CONFIGURED GRANT BASED SMALL DATA TRANSMISSION (CG-SDT) IN MULTIBEAM OPERATION

Organization Name

intel corporation

Inventor(s)

Gang Xiong of Beaverton OR (US)

CONFIGURED GRANT BASED SMALL DATA TRANSMISSION (CG-SDT) IN MULTIBEAM OPERATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240163868 titled 'CONFIGURED GRANT BASED SMALL DATA TRANSMISSION (CG-SDT) IN MULTIBEAM OPERATION

Simplified Explanation

The patent application describes a user equipment (UE) configured for multi-beam operation in a fifth-generation New Radio (5G-NR) system, specifically focusing on the decoding of a Physical Downlink Control Channel (PDCCH) and the transmission of small data using a Configured Grant (CG) based Small Data Transmission (SDT).

• The UE can detect a DCI format for a CG-SDT and receive a transport block in a corresponding Physical Downlink Shared Channel (PDSCH).
• The UE assumes that certain Demodulation Reference Signal (DM-RS) antenna ports are quasi co-located with a Synchronization Signal/Physical Broadcast Channel (SS/PBCH) for the CG-SDT.
• During the CG-SDT, the UE encodes a Physical Uplink Control Channel (PUCCH) for transmission using the same spatial domain transmission filter as the last Physical Uplink Shared Channel (PUSCH) transmission.

Potential Applications

This technology can be applied in 5G-NR systems for efficient small data transmission with multi-beam operation.

Problems Solved

This technology solves the challenge of efficiently transmitting small data in a 5G-NR system while ensuring proper synchronization and demodulation.

Benefits

The benefits of this technology include improved data transmission efficiency, reduced interference, and optimized resource allocation in 5G-NR systems.

Potential Commercial Applications

Potential commercial applications of this technology include telecommunications, IoT devices, smart cities, and other industries requiring fast and reliable small data transmission in 5G networks.

Possible Prior Art

One possible prior art could be the use of similar techniques for optimizing resource allocation and improving data transmission efficiency in wireless communication systems.

Unanswered Questions

How does this technology impact battery life in UE devices?

The article does not address the potential impact of this technology on the battery life of user equipment devices. This could be an important consideration for practical implementation.

What are the potential security implications of using multi-beam operation in 5G-NR systems?

The article does not discuss the security implications of utilizing multi-beam operation in 5G-NR systems. Understanding and addressing potential security risks associated with this technology is crucial for its successful deployment.

Original Abstract Submitted

a user equipment (ue) configured for multi-beam operation in a fifth-generation new radio (5g-nr) system may decode a physical downlink control channel (pdcch). when a dci format for a configured grant (cg) based small data transmission (sdt) (cg-sdt) is detected and a transport block (tb) is received in a corresponding physical downlink shared channel (pdsch), the ue may assume that a demodulation reference signal (dm-rs) antenna port associated with pdcch receptions and a dm-rs antenna port associated with pdsch receptions are quasi co-located (qcl) with a synchronization signal/physical broadcast channel (ss/pbch) associated with a physical uplink shared channel (pusch) resource for the cg-sdt. during the cg-sdt, the ue may encode a pucch for transmission using a same spatial domain transmission filter as a last pusch transmission.