POWER SCALING FOR UPLINK FULL POWER TRANSMISSION

Organization Name

intel corporation

Inventor(s)

Guotong Wang of Beijing (CN)

Alexei Davydov of Nizhny Novgorod (RU)

POWER SCALING FOR UPLINK FULL POWER TRANSMISSION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240214942 titled 'POWER SCALING FOR UPLINK FULL POWER TRANSMISSION

Simplified Explanation: The patent application describes a method to configure a user equipment (UE) for power scaling in uplink data transmissions in a 5G NR and beyond wireless network. The UE decodes RRC signaling from a base station, which includes a power scaling factor to determine the transmission mode for uplink full power transmission. The UE calculates a linear output power value based on its maximum output power and scales it using the power scaling factor to generate a scaled linear output power value. The UE then determines a PUSCH power control output based on the scaled linear output power value, enabling uplink full power transmission of data using the PUSCH with transmit power controlled by the PUSCH power control output.

• The patent application focuses on configuring a UE for power scaling in uplink data transmissions in advanced wireless networks.
• The method involves decoding RRC signaling from a base station, which includes a power scaling factor for determining the transmission mode.
• The UE calculates a linear output power value based on its maximum output power and scales it using the power scaling factor to generate a scaled linear output power value.
• Based on the scaled linear output power value, the UE determines a PUSCH power control output for controlling the transmit power during uplink full power data transmission.
• This innovation aims to optimize power control and transmission efficiency in 5G NR and beyond wireless networks.

Potential Applications: This technology can be applied in various wireless communication systems, particularly in 5G NR and future wireless networks, to enhance power scaling and transmission efficiency for uplink data.

Problems Solved: The technology addresses the need for efficient power scaling and control in uplink data transmissions in advanced wireless networks, ensuring optimal performance and resource utilization.

Benefits: - Improved power scaling and transmission efficiency in uplink data transmissions - Enhanced control over transmit power for better network performance - Optimization of power resources in 5G NR and beyond wireless networks

Commercial Applications: Title: Enhanced Power Scaling Technology for Advanced Wireless Networks This technology can be utilized by telecommunications companies, network operators, and equipment manufacturers to improve the efficiency and performance of uplink data transmissions in 5G NR and beyond wireless networks. It can lead to better network reliability, reduced power consumption, and enhanced user experience.

Questions about Power Scaling in Uplink Data Transmissions: 1. How does the power scaling factor impact the transmission mode in uplink data transmissions? 2. What are the key benefits of using power scaling technology in advanced wireless networks?

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Original Abstract Submitted

a computer-readable storage medium stores instructions to configure a ue for power scaling in uplink data transmissions in a 5g nr and beyond wireless network, and to cause the ue to perform operations including decoding rrc signaling received from a base station. the rrc signaling includes a power scaling factor. the power scaling factor indicates a transmission mode for uplink full power transmission. a linear output power value is determined for a maximum output power associated with the ue. the linear output power value is scaled using the power scaling factor to generate a scaled linear output power value. a pusch power control output is determined based on the scaled linear output power value. the operations further include causing the uplink full power transmission of uplink data using the pusch. the uplink full power transmission has transmit power based on the pusch power control output.