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    • 1. 发明申请
    • SYNCHRONISATION OF WIRELESS BASE STATIONS
    • 无线基站同步
    • WO2017012635A1
    • 2017-01-26
    • PCT/EP2015/066418
    • 2015-07-17
    • TELEFONAKTIEBOLAGET LM ERICSSON (PUBL)
    • RUFFINI, StefanoSTRACCA, Stefano
    • H04W56/00
    • H04W56/002H04J3/0644H04J3/0655H04W56/001Y02D30/32
    • A transport network (20) is connected to a first wireless base station (3, 4) and to a second wireless base station (6). The first wireless base station comprises a remote radio unit (3) and a baseband processing unit (4) which are connected by the transport network (20). A node (16) of the transport network (20) receives a synchronous time division multiplexed communication signal which carries at least a first communication signal between the baseband processing unit (4) and the remote radio unit (3). The node (16) determines a frequency synchronisation signal from the synchronous time division multiplexed communication signal. The node (16) transmits the synchronous time division multiplexed communication signal to the remote radio unit (3) of the first wireless base station. The node (16) transmits the frequency synchronisation signal to the second wireless base station (6). The node (16) also assists with providing phase/time synchronisation to the second wireless base station (6).
    • 传输网络(20)连接到第一无线基站(3,4)和第二无线基站(6)。 第一无线基站包括由传输网络(20)连接的远程无线电单元(3)和基带处理单元(4)。 传输网络(20)的节点(16)接收在基带处理单元(4)和远程无线单元(3)之间携带至少第一通信信号的同步时分复用通信信号。 节点(16)根据同步时分复用通信信号确定频率同步信号。 节点(16)将同步时分复用的通信信号发送到第一无线基站的远程无线单元(3)。 节点(16)将频率同步信号发送到第二无线基站(6)。 节点(16)还协助向第二无线基站(6)提供相位/时间同步。
    • 3. 发明申请
    • DETECTION, CLASSIFICATION AND MUTUAL RECOGNITION OF 4 PAIR POWER OVER ETHERNET
    • 4对以太网上的检测,分类和相互识别
    • WO2015070211A1
    • 2015-05-14
    • PCT/US2014/064985
    • 2014-11-11
    • CISCO TECHNOLOGY, INC.
    • BARRASS, HughVETTETH, Anoop
    • H04L12/10H04L12/40G06F1/26H04L12/24G01R31/04
    • G06F1/266G01R31/041G06F1/26H02J4/00H04B3/02H04L12/10H04L12/40045Y02D30/30Y02D30/32
    • A method for verifying interconnection of a PSE (104) and PD (108) with 4-pair PoE capabilities (120) includes performing a first classification event on first (A,B) and second (C,D) pairs, respectively, and detecting a first predetermined class current on first and second sets of twisted pairs, respectively. The method includes performing a second classification event on first and second pairs, respectively, and detecting first and second predetermined class currents on first (A,B) and second (C,D) pairs, respectively. After expiration of a first variable delay period related to a first pseudo-random variable of the PSE (104), the method includes performing a third classification event on the first pair (A,B) and detecting a first derived class current on the first pair. After expiration of a second variable delay period related to a second pseudo-random variable of the PD (108), the method includes performing the third classification event on the second pair (C, D) and detecting a second derived class current on the second pair.
    • 用于验证PSE(104)和具有4对PoE能力(120)的PD(108)的互连的方法包括分别在第一(A,B)和第二(C,D)对上执行第一分类事件,以及 分别在第一组和第二组双绞线上检测第一预定类电流。 该方法包括分别在第一和第二对上执行第二分类事件,分别在第一(A,B)和第二(C,D)对上检测第一和第二预定等级电流。 在与PSE(104)的第一伪随机变量相关的第一可变延迟周期期满之后,该方法包括在第一对(A,B)上执行第三分类事件,并且在第一对(A,B)上检测第一导出类电流 对。 在与PD(108)的第二伪随机变量相关的第二可变延迟时段期满之后,该方法包括在第二对(C,D)上执行第三分类事件,并在第二对(C,D)上检测第二导出类电流 对。
    • 5. 发明申请
    • METHODS AND APPARATUS FOR OPTIMIZATION OF DEVICE CAPABILITY EXCHANGE IN A NETWORK
    • 网络中设备能力交换优化的方法和设备
    • WO2011011455A1
    • 2011-01-27
    • PCT/US2010/042657
    • 2010-07-20
    • APPLE INC.VAN NIEKERK, Sabine
    • VAN NIEKERK, Sabine
    • H04L29/06
    • H04L67/303H04L65/1006H04L65/1069Y02D30/32
    • Methods and apparatus for optimizing the exchange of capabilities or other request messages across a network. In an exemplary embodiment, IMS architecture is disclosed which leverages the Session Initiation Protocol (SIP) to optimize the exchange of capabilities of various user equipment (UE) client devices present on a network. The IMS architecture leverages intermediate entities (such as a home network gateway) to collect the capabilities of all UE devices on a given home network and forward this collected capability information onto a requesting UE device. The requesting entity generates a capabilities request message and appends this message with an information element that requests the capabilities of all UE devices on a given network (such as a user's home network), hi response, the receiving device or intermediate entity generates a capabilities response message that includes the capabilities of all UE devices on the requested network. In this manner, signaling messages are reduced.
    • 用于优化跨网络的能力或其他请求消息交换的方法和装置。 在示例性实施例中,公开了利用会话发起协议(SIP)来优化网络上存在的各种用户设备(UE)客户端设备的能力交换的IMS架构。 IMS架构利用中间实体(例如家庭网络网关)来收集给定家庭网络上的所有UE设备的能力,并将该收集的能力信息转发到请求的UE设备。 请求实体生成能力请求消息,并且将该消息附加到请求在给定网络(例如用户的家庭网络)上的所有UE设备的能力的信息元素。响应地,接收设备或中间实体生成能力响应 消息,其包括所请求的网络上的所有UE设备的能力。 以这种方式,信令消息被减少。
    • 7. 发明申请
    • ADMISSION CONTROL IN A PACKET NETWORK
    • 分组网络中的入门控制
    • WO2009122150A1
    • 2009-10-08
    • PCT/GB2009/000827
    • 2009-03-27
    • BRITISH TELECOMMUNICATIONS PUBLIC LIMITED COMPANYSTRULO, BenWENNINK, MarcCORLIANO, Gabriele
    • STRULO, BenWENNINK, MarcCORLIANO, Gabriele
    • H04L12/56
    • H04L45/125H04L45/123H04L45/38H04L47/12H04L47/15H04L47/70Y02D30/32
    • In embodiments of the invention when a session request is received the value assigned to that session is compared to present congestion costs in the network at the present time. If the value of the session exceeds the cost then the session is accepted; otherwise it is rejected. It is possible to show mathematically that, provided this strategy is used for all session requests, then, when demand exceeds supply for a given resource, the congestion measurement for that resource rises to become equal to its shadow price. Here, in a model of a capacity constrained network, the shadow price of a capacity constraint is the cost to other users of using one unit of capacity. Congestion measurements can therefore be used to provide a "cost" (to other users) of admitting the flow to the network, which can then be compared against the "value" (to the network operator) of admitting the flow during the admission control evaluation. Additionally, this "cost" vs. "value" comparison can be used for path selection, as well as any other resource management decision. For example, in particularly preferred embodiments a session is not only admitted based upon the cost value comparison, but is also assigned to a particular path which maximises value minus cost.
    • 在本发明的实施例中,当接收到会话请求时,将分配给该会话的值与当前网络中的当前拥塞成本进行比较。 如果会话的价值超过成本,则会话被接受; 否则被拒绝。 有可能在数学上显示,只要该策略用于所有会话请求,那么当需求超过给定资源的供应时,该资源的拥塞度量就会变得等于其影子价格。 这里,在容量约束网络的模型中,容量约束的影子价格是其他用户使用一个容量单位的成本。 因此,拥塞测量可用于向网络提供“成本”(向其他用户),该流量可以与入网控制评估期间允许流量的“价值”(对网络运营商)进行比较 。 此外,这种“成本”与“价值”比较可用于路径选择以及任何其他资源管理决策。 例如,在特别优选的实施例中,会话不仅基于成本值比较而被允许,而且还被分配给最大化值减去成本的特定路径。