WAVEFORM CONFIGURATION AND INDICATION FOR UPLINK TRANSMISSION

Organization Name

qualcomm incorporated

Inventor(s)

Jing Lei of San Diego CA (US)

Seyong Park of San Diego CA (US)

Hung Dinh Ly of San Diego CA (US)

Wei Yang of San Diego CA (US)

Linhai He of San Diego CA (US)

Joseph Binamira Soriaga of San Diego CA (US)

Wanshi Chen of San Diego CA (US)

Ruiming Zheng of Beijing (CN)

WAVEFORM CONFIGURATION AND INDICATION FOR UPLINK TRANSMISSION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240340970 titled 'WAVEFORM CONFIGURATION AND INDICATION FOR UPLINK TRANSMISSION

The abstract discusses a patent application related to wireless communications systems supporting flexible waveform configuration for autonomous uplink transmissions.

• Base stations can transmit broadcast signaling, such as a system information block (SIB), indicating waveform configuration information for autonomous uplink transmissions by user equipment (UE).
• Broadcast signaling may include a waveform configuration field (WCF) that indicates support for flexible waveforms, configures waveform types, and provides mapping rules.
• UEs can identify support for flexible waveform configuration and determine waveform types for autonomous uplink transmissions based on configuration information from the base station.
• This innovation allows for the optimization of autonomous uplink scenarios, transmission parameters, and waveform types.

Potential Applications: - Enhanced communication efficiency in wireless networks - Improved signal quality for autonomous uplink transmissions - Increased flexibility in waveform configuration for UEs

Problems Solved: - Streamlining waveform configuration for autonomous uplink transmissions - Enhancing communication reliability and performance - Simplifying the process of identifying supported waveform types

Benefits: - Better utilization of wireless network resources - Enhanced user experience with improved signal quality - Increased adaptability to varying network conditions

Commercial Applications: Title: "Enhancing Wireless Communication Efficiency with Flexible Waveform Configuration" This technology can be applied in telecommunications, IoT devices, and smart city infrastructure to optimize communication performance and reliability.

Questions about the technology: 1. How does this innovation improve the efficiency of autonomous uplink transmissions? 2. What are the key advantages of supporting flexible waveform configuration in wireless communications systems?

Original Abstract Submitted

wireless communications systems may support flexible waveform configuration for autonomous uplink transmissions. a base station may transmit broadcast signaling (e.g., a system information block (sib)) indicating waveform configuration information for an autonomous uplink transmission by a user equipment (ue). in some cases, the broadcast signaling may include a waveform configuration field (wcf) that may indicate whether flexible waveforms for autonomous uplink are supported, may configure a waveform type, may indicate waveform configuration mapping rules, etc. as such, a ue may identify whether flexible waveform configuration for autonomous uplink is supported, and may determine waveform types for autonomous uplink transmissions based on waveform type configuration information from a base station (e.g., which may include an indication of whether flexible waveform configuration is supported, an indication of waveform type/scenario mapping rules, etc.), one or more luts, identified autonomous uplink scenarios, autonomous uplink transmission parameters, or some combination thereof.