18351941. PHASE-TRACKING REFERENCE SIGNAL POWER BOOSTING FOR UP TO 8-LAYER UPLINK TRANSMISSIONS simplified abstract (QUALCOMM Incorporated)
PHASE-TRACKING REFERENCE SIGNAL POWER BOOSTING FOR UP TO 8-LAYER UPLINK TRANSMISSIONS
Organization Name
Inventor(s)
Peter Gaal of San Diego CA (US)
Wanshi Chen of San Diego CA (US)
PHASE-TRACKING REFERENCE SIGNAL POWER BOOSTING FOR UP TO 8-LAYER UPLINK TRANSMISSIONS - A simplified explanation of the abstract
This abstract first appeared for US patent application 18351941 titled 'PHASE-TRACKING REFERENCE SIGNAL POWER BOOSTING FOR UP TO 8-LAYER UPLINK TRANSMISSIONS
Simplified Explanation
- Explanation:**
The patent application discloses techniques for determining transmission power boosts for phase-tracking reference signals in multi-layer wireless communications. A wireless user equipment (UE) can distribute layers of a multi-layer uplink transmission among multiple PT-RS ports and apply different transmission power boosts to each port.
- Potential Applications:**
- Wireless communication systems - Mobile devices - Internet of Things (IoT) devices
- Problems Solved:**
- Optimizing transmission power boosts for PT-RS ports - Efficient mapping of multi-layer uplink transmissions
- Benefits:**
- Improved signal quality - Enhanced reliability in wireless communications - Increased data transmission efficiency
Original Abstract Submitted
Techniques related to multi-layer wireless communications are disclosed. Some aspects of the disclosure relate to devices and methods for determining a transmission power boost for a phase-tracking reference signal (PT-RS). A wireless user equipment (UE) may map a multi-layer uplink transmission to a plurality of PT-RS ports by distributing the layers of the multi-layer uplink transmission among the plurality of PT-RS ports. The UE may determine a first transmission power boost for a first PT-RS port, and a second transmission power boost, different from the first transmission power boost, for a second PT-RS port. The UE may transmit a first PT-RS corresponding to the first PT-RS port utilizing the first transmission power boost, and the second PT-RS corresponding to the second PT-RS port, frequency division multiplexed with the first PT-RS, utilizing the second transmission power boost. Other aspects, embodiments, and features are also claimed and described.