FLEXIBLE CHANNEL STRUCTURE FOR PAIRED RADIO FREQUENCY SPECTRUM BANDS

Organization Name

QUALCOMM Incorporated

Inventor(s)

Toru Uchino of Zushi-shi (JP)

Kazuki Takeda of Tokyo (JP)

FLEXIBLE CHANNEL STRUCTURE FOR PAIRED RADIO FREQUENCY SPECTRUM BANDS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17881562 titled 'FLEXIBLE CHANNEL STRUCTURE FOR PAIRED RADIO FREQUENCY SPECTRUM BANDS

Simplified Explanation

Methods, systems, and devices for wireless communications are described in this patent application. The abstract explains that a user equipment (UE) can receive control signaling that indicates a configuration for wireless communications with a wireless device using a first operating band of a radio frequency spectrum band. The first operating band includes a first carrier that is paired with a second carrier. The first carrier is separated in frequency from the second carrier and is used for either transmissions from the UE or receptions at the UE. The second carrier is used for both transmissions and receptions at the UE using time division duplexing (TDD) according to the configuration. The UE can communicate messages with the wireless device simultaneously using both the first and second carriers.

• The patent application describes a method for configuring wireless communications between a user equipment (UE) and a wireless device using a first operating band of a radio frequency spectrum band.
• The first operating band includes a first carrier and a second carrier that are paired together.
• The first carrier is used for either transmissions from the UE or receptions at the UE, while the second carrier is used for both transmissions and receptions at the UE.
• The UE can use time division duplexing (TDD) to simultaneously communicate with the wireless device using both the first and second carriers.

Potential applications of this technology:

• This technology can be applied in various wireless communication systems, such as cellular networks, Wi-Fi networks, and IoT networks.
• It can improve the efficiency and capacity of wireless communications by allowing simultaneous transmissions and receptions on different carriers.
• The ability to use TDD and separate carriers for different purposes can enable more flexible and optimized wireless communication configurations.

Problems solved by this technology:

• Traditional wireless communication systems often require separate carriers for transmissions and receptions, limiting the efficiency and capacity of the system.
• The use of TDD and separate carriers in this technology allows for simultaneous transmissions and receptions, improving overall system performance.
• The configuration flexibility provided by this technology can address the specific needs and requirements of different wireless communication scenarios.

Benefits of this technology:

• Increased efficiency and capacity of wireless communication systems.
• Improved flexibility in configuring wireless communications.
• Enhanced performance and optimized resource allocation in wireless networks.

Original Abstract Submitted

Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive control signaling that includes an indication of a configuration for wireless communications with a wireless device using a first operating band of a radio frequency spectrum band. The first operating band may include a first carrier that is paired with a second carrier of the first operating band. The first carrier may be separated in frequency from the second carrier and used for one of transmissions from the UE or receptions at the UE, while the second carrier may be used for both transmissions from the UE and receptions at the UE. The UE may use the second carrier for both transmissions and receptions using time division duplexing (TDD) according to the configuration. The UE may concurrently communicate messages with the wireless device using the first carrier and the second carrier.