17876805. REPORTED MOBILE DEVICE LOCATION ASSESSMENT simplified abstract (QUALCOMM Incorporated)

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REPORTED MOBILE DEVICE LOCATION ASSESSMENT

Organization Name

QUALCOMM Incorporated

Inventor(s)

Lianghai Ji of San Diego CA (US)

Weimin Duan of San Diego CA (US)

Jun Ma of San Diego CA (US)

Huilin Xu of Temecula CA (US)

Liangping Ma of San Diego CA (US)

Mohamad Sayed Hassan of Paris (FR)

Qiang Wu of San Diego CA (US)

Mehmet Izzet Gurelli of San Diego CA (US)

Karthik Anantha Swamy of La Jolla CA (US)

REPORTED MOBILE DEVICE LOCATION ASSESSMENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 17876805 titled 'REPORTED MOBILE DEVICE LOCATION ASSESSMENT

Simplified Explanation

The abstract describes a method for assessing the location of a reported User Equipment (UE) in a network. The method involves receiving the reported UE location and obtaining a first signal frequency difference, which indicates the difference between the received frequency of a first signal transmitted from a first non-terrestrial-network node and the received frequency of a second signal transmitted from a second non-terrestrial-network node. Based on this information, a UE location assessment indication is provided by the network entity.

  • The method assesses the location of a reported UE in a network.
  • It involves receiving the reported UE location and obtaining a first signal frequency difference.
  • The first signal frequency difference indicates the difference between the received frequency of a first signal transmitted from a first non-terrestrial-network node and the received frequency of a second signal transmitted from a second non-terrestrial-network node.
  • Based on this information, a UE location assessment indication is provided by the network entity.

Potential Applications:

  • Location-based services: The method can be used to accurately assess the location of a UE, enabling the provision of location-based services such as navigation, emergency services, and targeted advertising.
  • Network optimization: By assessing the location of UEs, network operators can optimize their network resources and improve coverage and capacity in specific areas.

Problems Solved:

  • Accurate UE location assessment: The method solves the problem of accurately assessing the location of a reported UE by considering the frequency differences between signals transmitted from different non-terrestrial-network nodes.
  • Differentiating between signals: The method helps in distinguishing between signals transmitted from different non-terrestrial-network nodes, allowing for a more precise location assessment.

Benefits:

  • Improved location accuracy: By considering the frequency differences between signals, the method provides a more accurate assessment of the UE location.
  • Enhanced user experience: Accurate UE location assessment enables the delivery of personalized and location-based services, enhancing the overall user experience.
  • Network optimization: The method helps network operators optimize their resources and improve network performance by identifying areas with high UE density or coverage gaps.


Original Abstract Submitted

A method of assessing a reported UE location includes: receiving, at a network entity, the reported UE location; obtaining, at the network entity, a first signal frequency difference indicating a first difference between a received frequency of a first signal received by the UE corresponding to a first transmit signal of a first transmit frequency transmitted from a first non-terrestrial-network node, and a received frequency of a second signal received by the UE corresponding to a second transmit signal of a second transmit frequency transmitted from a second non-terrestrial-network node that is separate from the first non-terrestrial-network node; and providing, by the network entity, a UE location assessment indication based on the first signal frequency difference and a second difference between an expected frequency of the first signal at the reported UE location and an expected frequency of the second signal at the reported UE location.