JP4373574B2 - Information monitoring service provision method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a service and a line monitoring method in a communication network comprising a relay network in which a plurality of network devices are connected in a ladder shape to relay ATM cells, and a terminal that is connected to any one of the network devices and transmits / receives information. In particular, the present invention relates to a communication path setting method and a path monitoring service for constantly monitoring a communication network path therefor.
[0002]
[Prior art]
In a communication path setting method and a path monitoring service for constantly monitoring a communication network path in an ATM (Asynchronous Transfer Mode) network, a loopback function (described in ITU-T recommendation I.610) and a quality monitoring control function (ITU-T recommendation) I.610).
As a transmission method using ATM cells, for example, as shown in FIG. 5, a relay network (ATM network) in which a plurality of network devices 100 are connected in a ladder shape, and a transmission connected to one of the network devices 100T. A communication network is configured by the terminal 200 and the reception terminal 300 connected to the network device 100R, and a specified interface is provided between the transmission terminal 200 and the network device 100T, and a specified interface is provided between the reception terminal 300 and the network device 100R. A path is set between the network devices by the ATM interface, that is, a communication path (service path) 10 is set between the transmission terminal 200 and the reception terminal 300 to perform communication. The specified interfaces between the transmission terminal and the network device and between the reception terminal and the network device are other than ATM interfaces such as STM (synchronous transfer mode), MPEG, and IP (Internet protocol).
[0003]
In the loopback function, the transmission terminal 200 or the network device 100T to which the transmission terminal is connected faces the loopback insert (insertion) point, and the network device 100 or the reception terminal 300 that wants to perform loopback on the communication path. Loopback insert by inserting one loopback cell with loopback points set back to the path 20 and inserting it between user cells so as not to affect the user signal between the transmitting terminal 200 and the receiving terminal 300 This is a method of confirming the continuity of the bidirectional path by transmitting to the point, turning back the loopback cell at the loopback point, and receiving the loopback cell at the loopback drop point, that is, the network device 100T or the transmission terminal 200. . That is, when the loopback cell reaches the loopback point (network device 100 or receiving terminal), it is determined that the loopback point is written in the payload in the cell, and the header of the received loopback cell is determined. It is copied as it is, and a loopback cell for response is inserted in the return path, and returns through the same path as that until reaching the loopback point. Since the loopback cell has returned to the loopback drop point, it is confirmed that the communication path connection is correct.
[0004]
As shown in FIG. 6, the quality monitoring control function sets an insertion point and a drop point for two network devices through which ATM paths pass or terminate, and in FIG. 6, the network devices 100T and 100R that terminate. Generate a quality monitoring cell with the header of the cell you want to monitor at each time interval, insert it between user cells so that it does not affect the user signal at the insert point, and drop the quality monitoring cell at the drop point This is a method of confirming the transmission quality of the test section between the insert point and the drop point by confirming the content of the dropped quality monitoring cell, for example, the bit error rate.
[0005]
[Problems to be solved by the invention]
In this way, the conventional standardized loopback function confirms only continuity in only one cell on the ATM path, and the quality monitoring function is a monitoring function at the ATM level. There was a problem that quality check was not possible at the application level. In addition, even when video information or the like is transferred by the ATM path, the test can be executed only on the ATM path, and monitoring using an interface other than the ATM interface cannot be performed.
[0006]
An object of the present invention is to always perform application level monitoring from a transmitting terminal in service to a network device connected to a receiving terminal, and even when the receiving terminal and the network device are connected by an interface other than an ATM interface. An object of the present invention is to provide an information monitoring service providing method in which a terminal for information monitoring service can be installed independently of a service target line.
[0007]
[Means for Solving the Problems]
According to the present invention, the network device connected to the receiving terminal is provided with means for branching at the connection interface, sets a monitoring path from the branch network device to the information monitoring terminal, and communicates with the branch network device. A means for copying the same signal as the service is provided, the copied signal is transmitted to the monitoring path, received by the information monitoring terminal, and the continuity test and the quality test between the transmitting terminal and the receiving terminal are equivalently performed. .
[0008]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows an embodiment of the present invention in the case where the information monitoring terminal is a transmission terminal, and parts corresponding to those in FIG. Assume that the transmitting terminal 200 and the receiving terminal 300 are communicating on the path 10 in service. In the present invention, the copy branching means 400 is provided in the network device 100R to which the receiving terminal 300 is connected. The copy branching means 400 is a means for taking out the ATM cell of the communication service to the receiving terminal 300, a means for copying the ATM cell, and for monitoring from the network device 100R to the transmitting terminal 200 as an information monitoring terminal in this case It comprises means for setting a path, and means for carrying out normal transmission processing of one of the two ATM cells obtained by copying to the receiving terminal 300 and sending the other to the monitoring path.
[0009]
In other words, in the network device 100R, the ATM cell for transmission processing to the receiving terminal 300 through the interface defined between them is written by the copying means, for example, in the storage means, and then read out twice to thereby read two identical ATM cells. One ATM cell is used for the next transmission process to the receiving terminal 300. For the other of the two identical ATM cells, the header is changed so that the incoming address is the transmission terminal 200, that is, the network device 100R to the network device 100T to which the transmission terminal 300 is connected is an ATM interface. The network device 100T and the transmission terminal 300 set the monitoring path 30 using the specified interface.
[0010]
Therefore, the transmitting terminal 200 can monitor the conduction state of the in-service path 10 by comparing the signal based on the ATM cell branched from the network device 100R with the corresponding signal transmitted from the own terminal 200, and is necessary. The communication quality can also be monitored according to the situation.
FIG. 2 shows an embodiment in which the information monitoring service terminal 500 is provided independently. The interface between the information monitoring service terminal 500 and the network device 100M to which the information monitoring service terminal 500 is connected is the same as the defined interface between the receiving terminal 300 and the network device 100R. The copy branching means 400 of the network device 100R is substantially the same as the copy branching means 400 in FIG. 1, but the ATM cell that is not used for transmission to the receiving terminal 300 in two identical ATM cells obtained by copying. In the header, the incoming address is the information monitoring service terminal 500, that is, the network device 100R to the network device 100M is an ATM interface, and between the network device 100M and the information monitoring service terminal 500 is the receiving terminal 300-network. The monitoring path 30 between the network device 100R and the information monitoring service network 500 is set with the same interface as that defined between the devices 100R.
[0011]
Therefore, in the information monitoring service terminal 500, by confirming the normality of the received signal, including the communication service between the transmission terminal 200 and the reception terminal 300, that is, the state at the application level between the network device and the terminal, It can be confirmed that the transmission information has been normally transmitted to the receiving terminal 200.
As described above, the network device 100R to which the receiving terminal 300 is connected includes the interface unit 600 with the receiving terminal 300 and the ATM-SW unit 700 that interfaces with other network devices 100 as shown in FIG. The copying of ATM cells to the receiving terminal 300, the setting of the monitoring path, and the transmission to the ATM-SW unit 700 may be performed by the copy branching means for the ATM cells input to the interface unit 600.
[0012]
Copying and branching of the signal to the receiving terminal 300 and transmission to the information monitoring service terminal 500 are performed by copying the ATM cell in a state in which the ATM cell is converted into a signal of an interface with the receiving terminal 300, and The same signal is generated and one of the signals is transmitted to the receiving terminal 300 and the other is transmitted to the network device 100R to the information monitoring service terminal 500 connected to the network device 100R through the same interface as the interface between the receiving terminal 300 and the network device 100R. May be. Alternatively, the copied interface signal to the receiving terminal 300 may be sent to the ATM-SW unit 700 by creating an ATM cell for the information monitoring service terminal 500 (or transmitting terminal 200). In this way, when it is converted into an interface signal for the receiving terminal 300 and then copied and sent to the monitoring path 30, the transmitting terminal 200 receives the own transmission information and confirms its normality, thereby transmitting information. Can be successfully transmitted to the receiving terminal 300. Alternatively, by monitoring the signal from the monitoring path 30 by the information monitoring service terminal 500, the normality of the signal transmitted from the transmitting terminal 200 including the interface to the receiving terminal 300 can be monitored.
[0013]
A specific example of the copy branching means 400 in the network device 100R is shown in FIG. In FIG. 4A, a signal to the receiving terminal 300 is copied in the interface unit 600 by the copy and branch unit 401 and one of the signals is branched, and the header conversion unit 402 forms a cell, and the destination is the information monitoring service terminal 500. The header information is changed to wait for transmission, and at the transmission time, the multiplexing unit 403 inserts the cell sequence and sends it to the ATM-SW unit 700.
[0014]
FIG. 4B shows a case where the copy branching means 400 is provided on the receiving terminal 300 side of the interface unit 600. In this case, the signal output from the interface unit 600 to the receiving terminal 300 side is branched into two, one of which is the receiving terminal. The other is returned to the interface unit 600.
FIG. 4C shows a case where the ATM-SW unit 700 is folded using the copy function of the SW unit.
[0015]
The monitoring path 30 may be set by any path setting form such as PVC (permanent virtual connection) or SVC (switched virtual circuit). For the traffic on the monitoring path 30, traffic control such as shaping is performed so as not to affect the paths in other services.
[0016]
【The invention's effect】
As described above, according to the present invention, it is possible to constantly monitor including the application level of the service, and the range to be monitored is the network service from the network device connected to the transmitting terminal to the network device connected to the receiving terminal. The interface to be monitored between all the provided ranges can be other than the ATM interface and ATM interface such as STM, MPEG, and IP. If the terminal to be monitored is specially defined, the monitoring path is used for the information monitoring service. By setting up to the terminal, a monitoring service between the terminal and the terminal can be performed constantly.
[Brief description of the drawings]
FIG. 1 is a diagram showing an embodiment of the present invention when a transmission terminal and an information monitoring service terminal are used.
FIG. 2 is a diagram showing an embodiment of the present invention when an information monitoring service terminal is provided independently.
FIG. 3 is a diagram showing a part of an embodiment of the present invention when a network device and a receiving terminal are connected by an interface other than an ATM interface.
FIG. 4 is a diagram showing a specific example of copy branching means 400;
FIG. 5 is a diagram showing a conventional loopback function.
FIG. 6 is a diagram showing a conventional quality monitoring function.

Claims (4)

In a communication network composed of a relay network in which a plurality of network devices are connected in a ladder form, and a terminal that is connected to one of the network devices and transmits and receives information,
Connect the communication service between the sending terminal and the receiving terminal after setting the path with the specified interface between the sending terminal and the network device, the ATM interface between the network device and the specified interface between the network device and the receiving terminal, respectively. Realized by
Branching the ATM path in the network device connected to the receiving terminal;
From the branch network device to the network device connected to the transmission terminal, an ATM interface, the network device-transmission terminal forms a monitoring path by connecting with a predetermined interface in advance or on demand. And
The same ATM cell as the communication service is copied in the network device branched from the ATM path,
Send the copied ATM cell to the monitoring ATM path,
An information monitoring service providing method for confirming that transmission information is normally transmitted to the receiving terminal by receiving the self-transmission information returned through the monitoring ATM path at the transmitting terminal and confirming the normality. . In a communication network composed of a relay network in which a plurality of network devices are connected in a ladder form, and a terminal that is connected to one of the network devices and transmits and receives information,
Connect the communication service between the sending terminal and the receiving terminal after setting the path with the specified interface between the sending terminal and the network device, the ATM interface between the network device and the specified interface between the network device and the receiving terminal, respectively. Realized by
Branching the ATM path in the network device connected to the receiving terminal;
From the branch network device to the network device connected to the information monitoring service terminal, the ATM interface, the network device-information monitoring service terminal, in advance with the same interface as the interface defined between the network device and the receiving terminal, Alternatively, a monitoring path is formed by connecting after setting each path on demand,
The same ATM cell as the communication service is copied in the network device branched from the ATM path,
Send the copied ATM cell to the monitoring ATM path,
The information monitoring service terminal receives the transmission information of the transmitting terminal and confirms its normality to confirm that the transmission information is normally transmitted to the receiving terminal. Service provision method. In a communication network composed of a relay network in which a plurality of network devices are connected in a ladder form, and a terminal that is connected to one of the network devices and transmits and receives information,
Connect the communication service between the sending terminal and the receiving terminal after setting the path with the specified interface between the sending terminal and the network device, the ATM interface between the network device and the specified interface between the network device and the receiving terminal, respectively. Realized by
In the network device connected to the receiving terminal, the corresponding path is branched at the specified interface between the network device and the receiving terminal,
The monitoring path is formed by connecting the branch path to the network device connected to the transmission terminal by connecting the ATM interface and the network device-transmission terminal in advance, or after setting the path on demand respectively.
Copy the same signal as the communication service in the network device branching the path,
Send the copied signal to the monitoring path,
A method for providing an information monitoring service, comprising: confirming that transmission information is normally transmitted to a receiving terminal by receiving the self-transmission information returned through the monitoring path at the transmitting terminal and confirming normality. In a communication network composed of a relay network in which a plurality of network devices are connected in a ladder form, and a terminal that is connected to one of the network devices and transmits and receives information,
Connect the communication service between the sending terminal and the receiving terminal after setting the path with the specified interface between the sending terminal and the network device, the ATM interface between the network device and the specified interface between the network device and the receiving terminal, respectively. Realized by
In the network device connected to the receiving terminal, the corresponding path is branched at the specified interface between the network device and the receiving terminal,
The branch path is an ATM interface from the branch network device to the network device connected to the information monitoring service terminal, and the network device-information monitoring service terminal has an interface defined between the network device and the receiving terminal. A monitoring path is formed by connecting after setting a path in advance or on demand on the same interface, and the same signal as the communication service is copied in the network device that branches the path, and the copied signal is Sent to the monitoring path,
The information monitoring service terminal receives the transmission information of the transmission terminal and confirms its validity to confirm that the transmission information has been normally transmitted to the reception terminal. Monitoring service provision method.

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