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    • 1. 发明申请
    • METHOD AND APPARATUS FOR NON-DISRUPTIVE CALL MODIFICATION
    • 用于非破坏性呼叫修改的方法和装置
    • WO2006116839A1
    • 2006-11-09
    • PCT/CA2006/000534
    • 2006-04-07
    • NORTEL NETWORKS LIMITEDSKALECKI, DarekSHEW, StephenCOUPAL, Jean-Pierre
    • SKALECKI, DarekSHEW, StephenCOUPAL, Jean-Pierre
    • H04M3/22H04M3/20H04L29/04
    • H04M7/06H04L29/06027H04L47/10H04L65/1083H04L65/80H04L67/14H04M3/2263H04Q3/0062
    • A method and system for changing the extent of data plane resources controlled by a control plane for a network connection which spans a contiguous set of nodes controlled by existing network control resources is disclosed. This is done in a non-disruptive manner. This typically involves two steps: i) Creating a new set of control plane resources for said network connection such that said data plane resources are shared with said existing network control resources; and ii) then terminating the existing network control resources such that said data plane resources are fully transferred to the new set of control plane resources without disrupting said network connection. The existing network control resources can be either a control plane resource or a non control plane resource. An example of a non control plane resource is network management software (e.g., an OSS (Operation Support System)), which forms part of the Management Plane. It should be noted that this does not need to be done for a complete end-to-end connection, but rather can be executed for the portion of the end-to-end connection which is to be controlled by the control plane.
    • 公开了一种用于改变跨越由现有网络控制资源控制的连续的节点集合的网络连接的控制平面控制的数据平面资源的范围的方法和系统。 这是以非破坏性的方式完成的。 这通常包括两个步骤:i)为所述网络连接创建一组新的控制平面资源,使得所述数据平面资源与所述现有网络控制资源共享; 以及ii)然后终止现有的网络控制资源,使得所述数据平面资源被完全传送到新的控制平面资源集合而不会中断所述网络连接。 现有的网络控制资源可以是控制平面资源或非控制平面资源。 非控制平面资源的一个例子是形成管理平面的一部分的网络管理软件(例如,OSS(操作支持系统))。 应当注意,对于完整的端到端连接不需要这样做,而是可以对要由控制平面控制的端对端连接的部分执行。
    • 2. 发明申请
    • AUTO BLOCK AND AUTO DISCOVERY IN A DISTRIBUTED COMUNICATION SYSTEM
    • 在分布式通信系统中的自动块和自动发现
    • WO2006004857A3
    • 2006-10-26
    • PCT/US2005023152
    • 2005-06-30
    • GLENAYRE ELECTRONICS INCBETTIS SONNY RPLOTKY JON SMORAES IAN MLOWMAN PHILIP LSPENCER JAMES H
    • BETTIS SONNY RPLOTKY JON SMORAES IAN MLOWMAN PHILIP LSPENCER JAMES H
    • H04M1/64H04L12/26H04M1/24
    • H04M3/533H04M3/10H04M3/12H04M3/24H04M7/0012H04M7/06H04M7/066
    • A voicemail system enabling various components of the voicemail system to be distributed geographically yet operate as a seamlessly integrated system is disclosed. A signal gateway interfaces with a telephone network. In addition, one or more media servers interface with the signal gateway as well as the telephone network. The signal gateway is configured to block calls to malfunctioning media servers. The signal gateway monitors the media servers, and responsive to determining that a media server has malfunctioned, the signal gateway initiates auto­blocking such that the telephone network does not route calls to the malfunctioning media server. In addition, the signal gateway is configured to auto-detect a media server responsive to the media server being initialized. The voicemail system can include a variety of other elements, such as one or more system management units and one or more central data and message store systems. Each of the elements in the voicemail system communicate with each other over an internet protocol type network. Any functions in the various elements that require interfacing with the telephone network are simply handled through the signal gateway.
    • 公开了一种语音邮件系统,该语音邮件系统使得语音邮件系统的各种组件能够在地理上分布,但仍然作为无缝集成的系统来运行。 信号网关与电话网络连接。 另外,一个或多个媒体服务器与信号网关以及电话网络连接。 信号网关配置为阻止对发生故障的介质服务器的呼叫。 信号网关监视媒体服务器,并且响应于确定媒体服务器发生故障,信号网关发起自动阻塞,使得电话网络不将呼叫路由到发生故障的媒体服务器。 另外,信号网关被配置为响应于媒体服务器被初始化而自动检测媒体服务器。 语音邮件系统可以包括各种其他元件,例如一个或多个系统管理单元以及一个或多个中央数据和消息存储系统。 语音邮件系统中的每个元素都通过互联网协议类型网络相互通信。 通过信号网关简单地处理需要与电话网络接口的各种元件中的任何功能。
    • 4. 发明申请
    • METHOD FOR PROVIDING PRESENCE INFORMATION IN A TELECOM NETWORK
    • 在电信网络中提供存在信息的方法
    • WO2006069621A1
    • 2006-07-06
    • PCT/EP2005/013210
    • 2005-12-08
    • KONINKLIJKE KPN N.V.VEENSTRA, Pieter, Koert
    • VEENSTRA, Pieter, Koert
    • H04M3/42H04M7/00
    • H04M3/42H04M3/42102H04M3/42365H04M3/42374H04M7/06H04M2203/4536
    • A method is disclosed for determining if the real-time status of an end-user line (4) is busy or idle. The end-user line (4), via which POTS or ISDN services may be provided, connects an end-user device (2) and an exchange (7) that is comprised by a telecom network (1). For determining the real-time status of an end-user line (4) a presence function (5) is used that comprises a process that makes use of the Completion of Calls to Busy Subscriber (CCBS) supplementary service. Because use is made of the CCBS supplementary service, the presence function (5) is able to act like an originating local exchange. In order to determine the real-time status of an end-user line (4), the presence function (5) communicates with the exchange (7), whereby the exchange (7) acts like a terminating local exchange according to the procedures of the CCBS supplementary service. The real-time status of an end-user line (4) is then determined using the real-time status monitoring capability comprised the exchange (7), which status monitoring capability is part of the CCBS supplementary service.
    • 公开了一种用于确定终端用户线路(4)的实时状态是忙还是空闲的方法。 可以提供POTS或ISDN服务的终端用户线路(4)连接由电信网络(1)组成的终端用户设备(2)和交换机(7)。 为了确定最终用户线路(4)的实时状态,使用存在功能(5),其包括使用完成呼叫占线用户(CCBS)补充业务的过程。 由于使用CCBS补充业务,因此存在功能(5)能够像起始本地交换机那样起作用。 为了确定最终用户线(4)的实时状态,存在功能(5)与交换机(7)进行通信,由此交换机(7)按照终端用户线路 CCBS补充业务。 然后使用包括交换机(7)的实时状态监视功能来确定最终用户线(4)的实时状态,该状态监视能力是CCBS补充业务的一部分。
    • 6. 发明申请
    • FEHLERTOLERANTER VERBINDUNGSTEST
    • 容许出错的连接测试
    • WO2003005688A2
    • 2003-01-16
    • PCT/DE2002/001851
    • 2002-05-22
    • SIEMENS AKTIENGESELLSCHAFTSPIES, JörgenWUTTKE, Birgit
    • SPIES, JörgenWUTTKE, Birgit
    • H04M3/00
    • H04M3/323H04M7/06
    • Die vorliegende Erfindung betrifft eine Testanordnung und ein Testverfahren in einem Knoten eines Kommunikationsnetzes zum Testen von Kommunikationsverbindungen zu anderen Knoten des Kommunikationsnetzes, bei denen Testnachrichten (SLTM) an die Partnerknoten gesendet werden und eine Bewertung (5) der Kommunikationsverbindungen zu den Partnerknoten auf der Grundlage der empfangenen Antworten (SLTA) von den Partnerknoten auf die gesendeten Testnachrichten (SLTM) erfolgt. Zur Verhinderung von Fehlinterpretationen werden interne Systeminformationen der Knoten wie zum Beispiel ein Datenverlust während des Tests durch den Überlauf eines Pufferspeichers (2) bei der Bewertung der Kommunikationsverbindung berücksichtigt.
    • 本发明涉及一种测试装置,并在用于向所述通信网络的其它节点检测通信连接的通信网络的一个节点中的测试方法,其中,测试消息(SLTM)将被发送到伙伴节点,以及对等节点的通信连接的基础上进行评估(5) 接收到的响应(SLTA)以从对方节点(SLTM)所发送的测试消息被执行。 为了防止节点的曲解内部系统信息,如由一个缓冲存储器(2)的溢流在测试期间数据丢失考虑到在评估通信连接。
    • 10. 发明申请
    • NETWORK CALL TRACE
    • 网络电话追踪
    • WO99029090A1
    • 1999-06-10
    • PCT/US1998/025823
    • 1998-12-04
    • H04M3/08H04M3/22H04M7/06H04M3/42
    • H04M3/2281H04M3/08H04M7/06H04M2207/12
    • A Network Call Trace (NCT) method and system enables a call path route to be traced in a telecommunications network. A Type of Digit (TOD) in the Generic Digits Parameter (GDP) for an Integrated Services Digital Network (ISDN) User Part (ISUP) command can be utilized to realize the NCT. A listing of Switch IDs (SIDs) from the originating subscriber's switch to the terminating subscriber's switch is provided so that routing inefficiencies can be discovered. In one embodiment, an Initial Address Message (IAM) is transmitted with a TOD Network Call Trace in the GDP. The NCT includes the SID of the originating switch. Any intermediate switches between the originating switch and the terminating switch likewise append their own SID onto the NCT list of SIDs. Finally, the terminating switch also adds its SID onto the end of the NCT list. This NCT list may then be transmitted and displayed for analysis. For example, it may be transmitted in a backward message such as address complete message (ACM), answer message (ANM), call progress (CPG), or release (REL) back to the originating switch via the network. Alternatively, the NCT list may be sent to a Network Management Center.
    • 网络呼叫跟踪(NCT)方法和系统使得能够在电信网络中跟踪呼叫路径路由。 综合业务数字网(ISDN)用户部分(ISUP)命令的通用数字参数(GDP)中的数字类型(TOD)可用于实现NCT。 提供从起始订户交换机到终止订户交换机的交换机ID(SID)的列表,以便可以发现路由低效。 在一个实施例中,使用TOD网络呼叫跟踪在GDP中发送初始地址消息(IAM)。 NCT包括始发交换机的SID。 始发交换机和终端交换机之间的任何中间交换机同样将自己的SID附加到SID的NCT列表上。 最后,终端交换机也将其SID添加到NCT列表的末尾。 然后可以发送和显示该NCT列表用于分析。 例如,可以通过网络将诸如地址完成消息(ACM),应答消息(ANM),呼叫进程(CPG)或释放(REL))的反向消息发送回始发交换机。 或者,NCT列表可以被发送到网络管理中心。