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    • 3. 发明授权
    • Packet data traffic control for cellular wireless networks
    • 蜂窝无线网络的分组数据流量控制
    • US07310529B1
    • 2007-12-18
    • US09489929
    • 2000-01-24
    • Richard A. LodgePatrick Lie Chin Cheong
    • Richard A. LodgePatrick Lie Chin Cheong
    • H04Q7/20
    • H04W72/085H04W28/18H04W72/082H04W76/20
    • Data traffic over a plurality of data communications links of a wireless data communications system is controlled by identifying a poorly performing wireless link, and interrupting data communications over the poorly performing link. The data throughput of remaining links between the transceivers is thus increased due to reduced interference and increased available band-width, because the poorly performing link is no longer transmitting. Interruption of data communications over the poorly performing link may be accomplished by suspending or dropping transmission of a frame. If a frame is predicted to be certain to violate quality of service (QoS) requirements, the frame may be preemptively suspended or dropped. If multiple frames are dropped within a predetermined period, a communications session over the poorly performing link may be dropped. Data communications over the poorly performing link can be resumed following a selected delay period, which may have a random length.
    • 无线数据通信系统的多个数据通信链路上的数据业务通过识别执行不良的无线链路,以及中断不良的链路上的数据通信来控制。 因为收发器之间的剩余链路的数据吞吐量由于干扰减少和可用带宽的增加而增加,因为不良传输的链路不再发送。 可以通过挂起或丢弃帧的传输来实现在不良链路上的数据通信的中断。 如果帧被预测为肯定违反服务质量(QoS)要求,则该帧可以被抢先暂停或丢弃。 如果在预定时间段内丢弃多个帧,则可能会丢弃在性能不佳的链路上的通信会话。 可以在可能具有随机长度的所选择的延迟周期之后恢复不良链路上的数据通信。
    • 6. 发明申请
    • INTER-RADIO ACCESS TECHNOLOGY INTERFERENCE COORDINATION FOR MULTI-STANDARD RADIO ACCESS NETWORKS
    • 多标准无线接入网络的无线射频接入技术干扰协调
    • US20140044095A1
    • 2014-02-13
    • US13569776
    • 2012-08-08
    • Xiao-Dong LIPatrick LIE CHIN CHEONGCarl CAO
    • Xiao-Dong LIPatrick LIE CHIN CHEONGCarl CAO
    • H04W72/04H04W36/00H04W4/00
    • H04W36/20H04W16/14H04W52/146H04W52/40H04W72/1215H04W72/1226
    • A method and system for coordinated interference suppression in a communication system. The communication system implements at least a first radio access technology via a first base station and a second radio access technology via a second base station. The first and second radio access technologies differ from one another. Information relating to an interference signal received at the first base station via the first radio access technology is received at the second base station from a first device associated with the first base station. At a second device associated with the second base station, an interfering user equipment accessing the second base station via the second radio access technology is identified. The identification is based on the information received from the first device associated with the first base station. Interference caused by the identified interfering user equipment is suppressed by the second base station.
    • 一种通信系统中协调干扰抑制的方法和系统。 通信系统经由第一基站和第二无线接入技术经由第二基站实现至少第一无线接入技术。 第一和第二无线电接入技术彼此不同。 通过第一无线电接入技术在第一基站接收的与干扰信号相关的信息在第二基站从与第一基站相关联的第一设备接收。 在与第二基站相关联的第二设备处,识别通过第二无线接入技术接入第二基站的干扰用户设备。 该识别基于从与第一基站相关联的第一设备接收的信息。 由所识别的干扰用户设备引起的干扰被第二基站抑制。
    • 8. 发明申请
    • RESOURCE ALLOCATION IN AN ORTHOGONAL FREQUENCY DIVISION MULTIPLEXING SYSTEM
    • 资源分配在正交频分复用系统中
    • US20130188564A1
    • 2013-07-25
    • US13354652
    • 2012-01-20
    • Derek YUPatrick LIE CHIN CHEONGRoger MAH
    • Derek YUPatrick LIE CHIN CHEONGRoger MAH
    • H04W72/08
    • H04W72/1247H04W72/1226
    • A scheduler performs per sub-band prioritization allocation of sub-bands to user terminals to generate a pre-allocation schedule. The prioritization is performed independently for each sub-band. The resulting pre-allocation schedule indicates the relative priorities of the user terminals for each sub-band taking into account the channel conditions and specific needs of the user terminals. Based on the pre-allocation schedule, the scheduler can more efficiently allocate the radio resources to the user terminals based on the channel conditions and the specific needs of the user terminals. The scheduling approach is suitable for parallel computing architectures. The use of a parallel computing architecture increases MIPS (million instructions per second) capacity and allows faster scheduling in order to meet stringent real-time constraints.
    • 调度器对用户终端执行子带的每个子带优先分配子带以产生预分配调度。 每个子带独立地执行优先级。 考虑到信道条件和用户终端的具体需要,所得到的预分配调度表示每个子带的用户终端的相对优先级。 基于预分配时间表,调度器可以基于信道条件和用户终端的具体需要,更有效地将无线资源分配给用户终端。 调度方法适用于并行计算架构。 并行计算架构的使用增加了MIPS(每秒百万条指令)容量,并允许更快的调度,以满足严格的实时限制。
    • 10. 发明授权
    • Apparatus and method for supporting differentiated packet data services within a wireless network
    • 用于在无线网络内支持差分分组数据业务的装置和方法
    • US07092727B1
    • 2006-08-15
    • US09708782
    • 2000-11-08
    • Xiao-Dong LiPatrick Lie Chin CheongAshraf S. MahmoudMazda Salmanlan
    • Xiao-Dong LiPatrick Lie Chin CheongAshraf S. MahmoudMazda Salmanlan
    • H04Q7/20
    • H04W72/08
    • A system and method manages Radio Access Network (RAN) resources to service packet data transmissions at Service Quality Levels (SQL) commensurate with packet data network SQLs. A Packet Data Serving Node (PDSN) receives a data packet from a coupled packet data network. The data packet is directed toward a Mobile Station (MS) serviced by the RAN and includes a packet SQL indicator that indicates the level of service provided by the data packet network. A corresponding set of RAN resources is allocated to meet the packet SQL indicator. If the set of RAN resources cannot be allocated, the data packet SQL indicator is remarked accordingly. In another operation, the BSC receives a data packet from a MS serviced by the RAN. The data packet is intended for a coupled packet data network and includes a packet SQL indicator. The BSC first determines a set of allocated RAN resources that are servicing the transmission of the data packet to the packet data network. The BSC then maps the allocated set of RAN resources to a RAN service quality level indicator. If the data packet SQL indicator is incorrectly marked, it is remarked by the PDSN. These operation provide support for both specific SQL operations and differential SQL operations.
    • 一种系统和方法管理无线电接入网络(RAN)资源,以在与分组数据网络SQL相称的服务质量等级(SQL)下服务分组数据传输。 分组数据服务节点(PDSN)从耦合分组数据网络接收数据分组。 数据分组指向由RAN服务的移动台(MS),并且包括指示由数据分组网络提供的服务等级的分组SQL指示符。 分配相应的一组RAN资源来满足分组SQL指标。 如果无法分配RAN资源集,则相应地记录数据包SQL指标。 在另一操作中,BSC从由RAN服务的MS接收数据分组。 该数据分组旨在用于耦合分组数据网络并且包括分组SQL指示符。 BSC首先确定正在为分组数据网络传输数据分组的一组分配的RAN资源。 然后,BSC将所分配的RAN资源集合映射到RAN服务质量等级指示符。 如果数据包SQL指示符标记不正确,则表示PDSN。 这些操作为特定的SQL操作和差异SQL操作提供支持。