17788787. NR-LIGHT USER EQUIPMENT BASED POSITIONING WITH ROUND TRIP TIME PROCEDURE simplified abstract (QUALCOMM Incorporated)
NR-LIGHT USER EQUIPMENT BASED POSITIONING WITH ROUND TRIP TIME PROCEDURE
Organization Name
Inventor(s)
Weimin Duan of San Diego CA (US)
Alexandros Manolakos of Escondido CA (US)
NR-LIGHT USER EQUIPMENT BASED POSITIONING WITH ROUND TRIP TIME PROCEDURE - A simplified explanation of the abstract
This abstract first appeared for US patent application 17788787 titled 'NR-LIGHT USER EQUIPMENT BASED POSITIONING WITH ROUND TRIP TIME PROCEDURE
Simplified Explanation
The patent application describes techniques for positioning a bandwidth-limited user equipment (UE) in a NR (New Radio) network. The method involves the bandwidth-limited UE transmitting a timing measurement signal to one or more proximate premium UEs that can use more bandwidth. The bandwidth-limited UE then receives a timing measurement signal from the proximate premium UE(s) and determines its location based on these signals.
- The patent application focuses on positioning techniques for bandwidth-limited user equipment in a NR network.
- The method involves the bandwidth-limited UE transmitting a timing measurement signal to proximate premium UEs.
- The proximate premium UEs are capable of using more bandwidth than the bandwidth-limited UE.
- The bandwidth-limited UE receives a timing measurement signal from the proximate premium UE(s).
- The location of the bandwidth-limited UE is determined based on the first and second timing measurement signals.
Potential Applications
This technology has potential applications in various industries and scenarios, including:
- Telecommunications: Improved positioning techniques for bandwidth-limited user equipment in NR networks can enhance location-based services, emergency response systems, and network optimization.
- Internet of Things (IoT): The ability to accurately position bandwidth-limited IoT devices can enable efficient asset tracking, smart city applications, and industrial automation.
- Transportation: Precise positioning of bandwidth-limited UEs can enhance navigation systems, vehicle-to-vehicle communication, and traffic management.
- Public Safety: Improved location information for bandwidth-limited UEs can aid in emergency response situations, enabling faster and more accurate assistance.
Problems Solved
The patent application addresses the following problems:
- Limited bandwidth of user equipment: Bandwidth-limited UEs often face challenges in accurately determining their location due to their restricted communication capabilities.
- Positioning accuracy: Existing positioning techniques may not provide sufficient accuracy for bandwidth-limited UEs, especially in NR networks.
- Proximity-based positioning: By leveraging the proximity of premium UEs with higher bandwidth capabilities, the patent application proposes a solution to enhance the positioning accuracy of bandwidth-limited UEs.
Benefits
The technology described in the patent application offers several benefits:
- Improved positioning accuracy: By utilizing the timing measurement signals from proximate premium UEs, the method enhances the accuracy of determining the location of bandwidth-limited UEs.
- Cost-effective solution: The proposed technique leverages existing premium UEs with higher bandwidth capabilities, eliminating the need for additional infrastructure or specialized equipment.
- Enhanced network optimization: Accurate positioning of bandwidth-limited UEs can enable better resource allocation, improved network planning, and optimized coverage.
- Versatile applications: The technology can be applied in various industries and scenarios, including telecommunications, IoT, transportation, and public safety, providing a wide range of benefits.
Original Abstract Submitted
Techniques for positioning a NR bandwidth-limited user equipment (UE) are provided. An example method of positioning performed by a bandwidth-limited UE includes transmitting a first timing measurement signal to at least one proximate premium UE, wherein the at least one proximate premium UE is capable of using more bandwidth than the bandwidth-limited UE, receiving a second timing measurement signal from the at least one proximate premium UE, and determining location information for the bandwidth-limited UE based at least on the first timing measurement signal and the second timing measurement signal.