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    • 2. 发明申请
    • OPTIMIZED TELECOMMUNICATIONS DISTRIBUTION SYSTEM
    • 优化电信分销系统
    • WO2013116802A1
    • 2013-08-08
    • PCT/US2013/024532
    • 2013-02-02
    • ANDREW LLC
    • KUMMETZ, ThomasRANSON, Christopher, G.HANSON, Van E.WILLIAMSON, Michael
    • H04B7/02
    • H04W24/02H04B7/04H04L43/18H04L61/6068H04W16/26H04W84/18H04W88/085H04W88/12
    • Systems and methods for optimized telecommunications distribution are provided. For example, a distributed antenna system can include a master unit for transceiving signals with remote units operable for wirelessly transceiving signals with mobile devices in a coverage area. A self-optimized network analyzer can be in a unit of the distributed antenna system. A self-optimized network controller in the distributed antenna system can output commands for changing operation of a component in the distributed antenna system in response to analysis results from the self-optimized network analyzer. In some aspects, the master unit includes base transceiver station cards for receiving call information in network protocol data from a network and for generating digital signals including the call information from the network protocol data for distribution to the remote units.
    • 提供了优化电信分配的系统和方法。 例如,分布式天线系统可以包括主单元,用于与可覆盖区域中的移动设备无线地收发信号的远程单元收发信号。 自优化网络分析仪可以是分布式天线系统的一个单元。 分布式天线系统中的自优化网络控制器可以根据自优化网络分析仪的分析结果输出改变分布式天线系统中组件运行的命令。 在一些方面,主单元包括用于从网络接收网络协议数据中的呼叫信息并用于从网络协议数据产生包括呼叫信息的数字信号的基站收发器卡,用于分发给远程单元。
    • 4. 发明申请
    • GAIN MEASUREMENT AND MONITORING FOR WIRELESS COMMUNICATION SYSTEMS
    • 增强无线通信系统的测量和监测
    • WO2011102987A1
    • 2011-08-25
    • PCT/US2011/024000
    • 2011-02-08
    • ANDREW LLCHOBBS, NeilSCHMIDT, Nelson, C., Jr.KUMMETZ, ThomasPHILLIPS, Fred
    • HOBBS, NeilSCHMIDT, Nelson, C., Jr.KUMMETZ, ThomasPHILLIPS, Fred
    • H04B17/00
    • H04B17/02H04B7/15535H04B17/21H04B17/23H04B17/345H04B17/40
    • A method of monitoring an element in wireless communication system is provided. An operational noise measurement is obtained by measuring a noise value outside of a bandwidth (304) of a first device, but within a bandwidth (302) of a second, subsequent device. The operational noise measurement is alternatively obtained by tuning an input band of the element to shift the input band partially or completely outside of a bandwidth (404) of a first device to create an open band or by suppressing an input of the antenna and measuring noise within the open bandwidth of the element of the wireless communication network. A stored parameter is retrieved and compared to the measured operational noise. Alternatively, a leakage signal of the element may be received at a signal receiver and compared to a reference. The reference is a function of components of the wireless communication system in a leakage path of the leakage signal.
    • 提供了一种在无线通信系统中监视元件的方法。 通过测量第一设备的带宽(304)之外但在第二后续设备的带宽(302)内的噪声值来获得操作噪声测量。 交替地通过调整元件的输入频带来将输入频带部分或完全地移动到第一设备的带宽(404)之外以创建开放频带或通过抑制天线的输入和测量噪声来获得操作噪声测量 在无线通信网络的元件的开放带宽内。 检索存储的参数并将其与测量的操作噪声进行比较。 或者,元件的泄漏信号可以在信号接收器处接收并与参考相比较。 该参考是在泄漏信号的泄漏路径中的无线通信系统的组件的功能。
    • 6. 发明申请
    • CONFIGURING A DISTRIBUTED ANTENNA SYSTEM
    • 配置分布式天线系统
    • WO2013033199A1
    • 2013-03-07
    • PCT/US2012/052845
    • 2012-08-29
    • ANDREW LLCWATKINS, Daniel S.WAGSTAFF, Edward B.HANSON, Van E.KUMMETZ, Thomas
    • WATKINS, Daniel S.WAGSTAFF, Edward B.HANSON, Van E.KUMMETZ, Thomas
    • H04W16/18
    • H04B7/04H04B7/022H04W16/28H04W28/18H04W28/20H04W88/085
    • Systems and methods for developing a configuration plan for communication transport links of a distributed antenna system are provided. The distributed antenna system includes a unit communicating with remote antenna units over the communication transport links. The unit receives signals from base stations. Characteristics of each of the signals are determined. The characteristics include, for each signal, a frequency occupancy, a digital bandwidth, and a coverage zone to which to provide the signal. The frequency occupancy includes the minimum frequency component and the maximum frequency component of the signal. The digital bandwidth is a bandwidth for communicating the signal via the communication transport links. A hardware capability of the distributed antenna system, such as a respective available bandwidth for each communication transport link, is also determined. The configuration plan for transporting the digital representations of the signals is determined based on the hardware capability and the characteristics of the signals.
    • 提供了用于开发分布式天线系统的通信传输链路的配置方案的系统和方法。 分布式天线系统包括通过通信传输链路与远程天线单元通信的单元。 本机从基站接收信号。 确定每个信号的特性。 对于每个信号,特征包括频率占用,数字带宽和提供信号的覆盖区域。 频率占用包括信号的最小频率分量和最大频率分量。 数字带宽是用于经由通信传输链路传送信号的带宽。 还确定了分布式天线系统的硬件能力,例如每个通信传输链路的相应可用带宽。 用于传送信号的数字表示的配置方案基于硬件能力和信号的特性来确定。
    • 8. 发明申请
    • SYSTEM AND METHOD FOR LOCATION OF MOBILE DEVICES IN CONFINED ENVIRONMENTS
    • 用于在有限环境中定位移动设备的系统和方法
    • WO2011109218A1
    • 2011-09-09
    • PCT/US2011/026050
    • 2011-02-24
    • ANDREW LLCKUMMETZ, Thomas
    • KUMMETZ, Thomas
    • G01S5/02G01S19/45G01S19/48
    • G01S5/06G01S5/0289G01S19/48H04W24/00
    • The sensor network 30 may include a location capture processing unit 38; and a plurality of sensors 10, 14, 32a - 32I in communication with the location capture processing unit 38. Each sensor 32a - 32I of the plurality of sensors 32a - 32I includes a controller 306 and a RF receiver 100 configured to receive RF signals. The RF receiver 100 is in communication with the controller 306. A localization engine 300 is configured to receive beacon signals transmitted by other sensors 10, 14, and 32a - 32I in the sensor network 30. The localization engine 300 is in communication with the controller 306. The controller 306 of each of the plurality of sensors 32a - 32I is further configured to determine a position of its respective sensor 32a - 32I using either RF receiver 100 or localization engine 300 or both. The plurality of sensors 32a - 32I communicates their position to the location capture processing unit 38.
    • 传感器网络30可以包括位置捕获处理单元38; 以及与位置捕获处理单元38通信的多个传感器10,14,32a-32I。多个传感器32a-32I的每个传感器32a-32I包括被配置为接收RF信号的控制器306和RF接收器100。 RF接收器100与控制器306通信。定位引擎300被配置为接收由传感器网络30中的其他传感器10,14和32a-32I传输的信标信号。定位引擎300与控制器 多个传感器32a-32I中的每一个的控制器306还被配置为使用RF接收器100或定位引擎300或两者确定其相应的传感器32a-32I的位置。 多个传感器32a-32I将它们的位置传送到位置捕获处理单元38。
    • 9. 发明申请
    • DISTRIBUTED ANTENNA SYSTEM USING POWER-OVER-ETHERNET
    • 分布式天线系统使用功率超级以太网
    • WO2012170834A1
    • 2012-12-13
    • PCT/US2012/041576
    • 2012-06-08
    • ANDREW LLCHUNTER, Roger A., Jr.MCALLISTER, Donald RobertRANSON, Christopher G.KUMMETZ, Thomas
    • HUNTER, Roger A., Jr.MCALLISTER, Donald RobertRANSON, Christopher G.KUMMETZ, Thomas
    • H04L12/10H04L12/40
    • G06F1/28H04L12/10H04L12/40045H04L41/0833
    • A system is provided for adjusting power provided over a channel to a device. The system can include power sourcing equipment and a sub-system. The power sourcing equipment can provide power to a powered device via a channel (302). The sub-system can determine an amount by which to increase the power based on a resistance of the channel (306). The power sourcing equipment or the powered device can adjust the power (or load) in response to a command from the sub-system. The sub-system can include at least one measurement device and a processor. The measurement device can measure an output voltage of the power sourcing equipment, an input voltage of the powered device, and a current on the channel (304). The processor can determine the resistance of the channel based on the output voltage, the input voltage, and the current (306). The processor can output a command specifying an increase or decrease in the level of power supplied by the power sourcing equipment.
    • 提供了一种用于调整通过信道向设备提供的功率的系统。 该系统可以包括电源设备和子系统。 电源设备可以经由通道(302)向受电设备供电。 子系统可以基于通道的电阻来确定增加功率的量(306)。 电源设备或有源设备可以响应于来自子系统的命令来调整功率(或负载)。 子系统可以包括至少一个测量装置和处理器。 测量装置可以测量电源设备的输出电压,受电设备的输入电压和通道上的电流(304)。 处理器可以基于输出电压,输入电压和电流来确定通道的电阻(306)。 处理器可以输出指定由电源设备提供的电力水平增加或减少的命令。