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    • 3. 发明授权
    • Wireless timing and power control
    • 无线定时和功率控制
    • US08620332B2
    • 2013-12-31
    • US12694805
    • 2010-01-27
    • Rajiv LaroiaJunyi LiSathyadev Uppala
    • Rajiv LaroiaJunyi LiSathyadev Uppala
    • H04W4/00
    • H04W16/12H04W16/14H04W24/00H04W36/06H04W52/0235H04W52/028H04W52/08H04W52/281H04W52/283H04W52/286H04W52/287H04W52/288H04W52/60H04W68/02H04W68/025H04W72/00H04W72/0413H04W72/048Y02D70/23
    • The use of multiple states of mobile communication device operation to allow a single base station to support a relatively large number of mobile nodes is described. The various states require different amounts of communications resources, e.g., bandwidth. Four supported states of operation are an on-state, a hold-state, a sleep-state, and an access-state. Each mobile node in the on-state is allocated communication resources to perform transmission power control signaling, transmission timing control signaling and to transmit data as part of a data uplink communications operation. Each mobile node in the hold-state is allocated communication resources to perform transmission timing control signaling and is provided a dedicated uplink for requesting a state transition and a shared resource for transmitting acknowledgements. In the sleep state a mobile node is allocated minimal resources and does not conduct power control signaling or timing control signaling. Data may be received in the on and hold states.
    • 描述了使用移动通信设备操作的多种状态来允许单个基站支持相对大量的移动节点。 各种状态需要不同数量的通信资源,例如带宽。 四个支持的操作状态是开状态,保持状态,睡眠状态和访问状态。 处于导通状态的每个移动节点被分配通信资源以执行传输功率控制信令,传输定时控制信令,并且作为数据上行链路通信操作的一部分来发送数据。 保持状态下的每个移动节点被分配通信资源以执行传输定时控制信令,并且提供用于请求状态转换的专用上行链路和用于发送确认的共享资源。 在睡眠状态下,移动节点被分配最少资源,并且不进行功率控制信令或定时控制信令。 可以在接通和保持状态下接收数据。
    • 4. 发明申请
    • Pilot use in orthogonal frequency division multiplexing based spread spectrum multiple access systems
    • 在基于正交频分复用的扩频多址系统中的导频使用
    • US20060002452A1
    • 2006-01-05
    • US11178909
    • 2005-07-11
    • Rajiv LaroiaJunyi LiSathyadev Uppala
    • Rajiv LaroiaJunyi LiSathyadev Uppala
    • H04B1/713
    • H04B1/7143H04B1/7156H04B2001/71563H04L5/0019H04L5/0048H04L25/0226H04L27/2613
    • Base station identification and downlink synchronization are realized by employing pilots including known symbols transmitted at prescribed frequency tones in individual ones of prescribed time intervals. Specifically, the symbols used in the pilots are uniquely located in a time-frequency grid, where the locations are specified by periodic pilot tone hopping sequences. In a specific embodiment of the invention, a period of a pilot tone hopping sequence is constructed by starting with a Latin-square based hopping sequence, truncating it over time, and possibly offsetting and permuting it over frequency. Particular examples of pilot tone hopping sequences are parallel slope hopping sequences in which the periodicity of the sequences is chosen to be a prime number of symbol time intervals. In another embodiment of the invention, a notion of phantom pilots is employed to facilitate use of various system parameters while accommodating the above noted pilot tone hopping sequences.
    • 基站识别和下行同步通过采用包括以规定时间间隔的各个规定频率发送的已知符号的导频来实现。 具体地,在导频中使用的符号唯一地位于时间 - 频率网格中,其中,位置由周期性导频音跳频序列指定。 在本发明的具体实施例中,通过以拉丁方为基础的跳频序列开始构建导频音跳频序列的周期,并且随着时间的推移将其截断,并可能通过频率进行偏移和置换。 导频音跳频序列的具体示例是平行斜率跳频序列,其中序列的周期性被选择为码元时间间隔的素数。 在本发明的另一个实施例中,使用幻像导频的概念来促进各种系统参数的使用,同时容纳上述导频音跳频序列。
    • 5. 发明申请
    • Apparatus and method for use in identifying presence of wireless terminals in mobile wireless communications systems
    • 用于识别移动无线通信系统中无线终端存在的装置和方法
    • US20050272453A1
    • 2005-12-08
    • US11199402
    • 2005-08-08
    • Rajiv LaroiaJunyi LiSathyadev Uppala
    • Rajiv LaroiaJunyi LiSathyadev Uppala
    • H04J3/00H04W68/00H04B7/00
    • H04W68/00
    • An unique arrangement including a so-called timing control order and timing control signals is employed to identify whether wireless terminals are reachable within a base station cell coverage area in a wireless communications system. To this end, detection of a particular wireless terminal being alive and well, and within the cell coverage area associated with a base station is effected by the base station transmitting a timing control order in a timing control time slot reserved for the particular wireless terminal. If the particular wireless terminal receives the timing control order, it transmits a prescribed timing control message at a prescribed time. If the base station does not receive the timing control message, it is an indication that communication with the particular wireless terminal has been lost.
    • 使用包括所谓的定时控制顺序和定时控制信号的唯一布置来识别在无线通信系统中的基站小区覆盖区域内无线终端是否可达。 为此,基站在为特定无线终端保留的定时控制时隙中发送定时控制命令来实现对与基站相关联的小区覆盖区域中存在且良好并且在小区覆盖区域内的特定无线终端的检测。 如果特定无线终端接收到定时控制命令,则在规定的时间发送规定的定时控制消息。 如果基站没有接收到定时控制消息,则表示与特定无线终端的通信已经丢失。
    • 6. 发明申请
    • Apparatus and method for use in the multicast of traffic data in wireless multiple access communications systems
    • 用于无线多址通信系统中的业务数据组播中的装置和方法
    • US20070173269A1
    • 2007-07-26
    • US10957192
    • 2004-10-01
    • Rajiv LaroiaJunyi LiSathyadev Uppala
    • Rajiv LaroiaJunyi LiSathyadev Uppala
    • H04Q7/00H04B7/00
    • H04L12/189H04W68/00H04W72/005
    • In a wireless communications system, multicast messages are transported to groups of wireless terminals by employing a common control channel to transmit a multicast paging message indicating that multicast traffic data is to be transmitted to a particular group of wireless terminals. In an embodiment of the invention, the essential information transmitted in the common control channel is the identifier of the group of wireless terminals intended to receive the multicast traffic data and the location of a traffic channel on which the multicast traffic is to be transported in a channel resource which may include a representation of bandwidth and time interval. In accordance with an aspect of the invention, the common control channel is associated with a traffic channel in a prescribed fixed manner. Further, the traffic channel used for the purpose of multicast can be the same traffic channel used for the normal point-to-point transmission of traffic data.
    • 在无线通信系统中,通过采用公共控制信道将组播消息传送到无线终端组,以将表示组播业务数据要传送到特定无线终端组的组播寻呼消息。 在本发明的一个实施例中,在公共控制信道中发送的基本信息是旨在接收多播业务数据的无线终端组的标识符以及要在其中传输组播业务的业务信道的位置 信道资源,其可以包括带宽和时间间隔的表示。 根据本发明的一个方面,公共控制信道以规定的固定方式与业务信道相关联。 此外,用于组播目的的业务信道可以是用于业务数据的正常点对点传输的相同业务信道。
    • 8. 发明申请
    • Apparatus and method for use in allocating a channel resource in wireless multiple access communications systems
    • 用于在无线多址通信系统中分配信道资源的装置和方法
    • US20050130665A1
    • 2005-06-16
    • US10957194
    • 2004-10-01
    • Rajiv LaroiaJunyi LiSathyadev Uppala
    • Rajiv LaroiaJunyi LiSathyadev Uppala
    • H04L12/56H04W28/06H04W48/08H04W48/16H04W72/04H04W72/12H04W72/14H04Q7/20
    • H04W72/14H04W28/06H04W48/08H04W48/16H04W72/00H04W72/04H04W72/042
    • Allocation of a wireless communications system channel resource is managed by utilizing traffic segment allocation. This is realized by partitioning the channel resource into an assignment channel and a traffic channel in a fixed manner. The assignment channel includes assignment segments and the traffic channel includes traffic segments. The traffic segment is the basic traffic channel resource unit used to transport traffic data and has a prescribed finite time interval and bandwidth. Each traffic segment is associated with a so-called assignment segment in a prescribed manner. One or more traffic segments may be associated with a particular assignment segment. A base station broadcasts via an assignment segment which wireless terminal is to use a particular traffic segment. This is realized by transmitting a simply identifier for the particular wireless terminal assigned to the particular traffic segment in the assignment segment. Then, each active wireless terminal monitors all of the received assignment segments to detect any traffic channel assignments. Once a wireless terminal detects its identifier in an assignment segment, it proceeds to receive/transmit the traffic data in the traffic segment associated with the assignment segment including the detected identifier.
    • 通过利用业务段分配来管理无线通信系统信道资源的分配。 这是通过以固定的方式将信道资源划分为分配信道和业务信道来实现的。 分配信道包括分配段,业务信道包括业务段。 流量段是用于传输流量数据的基本业务信道资源单元,具有规定的有限时间间隔和带宽。 每个流量段以规定的方式与所谓的分配段相关联。 一个或多个业务段可以与特定分配段相关联。 基站通过无线终端要使用特定业务段的分配段广播。 这通过为分配给分配段中的特定业务段的特定无线终端发送简单的标识符来实现。 然后,每个有源无线终端监视所有接收的分配段以检测任何业务信道分配。 一旦无线终端在分配段中检测到其标识符,它继续接收/发送与包括检测到的标识符的分配段相关联的业务段中的业务数据。
    • 9. 发明申请
    • Apparatus and Method for Use in Allocating a Channel Resource in Wireless Multiple Access Communications Systems
    • 用于在无线多址通信系统中分配信道资源的装置和方法
    • US20070217390A1
    • 2007-09-20
    • US11752588
    • 2007-05-23
    • Rajiv LaroiaJunyi LiSathyadev Uppala
    • Rajiv LaroiaJunyi LiSathyadev Uppala
    • H04J3/06H04Q7/20
    • H04W72/14H04W28/06H04W48/08H04W48/16H04W72/00H04W72/04H04W72/042
    • Allocation of a wireless communications system channel resource is managed by utilizing traffic segment allocation. This is realized by partitioning the channel resource into an assignment channel and a traffic channel in a fixed manner. The assignment channel includes assignment segments and the traffic channel includes traffic segments. The traffic segment is the basic traffic channel resource unit used to transport traffic data and has a prescribed finite time interval and bandwidth. Each traffic segment is associated with a so-called assignment segment in a prescribed manner. One or more traffic segments may be associated with a particular assignment segment. A base station broadcasts via an assignment segment which wireless terminal is to use a particular traffic segment. This is realized by transmitting a simply identifier for the particular wireless terminal assigned to the particular traffic segment in the assignment segment. Then, each active wireless terminal monitors all of the received assignment segments to detect any traffic channel assignments. Once a wireless terminal detects its identifier in an assignment segment, it proceeds to receive/transmit the traffic data in the traffic segment associated with the assignment segment including the detected identifier.
    • 通过利用业务段分配来管理无线通信系统信道资源的分配。 这是通过以固定的方式将信道资源划分为分配信道和业务信道来实现的。 分配信道包括分配段,业务信道包括业务段。 流量段是用于传输流量数据的基本业务信道资源单元,具有规定的有限时间间隔和带宽。 每个流量段以规定的方式与所谓的分配段相关联。 一个或多个业务段可以与特定分配段相关联。 基站通过无线终端要使用特定业务段的分配段广播。 这通过为分配给分配段中的特定业务段的特定无线终端发送简单的标识符来实现。 然后,每个有源无线终端监视所有接收的分配段以检测任何业务信道分配。 一旦无线终端在分配段中检测到其标识符,它继续接收/发送与包括检测到的标识符的分配段相关联的业务段中的业务数据。