会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明授权
    • Machine-to-machine communications over fixed wireless networks
    • 通过固定无线网络进行机对机通信
    • US08416741B2
    • 2013-04-09
    • US12876631
    • 2010-09-07
    • Yee Sin ChanJin YangPingping Zong
    • Yee Sin ChanJin YangPingping Zong
    • H04W4/00H04W72/00
    • H04W88/06H04L41/082H04W8/22H04W24/00H04W28/06H04W72/12H04W88/08H04W92/18
    • One or more devices determine uplink signal strength for a machine-to-machine (M2M) device using a wireless access network. The one or more devices identify a default uplink transmission mode that requires the M2M device to employ transmission time interval (TTI) bundling, when the uplink signal strength is below a particular threshold, and identify a default uplink transmission mode that requires the M2M device to not employ TTI bundling, when the uplink signal strength is not below the particular threshold. The one or more devices store, in a memory, the default transmission mode for the M2M device. The one or more devices retrieve, from the memory and during a wake-up time window associated with the M2M device, the default transmission mode for the M2M device and construct, for the M2M device, an uplink scheduling grant based on the stored default transmission mode.
    • 一个或多个设备使用无线接入网络确定机器对机器(M2M)设备的上行链路信号强度。 一个或多个设备识别默认的上行链路传输模式,当上行链路信号强度低于特定阈值时,需要M2M设备采用传输时间间隔(TTI)绑定,并且识别需要M2M设备的默认上行链路传输模式 当上行链路信号强度不低于特定阈值时,不采用TTI绑定。 一个或多个设备在存储器中存储用于M2M设备的默认传输模式。 一个或多个设备从存储器中以及在与M2M设备相关联的唤醒时间窗口期间检索M2M设备的默认传输模式,并针对M2M设备构建基于所存储的默认传输的上行链路调度许可 模式。
    • 5. 发明授权
    • Dynamic machine-to-machine communications and scheduling
    • 动态机对机通信和调度
    • US08345546B2
    • 2013-01-01
    • US12834985
    • 2010-07-13
    • Yee Sin ChanJin Yang
    • Yee Sin ChanJin Yang
    • G01R31/08
    • H04W4/70
    • A method may include obtaining traffic loading and resource utilization information associated with a network for the network time domain; obtaining machine-to-machine resource requirements for machine-to-machine tasks using the network; receiving a target resource utilization value indicative of a network resource limit for the network time domain; calculating a probability for assigning each machine-to-machine task to the network time domain, wherein the probability is based on a difference between the target resource utilization value and the traffic loading and resource utilization associated with the network; calculating a probability density function based on an independent and identically distributed random variable; generating a schedule of execution of the machine-to-machine tasks within the network time domain based on the probabilities associated with the machine-to-machine tasks and the probability density function; and providing the schedule of execution of the machine-to-machine tasks.
    • 一种方法可以包括获得与网络相关联的用于网络时域的业务负载和资源利用信息; 使用网络获取机器到机器任务的机器对机器资源要求; 接收指示网络时域的网络资源限制的目标资源利用值; 计算将每个机器对机器任务分配给网络时域的概率,其中概率基于目标资源利用价值与与网络相关联的业务负载和资源利用之间的差异; 基于独立且相同分布的随机变量计算概率密度函数; 基于与机器对机器任务和概率密度函数相关联的概率,在网络时域内生成执行机器到机器任务的时间表; 并提供执行机器到机器任务的时间表。
    • 7. 发明申请
    • PACKET BASED LOCATION PROVISIONING IN WIRELESS NETWORKS
    • 基于分组的无线网络中的位置提供
    • US20110149756A1
    • 2011-06-23
    • US12645899
    • 2009-12-23
    • Yee Sin ChanJin YangKamlesh S. KamdarJay J. Lee
    • Yee Sin ChanJin YangKamlesh S. KamdarJay J. Lee
    • H04W24/00
    • G01S5/06G01S5/14H04W64/00
    • A system may include a plurality of wireless devices, each wireless device including a time source and configured to selectively communicate with at least one other of the plurality of wireless devices by way of a packet-based time precision protocol. The plurality of wireless devices may include a first wireless device and a second wireless device, the first wireless device being configured to determine whether the first wireless device and the second wireless device are in selective communication over a single-hop wireless link; determine a one-way delay over the single-hop wireless link by way of at least one packed-based time precision protocol message; and calculate a distance measurement between the first wireless device and the second wireless device based at least in part on the one-way delay.
    • 系统可以包括多个无线设备,每个无线设备包括时间源并且被配置为通过基于分组的时间精度协议选择性地与多个无线设备中的至少一个通信。 多个无线设备可以包括第一无线设备和第二无线设备,第一无线设备被配置为确定第一无线设备和第二无线设备是否通过单跳无线链路进行选择性通信; 通过至少一个基于打包的时间精度协议消息来确定单跳无线链路上的单向延迟; 以及至少部分地基于所述单向延迟来计算所述第一无线设备和所述第二无线设备之间的距离测量。
    • 9. 发明申请
    • ADVANCED ADMISSION CONTROL OVER ALL INTERNET PROTOCOL (IP) WIRELESS ACCESS NETWORKS
    • 所有互联网协议(IP)无线接入网络的高级接纳控制
    • US20120051235A1
    • 2012-03-01
    • US12862447
    • 2010-08-24
    • Lalit R. KotechaSergio AguirreJin YangYee Sin Chan
    • Lalit R. KotechaSergio AguirreJin YangYee Sin Chan
    • H04L12/26
    • H04W76/50
    • A device receives a priority configuration for a subscriber associated with a user device, and monitors resource utilization information associated with an Internet protocol (IP) wireless access network of the user device. The device also detects an initial attach request of the user device to the IP wireless access network, and determines whether to accept or deny the initial attach request based on the subscriber priority configuration and the resource utilization information. The device further provides, to the user device and when the initial attach request is denied, a time for the user device to attempt a re-attach to the IP wireless access network, and permits, when the initial attach request is accepted, the user device to access the IP wireless access network.
    • 设备接收与用户设备相关联的用户的优先级配置,并且监视与用户设备的因特网协议(IP)无线接入网络相关联的资源利用信息。 该设备还检测用户设备的初始附加请求到IP无线接入网络,并且基于用户优先级配置和资源利用信息来确定是接受还是拒绝初始附着请求。 该设备还向用户设备提供并且当初始附加请求被拒绝时,用户设备尝试重新附加到IP无线接入网络的时间,并且当初始附加请求被接受时允许用户 设备访问IP无线接入网络。