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    • 1. 发明授权
    • Method and system for optimizing uploading of location data for location based services
    • 用于优化上位地点数据的方法和系统,用于基于位置的服务
    • US09020522B2
    • 2015-04-28
    • US12732874
    • 2010-03-26
    • Dave MurrayCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDavid Lundgren
    • Dave MurrayCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDavid Lundgren
    • H04W24/00H04W4/02
    • H04W4/02
    • A mobile device may be operable to collect location data for a RF node and cache the collected location data in the mobile device. Resources that may be utilized for improving the uploading of the cached location data to a location server may be determined by the mobile device. The cached location data may be communicated, to the location server for updating a location database, by the mobile device utilizing the determined resources. The mobile device may determine and utilize an opportunistic transport based on a data usage and/or an access. The mobile device may store a subset of the location database locally for comparing with the cached location data for redundancy. The compared location data may be transmitted by the mobile device to the location server for updating the location database if the compared location data are not redundant data.
    • 移动设备可以用于收集RF节点的位置数据,并且将收集的位置数据缓存在移动设备中。 可用于改进缓存的位置数据上传到位置服务器的资源可以由移动设备确定。 缓存的位置数据可以由移动设备利用确定的资源传送到位置服务器以更新位置数据库。 移动设备可以基于数据使用和/或访问来确定和利用机会性传输。 移动设备可以本地存储位置数据库的子集,以便与用于冗余的高速缓存的位置数据进行比较。 如果所比较的位置数据不是冗余数据,则比较的位置数据可以由移动设备发送到位置服务器以更新位置数据库。
    • 2. 发明授权
    • Method and system for determining a position fix indoors
    • 用于确定室内定位的方法和系统
    • US08831507B2
    • 2014-09-09
    • US12732986
    • 2010-03-26
    • Dave MurrayCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDavid Lundgren
    • Dave MurrayCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDavid Lundgren
    • H04B5/00
    • G01S5/02
    • Whenever a mobile device in a building is within proximity of a RF communication device, the mobile device may be operable to receive location information transmitted, for example by broadcasting it, from a RF communication device. The transmitted location information comprises altitude information of the RF communication device. At least an altitude of the mobile device may be determined based on the received altitude information of the RF communication device. The RF communication device may be located in an elevator car and/or on a particular floor in the building. Whenever the RF communication device is located in the elevator car, the altitude information of the RF communication device may be received by the RF communication device from an elevator controller. In instances when the RF communication device also transmits its latitude/longitude (LAT/LON), the mobile device may be operable to determine a 3-dimentional (3D) location of the mobile device.
    • 每当建筑物中的移动设备在RF通信设备附近时,移动设备可以可操作地从RF通信设备接收例如通过广播来发送的位置信息。 所发送的位置信息包括RF通信设备的高度信息。 可以基于RF通信设备的接收的高度信息来确定移动设备的至少高度。 RF通信设备可以位于建筑物中的电梯轿厢和/或特定楼层中。 每当RF通信设备位于电梯轿厢中时,RF通信设备的高度信息可以由RF通信设备从电梯控制器接收。 在RF通信设备也发送其纬度/经度(LAT / LON)的情况下,移动设备可以用于确定移动设备的3维(3D)位置。
    • 3. 发明申请
    • METHOD AND SYSTEM FOR DETERMINING LOCATION WITHIN A BUILDING BASED ON HISTORICAL LOCATION INFORMATION
    • 基于历史位置信息确定建筑物位置的方法和系统
    • US20110207471A1
    • 2011-08-25
    • US12748010
    • 2010-03-26
    • Dave MurrayCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDavid Lundgren
    • Dave MurrayCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDavid Lundgren
    • H04W64/00
    • G01S19/49H04W64/00
    • A mobile device may be operable to receive historical location trail information of a building. A location of the mobile device within the building may be determined by placing, moving or snapping a reference location of the mobile device onto a trail according to the received historical location trail information. The historical location trail information may be acquired from a location server. The historical location trail information stored in the location server may be generated using a plurality of location samples that are provided by one or more other mobile devices that have been within the building. The historical location trail information may also be acquired from an indoor map of the building that is used by the mobile device for navigation within the building. The determined location of the mobile device may then be utilized by the mobile device to navigate within the building for location-based services.
    • 移动设备可以用于接收建筑物的历史位置跟踪信息。 可以通过根据接收的历史位置跟踪信息将移动设备的参考位置放置,移动或捕捉到路径上来确定建筑物内的移动设备的位置。 可以从位置服务器获取历史位置跟踪信息。 可以使用由建筑物内的一个或多个其他移动设备提供的多个位置样本来生成存储在位置服务器中的历史位置跟踪信息。 历史位置跟踪信息也可以从建筑物的室内地图获取,该建筑物的室内地图由建筑物内的移动设备用于导航。 移动设备的确定的位置然后可以被移动设备用于在建筑物内导航以用于基于位置的服务。
    • 5. 发明申请
    • METHOD AND SYSTEM FOR OPTIMIZING UPLOADING OF LOCATION DATA FOR LOCATION BASED SERVICES
    • 用于优化基于位置的服务的位置数据上传的方法和系统
    • US20110201348A1
    • 2011-08-18
    • US12732874
    • 2010-03-26
    • Dave MurrayCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDavid Lundgren
    • Dave MurrayCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDavid Lundgren
    • H04W24/00
    • H04W4/02
    • A mobile device may be operable to collect location data for a RF node and cache the collected location data in the mobile device. Resources that may be utilized for improving the uploading of the cached location data to a location server may be determined by the mobile device. The cached location data may be communicated, to the location server for updating a location database, by the mobile device utilizing the determined resources. The mobile device may determine and utilize an opportunistic transport based on a data usage and/or an access. The mobile device may store a subset of the location database locally for comparing with the cached location data for redundancy. The compared location data may be transmitted by the mobile device to the location server for updating the location database if the compared location data are not redundant data.
    • 移动设备可以用于收集RF节点的位置数据,并且将收集的位置数据缓存在移动设备中。 可用于改进缓存的位置数据上传到位置服务器的资源可以由移动设备确定。 缓存的位置数据可以由移动设备利用确定的资源传送到位置服务器以更新位置数据库。 移动设备可以基于数据使用和/或访问来确定和利用机会性传输。 移动设备可以本地存储位置数据库的子集,以便与用于冗余的高速缓存的位置数据进行比较。 如果所比较的位置数据不是冗余数据,则比较的位置数据可以由移动设备发送到位置服务器以更新位置数据库。
    • 6. 发明授权
    • Method and system for determining location within a building based on historical location information
    • 基于历史位置信息确定建筑物内的位置的方法和系统
    • US09103917B2
    • 2015-08-11
    • US12748010
    • 2010-03-26
    • Dave MurrayCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDavid Lundgren
    • Dave MurrayCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDavid Lundgren
    • G01S19/49H04W64/00
    • G01S19/49H04W64/00
    • A mobile device may be operable to receive historical location trail information of a building. A location of the mobile device within the building may be determined by placing, moving or snapping a reference location of the mobile device onto a trail according to the received historical location trail information. The historical location trail information may be acquired from a location server. The historical location trail information stored in the location server may be generated using a plurality of location samples that are provided by one or more other mobile devices that have been within the building. The historical location trail information may also be acquired from an indoor map of the building that is used by the mobile device for navigation within the building. The determined location of the mobile device may then be utilized by the mobile device to navigate within the building for location-based services.
    • 移动设备可以用于接收建筑物的历史位置跟踪信息。 可以通过根据接收的历史位置跟踪信息将移动设备的参考位置放置,移动或捕捉到路径上来确定建筑物内的移动设备的位置。 可以从位置服务器获取历史位置跟踪信息。 可以使用由建筑物内的一个或多个其他移动设备提供的多个位置样本来生成存储在位置服务器中的历史位置跟踪信息。 历史位置跟踪信息也可以从建筑物的室内地图获取,该建筑物的室内地图由建筑物内的移动设备用于导航。 移动设备的确定的位置然后可以被移动设备用于在建筑物内导航以用于基于位置的服务。
    • 9. 发明申请
    • METHOD AND SYSTEM FOR STABILIZING A GNSS CLOCK BY REDUCING INTERFERENCE
    • 通过减少干扰来稳定GNSS时钟的方法和系统
    • US20110199261A1
    • 2011-08-18
    • US12732665
    • 2010-03-26
    • David LundgrenCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDave Murray
    • David LundgrenCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDave Murray
    • G01S19/23
    • G01S19/235H04B15/00
    • Methods and systems for stabilizing a GNSS clock by reducing interference are disclosed and may include stabilizing a frequency of a temperature compensated crystal oscillator (TCXO) on a chip in a GNSS device. A clock signal may be generated for the device by temporarily configuring circuitry adjacent to the TCXO at a constant power level. Temperature and electromagnetic interference of the TCXO may be stabilized by the constant power level of the adjacent circuitry, which may be on the chip or external to the chip. The frequency of the TCXO may be stabilized by temporarily disabling the adjacent circuitry. A GNSS clock signal may be stabilized by the configuring of the constant power level while a GNSS location may be calibrated. A GNSS location of a fixed wireless device, such as a wireless access point, may be calibrated utilizing the configured constant power level and shared with other wireless devices.
    • 公开了通过减少干扰来稳定GNSS时钟的方法和系统,并且可以包括稳定GNSS设备中芯片上的温度补偿晶体振荡器(TCXO)的频率。 可以通过以恒定功率电平临时配置与TCXO相邻的电路来为器件生成时钟信号。 TCXO的温度和电磁干扰可以通过相邻电路的恒定功率电平来稳定,相邻电路可能在芯片上或芯片的外部。 TCXO的频率可以通过临时禁用相邻电路来稳定。 可以通过配置恒定功率电平来稳定GNSS时钟信号,同时可以校准GNSS位置。 诸如无线接入点的固定无线设备的GNSS位置可以使用配置的恒定功率电平进行校准,并与其他无线设备共享。
    • 10. 发明授权
    • Method and system for stabilizing a GNSS clock by reducing interference
    • 通过减少干扰来稳定GNSS时钟的方法和系统
    • US08305267B2
    • 2012-11-06
    • US12732665
    • 2010-03-26
    • David LundgrenCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDave Murray
    • David LundgrenCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDave Murray
    • G01S19/23
    • G01S19/235H04B15/00
    • Methods and systems for stabilizing a GNSS clock by reducing interference are disclosed and may include stabilizing a frequency of a temperature compensated crystal oscillator (TCXO) on a chip in a GNSS device. A clock signal may be generated for the device by temporarily configuring circuitry adjacent to the TCXO at a constant power level. Temperature and electromagnetic interference of the TCXO may be stabilized by the constant power level of the adjacent circuitry, which may be on the chip or external to the chip. The frequency of the TCXO may be stabilized by temporarily disabling the adjacent circuitry. A GNSS clock signal may be stabilized by the configuring of the constant power level while a GNSS location may be calibrated. A GNSS location of a fixed wireless device, such as a wireless access point, may be calibrated utilizing the configured constant power level and shared with other wireless devices.
    • 公开了通过减少干扰来稳定GNSS时钟的方法和系统,并且可以包括稳定GNSS设备中的芯片上的温度补偿晶体振荡器(TCXO)的频率。 可以通过以恒定功率电平临时配置与TCXO相邻的电路来为器件生成时钟信号。 TCXO的温度和电磁干扰可以通过相邻电路的恒定功率电平来稳定,相邻电路可能在芯片上或芯片的外部。 TCXO的频率可以通过临时禁用相邻电路来稳定。 可以通过配置恒定功率电平来稳定GNSS时钟信号,同时可以校准GNSS位置。 诸如无线接入点的固定无线设备的GNSS位置可以使用配置的恒定功率电平进行校准,并与其他无线设备共享。