Qualcomm incorporated (20240214155). FREQUENCY DEPENDENT RESIDUAL SIDE BAND CORRECTION simplified abstract
Contents
FREQUENCY DEPENDENT RESIDUAL SIDE BAND CORRECTION
Organization Name
Inventor(s)
Ronen Shaked of Kfar Saba (IL)
Gideon Shlomo Kutz of Ramat Hasharon (IL)
FREQUENCY DEPENDENT RESIDUAL SIDE BAND CORRECTION - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240214155 titled 'FREQUENCY DEPENDENT RESIDUAL SIDE BAND CORRECTION
The abstract of this patent application discusses the transmission of a frequency dependent residual side band (FDRSB) training signal by a user equipment (UE) on subcarriers both lower and higher than the carrier frequency, with non-overlapping sets of subcarriers mirroring each other. The UE receives an indication of FDRSB correction based on this training signal.
- User equipment (UE) transmits FDRSB training signal on subcarriers below and above the carrier frequency.
- Non-overlapping sets of subcarriers mirror each other around the carrier frequency.
- UE receives FDRSB correction indication based on the training signal.
Potential Applications: - Wireless communication systems - Signal processing technologies
Problems Solved: - Efficient training signal transmission - Improved signal correction techniques
Benefits: - Enhanced signal quality - Increased data transmission efficiency
Commercial Applications: - Telecommunications industry - IoT devices market
Questions about the technology: 1. How does the FDRSB training signal improve signal correction in wireless communication? 2. What are the potential implications of using FDRSB training signals in IoT devices?
Frequently Updated Research: - Ongoing studies on optimizing FDRSB training signals for 5G networks.
Original Abstract Submitted
various aspects of the present disclosure generally relate to wireless communication. in some aspects, a user equipment (ue) may transmit a frequency dependent residual side band (fdrsb) training signal on a first set of subcarriers that are lower than a carrier frequency and on a second set of subcarriers that are higher than the carrier frequency, a mirror of the first set of subcarriers about the carrier frequency being non-overlapping with the second set of subcarriers. the ue may receive an indication of fdrsb correction that is based at least in part on the fdrsb training signal. numerous other aspects are described.
