MULTIPLE TRANSPORT BLOCK (TB) GRANT FOR SIDELINK

Organization Name

QUALCOMM Incorporated

Inventor(s)

Xiaojie Wang of Hillsborough NJ (US)

Piyush Gupta of Bridgewater NJ (US)

Junyi Li of Fairless Hills PA (US)

MULTIPLE TRANSPORT BLOCK (TB) GRANT FOR SIDELINK - A simplified explanation of the abstract

This abstract first appeared for US patent application 17851683 titled 'MULTIPLE TRANSPORT BLOCK (TB) GRANT FOR SIDELINK

Simplified Explanation

The patent application describes methods, systems, and devices for wireless communications. It focuses on enabling a user equipment (UE) to request a modification of allocated resources for sidelink transmission and reception. The UE sends a signal to a network entity, requesting a change in resources based on multiple transport blocks (TBs) for communication. The network entity responds by sending a downlink control information (DCI) signal, granting resources to the UE for sidelink communications based on the request. The granted resources can be dynamically or periodically allocated for sidelink transmission, reception, or both. The UE can then use these resources to communicate multiple TBs with other UEs.

• User equipment (UE) can request a modification of allocated resources for sidelink transmission and reception.
• UE sends a signal to a network entity, requesting a change in resources based on multiple transport blocks (TBs) for communication.
• Network entity responds with a downlink control information (DCI) signal, granting resources to the UE for sidelink communications.
• Granted resources can be dynamically or periodically allocated for sidelink transmission, reception, or both.
• UE can use the granted resources to communicate multiple TBs with other UEs.

Potential Applications

This technology can have various applications in wireless communications, including:

• Enabling efficient and reliable communication between user equipment (UE) devices in a wireless network.
• Facilitating the exchange of data, voice, or multimedia content between UEs in a sidelink communication scenario.
• Supporting the implementation of Internet of Things (IoT) devices and applications that require reliable and low-latency communication.

Problems Solved

The technology addresses several challenges in wireless communications, such as:

• Efficient allocation of resources for sidelink transmission and reception in a wireless network.
• Ensuring reliable and low-latency communication between UEs in a sidelink scenario.
• Optimizing the use of available spectrum and minimizing interference in sidelink communications.

Benefits

The technology offers several benefits, including:

• Improved efficiency and reliability of sidelink communication in wireless networks.
• Enhanced capacity and throughput for communication between UEs.
• Flexibility in resource allocation, allowing UEs to dynamically request and receive resources based on their communication needs.
• Support for various applications, including IoT devices and applications that require reliable and low-latency communication.

Original Abstract Submitted

Methods, systems, and devices for wireless communications are described. In some examples, a user equipment (UE) may transmit to a network entity a first signal requesting a modification of allocated resources for sidelink transmission, sidelink reception, or both based on multiple transport blocks (TBs) for communication for the UE. The UE may receive, from the network entity, a downlink control information (DCI) signal granting one or more resources to the UE for sidelink communications based on the first signal. In some cases, the DCI signal may dynamically or periodically grant one or more resources for sidelink transmission, one or more resources for sidelink reception, or both for the UE. The UE may use the granted resources to communicate multiple TBs with one or more other UEs based on the DCI signal. For example, a single DCI message may allocate resources for sidelink communication of multiple TBs.