JPH09214545A - Network communication control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce a reply time after data are sent by monitoring a state of each station connecting to plural networks and storing state information. SOLUTION: A network monitor means 15 of a gateway device 1 makes transmission reception by an echo frame with each station being component of an adjacent LAN to collect state information of each station and the state information is stored in a state information storage means 14. Upon the receipt of data sent from a transmission source station 4-1, the device 1 allows a gateway control means 11 and a transmission discrimination means 13 to keep the received data. A fault notice means 12 analyzes the stored data so long as a notice from the transmission discrimination means 13 indicates a 'fault', and generates fault reply data by using an address of a transmission source station 4-1 as a new transmission destination station address and sends the data to a transmission line 2.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a network system, and more particularly to a composite network system in which a plurality of networks are connected to each other via a connecting device.

[0002]

2. Description of the Related Art Conventionally, in this type of composite network system, in order to transmit data from a station on one network to a station on another network, the data is transmitted to a connecting device that connects a plurality of networks to each other. A means for relaying the data transmission from the source station to the destination station, and a sender when there is no response from the destination station even if a predetermined time has elapsed assuming that the destination station is abnormal. There is a means for notifying the station to that effect, but transmission / reception control is performed without considering the state of the network in which the destination station is located or the state of the destination station.

Further, for example, Japanese Patent Application Laid-Open No. 4-160831 discloses a network system using a gateway device as a connection device, for the purpose of smoothly performing post-processing when terminal control is impossible or bus busy. A gateway device that is connected to the device via a first transmission line, is connected to a terminal via a second transmission line, receives a control command from the main control device, and transmits the control command to the terminal based on the content of the control command. However, there has been proposed a gateway apparatus including a response means for transmitting a terminal-uncontrollable or bus-busy response to the main control apparatus according to the status of the second transmission line.

[0004]

However, in the above-mentioned conventional composite network system, the above-mentioned Japanese Unexamined Patent Application Publication No.
Including the method described in Japanese Patent No. 160831, data is transmitted without considering the state of the destination station.

Therefore, firstly, data is transmitted to the transmission destination station via the connection device even when the transmission destination station is in a failure state. Therefore, whether or not the transmission destination station is in a failure state is transmitted. In order for the source station to recognize, it is necessary to judge whether the response to the transmitted data is abnormal is returned from the destination station, or there is no response from the destination station. There is a problem that the response time to the transmission of the message becomes longer and the network is unnecessarily occupied.

Secondly, when the destination station in the failure state is restored thereafter, the destination station cannot know which station should be notified of the restoration. There is a problem that the source station of data cannot recognize that the destination station has been restored.

[0007] Therefore, the present invention has been made in view of the above problems, and shortens the response time after transmitting data and eliminates unnecessary occupation of the destination network. (EN) Provided is a network communication control method that enables a transmission source station to automatically recognize the restoration of a transmission destination station when the transmission destination station recovers from a failure state, and improves the operation efficiency of the entire complex network system. To aim.

[0008]

In order to achieve the above object, the present invention provides a composite network system in which a plurality of networks to which a plurality of stations are connected are mutually connected through a connection device. Is a connection control means for controlling data transmission / reception between a plurality of connected networks, a network monitoring means for monitoring the status of each station connected to the plurality of networks and collecting status information, and the network monitoring State information storage means for holding the state information collected by the means, and read out the state information stored in the state information storage means to determine whether or not the destination station of the data transmitted from each station is normal And an error response to the transmission source station of the data when the transmission determination unit determines that the transmission destination station of the data is abnormal. Failure notification means, and transmission failure station address storage means for storing a transmission destination station address and a transmission source station address of the data when the transmission destination station determines that the transmission destination station of the data is abnormal. ,
Restoration judging means for judging whether or not the destination station of the data has been restored from the information stored in the status information storing means and the transmission failure station address storing means based on an instruction from the network monitoring means. And a recovery notifying unit that returns a recovery response to the transmission source station of the data when the restoration determination unit determines that the transmission destination station of the data has been restored. provide.

According to the network communication control method of the present invention, the state of each station connected to a plurality of networks connected via the connection device is monitored by the network monitoring means, and the state information is collected to store the state information storage means. Stored in. When transmitting data from a station on one network to a station on another network, the connection control means and the transmission determination means of the connection device temporarily hold the transmission data, and the transmission determination means analyzes the data and stores the data. The status information corresponding to the destination station is read from the status information storage means to determine whether the destination station is normal, and the determination result is notified to the connection control means and the failure notification means.

When the transmission determination means determines that the destination station is abnormal, the connection control means discards the transmission data held therein, and the failure notification means returns an abnormality response to the transmission source station. Further, the transmission determination means stores the transmission destination station address and the transmission source station address that have failed in transmission in the transmission failure station address storage means.

On the other hand, the restoration judging means reads the information stored in the transmission failure station address storing means and the status information storing means on the basis of the instruction from the network monitoring means,
If it is determined from the above information that there is a restored station, that fact and the destination station address and source station address corresponding to the restored station are read from the transmission failure station address storage means and notified to the restoration notification means. To do. The recovery notifying means returns a recovery response from the notified address information to the transmission source station.

[0012]

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

FIG. 1 is a block diagram for explaining a network communication control system according to an embodiment of the present invention.

Referring to FIG. 1, the network communication control method according to the present embodiment includes a gateway device 1, a transmission line 2 and a transmission line 3 which are passages for transmission data, and a single line connected to the transmission line 2. Local area network (L
The present invention is applied to a composite network system including a group of stations 4 forming an AN) and a group of stations 5 connected to a transmission line 3 to form one local area network (LAN).

The station group 4 includes n (n is an integer of 1 or more) data processing devices or data terminal devices (hereinafter, these are collectively referred to as "stations") 4 for transmitting / receiving data or performing predetermined data processing. , ..., 4- (n-1), 4-n.

The station group 5 is composed of m stations (m is an integer of 1 or more) 5-1, ..., 5- (m-1), 5-m.

The gateway device 1 connects the transmission lines 2 and 3 to each other to relay data transmission, and includes a gateway control means 11 and a failure notification means 12.
A transmission determination means 13, a state information storage means 14, a network monitoring means 15, a transmission failure station address storage means 16, a restoration determination means 17, a restoration notification means 18,
Consists of

The network monitoring means 15 monitors the states of all stations forming the station group 4 and the station group 5 and collects state information.

The status information storage means 14 stores and holds the status information collected by the network monitoring means 15.

The transmission determination means 13 is the state information storage means 1
4 is read to determine whether or not the destination station of the data transmitted from each station of the station group 4 and the station group 5 is normal.

The fault notifying means 12 returns an abnormality response to the data transmission source station when the transmission determination means 13 notifies the determination result indicating that the data transmission destination station is abnormal.

The transmission failure station address storage means 16 stores and holds the transmission destination station address and the transmission source station address of the data when the transmission determination means 13 determines that the transmission destination station of the data is abnormal. To do.

On the basis of the instruction from the network monitoring means 15, the restoration judging means 17 determines from the information stored in the status information storing means 14 and the transmission failure station address storing means 16 that the destination station which is in a down state due to a failure. Determine whether it has been restored.

The recovery notifying means 18 returns a recovery notification to the data transmission source station when the recovery determination means 17 notifies the determination result that the data transmission destination station has been recovered.

The gateway control means 11 determines the station group 4 and the station group 5 according to the determination result notified from the transmission determination means 13.
Controls the sending and receiving of data to and from.

FIG. 2 is a diagram showing an example of a frame format in the network communication control system according to the embodiment of the present invention.

As shown in FIG. 2, the frame used in the network communication control system according to the present embodiment includes a transmission destination station address portion 21, a transmission source station address portion 22,
Frame type information section 2 for distinguishing frame types
3, a data section 24 for storing transmission data, and a frame check sequence section 25 for calculating a checksum of the entire transmission frame.

When data is transmitted and received between the station group 4 and the station group 5 via the gateway device 1, the transmission source station stores the transmission destination address in the transmission destination station address section 21 and transmits the data. The original address is stored in the original station address section 22, and the frame in which the content of the frame type information section 23 is set to indicate normal data transmission is generated and transmitted to the transmission destination station.

On the other hand, when the network monitoring means 15 collects the status information of each station forming the station group 4 and the station group 5, the content of the frame type information section 23 is defined as an "echo frame". To

An "echo frame" is a frame that does not have a data section 24, and each station that receives such an echo frame determines the contents of the station address section 21 of the destination of the received frame and the source of the received frame. Station address part 22
A frame in which the contents of is replaced is generated and transmitted. Since the network monitoring means 15 can receive a frame from the station when the station is not in the failure state and cannot receive a frame from the station when the station is in the failure state, the echo frame The status of each station can be monitored based on the presence or absence of a return.

FIG. 3 is a diagram showing an example of the configuration of the state table in the network communication control system according to the embodiment of the present invention.

As shown in FIG. 3, the status information 31 collected by the network monitoring means 15 from each station constituting the station group 4 and the station group 5 is in the form of a status table 30 paired with the address of the station. It is stored in the information storage means 14. When the state information 31 is "0", the station is in a failure state, and when the state information 31 is "1", the station is in a normal state.

FIG. 4 is a diagram showing an example of the configuration of the transmission failure station address table in the network communication control system according to the embodiment of the present invention.

As shown in FIG. 4, the transmission destination station address and the transmission source station address when the transmission destination station determines that the transmission destination station of the data is abnormal is the transmission of the transmission failure station address table 40. The failure transmission destination station address 41 and the transmission failure transmission source station address 42 are stored in the transmission failure station address storage means 17.

Next, with reference to FIGS. 1 to 4, the operation of the network communication control system according to this embodiment will be described in more detail with reference to a concrete example.

As an example, the operation when data is transmitted from the station 4-1 to the station 5-m will be described.

At the same time when the operation of the entire complex network system is started, the network monitoring means 15 of the gateway device 1 echoes with each station forming two adjacent local area networks (LAN). Status information 31 of each station
And the collected state information 31 is stored in the state information storage means 1
4 is stored. It is assumed that the network monitoring means 15 periodically updates the status information 31 stored in the status information storage means 14 by performing the same processing every predetermined time.

The transmission source station 4-1 generates a frame including the address of the transmission destination station 5-m, the address of the transmission source station 4-1 and the transmission data (hereinafter also simply referred to as "data") to generate the transmission line 2 Send up.

At this time, each station 4-2 on the transmission line 2, ...,
4-n receives the data transmitted on the transmission path 2, but determines that the data is not addressed to itself by comparing with the destination station address included in the data, and discards the received data. .

When the gateway device 1 receives the data transmitted from the transmission source station 4-1, the gateway control means 11 and the transmission determination means 13 temporarily hold the received data.

When the transmission judging means 13 analyzes the held data and obtains the address of the destination station 5-m, the status table 30 stored in the status information storing means 14
To the destination station 5-m corresponding to the address of the destination station 5-m
When the status information 31 of m is read and the status information 31 is "1", it is determined that the destination station 5-m is "normal", while the status information 31 is "0". Transmitting station 5
-M is determined to be "abnormal", and the determination results are notified to the gateway control unit 11, the failure notification unit 12, and the transmission failure station address storage unit 16, respectively. When the determination result is "abnormal", the transmission failure station address storage means 16 is notified of the transmission destination station address and the transmission source station address of the data.

When the notification from the transmission judging means 13 is the judgment result indicating "normal", the gateway control means 11 transmits the held data as it is onto the transmission path 3. It should be noted that all the data transmitted to the transmission path 3 is discarded at each station other than the transmission destination station 5-m, and the transmission destination station 5
-M only receives.

On the other hand, when the notification from the transmission judging means 13 is the judgment result indicating "abnormal", the gateway controlling means 11 discards the data held therein and transfers the data to the transmission line 3. Do not send.

The fault notifying means 12 analyzes the held data only when the notification from the transmission judging means 13 is the judgment result indicating "abnormal", and determines the address of the transmission source station 4-1. Abnormality response data is newly generated as the destination station address and transmitted to the transmission path 2. The abnormal response data is
Only the station 4-1 which is the transmission source station receives the data, and the station 4-1 recognizes that the transmission has abnormally ended.

Next, the operation when the station 5-m is in the abnormal state for a predetermined period and then restored to the normal state will be described.

The network monitoring means 15 periodically monitors two local area networks (LA) at predetermined time intervals.
N-) is monitoring the status of each station, but station 5-m
When is recovered from the failure state, the echo frame is normally returned, so that the value of the status information 31 corresponding to the station 5-m stored in the status information storage means 14 is "0" to "1". Is updated to.

The recovery determination means 17 synchronizes with the network monitoring means 15 and sends the transmission failure transmission destination station address 41 (in this case, the address of the station 5-m) stored in the transmission failure station address storage means 16. Further, the status information 31 corresponding to the station 5-m stored in the status information storage means 14 is read.

When the station 5-m is restored, the value of the status information 31 is "1", so the restoration judging means 17
Determines that the station 5-m has been restored, to that effect, the transmission failure destination station address 41 and the transmission failure transmission source address 4
2 and 2 are notified to the recovery notifying means 18. Incidentally, the corresponding transmission failure transmission destination station address 41 and transmission failure transmission source station address 4 stored in the transmission failure station address storage means 16
The information of No. 2 (in this case, the addresses of the station 5-m and the station 4-1) is erased.

Upon receiving the notification from the recovery judging means 17, the recovery notifying means 18 analyzes the notified data and transmits the transmission failure transmission destination address 41 as the transmission source station address and the transmission failure transmission source address 42. Recovery response data is newly generated as the destination station address and transmitted to the transmission path 2. The restoration response data is received only by the station 4-1 which is the transmission source station that previously transmitted the data, and the station 4-1 receives the station 5-
Recognize that m has recovered.

As described above, according to the network communication control method of this embodiment, the gateway device 1
Network monitoring means 15 that collects the status information of each station connected to the transmission path 2 and the transmission path 3 that are connected via the network, and the transmission that determines whether or not the destination station of the data is normal from the status information. If the data transmission destination station is abnormal, including the determining means 13, the gateway device 1 itself returns an abnormality response to the data transmission source station, so that the data transmission destination station is abnormal. In some cases, the response time of transmission can be shortened, and the network can be used effectively.

Further, according to the network communication control method of the present embodiment, when the data transmission destination station is abnormal, unnecessary data is not transmitted from the gateway device 1 to the transmission path having the transmission destination station. Therefore, it is possible to improve the operation efficiency of the transmission path having the destination station.

Further, according to the network communication control method of this embodiment, the transmission failure station address storage means 16 for storing and holding the transmission destination station address and the transmission source station address for which the data transmission has failed, and the transmission The station in the failure state includes a restoration determination means 17 for determining whether or not the station in the failure state has been restored from the information stored in the failed station address storage means 16 and the state information storage means 14. When the destination station once determined to be in a failure state is restored again in order to cause the gateway device 1 itself to return a restoration response to the data transmission source station when it is restored, The transmission source station that has transmitted the data can automatically recognize the restoration, and the network can be operated more effectively.

Although the embodiment of the present invention has been described above, the present invention is not limited to such an embodiment, but includes various embodiments according to the principle of the present invention.

[0054]

As described above, according to the network communication control method of the present invention, it is determined whether the destination station is normal from the status information of each station connected to the plurality of networks held by the connection device. If the destination station is abnormal, the gateway device itself returns an abnormal response to the source station of the data. Therefore, the response time of the transmission when the destination station of the data is abnormal Can be shortened and the network can be effectively used.

Further, according to the network communication control method of the present invention, in order to prevent unnecessary data from being transmitted from the gateway device to the network having the destination station when the destination station of the data is abnormal. It is possible to improve the operation efficiency of a network having a destination station.

Further, according to the network communication control method of the present invention, it is judged from the status information of each station connected to a plurality of networks held by the gateway device whether or not the destination station is restored, When the destination station that has transmitted the data is restored, the gateway device itself returns a restoration response to the source station of the data. In addition, the transmission source station that previously transmitted the data can automatically recognize the restoration, and the network can be operated more effectively.

[Brief description of drawings]

FIG. 1 is a block diagram illustrating a network communication control method according to an embodiment of the present invention.

FIG. 2 is a diagram showing an example of a frame format in a network communication control system according to an embodiment of the present invention.

FIG. 3 is a diagram showing an example of a configuration of a state table in the network communication control system according to the embodiment of the present invention.

FIG. 4 is a diagram showing an example of a configuration of a transmission failure station address table in the network communication control system according to the embodiment of the present invention.

[Description of Reference Signs] 1 gateway device 2, 3 transmission path 4, 5 station group 4-1, ..., 4- (n-1), 4-n station 5-1, ..., 5- (m-1), 5-m station 11 gateway control means 12 failure notification means 13 transmission determination means 14 state information storage means 15 network monitoring means 16 transmission failure station address storage means 17 recovery determination means 18 recovery notification means 21 destination station address section 22 source Station address section 23 frame type information section 24 data section 25 frame check sequence section 30 status table 31 status information 40 transmission failure station address table 41 transmission failure transmission destination station address 42 transmission failure transmission source station address

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Claims (4)

[Claims] 1. A composite network system in which a plurality of networks to which a plurality of stations are connected are mutually connected via a connecting device, wherein the connecting device transmits / receives data between the plurality of connected networks. Connection control means for controlling, network monitoring means for monitoring the status of each station connected to the plurality of networks and collecting status information, and status information storage means for holding the status information collected by the network monitoring means, A transmission determining unit that reads out the state information stored in the state information storing unit and determines whether or not the destination station of the data transmitted from each of the stations is normal; and the transmission determining unit transmits the data. Failure notification means for returning an abnormal response to the source station of the data when it is determined that the destination station is abnormal, The transmission failure station address storage means for storing the transmission destination station address and the transmission source station address of the data when it is determined that the transmission destination station of the data is abnormal, based on an instruction from the network monitoring means. Recovery determination means for determining whether or not the destination station of the data is restored from the information stored in the status information storage means and the transmission failure station address storage means, and transmission of the data by the restoration determination means A network communication control method, comprising: a recovery notifying unit that returns a recovery response to the transmission source station of the data when it is determined that the previous station is recovered. 2. A composite network system in which a plurality of networks to which a plurality of stations are connected are mutually connected via a connection device, wherein the connection device determines a state of each station connected to the plurality of networks. A network characterized by collecting status information by monitoring at each time and returning an abnormal response to the source station of the data when the destination station of the data transmitted from each station is abnormal Communication control method. 3. The connection device further stores a destination station address and a source station address of the data when the destination station of the data transmitted from each of the stations is abnormal, 3. The network communication control system according to claim 2, wherein when the transmission destination station is restored, a restoration response is returned to the transmission source station of the data. 4. A local area network (LAN) in which a plurality of stations are connected to one transmission line.
4. The network communication control method according to claim 1, wherein