FULL POWER EIGHT-PORT UPLINK TRANSMISSION MODE

Organization Name

qualcomm incorporated

Inventor(s)

Yi Huang of San Diego CA (US)

Peter Gaal of San Diego CA (US)

FULL POWER EIGHT-PORT UPLINK TRANSMISSION MODE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240114468 titled 'FULL POWER EIGHT-PORT UPLINK TRANSMISSION MODE

Simplified Explanation

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may configure, based on a precoder and a total power scaling factor, a total transmission power of a Physical Uplink Shared Channel (PUSCH) communication. The total power scaling factor comprises a summation of a plurality of power scaling factors associated with a set of transmission ports of the UE, each transmission port of the set of transmission ports corresponding to a power amplifier (PA) of a set of PAs. The UE may transmit, to a network node, the PUSCH communication based on the total transmission power. Numerous other aspects are described.

• User equipment (UE) configures total transmission power of PUSCH communication based on precoder and total power scaling factor.
• Total power scaling factor is sum of power scaling factors associated with transmission ports of UE.
• Each transmission port corresponds to a power amplifier (PA) of a set of PAs.
• UE transmits PUSCH communication to a network node based on total transmission power.

Potential Applications

This technology can be applied in:

• Wireless communication systems
• 5G networks
• Mobile devices

Problems Solved

This technology helps in:

• Efficient power management in wireless communication
• Optimizing transmission power for better signal quality
• Enhancing overall network performance

Benefits

The benefits of this technology include:

• Improved signal transmission efficiency
• Enhanced network capacity
• Better user experience in terms of connectivity

Potential Commercial Applications

This technology has potential commercial applications in:

• Telecommunications industry
• Mobile network operators
• Wireless equipment manufacturers

Possible Prior Art

One possible prior art could be the use of power scaling factors in wireless communication systems to optimize transmission power. However, the specific method of configuring total transmission power based on a precoder and total power scaling factor as described in this disclosure may be novel.

Unanswered Questions

How does this technology impact battery life in mobile devices?

This article does not address the potential impact of this technology on the battery life of mobile devices. It would be interesting to know if optimizing transmission power in this manner could lead to energy savings and extended battery life for users.

What are the potential security implications of implementing this technology in wireless networks?

The article does not discuss the security aspects of implementing this technology. It would be important to understand if there are any vulnerabilities or risks associated with configuring total transmission power based on the described method.

Original Abstract Submitted

various aspects of the present disclosure generally relate to wireless communication. in some aspects, a user equipment (ue) may configure, based on a precoder and a total power scaling factor, a total transmission power of a physical uplink shared channel (pusch) communication, the total power scaling factor comprising a summation of a plurality of power scaling factors associated with a set of transmission ports of the ue, each transmission port of the set of transmission ports corresponding to a power amplifier (pa) of a set of pas. the ue may transmit, to a network node, the pusch communication based on the total transmission power. numerous other aspects are described.