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    • 33. 发明申请
    • MULTI-DIMENSIONAL RESOURCE MANAGEMENT IN A WIRELESS NETWORK
    • 无线网络中的多维度资源管理
    • US20100296401A1
    • 2010-11-25
    • US12470772
    • 2009-05-22
    • Jeyhan KaraoguzNambirajan SeshadriNicholas Ilyadis
    • Jeyhan KaraoguzNambirajan SeshadriNicholas Ilyadis
    • H04L12/26
    • H04L41/0806H04W24/02H04W84/045
    • A communication system may include a plurality of entities comprising a hybrid network controller, one or more femtocells, one or more access points and/or one or more end-point devices. The hybrid network controller may determine and/or communicate configuration parameters corresponding to space, time, frequency and/or code domains that may enable communication of data between and/or among two or more of the entities. The configuration parameters may comprise frequency, time slot, codes and/or antenna pattern assignments. The network controller may control communication between a communication device external to the communication system and one or more of the entities within the communication system. Availability of frequencies, time slots, codes and/or antenna patterns may be monitored. The network controller may assign the femtocells, access points and/or end-point devices to handle the communication of the data. The hybrid network controller may communicate with the plurality of entities via wired, optical and/or wireless interfaces.
    • 通信系统可以包括多个实体,包括混合网络控制器,一个或多个毫微微小区,一个或多个接入点和/或一个或多个端点设备。 混合网络控制器可以确定和/或通信对应于空间,时间,频率和/或代码域的配置参数,其可以实现两个或多个实体之间和/或之间的数据通信。 配置参数可以包括频率,时隙,代码和/或天线模式分配。 网络控制器可以控制通信系统外部的通信设备与通信系统内的一个或多个实体之间的通信。 可以监视频率,时隙,代码和/或天线方向图的可用性。 网络控制器可以分配毫微微小区,接入点和/或端点设备来处理数据的通信。 混合网络控制器可以经由有线,光学和/或无线接口与多个实体进行通信。
    • 34. 发明授权
    • Distributed multi-link trunking method and apparatus
    • 分布式多链路中继方法和装置
    • US06496502B1
    • 2002-12-17
    • US09106801
    • 1998-06-29
    • David B. Fite, Jr.Nicholas IlyadisRonald M. Salett
    • David B. Fite, Jr.Nicholas IlyadisRonald M. Salett
    • H04J324
    • H04L12/4641H04L45/7453H04L49/351H04L49/354
    • A method and apparatus for providing data communication between a source station having multiple connections to a first switch and a destination station having multiple connections to a second switch. A trunk identifier to each port on the first switch and each port on the second switch. A data frame is encoded with the trunk identifier for an ingress port on the first switch. The data frame is sent to the second switch from the first switch. A list of egress ports for the destination station is obtained from a station list contained in the second switch. An egress port is selected from the list of egress ports based upon the source address, destination address and trunk identifier. The data frame is sent to the destination station through the selected egress port.
    • 一种用于在具有到第一交换机的多个连接的源站和具有到第二交换机的多个连接的目的地站之间提供数据通信的方法和装置。 第一个交换机上的每个端口和第二个交换机上的每个端口的中继标识符。 数据帧用第一交换机上的入口端口的中继标识符进行编码。 数据帧从第一个交换机发送到第二个交换机。 从第二交换机中包含的站列表获得目的站的出口端口列表。 根据源地址,目的地址和中继标识符,从出口端口列表中选出一个出口端口。 数据帧通过选定的出口端口发送到目标站。
    • 35. 发明授权
    • Method and apparatus for adjusting an interpacket gap using a network device in a data communications network
    • 用于使用数据通信网络中的网络设备来调整间隔间隙的方法和装置
    • US06226290B1
    • 2001-05-01
    • US09069072
    • 1998-04-28
    • Ronald M. SalettDavid B. Fite, Jr.Nicholas Ilyadis
    • Ronald M. SalettDavid B. Fite, Jr.Nicholas Ilyadis
    • H04L1228
    • H04L45/00H04L45/22H04L47/22
    • A method and an apparatus for adjusting an interpacket gap. In one embodiment, a plurality of network devices are tightly coupled together in series. Data is transmitted and received by the network devices in packets with interpacket gaps interposed between each packet. Buffers are included in each network device to serve as elasticity buffers for the data being transmitted between the network devices. The first upstream network device transmits interpacket gaps having an increased size. Downstream network devices may shrink increased size interpacket gaps to reduced size interpacket gaps if the internal buffers are filled to or above a high water mark. However, downstream network devices are not allowed to shrink the size of reduced size interpacket gaps that are received, even if their internal buffers are filled to or above the high water mark.
    • 一种用于调整间隔间隙的方法和装置。 在一个实施例中,多个网络设备被串联紧密耦合在一起。 网络设备以数据包的形式发送和接收数据,数据包间插入每个数据包之间。 缓冲器被包括在每个网络设备中,用作在网络设备之间传输的数据的弹性缓冲器。 第一上游网络设备发送具有增加的大小的分组间隙。 如果内部缓冲器被填充到或高于高水位标记,下游网络设备可能收缩增加的尺寸间隔间隙以减小尺寸间隔间隙。 然而,即使下游网络设备的内部缓冲器被填充到高水位标记之上或高于水位标记,也不允许下游网络设备缩小所接收的缩小尺寸的外部间隙间隙的尺寸。
    • 36. 发明授权
    • Universal network interface controller
    • 通用网络接口控制器
    • US09042383B2
    • 2015-05-26
    • US13173189
    • 2011-06-30
    • Ariel HendelMartin LundNicholas Ilyadis
    • Ariel HendelMartin LundNicholas Ilyadis
    • H04L12/66H04L12/931
    • H04L49/358H04L49/505
    • A universal network interface controller (UNIC) is provided for interfacing a host computer to a switch fabric, a packet network, or both. The UNIC includes ingress transmit logic designed to transmit switch fabric data in memory associated with the host computer to a switch fabric. The UNIC further includes egress receive logic designed to receive switch fabric data from the switch fabric to store the received switch fabric data in the host memory associated with the host computer. As an option, the ingress transmit logic may be further designed to transmit packet network data in memory associated with the host computer to a packet network, such as Ethernet, and the egress receive logic may be further designed to receive the packet network data from the packet network and to store the received switch fabric data and the received packet network data in the host memory associated with the host computer.
    • 提供通用网络接口控制器(UNIC),用于将主机与交换结构,分组网络或两者接口。 UNIC包括入口传输逻辑,用于将与主计算机相关联的存储器中的交换结构数据传送到交换结构。 UNIC还包括出口接收逻辑,用于从交换结构接收交换结构数据,以将接收的交换结构数据存储在与主计算机相关联的主机存储器中。 作为选择,入口传输逻辑可以进一步被设计为将与主计算机相关联的存储器中的分组网络数据传送到诸如以太网的分组网络,并且出口接收逻辑可以被进一步设计为从 并将接收到的交换结构数据和接收到的分组网络数据存储在与主计算机相关联的主机存储器中。
    • 37. 发明授权
    • Traffic management in a hybrid femtocell/WLAN wireless enterprise network
    • 混合毫微微蜂窝/ WLAN无线企业网络中的流量管理
    • US08929331B2
    • 2015-01-06
    • US12470826
    • 2009-05-22
    • Jeyhan KaraoguzNambirajan SeshadriNicholas Ilyadis
    • Jeyhan KaraoguzNambirajan SeshadriNicholas Ilyadis
    • H04W4/00H04W84/04
    • H04W84/045H04W36/04
    • A hybrid network controller may determine and/or communicate traffic management information for enabling setup and/or handoff of call and/or communication session among femtocells, access points and/or end-point devices. Traffic management information may comprise set-up instructions, handoff instructions, transmit power, neighbor list information, signal quality thresholds, frequency assignments, transmission time, code assignments and/or antenna pattern assignments. The hybrid network controller and/or an end-point device may control handoffs between a communication device external to the communication system and the femtocells, access points and/or end-point devices. Received signal strength, interference levels, SNR, signal path delay, power consumption, traffic loads, bandwidth usage and/or radio resource availability may be monitored and/or analyzed by the hybrid network controller. The hybrid network controller may assign time slots, codes, antenna patterns as well as a serving femtocell and/or AP for a set up and/or a handoff. The information may be communicated via wired, optical and/or wireless interfaces.
    • 混合网络控制器可以确定和/或通信用于在毫微微小区,接入点和/或端点设备之间启用呼叫和/或通信会话的建立和/或切换的业务管理信息。 业务管理信息可以包括建立指令,切换指令,发射功率,邻居列表信息,信号质量阈值,频率分配,传输时间,码分配和/或天线模式分配。 混合网络控制器和/或端点设备可以控制通信系统外部的通信设备与毫微微蜂窝,接入点和/或端点设备之间的切换。 可以由混合网络控制器监视和/或分析接收到的信号强度,干扰电平,SNR,信号路径延迟,功耗,业务负载,带宽使用和/或无线电资源可用性。 混合网络控制器可以为建立和/或切换分配时隙,代码,天线模式以及服务毫微微小区和/或AP。 信息可以通过有线,光学和/或无线接口传送。
    • 40. 发明授权
    • Multi-dimensional resource management in a wireless network
    • 无线网络中的多维资源管理
    • US08730835B2
    • 2014-05-20
    • US12470772
    • 2009-05-22
    • Jeyhan KaraoguzNambirajan SeshadriNicholas Ilyadis
    • Jeyhan KaraoguzNambirajan SeshadriNicholas Ilyadis
    • H04L12/28
    • H04L41/0806H04W24/02H04W84/045
    • A communication system may include a plurality of entities comprising a hybrid network controller, one or more femtocells, one or more access points and/or one or more end-point devices. The hybrid network controller may determine and/or communicate configuration parameters corresponding to space, time, frequency and/or code domains that may enable communication of data between and/or among two or more of the entities. The configuration parameters may comprise frequency, time slot, codes and/or antenna pattern assignments. The network controller may control communication between a communication device external to the communication system and one or more of the entities within the communication system. Availability of frequencies, time slots, codes and/or antenna patterns may be monitored. The network controller may assign the femtocells, access points and/or end-point devices to handle the communication of the data. The hybrid network controller may communicate with the plurality of entities via wired, optical and/or wireless interfaces.
    • 通信系统可以包括多个实体,包括混合网络控制器,一个或多个毫微微小区,一个或多个接入点和/或一个或多个端点设备。 混合网络控制器可以确定和/或通信对应于空间,时间,频率和/或代码域的配置参数,其可以实现两个或多个实体之间和/或之间的数据通信。 配置参数可以包括频率,时隙,代码和/或天线模式分配。 网络控制器可以控制通信系统外部的通信设备与通信系统内的一个或多个实体之间的通信。 可以监视频率,时隙,代码和/或天线方向图的可用性。 网络控制器可以分配毫微微小区,接入点和/或端点设备来处理数据的通信。 混合网络控制器可以经由有线,光学和/或无线接口与多个实体进行通信。