JP2001244930A - Communication network system and network form managing method therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To continuously manage a network form even when any exchange is added or excluded, or when any exchange is made inactive or further when a fault occurs on any communication line concerning a communication network system provided with plural exchanges. SOLUTION: The communication network system is provided with plural exchanges 3-j (j=1 to N) capable of mutually directly communicating with the other plural exchanges and generating connection information representing the sates of connections with these other plural exchanges. Network managing parts 2-j (j=1 to N) are provided corresponding to the respective plural exchanges 3-j. All the connection information generated by the exchanges 3-j is transmitted to all of the network managing part 2-j. The network managing part 2-j collect and integrate the connection information supplied from the exchanges 3-j and the information on the network form is updated.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication network system installed in a building or the like and a network form management method thereof, and more particularly to a communication network system including a plurality of exchanges and a network form management method.

[0002]

2. Description of the Related Art FIG. 4 shows one form of a conventional communication network system installed in a building or the like, more specifically, a conventional communication network system configured by connecting a plurality of switching devices to one another. One form is shown. Hereinafter, FIG.
A conventional method used for managing a network configuration in this type of communication network system will be described with reference to FIG.

The communication network system shown in FIG.
A plurality of switching devices 1-j (j = 1 to N) connected to each other
It consists of. Among these switching devices, one switching device 1-1 includes a network management unit 2-1 and a switching device 3-1 of switching number # 1. Network management unit 2-1
And the exchange 3-1 are connected via a communication line Co1-1.

[0004] Other switching devices 1-k except the switching device 1-1
(K = 2 to N) includes the exchange 3-k with the exchange number #k. Also, all exchanges 3-j
(J = 1 to N) are respectively connected to an information terminal such as a personal computer or a facsimile apparatus or a telephone (hereinafter, referred to as “terminal device 4-j”) via a communication line Da1-j. ing.

The exchange 3-1 having the exchange number # 1 includes three exchanges, specifically, the exchange 3-3-1 having the exchange number # 2.
2. An exchange 3-N with an exchange number #N and an exchange 3-i with an exchange number 3-i (i is an arbitrary number) are connected via communication lines Db1-1, Db1-N and Db1-i, respectively. Have been. Similarly, the exchange 3-k having the exchange number #k (k = 2 to N) is connected to the exchange 3-k via the communication line Db1-k.
(k + 1) (however, if k = N, the exchange 3-1), the exchange 3- (k-1) via the communication line Db1- (k-1), and
The exchanges 3-i are connected to one another via communication lines Db1-i.

The exchanges 3-j (j = 1 to N) exchange information such as data and voice (hereinafter referred to as "communications") with a terminal 4-j connected thereto and with another exchange. Information) can be exchanged, and the function can be used to recognize other exchanges connected to the self. The connection information recognized by the exchange 3-1 is a communication line.
It is directly supplied to the network management unit 2-1 via Co1-1. The connection information recognized by the other exchanges 3-k (k = 2 to N) is transmitted via the communication network to the exchange 3-k.
1 is supplied to the network management unit 2-1. Network management unit 2
-1 is a part for managing information on the network form of the communication network system including a plurality of exchanges, and organizes the connection information supplied from each of the exchanges 3-j (j = 1 to N) as described above. Has a function of updating the information on the network form to the latest information.

[0007] The terminal device 4-j (j = 1 to N) supplies communication information together with transmission source information and transmission destination information to the exchange 3-j. The exchange 3-j (j = 1 to N) can directly or indirectly access the network management unit 2-1 via a communication network to acquire the latest information on the network form. Terminal device 4-j (j =
1-N) and other exchanges, the exchange 3-j determines an optimal communication path based on the source information and destination information of the communication information and information on the network form. Then, the communication information is transmitted.

Next, a network configuration management method in a conventional communication network system will be specifically described.
First, the case where the switching device 1-N is newly added to the communication network will be described. When a new switching device 1-N is added to the conventional communication network system, three communication lines Db1-N and Db1- (N-
1) and Db1-i are connected. When the exchange 3-N is added to the communication network, the exchange 3-N and three exchanges to which the exchange 3-N is connected (that is, exchange number # 1)
Exchange 3-1 and exchange 3- (N-
It is confirmed that the connection state is established between 1) and the exchange 3-i) having the exchange number #i. The new connection information confirmed in this way is transmitted to the network management unit 2-1 via the exchange 3-1 via the communication network. As a result, the network management unit 2-1 recognizes that the exchange 3-N has joined the communication network and the network configuration has changed.

Next, a case where the switching device 1-N is deleted from the communication network will be described. Exchange device 1-N
Is deleted from the communication network, the three communication lines Db1-N, Db1- (N-1), and Db1-i are disconnected. When those communication lines are disconnected, the three exchanges to which the exchange 3-N was connected (ie, the exchange 3-1 of the exchange number # 1, the exchange number #N)
The exchange 3- (N-1) of the -1 and the exchange 3-i) of the exchange number #i confirm that the exchange 3-N is not connected. The new connection information confirmed in this way is transmitted to the network management unit 2-1 via the exchange 3-1 via the communication network. As a result, the exchange 3-
The network manager 2-1 recognizes that N has left the communication network and the network configuration has changed.

Next, a case will be described in which the exchange 3-N becomes inoperative on the communication network. When the exchange 3-N becomes inoperable, the exchange 3-N and the three exchanges to which the exchange 3-N is connected (that is, the exchange 3-1 with the exchange number # 1 and the exchange 3- (N with the exchange number # N-1) -
The communication between 1) and the exchange 3-i) having the exchange number #i is interrupted. In this case, the three exchanges that are the connection destinations confirm that the communication with the exchange 3-N is interrupted, and transmit the information to the network management unit 2-1 via the exchange 3-1. As a result, the network management unit 2-1 recognizes that the exchange 3-N has become inoperative on the communication network.

As described above, according to the conventional communication network system and the network form management method,
When a new switch is added to the communication network,
When an exchange is deleted from the communication network, or when a specific exchange becomes inoperable on the communication network, those situations can be centrally managed by the network management unit. Therefore, according to the conventional communication network system, a change in the network form can be freely recognized without impairing the function of forming an optimum communication path between a plurality of exchanges.

[0012]

However, in the conventional communication network system and the network configuration management method, all the exchanges 3-j (j = 1 to N) are connected via a single exchange 3-1. It exchanges information with the network management unit 2-1. For this reason, when the exchange 3-1 is added or deleted, and when the exchange 3-1 becomes inoperative, furthermore, the communication lines Db1-1 and Db1 connected to the exchange 3-1. In the case where a failure occurs in -N and Db1-i, a problem occurs if the management of the network form becomes impossible.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems. By connecting a network management unit to all exchanges and sharing information on a network form among a plurality of network management units. Even if any exchange is added or deleted, or if any exchange becomes inoperable, or if any communication line fails, always properly manage the network form. A first object is to provide a communication network system that can be continued. The present invention also relates to a case where any switch included in the communication network system is added or deleted, a case where any switch becomes inoperable, and a case where a failure occurs in any communication line. In addition, it is a second object of the present invention to provide a network form management method for always properly managing the network form.

[0014]

According to the first aspect of the present invention,
A communication network system, comprising: a plurality of exchanges capable of directly communicating with one another and a plurality of exchanges capable of generating connection information indicating a connection state with the other plurality of exchanges; and A plurality of network management units for acquiring all of the connection information respectively generated in the above, or information on a network form obtained by collecting and integrating all the connection information via different routes. It is characterized by the following.

According to a second aspect of the present invention, in the communication network system according to the first aspect, the network management unit is provided so as to correspond one-to-one with the exchange. It is.

The third aspect of the present invention is the first or second aspect.
The communication network system according to claim 1, wherein connection information generated by each of the plurality of exchanges is collected via different communication lines, and information on a network configuration obtained by integrating them is collected by different communication lines. And a network management unit control device that supplies all of the plurality of network management units via the network management unit.

According to a fourth aspect of the present invention, in the communication network system according to the second aspect, it is possible to communicate with all of the network management units via communication lines different from each other,
The connection information generated by the plurality of exchanges is collected via a network management unit provided corresponding to each of the exchanges, and information on a network form obtained by integrating them is transmitted to the communication line. And a network management unit control device that supplies all of the plurality of network management units via the network management unit.

According to a fifth aspect of the present invention, there is provided a method for managing a network configuration of a communication network system including a plurality of exchanges capable of directly communicating with other exchanges, wherein each of the plurality of exchanges comprises: It is obtained by generating connection information indicating a connection state with the other plurality of exchanges, and collecting or integrating all of the connection information respectively generated by the plurality of exchanges, or all the connection information. Transmitting information on the network configuration to a plurality of network management units via different routes, and storing the information on the network configuration by each of the plurality of network management units. Is what you do.

According to a sixth aspect of the present invention, there is provided the network management method according to the fifth aspect, wherein the network management unit comprises:
It is characterized by being provided so as to correspond one-to-one with the exchange.

The invention according to claim 7 is the invention according to claim 5 or 6.
A method of managing a network configuration according to claim 1, wherein the step of aggregating the connection information respectively generated by said plurality of exchanges into a network management unit control device via different communication lines, said network management unit control device comprising: Generating information related to a network configuration by integrating the connection information, and transmitting the information related to the network configuration from the network management unit control device to all of the plurality of network management units via different communication lines. And a step of performing the operation.

The invention according to claim 8 is the network management method according to claim 6, wherein the connection information generated by the plurality of exchanges is provided for each of the exchanges. Aggregating the network management unit control device via the network management unit control device, the network management unit control device integrates the aggregated connection information to generate information about a network configuration, and the network management unit control device Transmitting information on the network form to all of the plurality of network management units via different communication lines.

[0022]

Embodiments of the present invention will be described below with reference to the drawings. Elements common to the drawings are denoted by the same reference numerals, and redundant description will be omitted.

Embodiment 1 FIG. 1 is a conceptual diagram for explaining the configuration of the communication network system according to the first embodiment of the present invention. The communication network system according to the present embodiment is a system installed in a building or the like, and includes a plurality of switching devices 1-j (j = 1 to N) connected to each other.

All the switching devices 1-j (j = 1 to N) included in the communication network of this embodiment have the same configuration as described below. That is, each of these switching devices 1-j (j = 1 to N) includes a network management unit 2-j and a switching device 3-j of switching number #j. The network management unit 2-j and the exchange 3-j are communication lines.
They are connected via Co1-j. Further, all the exchanges 3-j (j = 1 to N) are provided with the communication line Da1-
j, an information terminal (personal computer or FA
X device, etc.), telephone, etc. (hereinafter, "terminal device 4-j")
) Are connected.

The exchange 3-1 of the exchange number # 1 includes three exchanges, specifically, the exchange 3--3 of the exchange number # 2.
2. An exchange 3-N with an exchange number #N and an exchange 3-i with an exchange number 3-i (i is an arbitrary number) are connected via communication lines Db1-1, Db1-N and Db1-i, respectively. Have been. Similarly, the exchange 3-k having the exchange number #k (k = 2 to N) is connected to the exchange 3-k via the communication line Db1-k.
(k + 1) (however, if k = N, the exchange 3-1), the exchange 3- (k-1) via the communication line Db1- (k-1), and
The exchanges 3-i are connected to one another via communication lines Db1-i.

All the exchanges 3-j (j = 1 to N) exchange communication information such as data and voice with the terminal equipment 4-j connected thereto and with other exchanges. And use that function to recognize other exchanges connected to it. In this embodiment, the connection information recognized by the exchanges 3-j (j = 1 to N) is transmitted to all network management units via the communication line Co1-j or via the communication network and another exchange. 2-j. The network management units 2-j (j = 1 to N) manage information relating to the network form of the communication network system, and each of them manages all the exchanges 3-j.
Has the function of organizing the connection information supplied as described above and updating the information on the network form to the latest information.

The terminal device 4-j (j = 1 to N) supplies communication information together with transmission source information and transmission destination information to the exchange 3-j. The exchange 3-j has a communication line Co1-j.
Through (j = 1 to N), it is possible to access the network management unit 2-j included in the same switching device 1-j and acquire the latest information on the network configuration. Terminal device 4-j
When the communication information is supplied from (j = 1 to N) or another exchange, the exchange 3-j performs optimal communication based on the transmission source information and the transmission destination information of the communication information and the information on the network form. A route is determined and communication information is transmitted.

Next, a network form management method in the communication network system of the present embodiment will be specifically described. First, the case where the switching device 1-N is newly added to the communication network will be described. When a new switching device 1-N is added to the communication network system of the present embodiment, three communication lines Db1-N,
Db1- (N-1) and Db1-i are connected. When the exchange 3-N is added to the communication network, the exchange 3-N
N and the three exchanges to which it is connected (ie, exchange 3-1 with exchange number # 1, exchange 3- (N-1) with exchange number $ N-1, and exchange 3-i with exchange number #i). )
It is confirmed that the connection state is established between. The new connection information confirmed in this manner is transmitted to all network management units 2-j (j = 1 to N) via the communication line or the communication network.
Is transmitted to As a result, all network management units 2-j (j = 1 to N) recognize that the exchange 3-N has joined the communication network and the network configuration has changed.

Next, a case where the switching device 1-N is deleted from the communication network will be described. Exchange device 1-N
Is deleted from the communication network, the three communication lines Db1-N, Db1- (N-1), and Db1-i are disconnected. When those communication lines are disconnected, the three exchanges to which the exchange 3-N was connected (ie, the exchange 3-1 of the exchange number # 1, the exchange number #N)
The exchange 3- (N-1) of the -1 and the exchange 3-i) of the exchange number #i confirm that the exchange 3-N is not connected. The new connection information confirmed in this way is transmitted to all network management units 2-j (j = 1 to N) via a communication line or a communication network. As a result, all the network management units 2-j (j = 1 to 1) indicate that the exchange 3-N has left the communication network and the network configuration has changed.
N).

Next, a case will be described in which the exchange 3-N becomes inoperative on the communication network. When the exchange 3-N becomes inoperable, the exchange 3-N and the three exchanges to which the exchange 3-N is connected (that is, the exchange 3-1 with the exchange number # 1 and the exchange 3- (N with the exchange number # N-1) -
The communication between 1) and the exchange 3-i) having the exchange number #i is interrupted. In this case, the three exchanges that are the connection destinations confirm that the communication with the exchange 3-N is interrupted, and the information is transferred to all network management units 2-j (j) via the communication line or the communication network. = 1 to N). As a result, all network management units 2-j (j = 1 to N) indicate that the exchange 3-N is inactive on the communication network.
Is recognized by

As described above, in the communication network system according to the present embodiment, when the network configuration changes due to the addition or deletion of an exchange or the inactivity of the exchange,
The change is transmitted to a plurality of network management units 2 through various routes.
j (j = 1 to N) can be recognized. For this reason, in the system of the present embodiment, even when any exchange is added or deleted, or when any exchange is inactive, furthermore, a failure occurs in a communication line leading to any exchange. Even if there is, the management of the network form can be continued.

Embodiment 2 FIG. FIG. 2 is a conceptual diagram illustrating the configuration of a communication network system according to Embodiment 2 of the present invention. The communication network system according to the present embodiment is a system installed in a building or the like, and includes a plurality of switching devices 1-j (j = 1 to N) connected to each other and the switching devices 1-j connected thereto. And a network management unit control device 5.

All switching devices 1-j (j = 1 to N) included in the communication network according to the present embodiment have the same configuration as each other, as described below. That is, each of these switching devices 1-j (j = 1 to N) includes a network management unit 2-j and a switching device 3-j of switching number #j. All the exchanges 3-j (j = 1 to N) are connected to the network management unit control device 5 via the communication line Co2-j, respectively, and are respectively connected to the terminal devices 4- via the communication line Da1-j. j. All network management units 2-j are connected to the network management unit control device 5 via communication lines Co3-j (j = 1 to N).

The exchange 3-1 having the exchange number # 1 includes three exchanges, specifically, the exchange 3--3 having the exchange number # 2.
2. An exchange 3-N with an exchange number #N and an exchange 3-i with an exchange number 3-i (i is an arbitrary number) are connected via communication lines Db1-1, Db1-N and Db1-i, respectively. Have been. Similarly, the exchange 3-k having the exchange number #k (k = 2 to N) is connected to the exchange 3-k via the communication line Db1-k.
(k + 1) (however, if k = N, the exchange 3-1), the exchange 3- (k-1) via the communication line Db1- (k-1), and
The exchanges 3-i are connected to one another via communication lines Db1-i.

All the exchanges 3-j (j = 1 to N) exchange communication information such as data and voice with the terminal equipment 4-j connected thereto and with other exchanges. And use that function to recognize other exchanges connected to it. In the present embodiment, the connection information recognized by the exchange 3-j (j = 1 to N) is supplied to the network management unit control device 5 via the communication line Co2-j.

The network management unit control device 5 is connected to the exchange 3-j (j
= 1 to N) to collect and integrate the connection information transmitted from each of the network management units 2-j through the communication line Co3-j. To supply. Network management unit 2-j
(J = 1 to N) are parts for managing information relating to the network form of the communication network system, and each has a function of acquiring necessary information from the network management unit control device 5.

The terminal device 4-j (j = 1 to N) supplies communication information together with transmission source information and transmission destination information to the exchange 3-j. The exchange 3-j (j = 1 to N) can access the network management unit 2-j included in the same exchange 1-j and acquire the latest information on the network form. When the communication information is supplied from the terminal device 4-j (j = 1 to N) or another exchange, the exchange 3-j transmits the transmission source information and the transmission destination information of the communication information and the information regarding the network form. An optimal communication route is determined based on the information, and communication information is transmitted.

Next, a network form management method in the communication network system of the present embodiment will be specifically described. First, the case where the switching device 1-N is newly added to the communication network will be described. When a new switching device 1-N is added to the communication network system of the present embodiment, three communication lines Db1-N,
Db1- (N-1) and Db1-i are connected. When the exchange 3-N is added to the communication network, the exchange 3-N
N and the three exchanges to which it is connected (ie, exchange 3-1 with exchange number # 1, exchange 3- (N-1) with exchange number $ N-1, and exchange 3-i with exchange number #i). )
It is confirmed that the connection state is established between. The new connection information confirmed in this manner includes the communication line Co2-1,
It is supplied to the network management unit control device 5 via Co2- (N-1) or Co2-i. The network management unit control device 5 updates the information on the network configuration based on the connection information supplied in this way, and updates the latest information to all the network management units 2-2.
j (j = 1 to N). As a result, the exchange 3-N
Is recognized by all network management units 2-j (j = 1 to N) that has joined the communication network and the network configuration has changed.

Next, a case where the switching device 1-N is deleted from the communication network will be described. Exchange device 1-N
Is deleted from the communication network, the three communication lines Db1-N, Db1- (N-1), and Db1-i are disconnected. When those communication lines are disconnected, the three exchanges to which the exchange 3-N was connected (ie, the exchange 3-1 of the exchange number # 1, the exchange number #N)
The exchange 3- (N-1) of the -1 and the exchange 3-i) of the exchange number #i confirm that the exchange 3-N is not connected. The new connection information confirmed in this manner includes the communication line Co2-1, Co2- (N-1), or Co2-i.
Is supplied to the network management unit control device 5 via the. The network management unit control device 5 updates the information on the network configuration based on the connection information supplied in this way, and transmits the latest information to all the network management units 2-j (j = 1 to N). .
As a result, the fact that the exchange 3-N has left the communication network and the network configuration has changed has been reported to all network management units 2.
-J (j = 1 to N).

Next, a case will be described in which the exchange 3-N becomes inoperable on the communication network. When the exchange 3-N becomes inoperable, the exchange 3-N and the three exchanges to which the exchange 3-N is connected (that is, the exchange 3-1 with the exchange number # 1 and the exchange 3- (N with the exchange number # N-1) -
The communication between 1) and the exchange 3-i) having the exchange number #i is interrupted. In this case, the three exchanges that are the connection destinations confirm that the communication with the exchange 3-N is interrupted, and transmit the information to the communication lines Co2-1, Co2- (N-1), or Co2-i. Is supplied to the network management unit control device 5 via the. The network management unit control device 5 updates information on the network configuration based on the connection information supplied in this manner,
The latest information is transmitted to all network management units 2-j (j = 1 to N). As a result, all network management units 2-j indicate that the exchange 3-N is inoperative on the communication network.
(J = 1 to N).

As described above, in the communication network system according to the present embodiment, when the network configuration changes due to the addition or deletion of an exchange or the inactivity of the exchange,
The change is transmitted to the network management unit control device 5 via the plurality of communication lines, and the latest information on the network form generated by the network management unit control device 5 is transmitted to the network management unit 5 via the plurality of communication lines. It can be recognized by the management unit 2-j (j = 1 to N). For this reason, in the system of the present embodiment, even when any exchange is added or deleted, or when any exchange is inactive, furthermore, a failure occurs in a communication line leading to any exchange. Even if there is, the management of the network form can be continued.

Embodiment 3 FIG. 3 is a conceptual diagram illustrating the configuration of a communication network system according to Embodiment 3 of the present invention. The communication network system according to the present embodiment is a system installed in a building or the like. As in the case of the second embodiment, a plurality of switching devices 1 connected to each other are connected.
-J (j = 1 to N) and a network management unit control device 5 connected to the switching devices 1-j.

All the switching devices 1-j (j = 1 to N) included in the communication network according to the present embodiment have the same configuration as each other as described below. That is, each of these switching devices 1-j (j = 1 to N) includes a network management unit 2-j and a switching device 3-j of switching number #j. The network management unit 2-j (j = 1 to N) communicates with the communication line Co
4-j are connected to the network management unit control device 5, respectively, and are also connected to the exchange 3-j via communication lines Co5-j. Also, all exchanges 3-j
(J = 1 to N) are connected to terminal devices 4-j via communication lines Da1-j, respectively.

The exchange 3-1 of the exchange number # 1 includes three exchanges, specifically, the exchange 3-3-1 of the exchange number # 2.
2. An exchange 3-N with an exchange number #N and an exchange 3-i with an exchange number 3-i (i is an arbitrary number) are connected via communication lines Db1-1, Db1-N and Db1-i, respectively. Have been. Similarly, the exchange 3-k having the exchange number #k (k = 2 to N) is connected to the exchange 3-k via the communication line Db1-k.
(k + 1) (however, if k = N, the exchange 3-1), the exchange 3- (k-1) via the communication line Db1- (k-1), and
The exchanges 3-i are connected to one another via communication lines Db1-i.

All the exchanges 3-j (j = 1 to N) exchange communication information such as data and voice with the terminal equipment 4-j connected thereto and with other exchanges. And use that function to recognize other exchanges connected to it. In the present embodiment, the connection information recognized by the exchange 3-j (j = 1 to N) is transmitted to the network management unit 2-j via the communication line Co5-j. It is supplied to the network management unit control device 5 via the network management unit 5.

The network management unit control device 5 is connected to the exchange 3-j (j
= 1 to N) to collect and integrate the connection information transmitted from each of the network management units 2-j through the communication line Co4-j. To supply. Network management unit 2-j
(J = 1 to N) are parts for managing information relating to the network form of the communication network system, and each has a function of acquiring necessary information from the network management unit control device 5.

The terminal device 4-j (j = 1 to N) supplies communication information together with transmission source information and transmission destination information to the exchange 3-j. The exchange 3-j (j = 1 to N) can access the network management unit 2-j included in the same exchange 1-j and acquire the latest information on the network form. When the communication information is supplied from the terminal device 4-j (j = 1 to N) or another exchange, the exchange 3-j transmits the transmission source information and the transmission destination information of the communication information and the information regarding the network form. An optimal communication route is determined based on the information, and communication information is transmitted.

Next, a network form management method in the communication network system of the present embodiment will be specifically described. First, the case where the switching device 1-N is newly added to the communication network will be described. When a new switching device 1-N is added to the communication network system of the present embodiment, three communication lines Db1-N,
Db1- (N-1) and Db1-i are connected. When the exchange 3-N is added to the communication network, the exchange 3-N
N and the three exchanges to which it is connected (ie, exchange 3-1 with exchange number # 1, exchange 3- (N-1) with exchange number $ N-1, and exchange 3-i with exchange number #i). )
It is confirmed that the connection state is established between. The new connection information confirmed in this way includes the communication line Co5-1,
Network management unit 2 via Co5- (N-1) or Co5-i
1, 2- (N-1), and 2-i, and further supplied to the network management unit control device 5 via the communication line Co4-1, Co4- (N-1), or Co4-i. You. Network management unit control device 5
Updates the information on the network configuration based on the connection information supplied in this way, and supplies the latest information to all network management units 2-j (j = 1 to N). As a result, all the network managers 2-j (j
= 1 to N).

Next, a case where the switching device 1-N is deleted from the communication network will be described. Exchange device 1-N
Is deleted from the communication network, the three communication lines Db1-N, Db1- (N-1), and Db1-i are disconnected. When those communication lines are disconnected, the three exchanges to which the exchange 3-N was connected (ie, the exchange 3-1 of the exchange number # 1, the exchange number #N)
The exchange 3- (N-1) of the -1 and the exchange 3-i) of the exchange number #i confirm that the exchange 3-N is not connected. The new connection information confirmed in this way includes the communication line Co5-1, Co5- (N-1), or Co5-i
To the network management units 2-1, 2- (N-1), and 2-i via the communication line Co4-1, Co4- (N-1), or Co4-i. It is supplied to the management unit control device 5. The network management unit control device 5 updates the information on the network form based on the connection information supplied in this manner, and updates the latest information to all network management units 2-j (j = 1 to 2).
N). As a result, all the network management units 2-j (j = 1 to N) recognize that the exchange 3-N has left the communication network and the network configuration has changed.

Next, the case where the exchange 3-N becomes inoperative on the communication network will be described. When the exchange 3-N becomes inoperable, the exchange 3-N and the three exchanges to which the exchange 3-N is connected (that is, the exchange 3-1 with the exchange number # 1 and the exchange 3- (N with the exchange number # N-1) -
The communication between 1) and the exchange 3-i) having the exchange number #i is interrupted. In this case, the three exchanges, which are the connection destinations, confirm that the communication with the exchange 3-N is interrupted, and transmit the information to the network management units 2-1, 2- (N-1) or 2 (N-1).
To the network management unit control device 5 via i. The network management unit control device 5 updates the information on the network configuration based on the connection information supplied in this way, and transmits the latest information to all the network management units 2-j (j = 1 to N). . As a result, the fact that the exchange 3-N is inoperative on the communication network indicates that all the network management units 2-j (j
= 1 to N).

As described above, in the communication network system of the present embodiment, when the network configuration changes due to the addition or deletion of an exchange, or the inactivity of the exchange,
The change is transmitted to the network management unit control device 5 via the plurality of communication lines, and the latest information on the network form generated by the network management unit control device 5 is transmitted to the network management unit 5 via the plurality of communication lines. It can be recognized by the management unit 2-j (j = 1 to N). For this reason, in the system of the present embodiment, even when any exchange is added or deleted, or when any exchange is inactive, furthermore, a failure occurs in a communication line leading to any exchange. Even if there is, the management of the network form can be continued.

In the first to third embodiments described above, all the switching devices 1-j (j = 1 to N) are assigned to the network management unit 2
Although -j is arranged, the present invention is not limited to this, and it is sufficient that an appropriate number of network management units are arranged in the communication network system.

[0053]

Since the present invention is configured as described above, it has the following effects. Claim 1
According to the invention described in the fifth aspect, the connection state with another exchange is detected by each exchange, and the result is supplied to a plurality of network management units via different paths. In this case, even if any exchange included in the communication network is added or deleted, or if any exchange becomes inoperable, or if any communication line fails,
The management of the network form can be continued by any of the network management units. Therefore, according to the present invention, a highly reliable communication network system can be realized.

According to the second or sixth aspect of the present invention, the network management unit is provided in one-to-one correspondence with the exchange, so that a highly reliable communication network system can be constructed.

According to the third or seventh aspect of the present invention, the connection states generated by the individual exchanges are aggregated in the network management unit control device, and the information on the network form generated by the network management unit control device is transmitted to all the networks. It can be supplied to the management unit. For this reason, according to the present invention, the network management unit can be simplified as compared with the case where each network management unit generates information on the network form.

According to the fourth or eighth aspect of the present invention, the connection states generated by the individual exchanges are aggregated in the network management unit control device via the network management units corresponding to the individual exchanges, and the network management unit Information on the network configuration generated by the control device can be supplied to all network management units. In this case, a communication line for supplying information from the network management unit to the network management unit control device and a communication line for supplying information from the network management unit control device to the network management unit can be shared. Configuration of a communication line network required for management of the communication line can be simplified.

[Brief description of the drawings]

FIG. 1 is a conceptual diagram illustrating a configuration of a communication network system according to a first embodiment of the present invention.

FIG. 2 is a conceptual diagram illustrating a configuration of a communication network system according to a second embodiment of the present invention.

FIG. 3 is a conceptual diagram illustrating a configuration of a communication network system according to a third embodiment of the present invention.

FIG. 4 is a conceptual diagram illustrating a configuration of a conventional communication network system.

[Explanation of symbols]

1-j (j = 1 to N) Switching device of switching device number #j 2-j (j = 1 to N) Network management portion of network management portion number #j 3-j (j = 1 to N) Switching device number #J exchange 4-j (j = 1 to N) Terminal connected to exchange #j exchange 5 Network management unit control device

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 5B089 GA34 GB02 JA35 JB15 KA12 KB03 5K030 GA11 HC13 JA10 JT01 JT02 MA01 MC07 MD07 5K051 FF01 9A001 BB04 BB06 CC07 DZ10 KK48 LL09

Claims (8)

[Claims] 1. A plurality of exchanges capable of directly communicating with each other and a plurality of exchanges capable of generating connection information indicating a connection state with the other plurality of exchanges. A plurality of network management units that acquire all of the generated connection information or information on a network configuration obtained by collecting and integrating all of the connection information via different routes. Characteristic communication network system. 2. The communication network system according to claim 1, wherein said network management unit is provided in one-to-one correspondence with said exchange. 3. The connection information generated by each of the plurality of exchanges is collected via different communication lines, and information on a network configuration obtained by integrating them is communicated via the different communication lines. 3. The communication network system according to claim 1, further comprising a network management unit control device that supplies the network management unit to all of the plurality of network management units. 4. A network management unit capable of communicating with all of said network management units via communication lines different from each other and providing connection information generated by said plurality of exchanges for each of the exchanges. And a network management unit control device that supplies information on a network configuration obtained by integrating the network management units to all of the plurality of network management units via the communication line. 3. The communication network system according to claim 2, wherein 5. A method for managing a network configuration of a communication network system including a plurality of exchanges capable of directly communicating with each other, including a plurality of exchanges, wherein each of the plurality of exchanges includes the other plurality of exchanges. Generating connection information indicating a connection state with, and all of the connection information respectively generated in the plurality of exchanges, or information on the network form obtained by collecting and integrating all the connection information, Transmitting a plurality of network managers via different paths to each other; and storing information on the network form by each of the plurality of network managers. . 6. The management method according to claim 5, wherein the network management unit is provided so as to correspond one-to-one with the exchange. 7. A step of aggregating connection information respectively generated by the plurality of exchanges into a network management unit control device via different communication lines, and wherein the network management unit control device integrates the collected connection information. Generating information on the network configuration by transmitting the information on the network configuration from the network management unit control device to all of the plurality of network management units via different communication lines. 7. The method of managing a network configuration according to claim 5, wherein: 8. A step of aggregating connection information generated by the plurality of exchanges into a network management unit control device via a network management unit provided for each of the exchanges, and the network management unit control device. Generating information on a network configuration by integrating the aggregated connection information; and from the network management unit control device to all of the plurality of network management units, via the communication lines different from each other. The method according to claim 6, further comprising the step of transmitting information.