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    • 1. 发明授权
    • Dynamic blocking of token-controlled data transmissions in communication networks
    • 通信网络中令牌控制的数据传输的动态阻塞
    • US07650076B2
    • 2010-01-19
    • US11283097
    • 2005-11-17
    • Ching-Fong SuCechan Tian
    • Ching-Fong SuCechan Tian
    • H04J14/02
    • H04J14/0227H04J14/0204H04J14/0206H04J14/0209H04J14/021H04J14/0212H04J14/0213H04J14/0245H04J14/0249H04J14/0283
    • A method for token-controlled data transmission includes receiving a token including transmission data specifying one of a plurality of data channels and a time window. A burst blocker is configured, based at least in part on the transmission data, for the selective communication of the specified data channel on an optical transmission medium having the plurality of data channels. The selective configuration of the burst blocker includes splitting the specified data channel from the plurality of data channels, configuring the burst blocker in a first configuration during a time other than the time window to rejoin the specified data channel with the plurality of data channels for transmission of the plurality of data channels toward a destination node, and configuring the burst blocker in a second configuration during the time window to block the specified data channel to prevent the transmission of the specified data channel.
    • 用于令牌控制的数据传输的方法包括接收包括指定多个数据信道中的一个和时间窗口的传输数据的令牌。 至少部分地基于传输数据配置突发阻塞器,用于在具有多个数据信道的光传输介质上选择性地通信指定的数据信道。 突发阻塞器的选择性配置包括从多个数据信道分割指定的数据信道,在除了时间窗口之外的时间期间以第一配置配置突发阻塞器,以与多个用于传输的数据信道重新加入指定的数据信道 的多个数据信道,并且在时间窗口期间以第二配置配置突发阻塞器,以阻塞指定的数据信道以防止指定的数据信道的传输。
    • 2. 发明申请
    • Dynamic blocking of token-controlled data transmissions in communication networks
    • 通信网络中令牌控制的数据传输的动态阻塞
    • US20070110438A1
    • 2007-05-17
    • US11283097
    • 2005-11-17
    • Ching-Fong SuCechan Tian
    • Ching-Fong SuCechan Tian
    • H04J14/00
    • H04J14/0227H04J14/0204H04J14/0206H04J14/0209H04J14/021H04J14/0212H04J14/0213H04J14/0245H04J14/0249H04J14/0283
    • A method for token-controlled data transmission includes receiving a token including transmission data specifying one of a plurality of data channels and a time window. A burst blocker is configured, based at least in part on the transmission data, for the selective communication of the specified data channel on an optical transmission medium having the plurality of data channels. The selective configuration of the burst blocker includes splitting the specified data channel from the plurality of data channels, configuring the burst blocker in a first configuration during a time other than the time window to rejoin the specified data channel with the plurality of data channels for transmission of the plurality of data channels toward a destination node, and configuring the burst blocker in a second configuration during the time window to block the specified data channel to prevent the transmission of the specified data channel.
    • 用于令牌控制的数据传输的方法包括接收包括指定多个数据信道中的一个和时间窗口的传输数据的令牌。 至少部分地基于传输数据配置突发阻塞器,用于在具有多个数据信道的光传输介质上选择性地通信指定的数据信道。 突发阻塞器的选择性配置包括从多个数据信道分割指定的数据信道,在除了时间窗口之外的时间期间以第一配置配置突发阻塞器,以与多个用于传输的数据信道重新加入指定的数据信道 的多个数据信道,并且在时间窗口期间以第二配置配置突发阻塞器,以阻塞指定的数据信道以防止指定的数据信道的传输。
    • 5. 发明授权
    • System and method for reusing wireless resources in a wireless network
    • 在无线网络中重用无线资源的系统和方法
    • US07917149B2
    • 2011-03-29
    • US11557428
    • 2006-11-07
    • Wei-Peng ChenChenxi ZhuChing-Fong SuJonathan R. Agre
    • Wei-Peng ChenChenxi ZhuChing-Fong SuJonathan R. Agre
    • H04W72/00
    • H04W16/14H04B7/2606H04W84/047
    • A method for reusing wireless resources in a wireless network, includes determining the probability of a first communication with a first relay station experiencing interference from a second relay station. The method also includes, upon determining that the probability of experiencing interference from the second relay station is greater than an interference threshold: allocating a first wireless resource to the first relay station and the second relay station; designating the first wireless resource as a primary wireless resource for the first relay station; designating the first wireless resource as a secondary wireless resource for the second relay station; allocating a second wireless resource to the second relay station; and designating the second wireless resource as a primary wireless resource for the second relay station.
    • 一种在无线网络中重用无线资源的方法,包括:确定与经受来自第二中继站的干扰的第一中继站的第一通信的概率。 该方法还包括在确定经历来自第二中继站的干扰的概率大于干扰阈值时:将第一无线资源分配给第一中继站和第二中继站; 将所述第一无线资源指定为所述第一中继站的主要无线资源; 将所述第一无线资源指定为所述第二中继站的辅助无线资源; 向第二中继站分配第二无线资源; 以及将所述第二无线资源指定为所述第二中继站的主要无线资源。
    • 9. 发明授权
    • Traffic engineering on wireless mesh networks
    • 无线网状网络上的流量工程
    • US07773559B2
    • 2010-08-10
    • US11684885
    • 2007-03-12
    • Wei-Peng ChenChing-Fong Su
    • Wei-Peng ChenChing-Fong Su
    • H04W4/00
    • H04W28/02H04W16/22H04W28/20
    • Techniques are described for intelligently allocating bandwidth in a wireless mesh network. The wireless mesh network includes a nodes and links interconnecting the nodes. In order to increase capacity and avoid congestion in the network, a network administrator may regulate network traffic by adjusting various parameters that control the operation of network nodes. The network administrator may identify topology information, which indicates a configuration of the nodes and links, and a traffic matrix, which indicates a relative traffic demand weighting for each source node-destination node pair. From this information, the network administrator may calculate a bandwidth assignment for each link. Network administrator may use the bandwidth assignments to calculate a parameter for each node. That parameter may affect the amount of bandwidth used by a node. These parameters may be transmitted to their respective nodes.
    • 描述了在无线网状网络中智能地分配带宽的技术。 无线网状网络包括互连节点的节点和链路。 为了提高容量并避免网络拥塞,网络管理员可以通过调整控制网络节点运行的各种参数来调节网络流量。 网络管理员可以识别指示节点和链路的配置的拓扑信息,以及指示每个源节点 - 目的地节点对的相对业务需求加权的业务矩阵。 根据该信息,网络管理员可以计算每个链路的带宽分配。 网络管理员可以使用带宽分配来计算每个节点的参数。 该参数可能会影响节点使用的带宽量。 这些参数可以被发送到它们各自的节点。
    • 10. 发明授权
    • Data transmissions in communication networks using multiple tokens
    • 使用多个令牌的通信网络中的数据传输
    • US07529267B2
    • 2009-05-05
    • US10804528
    • 2004-03-19
    • Hung-ying TyanChing-Fong SuRichard R. RabbatTakeo Hamada
    • Hung-ying TyanChing-Fong SuRichard R. RabbatTakeo Hamada
    • H04L12/403
    • H04J14/0227H04J14/0241H04J14/0283H04L47/10H04L47/13H04L47/39
    • A network includes multiple nodes interconnected to form a ring topology. These nodes support data transmissions over the network using tokens. To send and receive data over the network, nodes may process control messages. A node can receive a first token authorizing transmission on one of multiple data channels, generate a transmission control message identifying a destination node and the authorized data channel, and communicate the transmission control message to a next node. The node can also communicate a second token to the next node authorizing secondary transmissions on the authorized data channel, transmit data on the authorized data channel after communicating the transmission control message, and communicate the first token to the next node after communicating the second token to the next node.
    • 网络包括互连的多个节点以形成环形拓扑。 这些节点支持通过网络使用令牌进行数据传输。 为了通过网络发送和接收数据,节点可以处理控制消息。 节点可以接收在多个数据信道之一授权传输的第一令牌,生成标识目的地节点和授权数据信道的传输控制消息,并将传输控制消息传送到下一个节点。 节点还可以将授权数据信道上授权二次传输的下一个节点传送给下一个节点,在通信传输控制消息之后在授权数据信道上发送数据,并在将第二个令牌通信给第二个令牌之后将第一个令牌传送到下一个节点 下一个节点。