KR100312212B1 - Method for upgrading software of transfer system in network management system - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs

This is a technique for upgrading the software of the transmission system.

I. The technical problem to be solved by the invention

In a network management system, it provides an easy and fast way for the operator to upgrade the software of the transmission system.

All. Summary of Solution of the Invention

The present invention provides a method for upgrading software in a transmission network having at least one subnetwork and a network management system for managing the transmission network, controlling the upgrade by transferring software to a master node connected to the network management system, and the master node. When the upgrade of the end of the network, the next node in the sub-network reads the software of the master node, and if the software upgrade of the next node is terminated, if the next node, if there is a read the software from the upgraded nodes Is the process of controlling to perform the upgrade,

When there are two or more sub-nodes, the master nodes of the sub-nodes are upgraded with software first, and when the software upgrade of the master nodes is completed, the upgrade of each node constituting each sub-network is performed simultaneously.

la. Important uses of the invention

It is used to upgrade the software of transmission system in network management system.

Description

How to upgrade software of transmission system in network management system {METHOD FOR UPGRADING SOFTWARE OF TRANSFER SYSTEM IN NETWORK MANAGEMENT SYSTEM}

The present invention relates to a method of up-grading a program of a transmission system, and more particularly, to a method of upgrading a program of a transmission system in a network management system.

Typically, a transmission system refers to a device that is connected to connect an exchange with an exchange period or to facilitate signal transmission between an exchange and a home subscriber. Such a transmission system constitutes an annular network, a linear network, or a complex network of annular and linear mixtures. In addition, the networks of the transmission system are connected to each other, and is connected to one network management system. This will be described with reference to FIG. 1.

1 is a diagram illustrating a network configuration of transmission systems and a connection relationship between a transmission system and a network management system. The network management system 10 receives and manages an overall operation state of the transmission network, and is connected to each other by using a separate channel or a DCC channel for connection with the transmission system. In addition, only one transmission system 11 is connected to the network management system 10. In the following description, each transmission system is referred to as NE since each node becomes a node constituting a network. NE11 (11) connected to the network management system 10 is one element constituting the annular network, each of the transmission systems constituting the annular network with the NE11 (11) NE12 (12), NE13 (13), NE14 (14), NE15 (15), NE16 (16), NE17 (17) and the above systems are connected in the above order. The last node NE17 (17) is connected to the NE11 (11) which is a transmission system connected to the network management system (10). In addition, the transmission system NE11 (11) connected to the network management system is connected to the NE21 (21) constituting the next linear network. Since the NE21 (21) forms a linear network, NE22 (22), NE23 (23), NE24 (24), NE25 (25), and NE26 (26) are sequentially connected to the next node. In addition, the first transmission system NE31 (31) constituting the next complex network is connected to the NE21 (21). And NE32 (32), NE33 (33) are connected in a linear manner, after which the stage forms an annular network. That is, NE34 (34) is connected to the NE33 (33), then NE35 (35) is connected, NE36 (36) is connected, N37 (37) is connected, NE38 (38) is connected have. And the NE38 (38) is connected to the wing NE33 (33). And more networks can be connected afterwards.

Hereinafter, the annular network is referred to as a first sub network, the linear network is referred to as a second sub network, and the composite network is referred to as a third sub network. And in the network configuration, more sub-networks can be connected. Nodes located at the beginning of the network are called 'master nodes'.

Next, a method of performing the software of each node of the transmission network having the above configuration in the network management system 10 will be described. The operator of the network management system 10 first transmits the software to be upgraded to the NE11 (11) of the first sub network, and then the upgrade of the software is terminated under the control of the operator. The operator then transmits the program to the next node, NE12 (12), and repeats the same process again. That is, through the above process, the software of the first sub network is first upgraded. When the software upgrade of the first sub network is completed, the software of the second sub network is sequentially performed again. At this time, the method is also performed in the same manner as the method for upgrading the software in the first sub-network. In other words, there was an inconvenience in that the operator had to upgrade the program of the transmission system constituting each node of the sub-network for each node, which caused a lot of time wasted when upgrading the program.

Therefore, an object of the present invention is to provide a software upgrade method that can reduce the time when upgrading the software of the transmission system in the network management system, and can provide the convenience of the operator.

The present invention for achieving the above object is a method for upgrading the software in the network and the network management system for managing the transmission network having at least one or more sub-networks, the control to transfer the software upgrade to the master node connected to the network management system And reading the software of the master node from the next node of the sub-network when the upgrade of the master node is terminated; and upgrading the software of the next node when the next node of the sub-network is terminated. The process of controlling the upgrade by reading the software from the nodes

When there are two or more sub-nodes, the master nodes of the sub-nodes are upgraded with software first, and when the software upgrade of the master nodes is completed, the upgrade of each node constituting each sub-network is performed simultaneously.

1 is a diagram illustrating a network configuration of transmission systems and a connection relationship between a transmission system and a network management system;

2 is a view for explaining the software upgrade in the network management system according to an embodiment of the present invention;

3 is a view for explaining a process of upgrading the software in the annular sub-network in accordance with an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In addition, the same parts use the same reference numerals, although shown in other drawings, and the terminology used in the description of the prior art is also used in the present invention.

2 is a view for explaining the software upgrade in the network management system according to an embodiment of the present invention. Hereinafter, a process of performing software upgrade of transmission systems in the network management system 10 will be described in detail.

The NE11 (11), which is the master node of the first sub network, is connected to other nodes below to form a sub network, and is also connected to NE21 (21), which is a master node of the second sub network. The NE21 21 is connected to NE31 31, which is a master node of the third sub network, and the NE31 31 is connected to NE41 41, a master node of the fourth sub network. In this way, the master nodes are connected in a linear network-like structure. Next, the process of upgrading the software according to the present invention will be described. First, when an operator instructs the network management system 10 to upgrade the software and program to be upgraded to the master node NE11 (11) of the first sub network, the master node NE11 (11) of the first sub network is the network management system. Receive a program to upgrade from (10). Then, the received program is installed. When the software of the master node NE11 11 of the first sub network is upgraded through the above process, the NE11 11 notifies the network management system 10 of the completion of the upgrade. Then, after receiving this, the network management system 10 outputs a control signal to read the upgraded software from the master node NE11 (11) of the first sub-network to the master node NE21 (21) of the second sub-network. . Then, the master node NE21 (21) of the second sub network reads the upgraded software from the master node NE11 (11) of the first sub network. That is, the process of ② in FIG. 2 is performed.

Then, as described above, the master node NE21 21 of the second sub network notifies the network management system 10 that the upgrade is completed. Then, a new program to be upgraded through this process is a state in which new programs are stored in the master node NE11 (11) of the first sub-network and the master node NE21 (21) of the second sub-network. Therefore, as in step 3), the network management system 10 outputs an upgrade signal of software to the NE31 (31), which is the master node of the third sub network, and the NE41 (41, 41), which is the master node of the fourth sub network, and reads it. do. That is, the NE31 (31) reads the software to be upgraded from the NE11 (11), and the NE41 (41) reads the software to be upgraded from the NE21 (21). The installation process of the software then becomes the same. Afterwards, if there are more master nodes constituting the sub-network, each of these processes is performed. In this next process, four master nodes are upgraded at once.

3 is a view for explaining a process of upgrading the software in the annular sub-network according to an embodiment of the present invention. Hereinafter, a process of upgrading software according to the present invention will be described in detail with reference to FIG. 3.

When the software upgrade of each master node is completed from the network management system 10, the software upgrade of other nodes constituting each sub-network is performed next. This means that each sub network performs this process at the same time. This will be described through a software upgrade process of each node of the first sub-network shown in FIG.

The master node 10 of the first sub network has already been upgraded with software through the process of FIG. 2. Accordingly, the network management system 10 outputs a control signal for performing software upgrade to the node of the NE12 12 to perform the initial software upgrade of the first sub network. Then, the NE12 12 reads the software stored in the NE11 11 and performs an upgrade. When the upgrade is completed, this is notified to the network management system 10. This is the same at the time point described above in the second sub network, and the same process is performed at the same time point in the third sub network.

When the upgrade is completed as described above, since the new software is stored in the NE11 (11) and the NE12 (12), the network management system 10 outputs a control signal to read the software into the NE13 (13) and the NE14, respectively. . When the NE13 13 and NE14 14 receive the control signal, the NE13 13 and NE14 14 read software from each corresponding transmission system and perform upgrade. When the upgrade is completed in this way it informs the network management system 10 again. Then, when the upgrade of the software is completed in all transmission systems, the network management system 10 controls signals for upgrading back to the next nodes NE15 (15), NE16 (16), NE17 (17), and NE18 (18). Outputs In this process, the operator does not perform an upgrade for each transmission system, but outputs a signal for upgrading in the network management system, stores the upgraded data after upgrading in each transmission system, and reads them from other transmission systems. By doing so, control can be easily and conveniently achieved. In addition, by performing the upgrade to the master nodes first, it is possible to perform the upgrade at the same time without traffic congestion on one network, such as a specific sub network, for example, the first sub network.

As described above, each node stores an upgraded program, and the network management system 10 reads the stored program from nodes that have not been upgraded so that an operator can conveniently upgrade the transmission system. There is an advantage to this. In addition, there is an advantage that can shorten the time of the upgrade.

Claims (5)

A method of upgrading software in a transmission network having at least one subnetwork and a network management system managing the transmission network, Controlling to upgrade and deliver software to a master node connected to the network management system; When the upgrade of the master node is terminated, reading the software of the master node from the next node of the sub network; When the software upgrade of the next node is terminated, if the next node is present, the software upgrade method of the transmission system in the network management system, characterized in that the step of controlling to perform the upgrade by reading the software from the upgraded nodes. The method of claim 1, wherein the sub-nodes are two or more, And upgrading the software of the master nodes of the sub nodes first. The method of claim 2, The software upgrade method of the transmission system in the network management system, characterized in that to perform the upgrade of each node constituting each sub-network at the same time, when the software upgrade of the master nodes is completed. In the transmission network having two or more sub-networks and each transmission system constituting the transmission network to store the upgrade program even after the upgrade, in the network management system for managing the transmission network in the software upgrade method, Controlling to upgrade and deliver software to a master node connected to the network management system; When the upgrade of the master node connected to the network management system is finished, controlling to upgrade the software of the master node of the next sub network; When the upgrade of the next master node connected to the network management system is finished, if there are more master nodes to be upgraded, the software to be upgraded to as many master nodes as the number of upgrades is upgraded by using the software stored in the upgraded master nodes. Read and control the upgrade, When the upgrade of the master node of the sub-network is terminated, the process of performing the upgrade of each node constituting the sub-network for each sub-network, characterized in that the software upgrade method of the transmission system in the network management system. The method of claim 4, wherein the upgrading of each sub network comprises: Performing an upgrade by reading software of the master node from a node adjacent to the corresponding master node; If there are more nodes to be upgraded after performing the upgrade, the software is read from the nodes where the upgrade is completed, and the number of nodes reading the software is read by as many nodes as the number of the upgraded nodes. Software upgrade method of transmission system in a network management system characterized in that.