DYNAMIC GAP SYMBOL IN SIDELINK POSITIONING REFERENCE SIGNAL RESOURCE CONFIGURATION

Organization Name

nokia technologies oy

Inventor(s)

Ryan Keating of Chicago IL (US)

Torsten Wildschek of Gloucester (GB)

Taylan Sahin of Munich (DE)

Hyun-Su Cha of Chicago IL (US)

Prajwal Keshavamurthy of Munich (DE)

DYNAMIC GAP SYMBOL IN SIDELINK POSITIONING REFERENCE SIGNAL RESOURCE CONFIGURATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240348401 titled 'DYNAMIC GAP SYMBOL IN SIDELINK POSITIONING REFERENCE SIGNAL RESOURCE CONFIGURATION

Simplified Explanation: This patent application discusses systems, methods, apparatuses, and computer program products for configuring dynamic gap symbols in sidelink positioning reference signal (SL PRS) resources. It involves receiving information from user equipment about the existence of a gap symbol for SL PRS transmission, determining time domain allocation for the signal, receiving the SL PRS with or without the gap symbol, and performing positioning computations based on the received signal.

Key Features and Innovation:

• Configuration of dynamic gap symbols in sidelink positioning reference signal (SL PRS) resources
• Receiving information from user equipment about the presence of a gap symbol for SL PRS transmission
• Determining time domain allocation for the sidelink positioning reference signal
• Performing positioning computations based on the received signal

Potential Applications: This technology can be applied in various industries such as telecommunications, IoT, and navigation systems where accurate positioning is crucial.

Problems Solved: This technology addresses the need for efficient configuration of gap symbols in sidelink positioning reference signals for accurate positioning computations.

Benefits:

• Improved accuracy in positioning computations
• Enhanced efficiency in configuring gap symbols for sidelink positioning reference signals

Commercial Applications: Title: Dynamic Gap Symbol Configuration for Enhanced Positioning in Telecommunications This technology can be commercially used in telecommunications networks, IoT devices, and navigation systems to improve the accuracy of positioning computations, leading to better user experiences and operational efficiency.

Prior Art: Readers can explore prior patents related to dynamic gap symbol configuration in sidelink positioning reference signals to understand the evolution of this technology.

Frequently Updated Research: Stay updated on research related to dynamic gap symbol configuration in sidelink positioning reference signals to leverage the latest advancements in positioning technology.

Questions about Dynamic Gap Symbol Configuration for Enhanced Positioning: 1. What are the key benefits of dynamic gap symbol configuration in sidelink positioning reference signals? 2. How does this technology improve the efficiency of positioning computations in telecommunications networks?

Original Abstract Submitted

systems, methods, apparatuses, and computer program products for dynamic gap symbol in sidelink positioning reference signal (sl prs) resource configuration. a method may include receiving, from a user equipment, a sidelink control information indicating whether a gap symbol exists for a sidelink positioning reference signal transmission. the method may also include determining a time domain allocation of the sidelink positioning reference signal. the method may further include receiving, from the user equipment, a sidelink positioning reference signal with or without the gap symbol. in addition, the method may include performing a positioning computation based on the sidelink positioning reference signal received from the user equipment.