particular channel of the plurality of channels.