Samsung electronics co., ltd. (20240345204). ACCURACY AND LATENCY IMPROVEMENTS FOR REL-17 NR POSITIONING simplified abstract
Contents
ACCURACY AND LATENCY IMPROVEMENTS FOR REL-17 NR POSITIONING
Organization Name
Inventor(s)
Yuhan Zhou of San Diego CA (US)
Philippe Sartori of Naperville IL (US)
ACCURACY AND LATENCY IMPROVEMENTS FOR REL-17 NR POSITIONING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240345204 titled 'ACCURACY AND LATENCY IMPROVEMENTS FOR REL-17 NR POSITIONING
- Simplified Explanation:**
The patent application discusses a system and methods for improving timing errors in a wireless network, increasing positioning accuracy, and reducing latency in positioning measurements.
- Key Features and Innovation:**
- Reducing RX/TX timing errors in a wireless network
- Increasing positioning accuracy by mitigating NLOS errors
- Performing two-stage beam sweeping for DL-AOD
- Performing m-sample positioning measurements to improve latency reporting
- Potential Applications:**
This technology can be applied in various industries such as telecommunications, IoT, autonomous vehicles, and location-based services.
- Problems Solved:**
This technology addresses issues related to timing errors, positioning accuracy, NLOS errors, and latency in positioning measurements in wireless networks.
- Benefits:**
- Improved accuracy in positioning measurements
- Reduced latency in reporting
- Enhanced performance in wireless networks
- Commercial Applications:**
The technology can be used in 5G networks, IoT devices, autonomous vehicles, and location-based services to enhance accuracy and reduce latency in positioning measurements.
- Questions about the Technology:**
1. How does this technology improve positioning accuracy in wireless networks? 2. What are the potential applications of reducing RX/TX timing errors in a wireless network?
Original Abstract Submitted
a system and methods are disclosed for reducing rx/tx timing errors in a wireless network for latency of positioning measurements. additionally, a system and methods are disclosed for increasing positioning accuracy by mitigating nlos errors and/or by performing two-stage beam sweeping for dl-aod. further, a system and methods are disclosed for performing m-sample positioning measurements to improve latency reporting in connection with positioning reporting.