JP6503872B2 - Relay device, electronic device and communication system - Google Patents

Description

  The present invention relates to a technique for relaying communication between networks having different maximum data lengths of data portions of communication data that can be communicated by one communication.

  Patent Document 1 discloses a communication system in which a time-triggered communication network and an event-driven communication network are connected via a gateway which is a relay device. In Patent Document 1, data is transmitted from the event-driven communication network to the time-triggered communication network using the reception of the synchronization frame transmitted from the time-triggered communication network to the event-driven communication network as a trigger. Technology is disclosed.

JP, 2011-109452, A

  When communication is performed via a relay device between networks with different communication methods as in the technique disclosed in Patent Document 1, the maximum data of the data portion of communication data that can be communicated by one communication in each network The length may be different. In this case, the relay device performs relay processing to reconfigure the communication data received from the transmission source network according to the maximum data length of the transmission destination network.

  Before the relay apparatus transmits the communication data reconstructed by the relay processing to the transmission destination network, the next communication data may be transmitted from the transmission source network. In this case, depending on the processing state or process setting of the relay device, the communication data being reconfigured or the next transmitted communication data may be lost, or the communication data being reconfigured and the next transmitted communication data. May be mixed and reconfigured.

  The present invention has been made to solve the above problems, and the loss and mixture of communication data occurs when relaying communication between networks having different maximum data lengths of the data portion of communication data that can be communicated by one communication. To provide technology to suppress

  A relay apparatus according to the present invention is a relay apparatus that relays communication between networks having different maximum data lengths of data portions of communication data that can be communicated by one communication, and includes communication means and reconfiguration means.

  The reconstruction means reconstructs the communication data received by the communication means from the electronic device connected to the transmission source network in accordance with the maximum data length of the transmission destination network whose maximum data length differs from that of the transmission source. The communication means communicates with the electronic devices connected to the networks having different maximum data lengths, transmits the communication data reconstructed by the reconstruction means to the electronic device of the transmission destination, and completes the transmission, allowing transmission Send a notification to the sending network.

  Further, in the electronic device according to the present invention, communication means and communication permission means are provided in the electronic device connected to any one of the networks having different maximum data lengths of the data part of the communication data which can be communicated by one communication. Have.

  The communication means communicates with a relay device that relays communication between networks having different maximum data lengths. The communication permission means reconfigures the communication data transmitted from the electronic device connected to the transmission source network from the relay device according to the maximum data length of the transmission destination network whose maximum data length differs from that of the transmission source, When the communication means receives a transmission completion notice for transmitting the constructed communication data to the transmission destination electronic device and notifying the transmission source network that transmission has been completed, the communication means is permitted to transmit to the relay device.

  According to the configuration of the communication system including the relay device or the electronic device of the present invention or the relay device and the electronic device of the present invention, the electronic device connected to the transmission source network is the transmission source network of the transmission completion notification of the relay device. Since the transmission is waited until transmission to the next, it is possible to suppress the transmission of the next communication data to the relay during the relay process.

  As a result, it is possible to suppress that communication data being relayed by the relay device is overwritten by the next communication data and lost, or that the next communication data is lost without being relayed. In addition, it is possible to suppress that the communication data being relayed and the next communication data are mixed and reconstructed.

  The reference numerals in parentheses described in the claims indicate the correspondence with specific means described in the embodiment described later as one aspect, and limit the technical scope of the present invention is not.

1 is a block diagram showing a communication system according to a first embodiment. The time chart which shows the communication control processing by a 1st embodiment. The time chart which shows the communication control processing by a 2nd embodiment. The other time chart which shows the communication control processing by 2nd Embodiment. The time chart which shows the communication control processing by a 3rd embodiment.

Hereinafter, embodiments to which the present invention is applied will be described based on the drawings.
[1. First embodiment]
[1-1. Constitution]
The communication system 2 illustrated in FIG. 1 includes an electronic device 10 connected to the network 4, an electronic device 20 connected to the network 6, and a relay device 30. The network 4 and the network 6 are networks in which the maximum data length of the data portion of communication data that can be communicated by one communication is different. The data part indicates, for example, a data body obtained by removing a header part and an error check part from communication data communicated by one communication.

  Although FIG. 1 shows two electronic devices 10 connected to the network 4 and two electronic devices 20 connected to the network 6 in the communication system 2, they may be one or three or more, respectively. .

  The electronic device 10 and the electronic device 20 each include a computer including a CPU, a RAM, a ROM, a communication interface, and the like. The relay device 30 also includes a computer including a CPU, a RAM, a ROM, a communication interface, and the like. Since the basic configurations of the electronic device 10 and the electronic device 20 are the same, the configurations of the electronic devices 10 and 20 will be mainly described based on the electronic device 10.

  The electronic device 10 includes a processing unit 12 and a communication unit 14. The processing unit 12 executes a process determined for each electronic device 10. The processing unit 12 also adjusts the transmission timing at which the communication unit 14 transmits communication data.

  The relay device 30 includes a processing unit 32 and a communication unit 34. The processing unit 32 sets communication data transmitted from one of the electronic device 10 connected to the network 4 or the electronic device 20 connected to the network 6 to the other of the electronic device 10 or the electronic device 20 according to the specification of the transmission destination network. Relay processing together.

  The processing unit 32 relays the communication data transmitted by the electronic device connected to the transmission source network according to the specification of the transmission destination network, and when transmission from the communication unit 34 to the transmission destination network is completed, A transmission completion notification is transmitted from the communication unit 34 to the transmission source network. Details of the transmission completion notification will be described later.

[1-2. processing]
Communication control processing executed by the communication system 2 will be described based on FIG. FIG. 2 shows an example in which the electronic device 10 is a transmission source and the electronic device 20 is a transmission destination.

  The relay device 30 is configured such that the data length of the data portion of the communication data addressed to the electronic device 20 transmitted by the electronic device 10 via the relay device 30 is the maximum of the data portion of the communication data that can be communicated by one communication in the network 6 If it is larger than the data length, the communication data received from the electronic device 10 is divided and reconfigured in accordance with the maximum data length of the network 6, and relay processing is performed in accordance with the specifications of the network 6.

  When the relay process is completed, the relay device 30 transmits the reconfigured communication data to the destination electronic device 20. When all of the reconfigured communication data is transmitted to the destination electronic device 20, the relay device 30 transmits a transmission completion notification to the transmission source network 4.

  When there is communication data to be transmitted to the electronic device 20 addressed to the network 6, the electronic device 10 connected to the network 4 of the transmission source receives the transmission completion notification, and transmits the network 6 after the lapse of the preset waiting time Δt. The communication data is transmitted to the electronic device 20 of

  In the communication control process described above, the communication control process in the case of transmitting communication data from the electronic device 10 to the electronic device 20 has been described. On the other hand, even when communication data is transmitted from the electronic device 20 to the electronic device 10, the relay device 30 divides and reconstructs the communication data received from the electronic device 20 according to the maximum data length of the network 4 , Relay processing according to the specifications of the destination network 4.

  When the relay process is completed, the relay device 30 transmits the reconfigured communication data to the destination electronic device 10. When all the reconfigured communication data is transmitted to the destination electronic device 10, the relay device 30 transmits a transmission completion notification to the transmission source network 6.

[1-3. effect]
According to the first embodiment described above, the following effects can be obtained.
(1) The relay device 30 relays the communication data transmitted from the transmission source electronic device to the transmission destination electronic device, transmits the data to the transmission destination electronic device, and completes the transmission. Send a notification to the source network and allow the transmission of the next communication data.

This suppresses the transmission of the next communication data from the transmission source network while the relay device 30 is executing relay processing. As a result, it is suppressed that communication data being relayed by the relay device 30 is overwritten and lost by the next communication data, or that communication data transmitted to the relay device during relay processing is not relayed and lost. it can. Further, it is possible to suppress that the communication data being relayed and the next communication data are mixed and relayed.
(2) The electronic device that has received the transmission completion notification does not start the next transmission until the preset waiting time Δt elapses, so the processing load on the relay device 30 can be reduced.

[2. Second embodiment]
[2-1. processing]
The configuration of the communication system of the second embodiment is substantially the same as that of the communication system 2 of the first embodiment, and therefore, communication control processing different from that of the first embodiment will be described.

  As shown in FIG. 3 and FIG. 4, the relay device 30 relays the communication data transmitted from the electronic device 10 of the transmission source to the electronic device 20 of the transmission destination, to the electronic device 20 of the transmission destination. The transmission is completed to transmit, and the transmission completion notification is transmitted to the network 4 of the transmission source. Then, when transmitting the transmission completion notification, the standby time Δt until transmitting the next communication data is set in the data portion of the transmission completion notification according to the processing load of the relay device 30.

  The electronic device 10 of the transmission source network 4 that has received the transmission completion notification reads the standby time Δt set in the data portion of the transmission completion notification, and starts transmission after the standby time Δt has elapsed. In FIG. 3, the standby time Δt is short, and in FIG. 4 the standby time Δt is long.

  When the processing load of the relay device 30 is low, the time interval until the next relay processing can be shortened, so the standby time Δt is set short as shown in FIG. On the other hand, when the processing load of the relay device 30 is high, it is desirable to lengthen the time interval until the next relay processing, so the waiting time Δt is set long as shown in FIG.

The communication control process of the second embodiment described above is similarly executed even when the electronic device 20 is a transmission source and the electronic device 10 is a transmission destination.
[2-2. effect]
In the second embodiment described above, the following effects can be obtained.

  Since the relay device 30 transmits the waiting time Δt for the next transmission to the transmission source network together with the transmission completion notification, an appropriate waiting time Δt can be set according to the processing load of the relay device 30. When the processing load of the relay device 30 is low, the delay of communication can be reduced by setting the standby time Δt short. When the processing load of the relay device 30 is high, the processing load of the relay device 30 can be reduced by setting the standby time Δt to be long.

[3. Third embodiment]
[3-1. processing]
The configuration of the communication system of the third embodiment is substantially the same as that of the communication system 2 of the first embodiment, and therefore, communication control processing different from that of the first embodiment will be described.

  In FIG. 5, the electronic device 10 divides and transmits data exceeding the maximum data length plural times. The relay device 30 performs a relay process of reconstructing communication data, which the electronic device 10 divides and transmits in a plurality of times, in accordance with the maximum data length of the network 6 to which the electronic device 20 is connected. Send.

Also in this case, when the relay device 30 transmits data to the destination electronic device 20 and completes the transmission, the relay device 30 transmits a transmission completion notification to the network 4 of the transmission source.
The waiting time Δt from when the transmission source electronic device 10 receives the transmission completion notification to when to start the next transmission may be set in advance as in the first embodiment, as in the second embodiment. The relay apparatus 30 may be set according to the processing load and transmitted together with the transmission completion notification.

The communication control process of the third embodiment described above is similarly executed even when the electronic device 20 is a transmission source and the electronic device 10 is a transmission destination.
[3-2. effect]
In the third embodiment described above, the same effects as those of the first embodiment and the second embodiment can be obtained.

[4. Other embodiments]
(1) When the relay device 30 sets the standby time Δt according to the processing load and notifies the electronic devices 10 and 20 connected to the transmission source networks 4 and 6, the standby time Δt different from the current standby time Δt is The waiting time Δt may be notified only when setting. In this case, notification may be made irregularly at the same timing as the transmission timing of the transmission completion notification, or may be irregularly notified at the timing different from the transmission timing of the transmission completion notification.

Thus, since it is not necessary to set and transmit the waiting time Δt each time the relay device 30 transmits the transmission completion notification, it is possible to reduce the amount of data when transmitting the transmission completion notification.
(2) The function possessed by one component in the above embodiment may be distributed as a plurality of components, or the function possessed by a plurality of components may be integrated into one component. Further, at least a part of the configuration of the above embodiment may be replaced with a known configuration having the same function. Further, part of the configuration of the above embodiment may be omitted as long as the problem can be solved. It is to be noted that all aspects included in the technical concept specified by only the words described in the claims are the embodiments of the present invention.

  (3) A communication system 2 having the relay device 30 and the electronic devices 10 and 20 as components in addition to the relay device 30 and the electronic devices 10 and 20 described above, and a computer as the relay device 30 or the electronic devices 10 and 20 The present invention can also be realized in various forms such as a communication control program for causing a function, a recording medium recording the communication control program, and a communication control method.

2: communication system, 4, 6: network, 10, 20: electronic device, 12, 22: processing unit (communication permission means), 14, 24: communication unit (communication means), 30: relay device, 32: processing unit (Reconfiguration means, standby time setting means), 34: Communication unit (communication means)

Claims (5)

In a relay device (30) for relaying communication between networks (4, 6) having different maximum data lengths of data portions of communication data that can be communicated by one communication,
Communication means (34) for communicating with an electronic device connected to each of the networks having different maximum data lengths;
The communication data received by the communication unit from the electronic device connected to the transmission source network is reconstructed according to the maximum data length of the transmission destination network whose maximum data length differs from that of the transmission source Means (32),
Equipped with
The communication means transmits the communication data reconstructed by the reconstruction means to the electronic device of the transmission destination and completes the transmission, and transmits a transmission completion notification permitting transmission to the transmission source network.
A relay apparatus characterized by In the relay device according to claim 1,
A standby time setting unit configured to set a standby time from when the electronic device connected to the transmission source network receives the transmission completion notification to when to start the next transmission;
The communication means transmits the waiting time set by the waiting time setting means to the network of the transmission source at the same timing as the transmission completion notification.
A relay apparatus characterized by In the relay device according to claim 1,
A standby time setting unit configured to set a standby time from when the electronic device connected to the transmission source network receives the transmission completion notification to when to start the next transmission;
The communication means transmits the waiting time set by the waiting time setting means to the network of the transmission source at a timing different from the transmission completion notification.
A relay apparatus characterized by In the relay device according to claim 2 or 3,
The waiting time setting means sets the waiting time based on the processing load of the reconstruction means.
A relay apparatus characterized by The relay device (30) according to any one of claims 1 to 4.
The electronic device connected to each network having different maximum data lengths,
Second communication means (14, 24) for communicating with the relay device, when the communication means of the relay device is the first communication means;
Reconfiguring the communication data transmitted from the electronic device connected to the transmission source network from the relay device according to the maximum data length of the transmission destination network whose maximum data length is different from that of the transmission source When the second communication unit receives a transmission completion notification that transmits the reconfigured communication data to the transmission destination electronic device and notifies the transmission source network that transmission has been completed, the second communication unit Communication permitting means (12, 22) for permitting the communication means to transmit to the relay device;
An electronic device (10, 20) comprising
A communication system (2) comprising: