CN100479462C - Method for realizing managing object matching and comparing on butt net element - Google Patents

Method for realizing managing object matching and comparing on butt net element Download PDF

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CN100479462C
CN100479462C CN 200510083134 CN200510083134A CN100479462C CN 100479462 C CN100479462 C CN 100479462C CN 200510083134 CN200510083134 CN 200510083134 CN 200510083134 A CN200510083134 A CN 200510083134A CN 100479462 C CN100479462 C CN 100479462C
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node
protocol
tree
network element
network
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CN1859365A (en
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巍 李
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上海华为技术有限公司
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Abstract

本发明所提供的对接网元上的管理对象匹配和比较的实现方法,依据对接的第一网元与第二网元中接口协议实体之间的承载关系,针对第一网元和第二网元中的接口协议实体分别以树形结构建立协议树,并且根据建立的所述协议树的树形结构判断第一网元和第二网元的各协议树上的同级节点是否分别可匹配并可比较成功,以确定第一网元和第二网元的协议树是否可匹配以及可比较成功,并可最终确定第一网元和第二网元是否可正常对接。 Managing object matching the network element butt provided by the present invention and comparative implemented method, according to the relationship between the carrier abutting the first network element and the second network elements interface protocol entity, for the first network element and the second web whether in sibling nodes membered interface protocol entities can establish a tree structure tree protocol, and determines whether each tree protocol first network element and a second network element of said tree structure according to an established protocol tree respectively match and more successful, to determine whether the first network element and the second network element tree protocol can be matched and be more successful, and ultimately determine whether the first network element and the second network element can be properly docked. 本发明方法明显提高了匹配和比较操作的效率,进而提高了网管的运行性能。 The method of the present invention significantly improves the efficiency of the matching and comparison operation, thereby improving the operating performance of the network.

Description

一种对接网元上的管理对象匹配和比较的实现方法 A docking network management objects that match the dollar and comparison realization

技术领域 FIELD

本发明涉及通信网络领域,具体涉及一种对接网元上的管理对象匹配和比较的实现方法。 The present invention relates to communication networks and, in particular, to a managed object on the matching network element butt-implemented method and comparison.

背景技术 Background technique

在通信网络中,两个相对接的网元之间的通信都是基于两个网元中的接 In a communication network, between two communicating network elements we are based on two opposite contact access network element

口协议栈对等层中的对等接口协议实体进行的,以宽带码分多址(WCDMA ) 网络中的Iub接口无线网络层控制面及其承载为例,网元中的各接口协议层如图l所示。 The interface protocol layers of each other peer interface protocol stack interface protocol layer entity, the broadband code division multiple access (WCDMA) Iub interface to the network control plane radio network layer and the bearer as an example, in the network element l shown in FIG. 图l中,每个网元的Iub接口协议层由下层向上层分别是:物理端口( Physical Port)层、异步传输模式端口(ATMPort)层、信令ATM 适配层(SAAL )以及Node B基站控制端口( NCP )层/通信控制端口( CCP ) 层。 Figure l, the Iub interface of each network element from the lower to the upper protocol layers are: physical port (Physical Port) layer, an ATM port (ATMPort) layer, signaling ATM adaptation layer (the SAAL) and Node B base station control port (NCP) layer / the communication control port (CCP) layer. 每个接口协议层中通常包含有多个接口协议实体,如:ATMPort层中包含有不同端口类型的多个ATM Port协议实体,各ATM Port协议实体除端口类型以外的其它配置属性可能相同也可能不相同;并且不同ATM Port 协议实体的端口号通常不相同。 Each interface protocol layer typically comprises a plurality of interface protocols entities such as: ATMPort layer contains a plurality of different types of ATM Port port protocol entities, each ATM Port protocol entity other configurations other than the port type attribute may be the same or may They are not the same; and the port number of ATM port different protocol entity is generally not the same.

为了使两个相对接的网元彼此能够正常通信,就要保证这两个网元中配置的接口协议栈对等层中的对等接口协议实体可匹配并且可以比较成功。 In order to contact two opposite network element can communicate with each other, it is necessary to ensure that these two network elements interface protocol stack configured in the peer layer in the other entity may interface protocol matching and can be more successful. 具体而言,目前通常认为如果两个对等接口协议实体之间具有可比性,那么这两个对等接口协议实体则是可匹配的。 Specifically, the current is generally considered comparable if between two peer interface protocol entity, then the two peer interface protocol entity then be matched. 比如:如果两个网元中的ATM Port 协议实体的端口类型都是用户网络接口链接(UNILink),就称这两个ATM Port协议实体是可匹配的。 For example: If the port types ATM Port protocol entities are two network elements in the user network interface Link (UNILink), it is said that two ATM Port protocol entities are matched.

在两个接口协议实体可匹配的前提下,可以进一步判断这两个接口协议 Under the premise of two matching interface protocol entity may further determine whether these two interface protocol

实体是否可以比较成功。 If the entity can be more successful. 目前通常认为如果两个可匹配的接口协议实体具有的关键属性相同,那么这两个接口协议实体则是可以比较成功的。 Currently generally considered the same interface protocol if the two entities can be matched with a key attribute, then the two entities is the interface protocol can be more successful. 所述关键属性通常是指为所述接口协议实体配置的属性中能影响用户通信的属性,比 Generally refers to the key attribute to the attribute configuration interface protocol entity can affect the properties of the user communication, than

如:如果两个可匹配的接口协议实体的链路类型以及链路编码均相同,就称这两个接口协议实体是可以比较成功的。 Such as: If the link type and link two coding matching interface protocol entities are the same, they said these two interface protocol entity can be more successful.

当然,判断两个接口协议实体是否可以比较成功的依据也可以根据具体的应用场景而有所变化,如:不再只判断两个接口协议实体的所述关键属性是否相同,而是判断一个接口协议实体的每个配置属性是否与另一个接口协议实体的相应配置属性相同,如果均相同,就称这两个接口协议实体是可以比较成功的。 Of course, it is determined whether the two interface protocol entity may be more successful based vary depending on the specific application scenario, such as: determination not only of the two key properties are the same interface protocol entities, but an interface is determined whether each configuration protocol entity attributes and the corresponding configuration property to another entity is the same interface protocol, if are the same, we said the two interfaces protocol entities is more successful.

可见,两个接口协议实体可匹配是进一步判断这两个接口协议实体是否可以比较成功的基石出。 Visible, two interface protocol entity can match the cornerstone to further determine whether the two entities can interface protocol of the more successful.

在目前的通信网络中,只有两个相对接的网元中的所有接口对等协议层的各对等接口协议实体既匹配又可以比较成功时,这两个相对接的网元之间 In the current communication network, only two of respective interface protocol layers All other opposing contact network elements interface protocol entities and the like and can either match comparison is successful, the two opposing contact between NE

才能进行正常通信。 To enable proper communication. 因此,在最初组网以及后续进行网络调试时,通信网络中的网络管理设备(以下简称网管)就有必要针对对接网元所遵循的接口协议,对对接网元中的所有接口对等协议层的各对等接口协议实体进行匹配以及比较操作,以判断所述的各对等接口协议实体是否既匹配又可以比较成功。 Interface protocol and therefore, when the first network and the subsequent network commissioning, the network management apparatus (hereinafter referred to as NMS) in a communication network is necessary for the network element butt followed for all other docking interface protocol layer in the network element each peer interface protocol entities matching and comparison operations to determine whether each peer entity of the interface protocol matching and can either successful.

目前,网管对两个对接网元中的接口协议实体进行匹配及比较时,通常针对这两个对接网元中的同类型接口协议实体进行匹配及比较,具体的匹配及比较方法为:假设第一网元与第二网元相对接,网管选取第一网元中类型为A的接口协议实体a,并遍历第二网元中类型为A的各接口协议实体,判断各接口协议实体中是否有某个接口协议实体与接口协议实体a可匹配,如果没有,网管则确定第一网元与第二网元无法正常对接;如果有,网管则进一步判断接口协议实体a与可匹配的所述接口协议实体是否可以比较成功。 When present, the two butted network interface protocol network elements and entities matching comparison, typically performed for both abutting network element interface protocol entities of the same type of comparison and matching, and matching specific comparison method is: Suppose the first a second network element NE with the relative access, select the first network element in the network interface protocol entity of type a, a, and traverse the second network element interfaces of type a protocol entity of the protocol entity determines whether each interface protocol entity has an interface with the interface protocol entity can be a match, if not, it is determined that the first network and the second network element NE can not properly docked; if, then further determines the network interface protocol entity can be matched with a Is the interface protocol entity can be more successful.

如果无法比较成功,网管则确定第一网元与第二网元无法正常对接;如果可以比较成功,网管则再选取第一网元中类型为A的除接口协议实体a以外的某个接口协议实体,如:接口协议实体b,并遍历第二网元中类型为A的各接口协议实体,判断各接口协议实体中是否有某个接口协议实体与接 If not successful, it is determined that the first network and the second network element NE can not properly docked; If successful, the network interface protocols and select a first network element other than the type A interface protocol entity other than a entities, such as: the interface protocol entity B, and the second traverse each network element of type a interface protocol entity determines whether there is an interface protocol entity and the access interface protocol entities of

口协议实体b可匹配,如果没有,网管则确定第一网元与笫二网元无法正常对接;如果有,网管则进一步判断接口协议实体b与可匹配的所述接口协议实体是否可以比较成功。 B may interface protocol matching entity, if not, it is determined first mesh network element NE with Zi two docking not normal; If yes, then the network entity is further determined interface protocol of the interface protocol b mateable whether successful entity may .

如果无法比较成功,网管则确定第一网元与第二网元无法正常对接;如果可以比较成功,网管则再选取第一网元中类型为A的除接口协议实体a、 接口协议实体b以外的某个接口协议实体,如:接口协议实体c,并遍历第二网元中类型为A的各接口协议实体,判断各接口协议实体中是否有某个接口协议实体与接口协议实体c可匹配…...以此类推,如果网管最终确定第一网元中类型为A的各接口协议实体与第二网元中类型为A的各接口协议实体分别可匹配并且可以比较成功,网管则应用上述的相同方法继续判断第一网元中除类型A以外其它类型的各接口协议实体与第二网元中相同类型的各接口协议实体,是否分别可匹配并且可以比较成功,如果既可匹配又可 If not successful, it is determined that the first network and the second network element NE can not properly docked; If successful, the network and select a first network element other than the type of interface protocol entity A, a, b interface protocol entity an entity of the interface protocol, such as: c interface protocol entity, and the second traverse each network element of type a interface protocol entity determines whether there is an interface protocol interface protocol entity and each entity c may match the interface protocol entities ... ... and so on, if the network determines the final element of the type of network protocol interfaces for each entity a protocol entity and the second network element interfaces of type a are matched and may be successful, the network management application same manner as described above continue to determine the first wire element in the type a except other types of interfaces protocol entity and the second NE entity same protocol type for each interface whether each match and may be successful, and if both match can

以比较成功,网管则确定第一网元与第二网元可以正常对接;否则,网管则确定第一网元与第二网元无法正常对接。 To compare the success of network management is determined first network element and the second element may be normal docking; otherwise, the network is determined first network element and the second network element can not dock properly.

由于目前通常将各个接口协议实体作为管理对象(MO)进行维护和管理,所以也可以将上述对接网元上的接口协议实体的匹配和对接方法看作是对接网元上的MO的匹配和比较方法。 As the current of each interface protocol entity typically be maintained and managed as managed objects (MO), it may be matched docking interfaces and protocol entity on the network element butt seen match and compare the MO on the docking NE method.

由以上所述可见,目前应用的对接网元上的MO的匹配和比较方法,需要网管做过多的MO遍历操作,使得网管不得不进行大量且复杂的数据计算操作,导致网管的匹配和比较效率较低,降低了网管的运行性能。 Seen from above, the MO method of comparison and matching network element butt present application, an MO needs to do too much network traversal operation, so that the NMS have extensive and complex data computation operations, and comparison results in a match NMS low efficiency and reduce the operational performance of the network.

发明内容 SUMMARY

有鉴于此,本发明的主要目的在于提供一种对接网元上的管理对象匹配和比较的实现方法,以提高匹配和比较搮作的效率。 In view of this, the main object of the present invention to provide a match on a managed object network element butt and comparison implemented method to improve efficiency for the match and compare Li.

为达到上述目的,本发明的技术方案是这样实现的:本发明公开了一种对接网元上的管理对象匹配和比较的实现方法,该方法包括以下步骤:a. 依据对接的第一网元与第二网元中接口协议实体承载关系,针对第一网元和第二网元中的接口协议实体分别以树形结构建立协议树;b. 在建立的协议树中,针对第一网元的一棵协议树的一级节点,逐个遍历第二网元的每棵协议树的同级节点,判断是否有一棵协议树上的同级节点与第一网元的所述协议树的所述节点匹配并比较成功,如果有,则进入步骤c;否则,网管则确定第一网元和第二网元无法正常对接并结束本流程;c. 判断第一网元和第二网元的所述两棵协议树上是否还有尚未匹配和比较的节点,如果有,则进入步骤d;否则,网管确定所述两棵协议树能够匹配并能够比较成功,结束本流程;d. 判断所述两棵 To achieve the above object, the technical solution of the present invention is implemented as follows: The present invention discloses a managed object matches a network element butt and comparison implemented method, the method comprising the steps of:. A first network element butt basis and the second NE interface protocol bearer entity relationships, each entity in a tree structure for tree establishment protocol first network element and a second network element interface protocol;. b tree established in the protocol, for the first network element the sibling nodes of a node of a tree protocol, the second network element traversed by one each of them sibling node tree protocol, determines whether there is an agreement with the protocol tree tree of the first network element matching nodes and more successful, if yes, goes to step C; otherwise, it is determined that the first network and the second network element NE can not properly butted, and the process ends;. c Analyzing the first network element and the second network element said protocol whether two trees had not been matched and the comparison node, if there is, the process proceeds to step D; otherwise, determining that the two network management protocols and the tree can be matched can be successful, the process ends;. d Analyzing the two 协议树上尚未匹配和比较的同一级节点,是否匹配并能够比较成功,如果是,则返回步骤c;否则,网管确定第一网元和第二网元无法正常对接。 Tree protocol has not been matched and compared with a node, and the ability to match more successful, and if so, step c is returned; otherwise, the first network element and network management to determine the second network element can not dock properly. 步骤b中,所述节点是所述协议树的根节点,步骤d中尚未匹配和比较的同一级节点是上一次匹配和比较节点的下一级节点。 In step b, the node is the root node of the tree protocol, has not been matched in step d and a comparison of the same node is a node on a next time comparison and matching of nodes. 步骤b中,所述节点是所述协议树的叶子节点,步骤d中尚未匹配和比较的同一级节点是上一次匹配和比较节点的上一级节点。 In step b, the node is a leaf node of the tree protocol, and step (d) has not been matched with a node of the comparison is a match, and the nodes on a comparison node. 步骤c中,判断出所述两棵协议树上没有尚未匹配和比较的节点后,该方法进一步包括:所述两棵协议树上的各级节点根据曾进行匹配和比较的方向,逐级反向发出成功返回值。 Step (c), it is determined that the two node tree protocol does not yet match and compare, the method further comprising: said two levels depending on the direction the tree node has protocol matching and comparison, anti stepwise successful return of value to the issue. 步骤b和步骤d中,判断出所述节点既匹配又能够比较成功后,网管进一步发出成功返回值。 After steps b and d, it is determined that the node is able to compare and match both successful, the NMS issue further successful return value. 步骤b和/或步骤d中,在所述两棵协议树上的每一棵协议树上至少有两个所述同级节点,判断所述节点是否匹配的方法是:网管判断所述两棵协议树中一棵协议树上的所述各同级节点,是否分别与另一棵协议树上的所述各同级节点具有相同的端口类型,如果是,网管则确定所述两棵协议树上的所述同级节点能够匹配;否则,网管则确定所述两棵协议树上的所述同级节点不匹配。 Step b and / or step d, for each one of the two protocols in the protocol tree tree with at least two of the peer nodes, the node determines whether the matching method is: determining whether the two network management a protocol of the protocol tree sibling node of each tree, whether each port has the same protocol type as the other one of each sibling node of the tree, and if so, determining that the two network management tree protocol the peer nodes can be matched; otherwise, determining that the peer network node of the tree does not match the two protocols. 对接的所述第一网元和第二网元分别是无线网络控制器RNC和基站NodeB;或均为RNC。 Abutting the first network element and a second network element are the radio network controller RNC and the NodeB base station; or both RNC. 与现有技术相比,本发明所提供的对接网元上的管理对象匹配和比较的实现方法,依据对接的第一网元与第二网元中接口协议实体之间的承载关系,针对第一网元和第二网元中的接口协议实体分别以树形结构建立协议树,并且根据建立的所述协议树的树形结构判断第一网元和第二网元的各协议树上的同级节点是否分别可匹配并可比较成功,以确定第一网元和第二网元的协议树是否可匹配以及可比较成功,并可最终确定第一网元和第二网元是否可正常对接。 Compared with the prior art, the object management network element butt matches provided by the present invention and comparative implemented method, according to the relationship between the carrier abutting the first network element and the second network elements interface protocol entity, for the first network element and a second network element interface protocol entities can establish a tree structure tree protocol, and determines whether each tree protocol first network element and a second network element of said tree structure according to an established protocol tree whether siblings were more successful matches and to determine whether the first network element and a second network element tree protocol matching and can be successful, and ultimately determine the first network element and a second network element whether normal docking. 本发明方法明显提高了匹配和比较操作的效率,进而提高了网管的运行性能。 The method of the present invention significantly improves the efficiency of the matching and comparison operations, thereby improving the operating performance of the network. 附图说明图i为Iub接口协议层的组成图;图2为本发明一较佳实施例的对接网元上的管理对象匹配和比较原理图;图3为本发明另一较佳实施例的对接网元上的管理对象匹配和比较原具体实施方式下面结合附图及具体实施例对本发明详细说明。 BRIEF DESCRIPTION OF DRAWINGS FIG i is a composition diagram Iub interface protocol layer; FIG. 2 of the present invention on the docking managed object matching a preferred embodiment of the network element and comparison principle; Figure 3 shows another preferred embodiment of the invention, docking object management NE dETAILED match and compare the original drawings and embodiments below with specific embodiments of the present invention is described in detail embodiments. 本发明公开的对接网元上的管理对象匹配和比较的实现方法包括以下步骤:a.依据对接的第一网元与第二网元中接口协议实体承载关系,针对第一网元和第二网元中的接口协议实体分别以树形结构建立协议树;理图b. 在建立的协议树中,针对第一网元的一棵协议树的一级节点,逐个遍历第二网元的每棵协议树的同级节点,判断是否有一棵协议树上的同级节点与第一网元的所述协议树的所述节点匹配并比较成功,如果有,则进入步骤c;否则,网管则确定第一网元和第二网元无法正常对接并结束本流程;c. 判断第一网元和第二网元的所述两棵协议树上是否还有尚未匹配和比较的节点,如果有,则进入步骤d;否则,网管确定所述两棵协议树可匹配并可比较成功,结束本流程;d. 判断所述两棵协议树上尚未匹配和比较的同一级节点,是否匹配并可比较成功,如 The present invention is disclosed on the docking object matching management NE and comparison implemented method comprising the steps of:. A first network element based on the second network element butt interface protocol entity in bearing relationship against the first network element and a second network elements interface protocol entities can establish a tree structure tree protocol; b schematics protocol established in the tree, a tree nodes a protocol for a first network element, the second network element traversed by one each. siblings trees tree protocol, the protocol determines whether there is a tree node and the sibling node matches the protocol of network element tree and more successful, if yes, goes to step C; otherwise, the network determining the first network element and a second network element can not be properly docked and the process ends;. c Analyzing the first network element and said second network element if there are two protocol tree nodes and has not been matched in the comparison, if there is , step D; otherwise, determining that the two network management protocol tree matches and more successful, the process ends;. d Not determined the two tree protocol matching and comparison with a node matches may more successful, such as 果是,则返回步骤c;否则,网管确定第一网元和第二网元无法正常对接。 If so, step c is returned; otherwise, the first network element and network management to determine the second network element can not dock properly. 参见图2,图2为本发明一较佳实施例的对接网元上的管理对象匹配和比较原理图。 Referring to FIG. 2, FIG. 2 is a match and compare management object on the docking schematic NE preferred embodiment of the present invention. 图2中,无线网络控制器(RNC) 200与基站Node B 220对接,Physical Port 211、 Physical Port 212、 Physical Port 213 4乍为ATM Port 210的承载,Physical Port 211、 Physical Port 212作为ATM Port 209的承载;ATM Port 209作为SAAL 205以及SAAL 206的承载,ATM Port 210作为SAAL 207 以及SAAL 208的承载;SAAL 205作为CCP 201的承载,SAAL 206作为CCP 202的承载,SAAL 207作为CCP 203的承载,SAAL 208作为NCP 204 的承载。 In FIG 2, a radio network controller (RNC) 200 and Node B 220 docking station, Physical Port 211, Physical Port 212, Physical Port 213 4 carries ATM Port 210 is at first in, Physical Port 211, Physical Port 212 as ATM Port 209 carrier; ATM Port 209 as a SAAL 205 and a carrier SAAL 206 is, ATM Port 210 as a SAAL 207 and SAAL 208 bearers; SAAL 205 as CCP 201 bearer, SAAL 206 as the bearer CCP 202 is, SAAL 207 as CCP 203 bearer , SAAL 208 NCP 204 as the carrier. Node B 220中的纵向及斜向实线表示Node B 220中各MO之间存在的承栽关系:Physical Port 231 、 Physical Port 232、 Physical Port 233作为ATM Port 230的承载,Physical Port 231 、 Physical Port 232作为ATM Port 229的承载;ATM Port 229作为SAAL 225以及SAAL 226的承载,ATM Port 230 作为SAAL 227以及SAAL 228的承载;SAAL 225作为CCP 221的承载, SAAL 226作为CCP222的承载,SAAL 227作为CCP 223的承载,SAAL 228 作为NCP 224的承载。 Longitudinal and diagonal solid line indicates the Node B 220 Node B 220 bearing plant in relation exists between the MO: Physical Port 231, Physical Port 232, Physical Port 233 as the bearer of the ATM Port 230, Physical Port 231, Physical Port 232 as ATM Port bearer 229; ATM Port 229 as the bearer SAAL 225 and SAAL 226 is, ATM Port 230 as a SAAL 227 and SAAL 228 bearer; SAAL 225 as CCP 221 bearer, SAAL 226 as CCP222 bearer, SAAL 227, as CCP 223 bearer, SAAL 228 NCP 224 as the carrier. RNC 200与Node B 220之间的横向实线表示RNC 200中的MO与NodeB220中的MO之间的匹配及比较关系,由4黄向实线相连的两个MO应可匹配并可以比较成功。 Transverse solid lines between RNC 200 and Node B 220 and the comparison indicates a match relationship between the MO and NodeB220 RNC 200 is in the MO, a MO 4 two yellow solid line to be connected to and may be more successful matching. 为了方便进行匹配和比较操作,网管要依据RNC 200与Node B 220中各MO之间的承载关系,针对RNC 200与Node B 220中的MO分别以树形结构建立协议树,所述建立协议树的方法与目前广泛应用的建立数据树形结构的方法相同。 To facilitate matching and comparison operations, the carrier network according to the relationship between the MO RNC 200 and Node B 220 are, respectively, a tree structure for establishing tree protocol RNC and Node B 220 in the MO 200, the establishing tree protocol the method and method for establishing a data tree structure of the widely used is the same. 如:网管选取RNC 200中最上层的接口协议层中的一个CCP 201作为一棵协议树的根节点,并描述该根节点的数捧结构;之后网管在CCP 201 所在的接口协议层的下一协议层中,查找到与CCP 201存在承载关系的SAAL205,将SAAL205作为所述根节点的子节点,并描述该子节点的数据结构,以此类推,直到网管将Physical Port 21 l和Physical Port 212作为所述协议树的叶子节点为止,网管就建立了一棵接口协议树。 Such as: Select the network protocol layer 200 of the uppermost one of the interfaces CCP 201 RNC protocol as a root node of the tree, and the root number described holding structure; NM after the next interface protocol layer is located in the CCP 201 layer protocol, found SAAL205 presence-CCP relationship with carrier 201, the SAAL205 the root node as child nodes and the data structure describing the sub-node, and so on until the network and the Physical Port 21 l Physical Port 212 as it reaches a leaf node of the tree protocols, network interface protocol on the establishment of a tree. 当然,网管还要为协议树中的父节点添加其子节点的特征描述;同样,网管还要为协议树中的子节点添加其父节点的特征描述。 Of course, the network also add features described as its child nodes parent node tree protocol; Similarly, the NMS also add features described parent node child node tree protocol. 由RNC 200与Node B 220中的各MO之间的承载关系可知,RNC 200 以及Node B 220中会分别建立四棵协议树。 Seen from the relationship between the carrier MO RNC 200 and the Node B 220, RNC 200 and Node B 220 will establish four tree protocol, respectively. 针对RNC 200而言,以CCP 201为根节点的协议树的第二级节点为SAAL 205,第三级节点为ATM Port 209,第四级节点为作为叶子节点的Physical Port 211和Physical Port 212;以CCP 202为根节点的协议树的第二级节点为SAAL206,第三级节点为ATMPort209,第四级节点为作为叶子节点的Physical Port 211和Physical Port 212;以CCP 203为根节点的协议树的第二级节点为SAAL 207,第三级节点为ATM Port 210,第四级节点为作为叶子节点的Physical Port 211、 Physical Port 212和Physical Port 213;以NCP204为根节点的协议树的第二级节点为SAAL 208,第三级节点为ATM Port210,第四级节点为作为叶子节点的PhysicalPort211、 Physical Port 212 和Physical Port 213。 For the RNC 200, the CCP 201 to the second stage as the root node of the tree protocol is SAAL 205, third level node ATM Port 209, the fourth stage of the node is a leaf node and a Physical Port 211 Physical Port 212; CCP 202 is a root node in the tree protocol a second stage node SAAL206, third level nodes ATMPort209, as a fourth-level node is a leaf node and a Physical Port 211 Physical Port 212; CCP 203 to the root node of the tree protocol a second stage node SAAL 207, a third-level node ATM Port 210, a fourth level node is a leaf node as Physical Port 211, Physical Port 212 and Physical Port 213; NCP204 as the root node in the second tree protocols level node SAAL 208, third level node ATM Port210, the fourth stage of the node is a leaf node PhysicalPort211, Physical Port 212 and a Physical Port 213. 针对Node B 220而言,以CCP 221为根节点的协议树的第二级节点为SAAL 225,第三级节点为ATM Port 229,第四级节点为作为叶子节点的Physical Port 231和Physical Port 232;以CCP 222为根节点的协议树的第二级节点为SAAL226,第三级节点为ATM Port 229,第四级节点为作为叶子节点的Physical Port 231和Physical Port 232;以CCP 223为根节点的协议树的第二级节点为SAAL 227,第三级节点为ATM Port 230,第四级节点为作为叶子节点的Physical Port 231、 Physical Port 232和Physical Port 233;以NCP224为根节点的协议树的第二级节点为SAAL 228,第三级节点为ATM Port230,第四级节点为作为叶子节点的Physical Port 231、 Physical Port 232 和Physical Port 233。 For Node B 220, the CCP 221 to the root node of the tree protocol second stage node SAAL 225, third level node ATM Port 229, the fourth stage of the node is a leaf node and a Physical Port 231 Physical Port 232 ; CCP 222 to the root node of the tree protocol second stage node SAAL226, third level node ATM Port 229, the fourth stage of the node is a leaf node and a Physical Port 231 Physical Port 232; as a root to CCP 223 the second-level node tree protocol is SAAL 227, third level node ATM Port 230, the fourth stage of the node is a leaf node Physical Port 231, Physical Port 232 and a Physical Port 233; NCP224 to as the root node of the tree protocol a second stage node SAAL 228, third level node ATM Port230, the fourth stage of the node is a leaf node Physical Port 231, Physical Port 232 and a Physical Port 233. 在进行匹配和比较操作时,网管针对RNC200的一棵协议树的端节点, 逐个遍历Node B 220的每棵协议树的同级侧端节点,判断RNC 200的所述协议树的端节点是否可与Node B 220的一棵协议树的端节点匹配并比较成功。 And if the match during the comparison operation, the NMS for the end node RNC200 a tree protocols, each of them one by one protocol tree traversal Node B 220 side end sibling node, the RNC determines the protocol tree 200 may end node end node and a protocol tree node B 220 and relatively successful match. 所述端节点可以是协议树的根节点或叶子节点。 Said end node may be a root node or leaf node tree protocol. 当所述端节点是协议树的根节点时,上述的判断操作在图2中可以是: 网管针对RNC 200的CCP 201,逐个遍历Node B 220的每棵协议树的根节点,判断CCP 201是否可与Node B 220的某棵协议树的根节点匹配并比较成功,如果CCP 201与Node B 220的任何一棵协议树的根节点都不匹配或无法比较成功时,网管则结束匹配和比较操作并确定RNC 200与NodeB 220 无法正常对接;如果CCP 201与Node B 220的一棵协议树的根节点既匹配又可比较成功,如:CCP201与CCP221既匹配又可比较成功,网管则判断CCP201与CCP221的子节点是否既匹配又可比较成功,即:SAAL 205与SAAL 225是否既匹配又可比较成功。 When the end node is a root node of the tree protocol, the above-described determination operation in FIG. 2 may be: the network management for the RNC CCP 201 200, each of them one by one protocol traverse the tree root Node B 220, the CCP 201 judges whether the and a Node B may be tree protocol matching tree root node 220 and relatively successful, CCP 201 if the root node and any of a protocol tree Node B 220 does not match or not successful, the end of the matching network and the comparison operation and determining the RNC 200 and the NodeB 220 can not be properly docked; CCP 201 if the root node with a Node B tree protocol 220 both turn successful match, such as: CCP201 ​​CCP221 matches both turn and successful, the network is determined CCP201 whether CCP221 child nodes both matches but also more successful, namely: whether SAAL 205 and SAAL 225 both matches but also more successful. 如果SAAL 205与SAAL 225不匹配或无法比较成功,网管则结束匹配和比较操作并确定RNC 200与Node B 220无法正常对接;如果SAAL 205 与SAAL 225匹配并可比较成功,网管则判断是否还有下一级节点没有进行匹配和比较操作,当网管根椐协议树结构确定两棵协议树的所有节点都已完成匹配和比较操作时,则确定这两棵协议树匹配并可比较成功;否则,网管则判断SAAL 205与SAAL225的子节点是否既匹配又可比较成功,即:ATM Port 209与ATM Port 229是否既匹配又可比较成功。 If SAAL 205 and SAAL 225 does not match or not successful, the end of the matching network and the comparison operation and determines the RNC 200 and the docking Node B 220 can not properly; SAAL 205 and if the match can be successful SAAL 225, it is determined if there are NM a node does not match the comparison operation and, when all network nodes tree root tree protocol to determine two tree protocol matching and comparison operations have been completed, it is determined that the protocol tree matching and two successful; otherwise, NMS is determined SAAL225 SAAL 205 and child node matches the turn both successful, namely: ATM Port 209 and if both match ATM Port 229 in turn successful.

如果ATM Port 209与ATM Port 229不匹配或无法比较成功,网管则结束匹配和比较操作并确定RNC200与Node B 220无法正常对接;如果ATM Port 209与ATM Port 229匹配并可比较成功,网管则判断是否还有下一级节点没有进行匹配和比较操作,当网管根据协议树结构确定两棵协议树的所有节点都已完成匹配和比较操作时,则确定这两棵协议树匹配并可比较成功; 否则,网管则判断ATM Port 209与ATM Port 229的子节点是否既匹配又可比4交成功,即:Physical Port 211、 Physical Port 212是否分别与Physical Port 231、 Physical Port 232匹配并可比较成功。 If ATM Port 209 does not match with the ATM Port 229 or not successful, the end of the matching network and the comparison operation and determines the RNC200 not dock with the Node B 220 properly; if ATM Port 209 and ATM Port 229 and compare the matching is successful, then the network is determined if there are no matching next level node and comparison operations, all the nodes when the network protocols in accordance with a tree structure to determine two tree protocol matching and comparison operations have been completed, you are determined that the protocol tree matching and two relatively successful; otherwise, it is determined whether or not the NMS and ATM Port ATM Port 209 child node 229 both turn ratio of 4 cross-matching is successful, i.e.: Physical Port 211, respectively, whether the Physical Port 212 Physical Port 231, Physical Port 232 and relatively successful matching.

具体的判断方法为:网管先判断Physical Port 211、 Physical Port 212是否可分别与Physical Port 231和Physical Port 232匹配,如果不匹配,网管则结束匹配和比较操作并确定RNC 200与Node B 220无法正常对接;如果匹配,如:Physical Port 211与Physical Port 231匹配、Physical Port 212与Physical Port 232匹配,网管则进一步判断Physical Port 211与Physical Port 231是否可比较成功、Physical Port 212与Physical Port 232是否可比较成功, 如果均可比较成功,网管则判断是否还有下一级节点没有进行匹配和比较操作,当网管根据协议树结构确定两棵协议树的所有节点都已完成匹配和比较操作时,则确定这两棵协议树匹配并可比较成功;如果有的Physical Port无法比较成功,网管则结束匹配和比较操作并确定RNC 200与Node B 220无法正常对接。 Specific determination method: NM first determine Physical Port 211, Physical Port 212 whether respectively Physical Port 231 Physical Port 232 match and, if not match, the network management terminates the matching and comparison operation and determines the RNC 200 and Node B 220 can not normally docking; If the match, such as: Physical Port 211 and Physical Port 231 match, Physical Port 212 and Physical Port 232 matching network is further judged Physical Port 211 and Physical Port 231 whether successful, Physical Port 212 and Physical Port 232 whether more successful, if successful can, there is determined whether the network node is not a match and compare operation, when all the nodes of the tree network is determined two protocols have been completed according to the protocol tree structure match and compare operation, this two tree protocol to determine the matching and more successful; Physical Port, if any, can not be successful, then the end of the match and compare network management operations and to determine the RNC 200 and Node B 220 can not dock properly.

可见,上述的判断方法是对同级的各节点先统一判断是否可分别匹配, 再在各节点可分别匹配的情况下进一步判断匹配的节点是否可比较成功。 Be seen, the above-described determination method is the same level of each node determines whether to be matched are unified, and further determines whether a node matches may be successful in the case of each node can be matched separately.

当然,也可以先只判断一对节点是否匹配,再在这对节点可匹配的情况下进一步判断这对节点是否可比较成功,如果可比较成功,则再用相同方法判断同级的其它各对节点是否匹配并可比较成功,具体的判断方法为:判断Physical Port 231和Physical Port 232中是否有一个Physical Port与Physical Port 211匹配并比较成功,如果没有,网管则结束匹配和比较操作并确定RNC 200与Node B 220无法正常对接;如果有一个Physical Port与Physical Port 211匹配并比较成功,如:Physical Port 231与Physical Port 211 匹配并比较成功,网管则再针对Physical Port 212遍历Physical Port 231和Physical Port 232,判断Physical Port 231和Physical Port 232中是否有一个Physical Port与Physical Port 212匹配并比较成功。 Of course, only be determined whether to match a pair of nodes, and further determines whether or not this node may in case of successful matches that of the node, if successful can, and then the same determination method similar to each other and if the node matches successful specific determination method: 232 determines whether the Physical Port 231 and there is a Physical Port Physical Port Physical Port 211 and relatively successful match and, if not, the end of the matching network and the comparison operation and determines the RNC 200 and Node B 220 not docked normal; if 211 matches a Physical Port and Physical Port and relatively successful, such as: Physical Port 231 and the Physical Port 211 match and more successful, the network management is then Physical Port 212 traverse Physical Port 231 and Physical for Port 232, 232 determines whether the Physical Port 231 and a Physical Port Physical Port Physical Port 212 and match and more successful.

如果没有,网管则结束匹配和比较操作并确定RNC 200与NodeB 220 无法正常对接;如果有一个Physical Port与Physical Port 212匹配并比较成功,如:Physical Port 232与Physical Port 212匹配并比较成功,网管则判断是否还有下一级节点没有进行匹配和比较操作,当网管根据协议树结构确定两棵协议树的所有节点都已完成匹配和比较操作时,则确定这两棵协议树匹配并可比较成功。 If not, the network ends the matching and comparison operation and determines the RNC 200 and NodeB 220 not docked normal; if there is a Physical Port and Physical Port 212 match and relatively successful, such as: Physical Port 232 and the Physical Port 212 match and more successful, NM it is determined whether there is a node does not match the comparison operation and when all the nodes of the tree network determines two protocols have been completed according to the protocol tree structure matching and comparison operations, it is determined that two trees match the protocol and compare success.

在实际应用中进行上述匹配和比较操作时,网管可以在通过所述判断获知所述节点可匹配并可比较成功时发出成功返回值,操作人员可以根据该成功返回值确定所述节点可比较成功。 When the matching and comparison operations in practical applications, the network may be issued by a successful return value when the determination node may be informed of the successful match and compare, the operator can return successfully to the determination value based on the successful node . 因此,操作人员在网管针对两棵协议树上的所有节点都发出成功返回值后,才能确定这两棵协议树可匹配并可比较成功。 Therefore, operators in network management for all nodes in the tree are two protocols issued after the successful return value to determine which trees can match the two protocols can be more successful.

当然,网管在通过所述判断获知所述节点可匹配并可比较成功时也可以不直接发出成功返回值,而是判断一下可比较成功的节点是否还有子节点, 如果没有,则发出针对该节点的成功返回值;如果有,则要在确定了父节点的子节点可比较成功时向该父节点发出成功返回值,该父节点收到成功返回值后进一步向其上一级节点发出成功返回值。 Of course, the network may not be issued directly successful return value when said determination node may match the known and relatively successful, but a judgment may be more successful if there is a child node of the node, if not, issue for the the success return value of a node; if so, will have to issue in determining the parent node to the child node of the parent node may compare the return value success successful, which is further sent to its parent node receives the node after a successful return value success return value. 这样,网管就会在确定了接口协议树中的叶子节点可比较成功时逐级向上一级节点发出成功返回值,直到根节点收到来自其子节点的成功返回值时,发出该成功返回值。 Thus, the network will be determined interface protocol tree leaf node may be a node sends stepwise upwardly successful successful return value, until the root node successfully receives from the return value of its child nodes, issue the successful return value . 因此,操作 Therefore, the operation

人员只需要根据该根节点最终发出的成功返回值就可以确定两棵协议树可匹配并可比较成功。 Need only be returned value is determined tree may match the protocol and two successful based on the success of the root node ultimately sent. 可见,经过上述操作后,网管就完成了针对根节点为CCP201的协议树与根节点为CCP 221的协议树的匹配和比较操作,网管针对RNC 200的其它协议树与Node B 220的其它协议树的匹配和比较操作与上述相应操作的方法相同。 Visible, after the above operation, the network is completed for the root node and the tree root CCP201 ​​protocol matching and comparison tree protocol CCP 221 operations for network management protocols other RNC and Node B tree tree 200 other protocols 220 and matching said corresponding comparison operation is the same operation method. 当网管根据建立的所述协议树的结构确定RNC 200的所有协议树与Node B 220的所有协议树可分别匹配并可比较成功时,网管确定RNC 200与Node B 220可以正常对接。 NMS is determined when the RNC and Node B tree all protocols all protocols tree 200, respectively 220 and relatively successful matches to the protocol of the tree structure according to established network determines Node B 220 and RNC 200 can properly docked.

当然,当所述端节点是协议树的叶子节点时,网元针对RNC 200的协议树与Node B 220的协议树进行的匹配和比较操作,与上述的相应匹配和比较方法相同,唯一的区别在于这时进行匹配和比较的方向不再是由协议树的根节点到叶子节点,而是由协议树的叶子节点到根节点。 Of course, when the end node is a leaf node of the tree protocol, the network element matching and comparison operations for the RNC and Node B 200 protocol tree protocol tree 220, the above-described respective matching method and the same comparison, the only difference and in that the comparison time direction is no longer matched by the protocol of the tree root node to the leaf node, but by a leaf node to the root node of the tree protocol.

由以上所述可知,网管在进行所述匹配和比较操作时沿着建立的所述协议树的树形结构对每一级节点进行匹配和比较,因此不用再进行过多的MO 遍历操作,使得网管不需要再进行大量、复杂的数据计算,因此匹配和比较操作的效率可得到明显提高。 , The NMS for performing understood from the above said matching and comparison operations along the tree structure of the protocol established for each tree node matches a comparison and, thus do not have undue MO traversal operation, such that network do not need to be large, complex data calculations, the efficiency of the matching and comparison operations significantly improved can be obtained.

外,也可以不按照任何顺序,而只是对两棵协议树上的各个协议对等层中的节点进行匹配和比较,如果两棵协议树上的某协议对等层中的节点无法匹配或无法比较成功,则确定两个网元无法正常对接;如果两棵协议树上的某协议对等层中的节点可匹配并可比较成功,则判断是否还有其它协议对等层中的节点没有进行匹配和比较操作,如果有,则继续进行匹配和比较操作,如杲没有,则确定两棵协议树可以匹配并可比较成功,以此类推,直到完成两棵协议树上所有节点的匹配和比较操作,并确定两棵协议树中的所有协议对等层中的各节点分别可匹配并可比较成功时,则可以确定这两棵协议树可匹配并可比较成功。 In addition, in any order or may not, but only two nodes in the protocol layers of each tree protocol like match and compare, a node layer two protocol if the protocol of the tree or not, etc. can not match successful, it is determined that two NEs can not be properly docked; if the node is a protocol layer two protocol tree and the like can be successful match, then the node determines whether there are other layers of the protocol and the like is not performed matching and comparison operations, if so, proceeds matching and comparison operations, such as Gao not, it is determined that two tree protocol may successful match, and so on, until two match and compare all nodes tree protocol operation, and to determine each node all protocol layers of the protocol tree like two respectively match and when successful, it may be determined that the tree may be two matching protocol and more successful.

参见图3,图3为本发明另一较佳实施例的对接网元上的管理对象匹配和比较原理图。 Referring to FIG. 3, FIG. 3 according to another managed object match and compare schematics on the docking NE preferred embodiment of the present invention. 图3中,RNC 300与RNC 320对接,RNC 300、 RNC 320 中的纵向及斜向实线表示RNC 300、RNC 320中各MO之间存在的承载关系,RNC 300与RNC 320之间的横向实线表示RNC 300中的MO与RNC 320中的MO之间的匹配及比较关系,由横向实线相连的两个MO应可匹配并可以比较成功。 In FIG 3, the RNC 300 and the RNC 320 docked, the RNC 300, longitudinal and oblique solid line in the RNC indicates 320 RNC 300, the RNC 320 bearing relationship exists between the MO and the lateral solid between the RNC 320 RNC 300 and comparison means match line relationship between the RNC 300 and RNC 320 of MO MO, MO are connected by two transverse lines should be solid and may be more successful match.

与图2中所述的相应方法相同,网管同样可以依据RNC 300与RNC 320 中各MO之间的承载关系,针对RNC 300与RNC 320中的MO分别以树形结构建立协议树,并针对RNC 300的协议树以及RNC 320的协议树进行匹配和比较操作,以确定RNC 300与RNC 320是否可以正常对接。 Identical to FIG. 2 according to the respective method, network management can also be, respectively, a tree structure for establishing tree protocol 300 and the RNC 320 MO RNC based on the relationship between the carrier and the RNC 320. RNC 300 each MO, and for the RNC tree protocol 300 and a protocol matching tree RNC 320 and the comparison operation to determine whether the RNC 300 and the RNC 320 can properly docked.

由图2、图3可见,假设第一网元与第二网元对接,则本发明的对接网元上的管理对象匹配和比较的实现方法,需要依据对接的第一网元与第二网元中接口协议实体之间的承载关系,针对第一网元和第二网元中的接口协议实体分别以树形结构建立协议树。 From FIG. 2, FIG. 3, assume that the first network element and a second network element butt, then the management object matching network element butt on the present invention and comparative implemented method, according to the need butt first network element and the second network the relationship between the carrier element in the interface protocol entity, respectively, a tree structure for establishing tree protocol first network element and a second network element interface protocol entity. 之后的匹配和比较操作总体可以分为三步: After match and compare operations may be divided into three steps overall:

第一步:在建立的所述协议树中,针对第一网元的一棵协议树的一级节点, 逐个遍历第二网元的每棵协议树的同级节点,判断第一网元的所述协议树的所述节点是否可与第二网元的一棵协议树的同级节点匹配并比较成功,如果两棵协议树上的所述同级节点既匹配又可比较成功,则进入第二步;如果两棵协议树上的所述同级节点不匹配或无法比较成功,网管则确定第一网元和笫二网元无法正常对接并结束本流程; Step 1: The establishment of the tree in the protocol, a node for a first network element of a tree protocol, each of them one by one sibling nodes traversing the tree protocol second network element, the first network element is determined siblings of the node matches the protocol of the tree whether the second network element a tree protocol and more successful, if the two sibling nodes of the tree matches both protocols but also successful, the process proceeds a second step; if the two sibling nodes of the tree protocol does not match the successful or not, it is determined that the first network and network element NE can not Zi two and normally abutting the end of the process;

第二步:判断第一网元和第二网元的所述两棵协议树上是否还有尚未确定可否比较成功的节点,如果还有,则进入第三步;否则,网管确定所述两棵协议树可匹配并可比较成功,结束本流程; Step two: determining whether the first network element and a second network element of the two protocols to determine whether the trees had not been successful in the node, if there is, the process proceeds to a third step; otherwise, determining that the two network management trees tree protocol may be more successful match, the process ends;

第三步:判断所述两棵协议树上尚未确定是否可比较成功的同一级节点,是否匹配以及是否可比较成功,当判断出所述同一级节点既匹配又可比较成功时,则返回第二步;当判断出所述同一级节点不匹配或无法比较成功时,网管则确定第一网元和第二网元无法正常对接。 The third step: determining whether the two tree protocol has not been determined whether more successful with a node matches may be successful, and if, when it is determined that the matching node with both a successful turn, the return two steps; and when it is determined that the mismatch or not successful with a node, it is determined that the first network element network and the second network element can not be properly docked.

网管可应用上述方法完成第一网元和第二网元的所有协议树的匹配和比较操作,以确定第一网元和第二网元的各协议树是否均可匹配并可比较成功,使得网管可最终确定第一网元和第二网元是否可正常对接。 Matching and comparison operations for all network protocols in the tree can be applied to the methods described above to complete the first network element and a second network element, each of the protocol to determine the first network element and the second network element and matches whether the tree can be successful, such network management may ultimately determine the first network element and the second network element whether normal docking.

可见,本发明所提供的对接网元上的管理对象匹配和比较的实现方法, 明显提高了匹配和比较操作的效率,进而提高了网管的运行性能。 Be seen, the object management network element butt on the present invention provides methods to achieve matching and comparison, significantly improve the efficiency of the matching and comparison operations, thereby improving the operating performance of the network.

Claims (7)

1、一种对接网元上的管理对象匹配和比较的实现方法,其特征在于,该方法包括以下步骤: a.依据对接的第一网元与第二网元中接口协议实体承载关系,针对第一网元和第二网元中的接口协议实体分别以树形结构建立协议树; b.在建立的协议树中,针对第一网元的一棵协议树的一级节点,逐个遍历第二网元的每棵协议树的同级节点,判断是否有一棵协议树上的同级节点与第一网元的所述协议树的所述节点匹配并比较成功,如果有,则进入步骤c;否则,网管则确定第一网元和第二网元无法正常对接并结束本流程; c.判断第一网元和第二网元的所述两棵协议树上是否还有尚未匹配和比较的节点,如果有,则进入步骤d;否则,网管确定所述两棵协议树能够匹配并能够比较成功,结束本流程; d.判断所述两棵协议树上尚未匹配和比较的同一级节点,是否 1, the managed object implementation match and compare abutting on a network element, characterized in that the method comprises the steps of:. A first network element based on the second network element interface with the interface protocol entity bearing relationship, for first network element and a second network element interface protocol entities are established in a tree structure tree protocol;. b tree established in the protocol, a node for a first network element of a protocol tree traversal by one of two sibling nodes NE tree protocol each of them, the node determines whether there is matching a peer node tree protocol with the protocol of the first network element tree and more successful, if so, proceeds to step c ; otherwise, it is determined that the first network and a second network element NE can not properly butted, and the process ends;. c determines the first network element and a second network element protocol two trees match and compare whether there not node, if so, the process proceeds to step D; otherwise, determining that the two network management protocols and the tree can be matched can be successful, the process ends;. d Not determined the two tree protocol matching and comparison with a node ,whether 配并能够比较成功,如果是,则返回步骤c;否则,网管确定第一网元和第二网元无法正常对接。 Equipped and capable of more successful, and if so, step c is returned; otherwise, the first network element and network management to determine the second network element can not dock properly.
2、 如权利要求l所述的方法,其特征在于,步骤b中,所述节点是所述协议树的根节点,步骤d中尚未匹配和比较的同一级节点是上一次匹配和比较节点的下一级节点。 2. The method of claim l, wherein, in step b, the node is a root node of the tree protocol, and step (d) has not been matched with a node of the comparison is a match and compare the node next-level node.
3、 如权利要求l所述的方法,其特征在于,步骤b中,所述节点是所述协议树的叶子节点,步骤d中尚未匹配和比较的同一级节点是上一次匹配和比较节点的上一级节点。 3. The method of claim l, wherein, in step b, the node is a leaf node of the tree protocol, and step (d) has not been matched with a node of the comparison is a match and compare the node on one node.
4、 如权利要求2或3所述的方法,其特征在于,步骤c中,判断出所述两棵协议树上没有尚未匹配和比较的节点后,该方法进一步包括:所述两棵协议树上的各级节点根据曾进行匹配和比较的方向,逐级反向发出成功返回值。 4, A method as claimed in claim 2 or claim 3, wherein step (c), it is determined that the two tree protocol nodes not yet match and compare, the method further comprising: said two tree protocol the nodes on the levels have to match the direction and comparisons, reverse stepwise return the value sent successfully.
5、 如权利要求1至3任一项所述的方法,其特征在于,步骤b和步骤d中,判断出所述节点既匹配又能够比较成功后,网管进一步发出成功返回值。 5. A method as claimed in any one of claims 1 to 3, wherein steps b and d, it is determined that the matching of the nodes and both can be successful, a successful return value sent further network.
6、 如权利要求1至3任一项所述的方法,其特征在于,步骤b和/或步骤d 中,在所述两棵协议树上的每一棵协议树上至少有两个所述同级节点,判断所迷节点是否匹配的方法是:网管判断所述两棵协议树中一棵协议树上的所述各同级节点,是否分别与另一棵协议树上的所述各同级节点具有相同的端口类型,如果是,网管则确定所述两棵协议树上的所述同级节点能够匹配;否则,网管则确定所述两棵协议树上的所述同级节点不匹配。 6. A method as claimed in any one of claims 1 to 3, characterized in that, in step b and / or step (d), each one of the two protocols in the protocol tree with at least two of said tree peer node, the method determines if the matching node is lost: a tree in the tree protocol to determine whether the network protocol for each two sibling nodes, respectively, whether the other trees with the protocol with a respective level nodes having the same port type, and if so, determining that the peer network node of the tree is possible to match the two protocols; otherwise, determining that the peer network node of the tree does not match the two protocols .
7、 如权利要求1至3任一项所述的方法,其特征在于,对接的所述第一网元和第二网元分别是无线网络控制器RNC和基站Node B;或均为RNC。 7. A method as claimed in any one of claims 1 to 3, characterized in that said first network element and a mating second network element are the radio network controller RNC and the base station Node B; or both RNC.
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