18558319. CONFIGURED GRANT-BASED UPLINK TRANSMISSION WITH TRANSPORT BLOCK (TB) PROCESSING OVER MULTIPLE SLOTS simplified abstract (Intel Corporation)

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CONFIGURED GRANT-BASED UPLINK TRANSMISSION WITH TRANSPORT BLOCK (TB) PROCESSING OVER MULTIPLE SLOTS

Organization Name

Intel Corporation

Inventor(s)

Gang Xiong of Portland OR (US)

Debdeep Chatterjee of San Jose CA (US)

Yingyang Li of Santa Clara CA (US)

Sergey Sosnin of Santa Clara CA (US)

Gregory Ermolaev of Santa Clara CA (US)

CONFIGURED GRANT-BASED UPLINK TRANSMISSION WITH TRANSPORT BLOCK (TB) PROCESSING OVER MULTIPLE SLOTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18558319 titled 'CONFIGURED GRANT-BASED UPLINK TRANSMISSION WITH TRANSPORT BLOCK (TB) PROCESSING OVER MULTIPLE SLOTS


    • Simplified Explanation:**

This patent application describes techniques for identifying and transmitting data in a 5G or NR cellular network using a configured grant PUSCH.

    • Key Features and Innovation:**

- Identification of data to be transmitted in a transport block over multiple slots in a configured grant PUSCH. - Determination of the number of repetitions for transmission of the PUSCH based on an indication from a base station. - Transmission of the data over multiple slots in the PUSCH based on the received indication.

    • Potential Applications:**

- Enhancing data transmission efficiency in 5G and NR cellular networks. - Improving the reliability and speed of data transmission in high-speed mobile communication environments.

    • Problems Solved:**

- Efficient transmission of data in 5G and NR networks. - Optimizing the use of resources in high-speed mobile communication systems.

    • Benefits:**

- Increased data transmission efficiency. - Enhanced reliability and speed of data transmission. - Improved utilization of resources in high-speed mobile communication environments.

    • Commercial Applications:**

Potential commercial applications include telecommunications equipment and services providers looking to enhance the performance of their 5G and NR networks. This technology could also benefit companies involved in IoT, autonomous vehicles, and other industries that rely on high-speed data transmission.

    • Questions about 5G and NR:**

1. How does this technology improve data transmission in 5G and NR networks? 2. What are the potential commercial implications of implementing these techniques in telecommunications networks?


Original Abstract Submitted

Various embodiments herein provide techniques related to identifying, when a user equipment (UE) is in a fifth generation (5G) or new radio (NR) cellular network, a data that is to be transmitted in a transport block over multiple slots (TBoMS) in a configured grant (CG) physical uplink shared channel (PUSCH); identifying, based on an indication received from a base station, a number of repetitions for transmission of the PUSCH; and transmitting, based on the indication, the TBoMS in the PUSCH over the multiple slots. Other embodiments may be described and/or claimed.

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