公开(公告)号：US09519043B2

公开(公告)日：2016-12-13

申请号：US13188136

申请日：2011-07-21

Applicant: Jeremy Fix ,  Mario Kosseifi ,  Sheldon Meredith

Inventor： Jeremy Fix ,  Mario Kosseifi ,  Sheldon Meredith

IPC: G01S5/02 ,  G01S19/41

CPC classification number: G01S5/021 ,  G01S5/0263 ,  G01S19/41

Abstract: Systems and techniques for determining the accuracy of network based user equipment (UE) locating methods and results thereof are disclosed. Periodic direct measurements of location error for a network based location result are determined by the difference in the network based location result and an assisted global positioning system (AGPS) location result. The location error is associated with a cell-pair contributing to data employed to determine the network based location result. The error associated with the cell-pair is then applied as a measure of accuracy in future network based location results that also employ data associated with the cell-pair to determine the future network based location result.

Abstract translation: 公开了用于确定基于网络的用户设备（UE）定位方法及其结果的准确性的系统和技术。 基于网络的位置结果的定位误差的定期直接测量由基于网络的位置结果和辅助全球定位系统（AGPS）位置结果的差异来确定。 位置错误与用于确定基于网络的位置结果的数据有关的单元对相关联。 然后将与小区对相关联的错误作为未来基于网络的位置结果的精度的度量，其也使用与小区对相关联的数据来确定基于未来网络的位置结果。

公开(公告)号：US20130021199A1

公开(公告)日：2013-01-24

申请号：US13188136

申请日：2011-07-21

Applicant: Jeremy Fix ,  Mario Kosseifi ,  Sheldon Meredith

Inventor： Jeremy Fix ,  Mario Kosseifi ,  Sheldon Meredith

IPC: G01S19/06

CPC classification number: G01S5/021 ,  G01S5/0263 ,  G01S19/41

Abstract: Systems and techniques for determining the accuracy of network based user equipment (UE) locating methods and results thereof are disclosed. Periodic direct measurements of location error for a network based location result are determined by the difference in the network based location result and an assisted global positioning system (AGPS) location result. The location error is associated with a cell-pair contributing to data employed to determine the network based location result. The error associated with the cell-pair is then applied as a measure of accuracy in future network based location results that also employ data associated with the cell-pair to determine the future network based location result.

Abstract translation: 公开了用于确定基于网络的用户设备（UE）定位方法及其结果的准确性的系统和技术。 基于网络的位置结果的定位误差的定期直接测量由基于网络的位置结果和辅助全球定位系统（AGPS）位置结果的差异来确定。 位置错误与用于确定基于网络的位置结果的数据有关的单元对相关联。 然后将与小区对相关联的错误作为未来基于网络的位置结果的精度的度量，其也使用与小区对相关联的数据来确定基于未来网络的位置结果。

公开(公告)号：US20130273934A1

公开(公告)日：2013-10-17

申请号：US13447072

申请日：2012-04-13

Applicant: Sheldon Meredith ,  Jeremy Fix ,  Mario Kosseifi

Inventor： Sheldon Meredith ,  Jeremy Fix ,  Mario Kosseifi

IPC: H04W64/00

CPC classification number: H04W16/04 ,  H04W24/02

Abstract: Adaptive radio area network (RAN) coverage is described. The azimuth, elevation or carrier-channel power of an antenna of a RAN can be adjusted to adapt the coverage area of the RAN. Monitoring scheduled and unscheduled changes in the characteristics of the coverage area can facilitate determining an adaptation response to adapt the coverage area. This can be performed in a closed-loop and can facilitate optimization of the coverage area with regard to predetermined optimization characteristics. UEs can be employed as mobile reporting components to measure coverage characteristics as a function of the position of the UE in the RAN. The UE can report measurements and the location information of the UE. The location information can be timed fingerprint location information.

Abstract translation: 描述了自适应无线电区域网络（RAN）覆盖。 可以调整RAN的天线的方位角，高程或载波信道功率，以适应RAN的覆盖区域。 监视覆盖区域的特性的调度和非计划变化可以有助于确定适应响应以适应覆盖区域。 这可以在闭环中执行，并且可以促进关于预定优化特性的覆盖区域的优化。 UE可以用作移动报告组件，以根据UE在RAN中的位置来测量覆盖特性。 UE可以报告UE的测量和位置信息。 位置信息可以定时指纹位置信息。

公开(公告)号：US08831629B2

公开(公告)日：2014-09-09

申请号：US13308253

申请日：2011-11-30

Applicant: Sheldon Meredith ,  Jeremy Fix ,  Mario Kosseifi

Inventor： Sheldon Meredith ,  Jeremy Fix ,  Mario Kosseifi

IPC: H04W24/00

CPC classification number: H04W4/023 ,  H04L63/0236 ,  H04L2463/146 ,  H04W12/12 ,  H04W48/16 ,  H04W88/08

Abstract: A method includes detecting, at a device coupled to a network, a communication transmitted over the network. The method includes determining whether the communication is associated with an unauthorized data request, and, in response to determining that the communication is associated with the unauthorized data request, determining an access point associated with a source of the communication. The method further includes transmitting a message to a service provider. The message may request identification of mobile communication devices that are located within a threshold distance of the access point.

Abstract translation: 一种方法包括在耦合到网络的设备处检测通过网络发送的通信。 所述方法包括确定所述通信是否与未授权的数据请求相关联，并且响应于确定所述通信与所述未授权数据请求相关联，确定与所述通信源相关联的接入点。 该方法还包括向服务提供商发送消息。 消息可以请求对位于接入点的阈值距离内的移动通信设备的标识。

公开(公告)号：US20130337844A1

公开(公告)日：2013-12-19

申请号：US13526988

申请日：2012-06-19

Applicant: Sheldon Kent Meredith ,  Jeremy Fix ,  Mario Kosseifi

Inventor： Sheldon Kent Meredith ,  Jeremy Fix ,  Mario Kosseifi

IPC: H04W24/00

CPC classification number: H04W64/00 ,  G01S11/06 ,  H04B17/318 ,  H04W4/02

Abstract: Downlink signal strength measurements from base stations (BSs) are reported by mobile devices to facilitate mobile device locating. A system receives the signal strength information and determines whether the mobile device is within a selected distance from any of the BSs in response to detecting that signal strength information for one of the BSs is greater than a predefined value. The system determines an area over which to search for the mobile device if the system fails to detect that the signal strength information for any of the BSs is greater than the predefined value. The area over which the search is performed is an intersection of all regions determined by the signal strengths of the BSs.

Abstract translation: 来自基站（BS）的下行链路信号强度测量由移动设备报告以便于移动设备定位。 响应于检测到其中一个BS的信号强度信息大于预定值，系统接收信号强度信息并确定移动设备是否在距离任何BS的选定距离内。 如果系统无法检测到任何BS的信号强度信息大于预定值，则系统确定搜索移动设备的区域。 执行搜索的区域是由BS的信号强度确定的所有区域的交集。

公开(公告)号：US09408174B2

公开(公告)日：2016-08-02

申请号：US13526988

申请日：2012-06-19

Applicant: Sheldon Kent Meredith ,  Jeremy Fix ,  Mario Kosseifi

Inventor： Sheldon Kent Meredith ,  Jeremy Fix ,  Mario Kosseifi

IPC: H04W24/00 ,  H04W64/00 ,  H04W4/02 ,  G01S11/06

CPC classification number: H04W64/00 ,  G01S11/06 ,  H04B17/318 ,  H04W4/02

Abstract: Downlink signal strength measurements from base stations (BSs) are reported by mobile devices to facilitate mobile device locating. A system receives the signal strength information and determines whether the mobile device is within a selected distance from any of the BSs in response to detecting that signal strength information for one of the BSs is greater than a predefined value. The system determines an area over which to search for the mobile device if the system fails to detect that the signal strength information for any of the BSs is greater than the predefined value. The area over which the search is performed is an intersection of all regions determined by the signal strengths of the BSs.

Abstract translation: 来自基站（BS）的下行链路信号强度测量由移动设备报告以便于移动设备定位。 响应于检测到其中一个BS的信号强度信息大于预定值，系统接收信号强度信息并确定移动设备是否在距离任何BS的所选距离内。 如果系统无法检测到任何BS的信号强度信息大于预定值，则系统确定搜索移动设备的区域。 执行搜索的区域是由BS的信号强度确定的所有区域的交集。

公开(公告)号：US08989730B2

公开(公告)日：2015-03-24

申请号：US13537690

申请日：2012-06-29

Applicant: Jeremy Fix ,  Mario Kosseifi ,  Sheldon Kent Meredith

Inventor： Jeremy Fix ,  Mario Kosseifi ,  Sheldon Kent Meredith

IPC: H04W24/00 ,  H04W24/08 ,  H04W24/04

CPC classification number: H04B17/29 ,  H04W24/04 ,  H04W24/08 ,  H04W88/08

Abstract: Detection of a faulty radio oscillator is provided herein. Also provided herein is detection of faulty mobile timing measurements. Timing measurements, as observed by a mobile device, and an identification of primary scrambling codes associated with the timing measurements are captured. The primary scrambling codes match each timing measurement with a particular radio. The mobile device can also report its location information. Radios for which timing measurements have been received are paired. Based on the paired radios and an associated observed time delay derived from the timing measurements, comparisons can be made between paired radios having at least one common radio. Radios exhibiting an expected timing value can be removed from the analysis in order to isolate a radio that has a faulty radio oscillator.

Abstract translation: 本文提供了故障无线电振荡器的检测。 此处还提供了有缺陷的移动定时测量的检测。 捕获了由移动设备观察到的定时测量以及与定时测量相关联的主扰码的识别。 主要扰码与每个定时测量与特定的无线电相匹配。 移动设备还可以报告其位置信息。 收到定时测量的收音机配对。 基于成对的无线电和从定时测量导出的相关联的观测时间延迟，可以在具有至少一个公共无线电的配对无线电之间进行比较。 可以从分析中去除呈现预期定时值的无线电，以隔离具有故障无线电振荡器的无线电。

公开(公告)号：US20140004848A1

公开(公告)日：2014-01-02

申请号：US13537690

申请日：2012-06-29

Applicant: Jeremy Fix ,  Mario Kosseifi ,  Sheldon Kent Meredith

Inventor： Jeremy Fix ,  Mario Kosseifi ,  Sheldon Kent Meredith

IPC: H04W24/02

CPC classification number: H04B17/29 ,  H04W24/04 ,  H04W24/08 ,  H04W88/08

Abstract: Detection of a faulty radio oscillator is provided herein. Also provided herein is detection of faulty mobile timing measurements. Timing measurements, as observed by a mobile device, and an identification of primary scrambling codes associated with the timing measurements are captured. The primary scrambling codes match each timing measurement with a particular radio. The mobile device can also report its location information. Radios for which timing measurements have been received are paired. Based on the paired radios and an associated observed time delay derived from the timing measurements, comparisons can be made between paired radios having at least one common radio. Radios exhibiting an expected timing value can be removed from the analysis in order to isolate a radio that has a faulty radio oscillator.

Abstract translation: 本文提供了故障无线电振荡器的检测。 此处还提供了有缺陷的移动定时测量的检测。 捕获了由移动设备观察到的定时测量以及与定时测量相关联的主扰码的识别。 主要扰码与每个定时测量与特定的无线电相匹配。 移动设备还可以报告其位置信息。 收到定时测量的收音机配对。 基于成对的无线电和从定时测量导出的相关联的观测时间延迟，可以在具有至少一个公共无线电的配对无线电之间进行比较。 可以从分析中去除呈现预期定时值的无线电，以隔离具有故障无线电振荡器的无线电。

公开(公告)号：US08254959B2

公开(公告)日：2012-08-28

申请号：US12836471

申请日：2010-07-14

Applicant: Jeremy Fix ,  Mark Austin ,  Sheldon Meredith

Inventor： Jeremy Fix ,  Mark Austin ,  Sheldon Meredith

IPC: H04B7/00

CPC classification number: G01S5/0252 ,  G01S5/12 ,  H04W64/00 ,  H04W88/08

Abstract: Systems and techniques for determining the location of user equipment (UE) in a wireless network are disclosed. These techniques leverage geometric calculations for an overlaid bin grid framework mapping the wireless network area to store differential values for each frame of the bin grid framework for each pair of relevant NodeBs. A timing offset can be determined, such that when a time value from a target UE is accessed, the location can be quickly determined with minimal real time computation. In an aspect, the time value from an idle-state target UE can be accessed. The target UE time value can be searched among pre-computed differential value data sets indexed by relevant NodeB site pairs to return sets of frames that can facilitate converging on a location for the target UE. Intersecting frames can represent the geographic location of the UE in the wireless network. Further, the data can be leveraged to correct timing in the network.

Abstract translation: 公开了用于确定无线网络中的用户设备（UE）的位置的系统和技术。 这些技术利用覆盖的网格框架的几何计算，绘制无线网络区域以存储每对相关节点B的每个框架框架的差分值。 可以确定定时偏移，使得当来自目标UE的时间值被访问时，可以以最小的实时计算快速确定位置。 在一方面，可以访问来自空闲状态目标UE的时间值。 可以在由相关NodeB站点对索引的预先计算的差分值数据集之间搜索目标UE时间值，以返回可以促进目标UE的位置上的收敛的帧集合。 相交帧可以表示无线网络中的UE的地理位置。 此外，可以利用数据来校正网络中的定时。

公开(公告)号：US08620350B2

公开(公告)日：2013-12-31

申请号：US13554285

申请日：2012-07-20

Applicant: Jeremy Fix ,  Mark Austin ,  Sheldon Meredith

Inventor： Jeremy Fix ,  Mark Austin ,  Sheldon Meredith

IPC: H04B7/00

CPC classification number: G01S5/0252 ,  G01S5/12 ,  H04W64/00 ,  H04W88/08

Abstract: A user equipment (UE) location in a wireless network can be determined by leveraging geometric calculations for an overlaid bin grid framework mapping the wireless network area to store differential values for each frame of the bin grid framework for each pair of relevant NodeBs. A timing offset can be determined, such that when a time value from a target UE is accessed, the location can be quickly determined with minimal real time computation. In an aspect, the time value from an idle-state target UE can be accessed. The target UE time value can be searched among pre-computed differential value data sets indexed by relevant NodeB site pairs to return sets of frames that can facilitate converging on a location for the target UE. Intersecting frames can represent the geographic location of the UE in the wireless network. Further, the data can be leveraged to correct timing in the network.

Abstract translation: 无线网络中的用户设备（UE）位置可以通过利用覆盖的网格框架的几何计算来确定，该框架框架映射无线网络区域以存储每对相关节点B的每个框架框架的每个帧的差分值。 可以确定定时偏移，使得当来自目标UE的时间值被访问时，可以以最小的实时计算快速确定位置。 在一方面，可以访问来自空闲状态目标UE的时间值。 可以在由相关NodeB站点对索引的预先计算的差分值数据集之间搜索目标UE时间值，以返回可以促进目标UE的位置上的收敛的帧集合。 相交帧可以表示无线网络中的UE的地理位置。 此外，可以利用数据来校正网络中的定时。