JP2008131346A - Ip network system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an IP network system that always executes the change of a communication path from a monitoring control server installed separately from a communication terminal. <P>SOLUTION: The IP network system includes a plurality of communication terminals, a plurality of edge nodes connected to the communication terminals, and the monitoring control server for monitoring the edge nodes. The monitoring control server has a test-packet transmission commanding means for transmitting a test-packet transmission command, a transmission-quality measurement means for receiving a reception result of the test packet so as to obtain the transmission quality of a communication path, a communication path selection means for selecting a communication path on the basis of the transmission quality of the communication path, and a communication path commanding means for transmitting a communication-path setting command. The edge node and the communication terminal have test-packet transmission means for transmitting a test packets, test-packet reception-result transmission means for transmitting reception results of the test packets, and communication path setting means for setting communication paths, respectively. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an IP network system capable of transmitting and receiving signals between communication terminals.

  There is a service level agreement (SLA) as a system for guaranteeing the quality of a communication service provided when a provider providing the communication service contracts with the user. This SLA determines security items such as failure recovery time, operation rate, average delay time, etc., and if the security items cannot be achieved, it decides to return a fixed rate to the user. It is something to keep. The provider providing the communication service performs network connection confirmation, delay time measurement, and the like in order to confirm whether the security items determined by the SLA have been achieved. When it is difficult to achieve the security items determined by the SLA, measures such as changing the communication path of the network are taken.

Japanese Patent Laid-Open No. 2003-234770 discloses a device that secures a communication path when a connection request to a network is received from a communication terminal used by a user in order to achieve a security item determined by an SLA. Are listed. Japanese Patent Laid-Open No. 2005-197899 discloses a device in which a communication terminal monitors the transmission quality of a communication path such as a response time fluctuation and switches to another communication path when the transmission quality exceeds a predetermined threshold. Is described.
JP 2003-234770 A JP 2005-197899 A

  In the apparatus described in Japanese Patent Laid-Open No. 2003-234770, the communication path cannot be changed during the connection because the communication path is secured when a connection request to the network is made. Therefore, even if a communication failure occurs during connection, communication cannot be performed by switching to another communication path. In the apparatus described in Japanese Patent Laid-Open No. 2005-197899, the communication path is changed by switching the line connected to the communication terminal. However, a line that is not connected to the communication terminal cannot be switched from the communication terminal. When a communication terminal communicates with another communication terminal, a signal may be transmitted via another device. In this case, even if a failure occurs in a line connected to another device, the line cannot be switched from the communication terminal described in JP-A-2005-197899.

  The present invention has been made in view of the above points, and an object thereof is to provide an IP network system that can always change a communication path from a monitoring control server installed separately from a communication terminal.

  An IP network system according to the present invention is an IP network system that includes a plurality of communication terminals, a plurality of edge nodes connected to the communication terminals, and a monitoring control server that monitors the edge nodes. Test packet transmission instruction means for transmitting a test packet transmission instruction for instructing the communication terminal and the edge node to transmit a test packet for measuring the transmission quality of the communication path, and a test packet transmitted from the communication terminal and the edge node A transmission quality measurement means for receiving the reception result of the communication path to obtain the transmission quality of the communication path, a communication path selection means for selecting a communication path based on the transmission quality of the communication path obtained by the transmission quality measurement means, a communication terminal, and The communication path selected by the communication path selection means for the edge node is the signal transmission path. A communication path instruction means for sending a communication path setting instruction for instructing to set, and the edge node includes a test packet sending means for sending a test packet in response to the test packet transmission instruction and another edge node or A test packet reception result sending means for receiving a test packet from a communication terminal and sending the result to the monitoring control server; and a communication path setting means for setting a communication path in response to a communication path setting instruction. A terminal receives test packets from other communication terminals or edge nodes and sends the results to the monitoring control server. Test packet sending means for sending test packets in response to test packet sending instructions. Means and a communication path setting means for setting a communication path in response to the communication path setting instruction. And wherein the door.

  According to the IP network system of the present invention, it is possible to always set the communication path according to the transmission quality of the communication path, and to improve the use efficiency of the IP network. Since it is possible to monitor and control not only the edge node but also the communication terminal, even if a problem occurs on the communication terminal side, measures such as switching the line connected to the communication terminal are taken. I can do it.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a diagram showing an embodiment of an IP network system according to the present invention. The IP network system includes a monitoring control server 1, edge nodes 21 to 24, and communication terminals 31 to 32, and can transmit signals between the communication terminal 31 and the communication terminal 32. The communication terminal 31 and the edge node 21 are connected by a line 41. The edge node 21 and the edge node 22 are connected by a line 43. The edge node 21 and the edge node 23 are connected by a line 44. The edge node 22 and the edge node 23 are connected by a line 45. The edge node 22 and the edge node 24 are connected by a line 46. The edge node 23 and the edge node 24 are connected by a line 47. The communication terminal 32 and the edge node 24 are connected by a line 42. There are four communication paths through which signals can be transmitted between the communication terminal 31 and the communication terminal 32. The first is a communication path (hereinafter referred to as communication path A) for transmitting signals using the line 41, the line 43, the line 46, and the line 42. The second is a communication path (hereinafter referred to as communication path B) for transmitting signals using the line 41, the line 43, the line 45, the line 47, and the line 42. The third is a communication path (hereinafter referred to as communication path C) for transmitting signals using the line 41, the line 44, the line 45, the line 46, and the line 42. The fourth is a communication path (hereinafter referred to as communication path D) for transmitting signals using the line 41, the line 44, the line 47, and the line 42.

  The monitoring control server 1 monitors the transmission quality of the communication path between the communication terminal 31 and the communication terminal 32, and based on the transmission quality of the communication path and a predetermined threshold, the edge nodes 21-24 and the communication terminals 31-32 Instructing the setting of the communication path The test packet transmission instruction unit 11 transmits a test packet transmission instruction for instructing the edge nodes 21 to 24 and the communication terminals 31 to 32 to transmit a test packet. The test packet is used to measure the transmission quality of the communication path. As the test packet, for example, Ethernet (registered trademark) -OAM is used. The transmission quality measuring means 12 receives the reception result of the test packet transmitted from the edge nodes 21 to 24 and the communication terminals 31 to 32 and obtains the transmission quality of the communication path. The communication path selection unit 13 selects a communication path based on the transmission quality of the communication path and a predetermined threshold value. The communication path instruction unit 14 sends a communication path setting instruction that instructs to set the communication path selected by the communication path selection unit 13 as a signal transmission path to the edge nodes 21 to 24 and the communication terminals 31 to 32. The communication path notification unit 15 notifies the communication terminal of the communication path selected by the communication path selection unit 13. The notification of the communication path may be performed not only on the communication terminals 31 to 32 that transmit signals on the selected communication path, but also on other communication terminals (not shown). The transmission quality threshold storage unit 16 stores a threshold table in which transmission quality thresholds used when the communication path selection unit 13 selects a communication path are recorded.

  FIG. 2 shows an example of the threshold value table stored in the transmission quality threshold value storage means 16. The item between the communication terminals of the threshold value table indicates which communication terminal the recorded threshold value is a threshold value corresponding to a communication path for transmitting a signal. In the item of the threshold value of the Active route, a threshold value of the transmission quality of the Active route that is a communication route for transmitting a signal between the communication terminals is recorded. Hereinafter, a communication path that transmits signals between communication terminals is referred to as an Active path. In the stand-by path threshold item, the threshold of the transmission quality of the stand-by path, which is a communication path not transmitting signals between communication terminals, is recorded. Hereinafter, a communication path that does not transmit signals between communication terminals is referred to as a Standby path. Here, an average delay time is recorded as a transmission quality threshold.

  The edge node 21 relays the signal transmitted from the communication terminal 31 to other edge nodes and communication terminals connected to itself. The test packet sending means 211 sends a test packet in response to a test packet sending instruction from the monitoring control server. The test packet reception result sending means 212 receives a test packet from another edge node or communication terminal, and sends the result to the monitoring control server. The communication path setting means 213 sets a communication path for transmitting signals in response to a communication path setting instruction from the monitoring control server. Although not shown, the other edge nodes 22 to 24 have the same configuration as the edge node 21.

  The communication terminal 31 is connected to the edge node 21 and transmits / receives signals to / from other communication terminals 32. The test packet sending means 311 sends a test packet in response to a test packet sending instruction from the monitoring control server. The test packet reception result sending means 312 receives test packets from other edge nodes or communication terminals and sends the results to the monitoring control server. The communication path setting unit 313 sets a communication path for transmitting a signal in response to a communication path setting instruction from the monitoring control server. Although not shown, the other communication terminals 32 have the same configuration as the communication terminal 31.

  In this embodiment, the average delay time of the communication path is used as the transmission quality of the communication path. As the transmission quality of the communication path, a variation in response time, a communication band, etc. can be used in addition to the average delay time.

  A database 5 is connected to the monitoring control server 1. The database 5 stores a communication path table 51, a communication path state table 52, and a transmission quality measurement result table 53. In the communication path table 51, communication paths that allow signal transmission between the communication terminal 31 and the communication terminal 32 are recorded. In the communication path state table 52, the state of each communication path is recorded. In the transmission quality measurement result table 53, the transmission quality of each communication path measured by the transmission quality measuring means 12 is recorded.

  FIG. 3 shows an example of the communication path table 51 in which communication paths capable of transmitting signals between the communication terminal 31 and the communication terminal 32 are recorded. The item between the communication terminals in the communication path table 51 indicates which communication terminal is used for signal transmission between the recorded communication paths. The item of communication path name is a name given to each communication path. In the item of communication path, a communication path through which signals can be transmitted between communication terminals is recorded.

  FIG. 4 shows an example of the communication path state table 52 in which the state of each communication path is recorded. In the communication path item of the communication path state table 52, the name of each communication path is recorded. In the item of communication state, whether or not a signal is being transmitted between communication terminals via a communication path is recorded. When a signal is being transmitted between communication terminals on the communication path, Active is recorded in the item of communication state. When the signal is not transmitted between the communication terminals on the communication path, “Standby” is recorded in the item of communication state. The switching state item records whether the communication state of the communication path can be switched. When the switching state is the switching invalid state, the communication state cannot be switched. When the switching state is the switching hold state, the communication state can be switched. Usually, the switching state is set to a switching invalid state.

  FIG. 5 shows an example of the transmission quality measurement result table 53 in which the transmission quality of each communication path measured by the transmission quality measuring means 12 is recorded. In the item of communication path of the transmission quality measurement result table 53, the name of the communication path is recorded. In the item of the transmission quality measurement result, the average delay time that is the measured transmission quality is recorded.

  FIG. 6 shows the operation of the Active route monitoring routine executed by the controller (not shown) of the monitoring control server 1. The Active route monitoring routine is periodically executed by an interrupt. The controller confirms whether or not the measurement of the transmission quality of the Active path has been completed (step S601). If the transmission quality measurement is not completed, the process is terminated. If the measurement of the transmission quality is completed, the controller checks whether the transmission quality of the Active path exceeds the threshold of the Active path recorded in the threshold table (Step S602). If the threshold is not exceeded, the process is terminated. When the threshold value is exceeded, the controller sets the active path switching state to the switching hold state (step S603), and issues a command to the test packet transmission instruction unit 11 to measure the transmission quality of all the standby paths. (Step S604). When receiving a command from the controller, the test packet transmission instruction unit 11 transmits a test packet transmission instruction to the edge nodes 21 to 24 and the communication terminals 31 to 32.

  Note that the measurement of the transmission quality of the Active path is periodically performed. A command is periodically issued from the controller to the test packet transmission instruction means 11 so as to measure the transmission quality of the Active path. The test packet transmission instruction unit 11 receives the instruction and transmits a test packet transmission instruction. The measured transmission quality is recorded in the transmission quality measurement result table 53.

  FIG. 7 shows the operation of the communication route selection routine executed by the communication route selection means 13 of the monitoring control server 1. The communication path selection routine is periodically executed by an interrupt.

  The communication path selection unit 13 confirms the switching state of the Active path (Step S701). If the switching state of the Active route is not the switching hold state, the process is terminated. When the switching state of the Active path is the switching hold state, the communication path selection unit 13 confirms whether or not the measurement of the transmission quality of all the Standby paths is completed (Step S702). If the transmission quality measurement is not completed, the process is terminated. When the transmission quality measurement is completed, the communication path selection unit 13 sets the switching state of all the standby paths based on the transmission quality measurement result and the standby path threshold value recorded in the threshold table. (Step S703). When the transmission quality of the standby path exceeds the threshold of the standby path recorded in the threshold table, the switching state of the standby path is set to the switching invalid state. If the transmission quality of the standby path does not exceed the threshold of the standby path recorded in the threshold table, the switching status of the standby path is set to the switching pending state.

  After setting the switching states of all the standby paths, the communication path selecting unit 13 checks whether there are a plurality of communication paths whose switching states are in the switching suspension state (step S704). If there is no plurality of communication paths in which the switching state is the switching hold state, the communication path selecting unit 13 sets the switching state of all the communication paths to the switching invalid state (step S709), and ends the process. When there are a plurality of communication paths in the switching suspension state, the communication path selection unit 13 sets the communication state of the communication path whose communication state is Active to Standby (step S705). Then, the communication path selection unit 13 selects one of the communication paths whose switching state is the switching hold state, and sets the communication state of the communication path to Active (step S706). The communication path is selected based on the average delay time that is the transmission quality of the communication path. The communication path with the shortest average delay time is selected, and the communication state of the communication path is set to Active. After setting the communication state of the communication path to Active, the communication path selection unit 13 instructs the communication path instruction unit 14 to set the communication path whose communication state is set to Active as the signal transmission path (step S707). ). When receiving a command from the communication path selection unit 13, the communication path instruction unit 14 sends a communication path setting instruction to the edge nodes 21 to 24 and the communication terminals 31 to 32. In accordance with the communication path setting instruction, the edge nodes 21 to 24 and the communication terminals 31 to 32 use the communication path whose communication state is Active as the signal transmission path. The communication path selection means 13 issues a command to notify the communication path instruction means 14 and then notifies the communication path notification means 15 of the communication path whose communication state is set to Active (step S708). When receiving a command from the communication path selection unit 13, the communication path notification unit 15 notifies the communication terminal of the communication path whose communication state is Active. After issuing a command to the communication path notification means 15, the communication path selection means 13 sets the switching state of all the communication paths to the switching invalid state (step S709).

  Hereinafter, an operation in the case where switching of communication paths occurs when signals are transmitted between the communication terminals 31 and 32 using the communication path A will be described. Before the switching of the communication path occurs, the signal transmitted from the communication terminal 31 to the communication terminal 32 is the line 41, the edge node 21, the line 43, the edge node 22, the line 46, and the edge node that are the communication path A. 24. The communication terminal 32 is reached via the line 42. At this time, the monitoring control server 1 periodically measures the average delay time that is the transmission quality of the communication path A that is the active path. Here, it is assumed that the average delay time of the communication path A is 0.7 milliseconds and exceeds 0.5 milliseconds recorded in the threshold value item of the Active path in the threshold value table. At this time, the monitoring control server 1 sets the switching state of the communication path A to the switching hold state, and measures the average delay time of the communication paths B to D that are the standby paths. The measured average delay time is recorded in the transmission quality measurement result table 53.

  When the measurement of the average delay time is completed, the monitoring control server 1 sets the standby path switching state. The switching state of the communication path in which the measurement result of the average delay time does not exceed 1 millisecond recorded in the “standby path threshold value” item of the threshold value table is set to the switching pending state. Here, it is assumed that the result of the measured average delay time is shown in FIG. Since the measurement result of the average delay time of the communication path B and the communication path D in the standby path is 1 millisecond or less, the switching state of the communication path B and the communication path D is set to the switching pending state. The state of the communication path state table at this time is shown in FIG. Since there are a plurality of communication paths in which the switching state is the switching hold state, the monitoring control server 1 sets the communication path having the shortest average delay time as the communication path for signal transmission. Here, the average delay time of 0.4 milliseconds of the communication path D is the shortest among the communication paths whose switching state is the switching hold state. Therefore, the monitoring control server 1 sets the communication path D as the Active path. Then, a communication path setting instruction for setting a communication path for transmitting a signal between the communication terminal 31 and the communication terminal 32 from the communication path A to the communication path D is sent to the edge nodes 21 to 24 and the communication terminals 31 to 32.

  When the edge node 21 receives the communication path setting instruction, the edge node 21 sets the signal from the communication terminal 31 to the communication terminal 32 to be sent to the line 44 of the communication path D instead of the line 43 of the communication path A. In addition, a setting is made so that a signal from the communication terminal 32 to the communication terminal 31 is transmitted to the line 41 of the communication path D.

  When the edge node 23 receives the communication path setting instruction, the edge node 23 sets the signal sent from the communication terminal 31 to the communication terminal 32 to the line 47 of the communication path D. In addition, a setting is made so that a signal from the communication terminal 32 to the communication terminal 31 is transmitted to the line 44 of the communication path D.

  When the edge node 24 receives the communication path setting instruction, the edge node 24 sets the signal sent from the communication terminal 31 to the communication terminal 32 to the line 42 of the communication path D. In addition, a signal from the communication terminal 32 to the communication terminal 31 is set to be sent to the line 47 of the communication path D instead of the line 46 of the communication path A.

  When the communication terminal 31 receives the communication path setting instruction, the communication terminal 31 is set to send a signal directed to the communication terminal 32 to the line 41 of the communication path D. Upon receiving the communication path setting instruction, the communication terminal 32 sets so as to send a signal directed to the communication terminal 31 to the line 42 of the communication path D.

  After sending the communication path setting instruction, the monitoring control server 1 sets the switching state of all the communication paths to the switching invalid state. The state of the communication path state table at this time is shown in FIG.

  As described above, since the monitoring control server 1 periodically measures the transmission quality of the communication path and instructs the setting of the communication path based on the measured transmission quality, according to the transmission quality of the communication path. The communication path can always be set. In addition, by setting the transmission quality threshold to the content determined by the SLA, which is a system for guaranteeing the quality of communication services, the achievement level of the SLA can be improved. For example, assume that the average delay time is set to 0.5 milliseconds in the SLA. At this time, by setting the threshold of the active path to an average delay time of 0.5 milliseconds, when the average delay time of the active path exceeds 0.5 milliseconds, the communication path having the shortest average delay time is transmitted to the signal path. It can be set as a transmission path. Therefore, the average delay time determined by the SLA, 0.5 milliseconds, can be achieved.

  Hereinafter, measurement of the average delay time that is the transmission quality of the communication path will be described.

  FIG. 10 shows the operation of the test packet transmission instruction routine executed by the test packet transmission instruction means 11 of the monitoring control server 1. The test packet transmission instruction routine is periodically executed by interruption. The test packet transmission instructing unit 11 confirms whether there is a request for measuring the transmission quality of the communication path (step S1001). If there is no request for measuring the transmission quality, the process ends. When there is a request to measure the transmission quality, the test packet transmission instruction unit 11 transmits a test packet transmission instruction to the edge nodes 21 to 24 and the communication terminals 31 to 32 for instructing to transmit the test packet through the designated communication path. (Step S1002). Then, it is confirmed whether or not the test packet transmission instruction has been transmitted a predetermined number of times, for example, 5 times (step S1002). If it has not been sent a predetermined number of times, the process returns to S1002. If it has been sent a predetermined number of times, the process is terminated.

  The communication terminal 31 that has received the test packet transmission instruction from the monitoring control server 1 records the test packet transmission time in the test packet and directs the test packet to the communication terminal 32 through the communication path specified by the test packet transmission instruction. And send it out. When receiving the test packet from the communication terminal 31, the communication terminal 32 sends the reception time of the test packet and the transmission time of the test packet recorded in the test packet to the monitoring control server 1 as the reception result of the test packet.

  Similarly to the communication terminal 31, when the communication terminal 32 receives a test packet transmission instruction from the monitoring control server 1, the test packet transmission time is recorded in the test packet, and the test is performed on the communication path specified by the test packet transmission instruction. The packet is transmitted to the communication terminal 31. When receiving the test packet from the communication terminal 32, the communication terminal 31 sends the reception time of the test packet and the transmission time of the test packet recorded in the test packet to the monitoring control server 1 as the reception result of the test packet.

  FIG. 11 shows the operation of a transmission quality measurement routine executed by the transmission quality measurement means 12 of the monitoring control server 1. The transmission quality measurement routine is periodically executed by interruption. The transmission quality measuring means 12 confirms whether or not a test packet reception result has been received (step S1101). If the test packet reception result has not been received, the process ends. When the reception result of the test packet is received, the transmission quality measurement unit 12 obtains a delay time from the reception time and transmission time of the test packet recorded in the reception result (step S1102). The delay time is the difference between the reception time and the transmission time of the test packet. After obtaining the delay time, the transmission quality measuring means 12 confirms whether or not the test packet reception result has been received a predetermined number of times, for example, five times (step S1103). If the test packet reception result has not been received a predetermined number of times, the process ends. When the reception result of the test packet is received a predetermined number of times, the transmission quality measuring means 12 calculates the average delay time (step S1104) and records the value in the transmission quality measurement result table 53 (step S1105). .

  As described above, in the IP network system of the present invention, the supervisory control server measures the transmission quality of the communication path and issues an instruction to set the communication path based on the transmission quality. Therefore, it becomes possible to always set the communication path according to the transmission quality of the communication path, and the use efficiency of the IP network can be improved. In addition, the monitoring control server can monitor and control not only the edge node but also the communication terminal. Therefore, even when a problem occurs on the communication terminal side, it is possible to take measures such as switching the line connected to the communication terminal.

It is a block diagram which shows the Example of the IP network system by this invention. It is a figure which shows the example of the threshold value table of the IP network system of FIG. It is a figure which shows the example of the communication route table of the IP network system of FIG. It is a figure which shows the example of the communication path | route state table of the IP network system of FIG. It is a figure which shows the example of the transmission quality measurement result table of the IP network system of FIG. It is a flowchart which shows operation | movement of the Active path | route monitoring routine of the IP network system of FIG. 2 is a flowchart showing an operation of a communication route selection routine of the IP network system of FIG. It is a figure which shows the example of the communication path | route state table of the IP network system of FIG. It is a figure which shows the example of the communication path | route state table of the IP network system of FIG. 2 is a flowchart showing an operation of a test packet transmission routine of the IP network system of FIG. 2 is a flowchart showing an operation of a transmission quality measurement routine of the IP network system of FIG.

Explanation of symbols

1 Monitoring control servers 21 to 24 Edge nodes 31 to 32 Communication terminals 41 to 47 Line 5 Database

Claims (3)

An IP network system including a plurality of communication terminals, a plurality of edge nodes connected to the communication terminals, and a monitoring control server that monitors the edge nodes,
The monitoring control server includes a test packet transmission instruction means for transmitting a test packet transmission instruction for instructing the communication terminal and the edge node to transmit a test packet for measuring transmission quality of a communication path; and the communication terminal And a transmission quality measuring means for receiving the reception result of the test packet sent from the edge node to obtain the transmission quality of the communication path, and a communication path based on the transmission quality of the communication path obtained by the transmission quality measuring means. A communication path selection means for selecting, and a communication path for sending a communication path setting instruction for instructing the communication terminal and the edge node to set the communication path selected by the communication path selection means as a signal transmission path And indicating means,
The edge node is a test packet sending means for sending a test packet in response to the test packet sending instruction, and a test for receiving a test packet from another edge node or a communication terminal and sending the result to the monitoring control server A packet reception result sending means, and a communication path setting means for setting a communication path according to the communication path setting instruction,
The communication terminal receives test packets from other communication terminals or edge nodes and sends the results to the monitoring control server, test packet sending means for sending a test packet in response to the test packet sending instruction An IP network system, comprising: a packet reception result sending means; and a communication path setting means for setting a communication path in response to the communication path setting instruction. The supervisory control server has a transmission quality threshold storage means for storing a transmission quality threshold of a communication path,
The communication path selection means selects a communication path based on the transmission quality threshold of the communication path stored in the transmission quality threshold storage means and the transmission quality of the communication path obtained by the transmission quality measurement means. The IP network system according to claim 1, wherein:   2. The IP network system according to claim 1, wherein the monitoring control server includes a communication path notifying unit that notifies the selected communication path to the communication terminal.

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