Flexible Frequency Band Pairing for Satellite Communications

Organization Name

Google LLC

Inventor(s)

Jibing Wang of San Jose CA (US)

Aamir Akram of San Jose CA (US)

Erik Richard Stauffer of Sunnyvale CA (US)

Sharath Ananth of Cupertino CA (US)

Flexible Frequency Band Pairing for Satellite Communications - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240014888 titled 'Flexible Frequency Band Pairing for Satellite Communications

Simplified Explanation

The abstract describes techniques for flexible frequency band pairing for satellite communications. It explains that a non-terrestrial communication system uses multiple frequency bands for a wireless link between a user equipment (UE) and a satellite. The system selects a first defined frequency band for downlink communications from the satellite to the UE and a second defined frequency band for uplink communications from the UE to the satellite.

• The non-terrestrial communication system utilizes multiple frequency bands for wireless communication between a UE and a satellite.
• A governing entity defines two different frequency bands for the wireless link.
• The system selects a specific frequency band for downlink communications from the satellite to the UE.
• The system also selects a specific frequency band for uplink communications from the UE to the satellite.
• The satellite and the UE communicate using the selected frequency bands for downlink and uplink communications.

Potential Applications:

• Satellite communication systems can benefit from flexible frequency band pairing, allowing for efficient and optimized communication between satellites and user equipment.
• This technology can be applied in various industries that rely on satellite communications, such as telecommunications, broadcasting, and remote sensing.

Problems Solved:

• Traditional satellite communication systems may have limited flexibility in frequency band pairing, leading to suboptimal performance and inefficient use of available frequency resources.
• This technology solves the problem of inflexible frequency band allocation by allowing for dynamic selection of frequency bands based on the specific communication requirements.

Benefits:

• Flexible frequency band pairing enables better utilization of available frequency resources, leading to improved overall system performance and capacity.
• The ability to dynamically select frequency bands based on communication needs allows for efficient use of spectrum resources.
• This technology provides increased flexibility and adaptability in satellite communication systems, accommodating different communication scenarios and requirements.

Original Abstract Submitted

this document describes techniques for flexible frequency band pairing for satellite communications. in aspects, a non-terrestrial communication system uses multiple frequency bands for a wireless link between a user equipment, ue, and a satellite of the non-terrestrial communication system. the non-terrestrial communication system determines to utilize two different frequency bands the wireless link between the satellite and the ue, the two different frequency bands being defined by a governing entity. in response, the non-terrestrial based communication system selects a first defined frequency band for downlink communications from the satellite to the ue and a second defined frequency band for uplink communications from the ue to the satellite. the non-terrestrial communication system then directs the satellite and the ue to communicate via the wireless link by using the first defined frequency band for the downlink communications and the second defined frequency band for the uplink communications.