18551093. METHODS AND APPARATUSES FOR SIDELINK POSITIONING simplified abstract (Lenovo (Beijing) Limited)
Contents
METHODS AND APPARATUSES FOR SIDELINK POSITIONING
Organization Name
Inventor(s)
METHODS AND APPARATUSES FOR SIDELINK POSITIONING - A simplified explanation of the abstract
This abstract first appeared for US patent application 18551093 titled 'METHODS AND APPARATUSES FOR SIDELINK POSITIONING
- Simplified Explanation:**
The patent application discusses methods and apparatuses for sidelink (SL) positioning, aiming to improve multiple-node UE positioning efficiency with low signaling overhead.
- Key Features and Innovation:**
- Configuration information for SL positioning includes panel patterns, resource allocation principles, and beam allocation principles. - Transmitting an SL positioning reference signal (SL-PRS) based on the received configuration information. - Supports more efficient multiple-node UE positioning with reduced signaling overhead.
- Potential Applications:**
- Enhanced positioning accuracy for multiple-node user equipment (UE). - Improved resource allocation and beam management in wireless communication systems.
- Problems Solved:**
- Inefficient UE positioning in multi-node scenarios. - High signaling overhead in current positioning methods.
- Benefits:**
- Increased efficiency in UE positioning. - Reduced signaling overhead for improved network performance.
- Commercial Applications:**
Title: Enhanced Wireless Positioning Technology for Efficient Network Management This technology can be applied in 5G and beyond wireless networks to optimize UE positioning, leading to improved network performance, reduced signaling overhead, and enhanced resource allocation. It can benefit telecommunications companies, network operators, and IoT service providers looking to enhance their network management capabilities.
- Prior Art:**
Prior art related to this technology may include research papers, patents, or industry standards related to sidelink positioning, beam management, and resource allocation in wireless communication systems.
- Frequently Updated Research:**
Researchers in the field of wireless communication systems are constantly exploring new methods and technologies to improve UE positioning accuracy, reduce signaling overhead, and enhance network performance. Stay updated on the latest advancements in sidelink positioning and resource allocation principles to leverage the benefits of this technology.
- Questions about Sidelink Positioning:**
1. What are the key challenges in implementing efficient sidelink positioning in wireless communication systems?
- Efficient sidelink positioning faces challenges related to resource allocation, beam management, and signaling overhead. Optimizing these aspects is crucial for improving positioning accuracy and network performance.
2. How does sidelink positioning impact the overall efficiency of multiple-node UE positioning?
- Sidelink positioning plays a critical role in enhancing the efficiency of multiple-node UE positioning by providing configuration information for panel patterns, resource allocation principles, and beam allocation principles. This leads to more accurate positioning with reduced signaling overhead.
Original Abstract Submitted
Embodiments of the present application relate to methods and apparatuses for sidelink (SL) positioning. According to an embodiment of the present application, a method may include: receiving configuration information for SL positioning, wherein the configuration information for SL positioning includes at least one of: configuration of at least one panel pattern, wherein each panel pattern of the at least one panel pattern includes one or more panels; at least one resource allocation principle associated with the at least one panel pattern; and at least one beam allocation principle associated with the at least one panel pattern; and transmitting an SL positioning reference signal (SL-PRS) according to the received configuration information for SL positioning. Embodiments of the present application can support more efficient multiple-node UE positioning with low signaling overhead.
