JP2003069588A - Double-ring type data transmission method and transmission system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent transmission delay or packet loss caused by congestion of transmission channel or abnormal condition to ensure a real-time property of data transmission. SOLUTION: In the double ring type data transmission method in which several nodes 20a, 20b, 20c..., 20n are connected with a transmission channel L10a and a transmission channel R10b, respectively, in ring shapes to transmit data between each node 20a, 20b, 20c..., 20n using the channel L10a as an active channel and the channel R10b for a standby channel, base transmission time for packets between each node 20a, 20b, 20c..., 20n are defined. If transmission time for packets sent from each node 20a, 20b, 20c..., 20n is longer than the base transmission time, the channel between the transmitter node and the receiver node of the relevant packets are switched to the standby channel R10b from the active channel L10a.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention connects a plurality of nodes in a ring shape by two transmission lines and uses one transmission line as an active transmission line and the other transmission line as a standby transmission line. The present invention relates to a double ring type data transmission method and a transmission system for performing data transmission between nodes, and in particular, it detects a delay in the data transmission time between each node and detects the delay between the active system and the standby system according to the content of the data to be transmitted. By switching the transmission path, even if congestion or abnormality of the transmission path occurs, data can be transmitted without causing transmission delay or packet loss. For data that requires real-time transmission of voice, image, etc. The present invention relates to a preferable double ring type data transmission method and transmission system.

[0002]

2. Description of the Related Art Generally, in a LAN (premise network) system for connecting a plurality of information processing devices and peripheral devices in a company or the like, each terminal provided on the network and other LANs are formed in a ring shape. A dual ring type data transmission system is used in which the two transmission lines are connected to each other. This type of dual ring type data transmission system connects a plurality of nodes to which each terminal or LAN is connected in a ring shape by two transmission lines, one transmission line being an operation system and the other transmission line. By using the line as a standby system (standby system) transmission line, data transmission is continued by the standby system transmission line even if a failure occurs in the active system transmission line.

An outline of a conventional general dual ring type data transmission system will be described below with reference to FIGS. 4 and 5. FIG. 4 is an explanatory view schematically showing a conventional general dual ring type data transmission system,
(A) shows a normal time, and (b) shows a failure occurrence time. FIG. 5 is an explanatory diagram showing a transmission frame used in the conventional double ring type data transmission method.

As shown in FIG. 4, the dual ring data transmission system includes a plurality of nodes 120a, 120b, 120c. ． ． , 120n,
Two transmission lines (transmission line L110a, transmission line R110b)
Are connected to each other in a ring shape (annular shape). Each node 120a, 120b, 120c. ． ． , 1
Terminals such as an information processing device and peripheral devices (not shown) and other LANs are connected to 20n.

Two transmission lines L110a and R110
b transmits data in mutually opposite directions. In the example shown in FIG. 4, the transmission line L110a is in the counterclockwise direction and the transmission line R110b is in the clockwise direction. , Respectively, to transmit data. These two transmission lines are in normal condition (no failure)
Then, one of the transmission lines (in FIG. 4, the transmission line L110 in the counterclockwise direction
Only a) is used for data transmission between the nodes as an active transmission line, and the other transmission line (clockwise transmission line R110b in FIG. 4) is in a standby state not used as a standby transmission line. There is.

The transmission frame of the packet transmitted through this transmission path is, for example, as shown in FIG. This transmission frame 150 shows, as information within the frame, a destination address 151 indicating a packet transmission destination, a transmission source address 152 indicating a transmission source, a tag protocol display 153 indicating protocol information used for the frame, priority information, and the like. It has tag control information 154 and data 155. Tag control information 1 such as priority information in the transmission frame 150
By including 54, for example, on the data receiving side,
It is possible to control the buffer based on the priority information, perform a priority control process of assembling a packet from data having a high priority and outputting the data.

In such a conventional double ring type data transmission system, the transmission line L1 which is the operation transmission line is used.
When failure or disconnection occurs in 10a (Fig. 4 (b))
The cross mark) indicates that the faulty part is separated from the network and the transmission data is looped back to the transmission line R110b which is the standby transmission line, whereby the data transmission is continued. . in this way,
In the conventional double ring type data transmission system, normally, data transmission is performed by using only one transmission line as an active system, and when a failure occurs in the active transmission line,
By separating the faulty part from the network and performing loopback transmission using the standby transmission line, a network system with high reliability against a fault is realized.

[0008]

However, in such a conventional double ring type data transmission system, only the loopback transmission using the standby system is performed for the failure of the transmission line, and the transmission line is congested. No particular consideration was given to the problem of data transmission delay. In recent years, the rapid spread of the Internet and the like, the remarkable progress of high performance, high speed, and low price of terminal equipment such as information processing devices,
In addition to the conventional data consisting of only letters and numbers, data with a large amount of information such as voice and images are being transmitted, which causes a problem of transmission delay due to increase in traffic on the network. There is. In particular, such a transmission delay is a serious problem that the real-time property of data transmission is impaired when data such as voice and images are repeatedly transmitted and received between terminals in real time, such as in a TV conference or an internet telephone. It was a problem.

However, as described above, in the conventional double-ring type data transmission system, when a failure occurs in the active transmission path, the failed part is separated from the network and the standby transmission path is used. As a general rule, there is only one transmission line for transmitting data. For this reason, it has been impossible to transmit images, sounds, etc. in real time only by the conventional transmission system when a transmission delay occurs due to an increase in traffic.

Here, as described above, in the conventional double ring type data transmission method, the buffer on the receiving side is controlled and prioritized based on the priority information provided in the transmission frame of the packet to be transmitted. In some cases, priority control processing for assembling packets is performed. However, such priority control processing is to assemble and output packets by prioritizing the received data, and when the reception itself is delayed or impossible due to the increase in traffic, It is not effective. For this reason,
With such a priority control process, the above-mentioned problem of transmission delay cannot be solved, and it is difficult to cope with data transmission that requires real-time property.

It should be noted that, in Japanese Patent Laid-Open No. 3-276937, two transmission lines are efficiently used by using both transmission lines at the same time when there is no failure in each transmission line. A "double-loop data transmission method" that has been proposed for use is proposed. In this data transmission method, since both of the two transmission lines are used at the same time, it is possible to double the amount of data that can be transmitted as the entire transmission line. However, since all the data are uniformly transmitted over the two transmission lines regardless of the contents, when a large amount of data is transmitted, congestion occurs on both of the two transmission lines, resulting in the above-mentioned conventional method. Similarly, it was difficult to solve the problems of transmission delay and real-time property due to congestion.

Further, Japanese Patent No. 2970304 discloses that
When a failure occurs in the transmission path, the area of synchronous data and asynchronous data is controlled in the transmission frame according to the transmission status.
A "method of constructing a transmission frame at the time of forming a loopback" is proposed to be secured. However, in this method, when transmitting synchronous data and asynchronous data at the same time, the synchronous data and asynchronous data are distributed to both the transmission path of the active system and the standby system according to the transmission status such as the occurrence of failure. However, it is not related to the means for solving the congestion of the transmission line due to the increase of the traffic on the network and the transmission delay and the problem of real-time property.

The present invention has been proposed in order to solve the problem of the conventional technique as described above, and detects the delay of the data transmission time between each node and determines the content of the data to be transmitted according to the content. Even if congestion or abnormality of the transmission line occurs by switching the transmission line of the active system and the standby system,
An object of the present invention is to provide a double ring type data transmission method and a transmission system which can perform data transmission without causing transmission delay or packet loss, and particularly suitable for data transmission requiring real-time property such as voice and image.

In order to achieve the above object, a dual ring type data transmission method according to a first aspect of the present invention is such that a plurality of nodes are connected in a ring shape by a first transmission line and a second transmission line, respectively. A double ring type data transmission method for performing data transmission between nodes by using the transmission line as an active transmission line and the other transmission line as a standby transmission line, and a packet reference between the plurality of nodes. The transmission time is set, the transmission time of the packet transmitted from each node is calculated, and when the transmission time exceeds the reference transmission time, the transmission path between the transmission side node and the reception side node of the packet is This is a method of switching from the active system to the standby system transmission line.

According to the double ring type data transmission method of the present invention having such a method, the transmission time of the received packet is previously set to a threshold value between the nodes connected in a ring shape via the transmission path. By comparing with the reference transmission time set as, the delay of the data transmission time between each node can be detected. Then, between the nodes whose transmission time exceeds the threshold (reference transmission time), the transmission path is switched from the active transmission path to the standby transmission.

As a result, data can be transmitted between the specific nodes by using the standby transmission line which is not congested, and even when congestion or abnormality occurs in the operation transmission line, The packet transmitted through the standby transmission path can be transmitted without causing transmission delay or packet loss. For example, it is possible to perform reliable real-time transmission of data that requires real-time characteristics such as voice and images, such as video conferences and Internet telephones, by using the standby transmission path.

Further, in the double ring type data transmission method according to the second aspect, in a node whose transmission path is switched from an active system to a standby system, from another node which is received via the operational system transmission line. Is calculated, and when the transmission time does not exceed the reference transmission time, the transmission path between the nodes switched from the active system to the standby system is returned to the active transmission path. .

According to the double ring type data transmission method of the present invention having such a method, congestion occurs in the active transmission line, and the transmission line between specific nodes is switched to the standby system. On the other hand, by monitoring the transmission time of the packet transmitted from the other nodes via the active transmission line, it is possible to constantly determine the status of congestion of the active transmission line. As a result, it is possible to immediately detect that congestion of the operating system transmission line has been resolved. In that case, the transmission line switched to the standby system is returned to the original operating system, and the double ring type transmission line Can be returned to the original state and subsequent data transmission can be performed.

Further, in the double ring type data transmission method according to the third aspect of the invention, based on the predetermined priority information included in the packet transmitted from each of the nodes, the transmission path between the transmission side node and the reception side node of the packet is This is a method of determining switching.

According to the dual ring type data transmission method of the present invention having such a method, the transmission path is switched according to the data content by referring to the priority information provided in the transmission frame of the packet to be transmitted. It can be performed. As a result, for example, data that requires real-time characteristics such as video conferencing and Internet telephone calls,
It is possible to easily and accurately specify the node that transmits a packet that needs to be switched to the standby transmission path, and it is possible to appropriately select and switch the transmission path according to the content of the transmitted data.

For example, if it is determined based on the priority information that the amount of information is enormous and that the data is voice or image data that requires real-time transmission, the standby transmission line is switched to a congestion-free transmission line. Can be transmitted. on the other hand,
If it is determined based on the priority information that the data is only the character information that does not require real-time property, the data can be transmitted using the active transmission path as it is.

On the other hand, a dual ring type data transmission system according to a fourth aspect comprises a plurality of nodes and first and second transmission lines respectively connecting the plurality of nodes in a ring shape. A dual ring type transmission system in which a path is used as an active path and the other transmission path is used as a standby path, and each of the plurality of nodes transmits and receives packets to and from other nodes. Comparing the calculating means for calculating the transmission time of the received packet, the storing means for storing the reference transmission time of the packet between other nodes, and the transmission time for the received packet and the reference transmission time Control for switching the transmission line of the receiving side and the transmission side node of the packet from the operating system to the standby system or from the standby system to the operating system according to the comparison result in the comparison unit. It is constituted comprising a stage, a.

According to the dual ring type data transmission system of the present invention having such a configuration, the calculating means for calculating the actual packet transmission time between the nodes connected in the ring shape by the transmission path, and the packet Storage means for storing the reference transmission time, comparison means for comparing the actual transmission time of the packet with the reference transmission time, and control means for switching the transmission path between the active system and the standby system according to the determination result of the comparison means. The dual ring data transmission system according to the present invention can be configured. As a result, the calculation unit, the storage unit, the comparison unit, and the control unit according to the present invention can be realized by existing devices such as a memory, an arithmetic circuit, a determination circuit, and a CPU, and the data transmission according to the present invention can be performed with a simple configuration. The method can be carried out.

In particular, in the double ring type data transmission system according to the fifth aspect, the transmission frame of the packet transmitted from each node includes time stamp information indicating the transmission time of the packet, and the calculation means Based on this time stamp information and the reception time of the packet,
It is configured to calculate the transmission time of the packet.

According to the dual ring type data transmission system of the present invention having such a configuration, the transmission side frame of the packet to be transmitted is provided with the time stamp information indicating the transmission time of the packet, so that the receiving side node In, the actual transmission time of the packet can be easily and accurately calculated from the transmission time of the packet indicated by the time stamp and the actual reception time of the packet.
As a result, the node that transmits the packet to be switched to the standby transmission line can be specified by simply adding the time stamp information to the transmission frame without separately requiring a complicated device, a new system, or a program. Can be performed easily and accurately, and the data transmission method according to the present invention can be reliably implemented.

Further, in the double ring type data transmission system according to the sixth aspect, the transmission frame of the packet transmitted from each of the nodes includes priority information according to the data content of the packet, and the control means comprises: Based on this priority information, the transmission lines of the active system and the standby system are switched.

According to the double ring type data transmission system of the present invention having such a configuration, the packet is transmitted based on the priority information according to the data content set in the transmission frame of the packet to be transmitted. Whether or not the transmission path can be switched can be determined between the nodes.
As a result, a node that transmits a packet that needs to be switched to the standby system transmission line by simply referring to the priority information of the transmission frame, without separately requiring a complicated device, a new system, a program, etc. It is possible to implement the data transmission method of the present invention, which can be easily and accurately specified, and which enables appropriate transmission path selection and switching control according to the content of data to be transmitted.

[0028]

BEST MODE FOR CARRYING OUT THE INVENTION A preferred embodiment of a double ring type data transmission method and transmission system according to the present invention will be described below with reference to FIGS. Figure 1
FIG. 1 is an explanatory view schematically showing a dual ring type data transmission system according to an embodiment of the present invention. 2 is shown in FIG.
FIG. 3 is a block diagram schematically showing the configuration of each node in the dual ring type data transmission system of the present exemplary embodiment shown in FIG. Further, FIG. 3 is an explanatory view showing a transmission frame used in the double ring type data transmission method according to the present embodiment.

First, the configuration of the dual ring type data transmission system according to this embodiment will be described. The dual ring type data transmission system according to the present embodiment shown in FIG. 1 has a plurality of information processing devices, peripheral devices, other L
LAN for connecting ANs (generally referred to as "terminals" below)
(Premises network) system, in which each of the terminals 30a to 30n provided on the network is connected to two transmission lines (transmission line L10a and transmission line R10) formed in a ring shape.
It is a dual ring type data transmission system which is connected by b).

Specifically, as shown in FIG. 1, the double ring type data transmission system according to the present embodiment has a plurality of nodes 20a, 20b, 2 arranged on a network.
0c. ． ． , 20n are two transmission lines (transmission line L10
a and the transmission line R10b) are connected to each other in a ring shape (annular shape). Each node 20a, 20b, 20
c. ． ． , 20n, terminals 30a, 30b, 30 including terminals such as information processing devices and peripheral devices and other LANs.
c. ． ． , 30n are connected to each other and each node 20
Transmission / reception of transmission data is performed between the corresponding terminals 30 via the.

Here, the data transmission on the ring type transmission line in the present embodiment is controlled by, for example, the token ring system as in the existing ring type transmission system. The token ring method is widely known as a control method of networks connected in a ring shape, and a packet is transmitted and received between nodes by a token circulating on the ring. However, it goes without saying that any control method and protocol can be applied to the data transmission system of the present embodiment as long as data transmission in the ring network can be controlled. For example, the dimmed token system adopted in FDDI, TPDDI, etc., each bridge (node) connected in a ring shape
It is also possible to adopt a spanning tree method or the like in which the spaces are connected so as to be connected in a tree structure.

Two transmission lines L10a and R10b
Are transmission lines that transmit data in opposite directions. As shown in FIG. 1, in the present embodiment, the transmission line L10
Data is transmitted in the counterclockwise (a) direction and the transmission path R10b in the clockwise (clockwise) direction (see the arrow shown in FIG. 1). Of these two transmission lines L10a and R10b, in a normal state, only the counterclockwise transmission line L10a, which is one of the transmission lines, is used as a working transmission line for data transmission between the nodes 20a to 20n. The clockwise transmission line R10b that is used and is the other transmission line is in a standby state where it is not used as a standby transmission line (see FIG. 4A). Then, when a failure such as a failure or disconnection occurs in the transmission path L10a which is the operation transmission path (see the cross mark shown in FIG. 4B), the failure point is disconnected from the network and the transmission which is the standby transmission path is performed. The transmission data is looped back to the path R10b so that the data transmission can be continued.

As shown in FIG. 2, each of the nodes 20a to 20n performs a transmission / reception section 21 (transmission / reception section L21a and transmission / reception section R21b) which performs transmission / reception processing of a packet as transmission data.
And a control unit 22, a transmission time calculation unit 23, a reference transmission time storage unit 24, and a comparison unit 25. Transmitter / receiver 21
Correspond to the two transmission lines L10a and R10b, respectively, and are respectively a transmission / reception unit L21a and a transmission / reception unit R21b.
Is provided and one of the transmission / reception units 21 (transmission / reception unit L21a or transmission / reception unit R selected by the control of the control unit 22 is provided.
21b) is the corresponding transmission line L10a or transmission line R10
Packets are transmitted and received between the nodes 20a to 20n via the node b. In this embodiment,
As described above, since the transmission line L10a is used as the active transmission line, the transmission / reception unit L21a connected to the transmission line L10a transmits / receives in the active system in a normal state where there is no failure in the transmission line. And a transmission / reception unit R21b connected to a transmission line R10b serving as a standby transmission line.
Is in a standby state as a transmission / reception unit of a standby system.

More specifically, the transmission / reception unit L21a (or the transmission / reception unit R21b) first transmits the transmission data for transmission input from the terminal 30 to the node 20 when the node 20 is the transmission source. Under the control of 1, the packet is divided into packets and the packet is transmitted to the transmission line L10a (or the transmission line R10b). The transmitted packet is the destination node 2
The reception / transmission unit L21a (or the transmission / reception unit 21b) at the same time receives the reception completion signal. This reception completion signal indicates that the transmission / reception unit L21a of the packet transmission source
(Or the transmission / reception unit 21b), the transmission process is completed.

On the other hand, when the node 20 is the receiving side, the transmission / reception unit L21a (or transmission / reception unit R21b) receives the packet transmitted from another node 20 via the transmission line L10a (or transmission line R10b). . When the packet is received, the transmitting / receiving unit L21a (or the transmitting / receiving unit R21b)
Assembles the packet, and the terminal 30 through the control unit 22.
The transmission data is output to. At the same time, the destination node 2
A reception completion signal is transmitted to 0, and this reception signal is received by the destination node 20. Thereby, the reception process is completed.

In this embodiment, for the packet transmitted from the destination node 20, the transmission / reception unit L21a of the node 20 on the receiving side calculates the transmission time of the packet, and the transmission time is a standard to be described later. When the transmission time is exceeded, the control unit 22 controls the transmission line with the node 20 that is the transmission source of the packet to change the transmission line L1 of the operating system.
0a is switched to the standby transmission path R10b.

The control unit 22 is a control unit that controls the above-mentioned transmission / reception unit 21 to perform packet transmission. As shown in FIG. 2, the control unit 22 is connected to the terminal 30 and each unit of the node 20 in this embodiment. Are in control. In the present embodiment, when the transmission delay in the active transmission line L10a is detected by the control of the control unit 22, the active transmission line L10a is switched to the standby transmission line R10b, and the active transmission line L10a is switched. When the transmission delay of the transmission line L10a is eliminated, the switched standby transmission line R10b is returned to the active transmission line L10a. Details of the determination of the transmission delay of the transmission line and the switching method of the transmission line by the control unit 22 will be described later.

The transmission time calculation unit 23 is a calculation means for calculating the actual transmission time of a packet received from another node 20 under the control of the control unit 22. The transmission time calculation unit 23 transmits, via the control unit 22, the transmission time of the packet indicated by the time stamp information 56 included in the transmission frame 50 (see FIG. 3) of the received packet and the transmission / reception unit 21 of the packet. The time actually received is entered. The transmission time calculator 23 calculates the packet transmission time by calculating the difference between the transmission time and the reception time. Then, the packet transmission time calculated by the transmission time calculation unit 23 is input to the comparison unit 25 via the control unit 22,
It is adapted to be compared with the corresponding reference transmission time.

The reference transmission time storage unit 24 is a storage means composed of a memory or the like, and stores the reference transmission time of packets between the nodes 20a to 20n as a threshold value.
This reference transmission time is stored as a threshold value by performing packet transfer between the nodes 20a to 20n in the initial state of constructing the present transmission system and using the transmission time as the reference transmission time. Also, this reference transmission time storage unit 2
In FIG. 4, when the transmission data transmitted between the nodes 20a to 20n is data requiring real-time property, a predetermined delay time that would impair the real-time property is set and stored as a threshold value. There is. When the real-time property is impaired, the delay time usually exceeds the reference transmission time and further exceeds a certain time.
Then, the threshold value data stored in the reference transmission time storage unit 24 is input to the comparison unit 25 and compared with the actual transmission time of the packet calculated by the transmission time calculation unit 23 described above.

The comparison unit 25 compares the actual transmission time of the packet calculated by the transmission time calculation unit 23 with the corresponding threshold value (reference transmission time) stored in the reference transmission time storage unit 24. Is. The comparison unit 25 receives the actual transmission time of the packet calculated by the transmission time calculation unit 23 via the control unit 22 and the corresponding reference transmission time from the reference transmission time storage unit 24. It has become. Then, the comparison unit 25 compares the actual transmission time with the corresponding reference transmission time, and outputs the comparison result to the control unit 22. As a result, the control unit 2
2, it is determined from the comparison result of the comparison unit 25 whether or not the actual transmission time is delayed compared with the reference transmission time, and according to the determination result, the node 20 which is the transmission source of the packet is compared. It is possible to perform control to switch the transmission line from the active transmission line L10a to the standby transmission line R10b.

Next, the transmission frame 50 of the packet transmitted in this embodiment will be described with reference to FIG. As shown in the figure, as the information in the frame,
A destination address 51 indicating a packet transmission destination, a transmission source address 52 indicating a transmission source, a tag protocol display 53 indicating protocol information used for the frame, tag control information 54 indicating priority information, data 55 and time stamp information 56. Is equipped with.

The transmission frame 50 of this embodiment has time stamp information 56. The time stamp information 56 indicates the transmission time of the packet transmitted from the transmission / reception unit 21 of each node 20. By including the time stamp information 56, as described above, the transmission time calculating unit 23 of the node 20 on the packet receiving side.
In the above, the actual transmission time of the packet can be accurately and easily calculated from the transmission time of the packet indicated by the time stamp information 56 and the reception time of the packet in the transmission / reception unit 21.

In the transmission frame 50 of this embodiment, the tag control information 5 includes priority information indicating the priority of data.
Prepare for 4. In the present embodiment, the priority of the data indicated by the priority information is such that, when the data is data that requires real-time property, the information has higher priority than data that does not require real-time property. It can be assigned. Then, based on this priority order information, the control unit 22 of the reception side node 20 switches the transmission path according to the data content. For example, since the amount of information is huge and voice, image data, etc. that require real-time transmission are of high priority, the control unit 22 controls switching to the standby transmission line R10b where congestion does not exist. . On the other hand, the control unit 22 controls to directly use the transmission line L10a of the active system because the priority order is low for data and the like which does not require real-time property and is composed of only character information.

As a result, the packet which needs to be switched to the transmission path R10b of the standby system can be specified easily and accurately, and appropriate transmission path selection and switching control according to the content of data to be transmitted can be performed. It will be possible. Note that, by referring to this priority information, for example, as in the conventional data transmission method, for example, the node 20 on the data receiving side controls the buffer based on the priority information, and assembles a packet from data with high priority. Priority control processing for outputting data can be performed.

Next, regarding the data transmission method using the double ring type data transmission system according to the present embodiment having the above-mentioned configuration, the case of performing data transmission between the nodes 20a and 20c shown in FIG. Take for example. When performing data transmission in this system,
In a normal state, the transmission line L10a of the active system is used. First, when transmission data is input to the node 20a from the terminal 30a on the transmission side, the data is transmitted to the transmission / reception unit L2.
The packet is divided into packets at 1a, and the divided packets are transmitted via the operational transmission line L10a and received by the transmission / reception unit L21a of the reception-side node 20c. When the packet is received, the reception end signal is transmitted from the reception side node 20c to the transmission source node 20a. Further, the received packet is assembled under the control of the control unit 22 and output as transmission data to the receiving side terminal 30c.

Then, at the receiving side node 20c,
The time stamp information 56 of the transmission frame of the packet received by the transmission / reception unit L21a and the reception time of the packet are input to the transmission time calculation unit 23 via the control unit 22. The transmission time calculation unit 23 calculates the difference between the transmission time of the packet indicated by the input time stamp information 56 and the time when the packet is actually received by the transmission / reception unit L21a, and calculates the actual transmission time of the packet. calculate. The calculated packet transmission time is input to the comparison unit 25 via the control unit 22.

In the comparison unit 25, the actual transmission time of the packet calculated by the transmission time calculation unit 23 is input via the control unit 22 and the corresponding reference transmission time is input from the reference transmission time storage unit 24. To be done. Then, this actual transmission time is compared with the corresponding reference transmission time, and the comparison result is input to the control unit 22. In the control unit 22,
Based on the comparison result of the comparison unit 25, it is determined whether or not the actual transmission time is delayed from the reference transmission time, and according to the determination result, the transmission path is changed from the active transmission path L10a to the standby transmission path. Control to switch to R10b is performed.

Specifically, the determination of the transmission delay and the switching control of the transmission line are performed as follows. When other transmission data does not flow through the transmission line L10a of the active system and congestion does not occur, the actual transmission time of the packet sent from the node 20a to the node 20c is the corresponding threshold value (reference transmission time). Since it does not exceed, the control unit 22 determines that there is no transmission delay and uses the operating transmission line L10a as it is as a transmission line. That is, in this case, switching control of the transmission path is not performed, and the other nodes 20b ,. ． ． Two
Similar to 0n, subsequent data transmission is performed via the transmission line L10a of the active system.

On the other hand, when a large amount of other packets are flowing on the transmission line L10a of the active system, the actual transmission time of the packet sent from the node 20a to the node 20c depends on the corresponding threshold value ( (Standard transmission time)
Will be exceeded. In this case, the control unit 22 determines that a transmission delay has occurred. Here, in the determination of the transmission delay in the control unit 22, for example, when the actual transmission time exceeds the reference transmission time in one reception, it can be immediately determined to be the transmission delay. When the transmission time exceeds the reference transmission time and the state occurs several times in succession, it may be determined that the transmission delay has occurred. Further, at this time, even if the actual transmission time exceeds the reference transmission time, if it does not exceed the range in which the real-time property is impaired, it can be determined that it is not a transmission delay. The delay time that impairs the real-time property can be set as a threshold value in the reference transmission time storage unit in advance, as described above.

When it is determined that there is a transmission delay, the control unit 22 refers to the priority information included in the tag control information 54 of the transmission frame of the received packet. Then, based on this priority information, the control unit 22 controls the switching of the transmission path according to the data content. That is, when it is determined from the priority information that the transmission data is voice or image data that requires real-time processing, the control unit 22
Switches the transmission line between the nodes 20a and 20c to the standby transmission line R10b in which no congestion exists.

On the other hand, when it is determined from the priority information that the data or the like is composed only of character information that does not require real-time property, the operating transmission line L10a is used as it is as the transmission line for the nodes 20a and 20c. To control. As a result, when a transmission delay occurs in the operating transmission line L10a and the received packet is data requiring real-time processing, the transmission line used thereafter is switched to the standby transmission line R10b. Will be done.

That is, in this case, the nodes 20a and 20c are the same as the other nodes 20b ,. ． ． 20n
Unlike the above, the connection is established via the standby transmission line R10b, and the subsequent data transmission between the node 20a and the node 20c is performed via the standby transmission line R10b. Therefore, the data transmission between the node 20a and the node 20c is performed through the standby transmission path R10b in which other transmission data does not exist, so that the real-time property is not impaired and there is no transmission delay or packet loss. Data transmission is guaranteed. The node 20a or node 20c and the other nodes 20b ,. ． ． 20n
Data transmission to and from the
via a.

Furthermore, even after the transmission line between the nodes 20a and 20c is switched to the standby transmission line R10b, the congestion status of the active transmission line L10a is constantly monitored. The transmission path is a standby transmission path R10
The nodes 20a and 20c switched to the other nodes 20b ,. ． ． Packets are transmitted / received to / from 20n via the active transmission line L10a. Then, in the present embodiment, the node 20a and the node 20c
, The other nodes 20b ,. ． ． Regarding the packet transmitted from 20n, the transmission time is monitored by the control of the control unit 22 in the same manner as the above-mentioned method.

That is, the node 20a or the node 20c
, The other nodes 20b ,. ． ． The packet received from 20n has its transmission time calculated by the transmission time calculation unit 23, and is compared with the reference transmission time corresponding to this transmission time by the comparison unit 25. Then, when the transmission time does not exceed the corresponding reference transmission time, the control unit 22 determines that the congestion of the transmission line L10a of the active system has been resolved, and the node 2 switched from the active system to the standby system.
The transmission line between 0a and 20c is the active transmission line L10a.
It is supposed to be returned to.

As a result, when the congestion of the transmission line L10a of the active system is resolved, the transmission line switched to the transmission line R10b of the standby system can be returned to the original active system, and the double ring The data transmission can be performed by returning the type transmission line to the original state. In addition, the transmission line L10a of the active system
When a failure such as a failure or disconnection occurs in the controller 22,
Under the control of 1, the data transmission is continued by returning the transmission data to the standby transmission path R10b, as in the existing ring transmission system.

As described above, according to the double ring type data transmission method and transmission system of the present embodiment, each node 20a, which is connected in a ring shape via the two transmission lines L10a and R10b. By comparing the packet transmission time between 20n and the reference transmission time preset as a threshold value in the reference transmission time storage unit 24 in the comparison unit 25 of each node 20 on the transmission side, the data transmission time of each node can be calculated. The delay can be determined. When the transmission time exceeds the threshold (reference transmission time), the control unit 22 controls the transmission line between the node on the transmission side and the node on the reception side of the packet from the transmission line L10a of the active system to the standby system. It is possible to switch to the transmission path R10b.

As a result, data can be transmitted between specific nodes using the standby transmission line R10b which is not congested, and congestion or abnormality has occurred in the active transmission line L10a. Even if the standby system transmission line R
The packet transmitted by 10b can be data-transmitted without causing transmission delay or packet loss. For example, data requiring real-time transmission of voice, image, etc. can be stored in a standby system without congestion. Transmission line R10b
It is possible to reliably transmit using.

In particular, in the present embodiment, the time stamp information 56 which is the transmission time information is set in the transmission frame 50 of the packet to be transmitted, so that the transmission time of the packet can be accurately grasped by the time stamp information 56. can do. As a result, the standby transmission path R1
The node to be switched to 0b can be easily and accurately specified, and the transmission line R10 of the standby system without congestion etc.
b can be used for reliable data transmission.

Further, in this embodiment, since the priority information according to the data content is set in the tag control information 54 of the transmission frame 50 of the packet to be transmitted, the transmission path of the packet is switched by this priority information. Whether or not can be determined. As a result, the standby transmission path R10
It is possible to easily and accurately identify the node that needs to be switched to b, and control the switching of the transmission path according to the content of the data to be transmitted. For example, data with a large amount of information, voice and image data that requires real-time transmission, and the like are transmitted by switching to a transmission line R10b of a standby system that does not have congestion, etc. For data and the like that does not require the property, only the transmission line L10a of the operating system is used as it is, and the appropriate transmission line can be selected and switched according to the content of the transmitted data.

Furthermore, in this embodiment, two transmission lines L are used.
10a, each of the nodes 20a to 20n connected in a ring by the transmission path R10b, which are included in the data transmission system, include a transmission time calculation unit 23, a reference transmission time storage unit 24, a comparison unit 25, and a control unit 22. Can be realized by an existing device such as a memory, an arithmetic circuit, a determination circuit, and a CPU. Moreover, each node 20a-20
Only by adding the time stamp information 56 indicating the transmission time and the tag control information 54 including the priority information according to the data content to the transmission frame 50 of the packet transmitted from n,
The data transmission system according to this embodiment can be realized. This allows complex equipment, new systems,
It is possible to realize the double ring type data transmission system according to the present embodiment with a simple configuration by utilizing existing facilities without requiring a separate program or the like.

The double ring type data transmission method and transmission system of the present invention described above are not limited to the above-described embodiments, and various modifications can be made within the scope of the gist of the present invention. Needless to say.

[0062]

As described above, according to the double ring type data transmission method and transmission system of the present invention, the delay of the data transmission time between the nodes is determined, so that the delay of a certain time or more occurs. In this case, the data can be transmitted by switching the transmission path between the active system and the standby system according to the content of the data to be transmitted. This makes it possible to perform data transmission without causing transmission delay or packet loss even if congestion or abnormality of the transmission line occurs, and especially data transmission that requires real-time characteristics such as voice and image. Suitable for

[Brief description of drawings]

FIG. 1 is an explanatory diagram schematically showing a dual ring type data transmission system according to an embodiment of the present invention.

FIG. 2 is a block diagram schematically showing a configuration of each node in the dual ring type data transmission system according to the embodiment of the present invention.

FIG. 3 is an explanatory diagram showing a transmission frame used in a double ring type data transmission method according to an embodiment of the present invention.

4A and 4B are explanatory views schematically showing a conventional dual ring data transmission system, in which FIG. 4A shows a normal time and FIG. 4B shows a failure occurrence time.

FIG. 5 is an explanatory diagram showing a transmission frame used in a conventional double ring type data transmission method.

[Explanation of symbols]

10 Dual transmission line 10a transmission line L 10b Transmission line R 20 nodes 21 Transmitter / receiver 22 Control unit 23 Transmission time calculator 24 Reference transmission time storage 25 Comparison Department 30 terminals 50 transmission frames 54 Tag control information 56 Timestamp information

Claims (6)

[Claims] 1. A plurality of nodes are connected in a ring shape by a first transmission line and a second transmission line, respectively, and one transmission line is used as an active transmission line and the other transmission line is used as a standby transmission line. A double-ring data transmission method for performing data transmission between nodes, wherein a reference transmission time of a packet between each of the plurality of nodes is set, and a transmission time of a packet transmitted from each node is calculated. A double ring type data transmission method characterized in that, when the transmission time exceeds the reference transmission time, the transmission path between the transmission side node and the reception side node of the packet is switched from the operation system to the standby system transmission path. . 2. A node whose transmission line is switched from an active system to a standby system calculates a transmission time of a packet received from another node via the active transmission line, 2. The double ring type data transmission method according to claim 1, wherein the transmission line between the nodes switched from the active system to the standby system is restored to the active transmission line when the reference transmission time is not exceeded. 3. The dual ring according to claim 1, wherein the switching of the transmission path between the transmission side node and the reception side node of the packet is determined based on predetermined priority information included in the packet transmitted from each node. Type data transmission method. 4. A transmission comprising: a plurality of nodes; first and second transmission lines connecting the plurality of nodes in a ring shape, one transmission line being an active system and the other transmission line being a standby system A double ring type transmission system used as a path, wherein each of the plurality of nodes transmits and receives packets to and from other nodes, and a calculating unit that calculates a transmission time of the received packet. A storage unit that stores a reference transmission time of the packet between the other nodes; a comparison unit that compares the transmission time and the reference transmission time of the received packet; And a control means for switching the transmission lines of the receiving side and the transmitting side node of the packet from the operating system to the standby system or from the standby system to the operating system transmission line. Transmission system. 5. A transmission frame of a packet transmitted from each of the nodes includes time stamp information indicating a transmission time of the packet, and the calculating unit calculates the time stamp information based on the time stamp information and the reception time of the packet. The double ring data transmission system according to claim 4, wherein the transmission time of the packet is calculated. 6. A transmission frame of a packet transmitted from each of the nodes includes priority information according to the data content of the packet, and the control means sets the operating system and the standby system based on the priority information. 6. The dual ring type data transmission system according to claim 4, wherein the transmission lines are switched.