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    • 2. 发明申请
    • METHOD FOR SHARING BANDWIDTH USING REDUCED DUTY CYCLE SIGNALS AND MEDIA ACCESS CONTROL
    • 使用减少占空比信号和媒体访问控制共享带宽的方法
    • WO2006098891A3
    • 2007-10-25
    • PCT/US2006007470
    • 2006-03-02
    • FREESCALE SEMICONDUCTOR INCWELBORN MATTHEW LSHVODIAN WILLIAM MAPISDORF JOEL ZMILLER TIMOTHY RMCCORKLE JOHN W
    • WELBORN MATTHEW LSHVODIAN WILLIAM MAPISDORF JOEL ZMILLER TIMOTHY RMCCORKLE JOHN W
    • H04J3/00
    • H04W52/367H04B1/7176H04W52/286H04W72/12
    • A method is provided for transmitting data. A first device (121) generates a first signal (320) having a first duty cycle, comprising a first gated-on portion (323) and a first gated-off portion (326) a time slot (260); and a second device (125) generates a second signal (330) having second duty cycle, comprising a second gated-on portion (333) and a second gated-off portion (336) in the same time slot (260). The first gated-on portion (323) is generated during a first segment of the time slot (260) and the first gated-off portion (326) is generated during a second segment of the time slot (260), while the second gated-on portion (333) is generated during the second segment and the second gated-off portion (336) is generated during the first segment. Media access control (MAC) can be used to further define positions within time slots (250) and provide error correction, power control, and the like. A preamble (860) can be transmitted at an increased power level to facilitate acquisition.
    • 提供了一种传输数据的方法。 第一装置(121)产生具有第一占空比的第一信号(320),包括第一选通部分(323)和第一门控部分(326)时隙(260); 并且第二装置(125)产生具有第二占空比的第二信号(330),该第二信号包括相同时隙(260)中的第二选通部分(333)和第二选通部分(336)。 在时隙(260)的第一段期间产生第一选通部分(323),并且在时隙(260)的第二段期间产生第一选通截止部分(326),而第二选通 在第二段期间产生部分(333),并且在第一段期间产生第二选通部分(336)。 媒体访问控制(MAC)可用于进一步定义时隙内的位置(250),并提供纠错,功率控制等。 可以以增加的功率电平发送前导码(860)以便于采集。
    • 4. 发明申请
    • METHOD FOR SHARING BANDWIDTH USING REDUCED DUTY CYCLE SIGNALS
    • 使用减少占空比信号共享带宽的方法
    • WO2006060266A3
    • 2007-01-18
    • PCT/US2005042626
    • 2005-11-22
    • FREESCALE SEMICONDUCTOR INCWELBORN MATTHEW LSHVODIAN WILLIAM M
    • WELBORN MATTHEW LSHVODIAN WILLIAM M
    • H04B7/212H04J3/00
    • H04J3/1647H04B1/71632H04L27/02H04W52/04H04W72/1263
    • A method is provided for transmitting data. A first device (121) generates a first signal (320) having a first duty cycle, comprising a first gated-on portion (323) and a first gated-off portion (363) in a time slot (260); and a second device (125) generates a second signal (330) having second duty cycle, comprising a second gated­-on portion (333) and a second gated-off portion (363) in the same time slot (260). The first gated-on portion (323) is generated during a first segment of the time slot (260) and the first gated-off portion (363) is generated during a second segment of the time slot (260), while the second gated-on portion (333) is generated during the second segment and the second gated-off portion (363) is generated during the first segment. The first and second duty cycles are individually below 100%, and the sum of the first and second duty cycles is below 100%.
    • 提供了一种用于传输数据的方法。 第一装置(121)产生具有第一占空比的第一信号(320),包括在时隙(260)中的第一选通部分(323)和第一门控部分(363); 并且第二装置(125)产生具有第二占空比的第二信号(330),该第二信号包括在同一时隙(260)中的第二选通部分(333)和第二选通部分(363)。 在时隙(260)的第一段期间产生第一选通部分(323),并且在时隙(260)的第二段期间产生第一选通部分(363),而第二门控 在第二段期间产生部分(333),并且在第一段期间产生第二门控部分(363)。 第一和第二占空比分别低于100%,第一和第二占空比的总和低于100%。
    • 5. 发明申请
    • METHOD AND SYSTEM FOR DYNAMIC AGGREGATION IN WIRELESS NETWORK
    • 无线网络动态聚合方法与系统
    • WO2004079971A3
    • 2005-02-24
    • PCT/US2004003363
    • 2004-02-27
    • MOTOROLA INCSHVODIAN WILLIAM M
    • SHVODIAN WILLIAM M
    • H04L20060101H04L29/06
    • H04W28/065H04L69/32H04L69/324H04W28/06
    • A method is provided for dynamically controlling aggregation in an ultrawide bandwidth wireless device (320). In this method, a device receives a plurality of intermediate service data units (720) at an intermediate layer (710), aggregates at least two of the plurality off intermediate service data units to form an intermediate protocol data unit (750), and sends the intermediate protocol data unit to a physical layer (110). The physical layer generates a data frame (1536) based on the intermediate protocol data unit and information corresponding to the physical layer, and transmits the data frame in a data stream. The device selects an intermediate size criteria for the data frame. The aggregating of the at least two of the plurality of intermediate layer service data units is performed such that an actual intermediate layer protocol data unit size corresponds to the intermediate size criteria.
    • 提供了一种用于在超宽带宽无线设备(320)中动态地控制聚合的方法。 在该方法中,设备在中间层(710)处接收多个中间业务数据单元(720),聚合多个关闭中间业务数据单元中的至少两个以形成中间协议数据单元(750),并发送 所述中间协议数据单元到物理层(110)。 物理层基于中间协议数据单元和对应于物理层的信息生成数据帧(1536),并将数据帧发送到数据流中。 设备为数据帧选择中间大小标准。 执行多个中间层服务数据单元中的至少两个的聚合,使得实际中间层协议数据单元大小对应于中间大小标准。
    • 7. 发明申请
    • METHOD OF SYNCHRONIZING A WIRELESS DEVICE USING AN EXTERNAL CLOCK
    • 使用外部时钟同步无线设备的方法
    • WO2007035729A2
    • 2007-03-29
    • PCT/US2006036472
    • 2006-09-19
    • FREESCALE SEMICONDUCTOR INCSHVODIAN WILLIAM M
    • SHVODIAN WILLIAM M
    • H04B7/00
    • H04B7/2693
    • A method is provided for operating a dual-use wireless device. The method includes: receiving an external timing signal (460) at a first wireless circuit (480) in the device (605); synchronizing a first clock in the first wireless circuit with the external timing signal (610); sending a first internal timing signal (570) from the first wireless circuit to a second wireless circuit in the device, after the synchronizing (615); and listening for a remote periodic control signal at the second wireless circuit for a set monitoring time, a start of the monitoring time being based on the first internal timing signal (865). The second wireless circuit sends an association request if the second wireless circuit hears the remote periodic control signal within the monitoring time (875), and sends a local periodic control signal if the second wireless circuit does not hear the remote periodic control signal within the monitoring time (625).
    • 提供了一种用于操作双重用途无线设备的方法。 该方法包括:在设备(605)中的第一无线电路(480)处接收外部定时信号(460); 使第一无线电路中的第一时钟与外部定时信号同步(610); 在所述同步(615)之后,将来自所述第一无线电路的第一内部定时信号(570)发送到所述设备中的第二无线电路; 以及在所述第二无线电路处监视设定的监视时间的远程周期性控制信号,所述监视时间的开始基于所述第一内部定时信号(865)。 如果第二无线电路在监视时间(875)内听到远程周期性控制信号,则第二无线电路发送关联请求,并且如果第二无线电路在监视期间没有听到远程周期性控制信号,则发送本地周期性控制信号 时间(625)。
    • 8. 发明申请
    • METHOD OF DESIGNATING A FUTURE NETWORK COORDINATOR
    • 指定未来网络协调员的方法
    • WO2006098892A2
    • 2006-09-21
    • PCT/US2006007471
    • 2006-03-02
    • FREESCALE SEMICONDUCTOR INCSHVODIAN WILLIAM M
    • SHVODIAN WILLIAM M
    • G06F15/173H04W28/18H04W36/12H04W48/08H04W48/16
    • H04W36/12H04W28/18H04W48/08H04W48/16
    • A method (500) is provided for operating a network coordinator (110). The method includes receiving device capability information from a plurality of network devices (121-125), including whether each of the network devices can perform network control functions (520); determining whether any of the network devices is capable of performing network control functions based on the device capability information (540); choosing one of the network devices that is capable of performing network control functions to be a designated next coordinator if any of the network devices are capable of performing network control functions (570); determining that there will be no designated next coordinator if none of the network devices are capable of performing network control functions (550); and sending a beacon (220) to the network devices, the beacon including next coordinator information (300) indicating one of: the designated next coordinator, or that there is no designated next coordinator (580).
    • 提供了一种用于操作网络协调器(110)的方法(500)。 该方法包括从多个网络设备(121-125)接收设备能力信息,包括每个网络设备是否可以执行网络控制功能(520); 确定所述网络设备中的任何一个是否能够基于所述设备能力信息来执行网络控制功能(540); 如果任何网络设备能够执行网络控制功能,则选择能够执行网络控制功能的网络设备之一成为指定的下一个协调器(570); 如果没有网络设备能够执行网络控制功能,则确定将不存在指定的下一协调器(550); 以及向所述网络设备发送信标(220),所述信标包括指示以下之一的下一协调器信息(300):指定的下一个协调器,或者没有指定的下一协调器(580)。
    • 9. 发明申请
    • METHOD AND SYSTEM FOR ACKNOWLEDGING FRAMES IN A COMMMUNICATION NETWORK
    • 在通信网络中确认帧的方法和系统
    • WO2007038088A3
    • 2007-11-01
    • PCT/US2006036473
    • 2006-09-19
    • FREESCALE SEMICONDUCTOR INCSHVODIAN WILLIAM M
    • SHVODIAN WILLIAM M
    • H04L1/18
    • H04L1/1607
    • A communication device (1001) is provided. The communication device (1001) can include a transceiver (1003), for transmitting and receiving communications when operably connected to a communication network. Also, the communication device (1001) can include a processor (1009) cooperatively operable with the transceiver (1003). The processor (1009) can facilitate receiving (1015) one or more frames from a transmitting device. Also, the processor (1009) can obtain a frame check sequence result (1019). Before obtaining the frame check sequence result, the processor can initiate (1017) a transmission of a responsive frame corresponding to the one or more frames. The responsive frame will explicitly indicate an acknowledgement (ACK) or negative acknowledgement (NAK) of the one or more frames.
    • 提供通信设备(1001)。 通信设备(1001)可以包括收发器(1003),用于当可操作地连接到通信网络时发送和接收通信。 而且,通信设备(1001)可以包括与收发器(1003)协作地操作的处理器(1009)。 处理器(1009)可以有助于从发送设备接收(1015)一个或多个帧。 而且,处理器(1009)可以获得帧校验序列结果(1019)。 在获得帧校验序列结果之前,处理器可以发起(1017)对应于一个或多个帧的响应帧的传输。 响应帧将明确指示一个或多个帧的确认(ACK)或否定确认(NAK)。