JP2008109585A - Data transmission apparatus with gateway function and data transmission method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a data transmission apparatus with a gateway device capable of adding a function for relaying only necessary data of data passing along a transmission path to the other transmission path by replacing a part of equipment for constituting a currently used data transmission apparatus with the gateway device, and a data transmission method. <P>SOLUTION: In the data transmission apparatus comprising transmit/receive buffers connected to the multiple transmission paths with different transmission systems, a CPU for controlling data transmitted/received through the transmit/receive buffers, and the gateway device which mutually connects the transmission paths, the gateway device 2 is provided with data queue memory means 2a to 2n, and 25 for preserving data transmitted/received through the transmit/receive buffers, and a bus interface 24 for accessing the transmit/receive buffers through the data queue memory means. The data transmission apparatus and the method thereof are characterized in that the gateway function is added by replacing the equipment interface mounted in the data transmission apparatus with the gateway device. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a data transmission apparatus and method for transmitting data by connecting a plurality of data transmission paths having different transmission formats, and more particularly to an apparatus and method using a gateway apparatus.

  Generally, a gateway device is a device that relays data flowing through a plurality of transmission paths having different transmission methods. As such a gateway apparatus, there exists a thing as shown, for example in patent document 1. FIG.

FIG. 5 shows a schematic configuration of a conventional gateway device. Here, the gateway device (8) includes a transmission / reception buffer (81) on the transmission line A side, a CPU (82), and a transmission / reception buffer (83) on the transmission line B (3) side, and has different transmission methods. The data format between the transmission paths is appropriately converted by the CPU (82) and stored in the mutual transmission / reception buffer to relay the data.
JP-A-62-230134

  The gateway device is generally installed as a dedicated device having a gateway function and relays all data flowing through the transmission path, or relays data by determining whether the data is to be relayed by a CPU mounted on the gateway device.

  If the existing equipment is a dedicated device, all data is relayed without determining whether or not to relay, but if you try to relay data of a specific device newly, you can replace it with a dedicated device, It becomes necessary to change the equipment, and major repairs are required.

  The present invention has been made in consideration of the above-mentioned points. One transmission path can be obtained by replacing with a part of equipment constituting an existing data transmission apparatus without installing a dedicated apparatus having a gateway function. It is an object of the present invention to provide a data transmission apparatus and method having a gateway apparatus capable of providing a function of relaying only necessary data among data flowing through the other transmission path.

In order to achieve the above object, in the present invention,
A gateway device for connecting a plurality of transmission paths with different transmission methods to each other, and a plurality of transmission / reception buffers respectively connected to any one of the transmission paths, and the transmission paths between the transmission paths In a data transmission device having a CPU that controls data to be transmitted and received, and having a gateway device that interconnects the plurality of transmission paths,
The gateway device is
Data queue storage means for holding data transmitted and received by the transmission / reception buffer;
A bus interface for accessing the transmission / reception buffer via the data queue storage means;
A data transmission device characterized in that a gateway function is given by exchanging with a device interface mounted on the data transmission device,
And a gateway device for mutually connecting a plurality of transmission paths having different transmission methods, each of which is connected to any one of the transmission paths, and between the transmission paths via the plurality of transmission / reception buffers. In a data transmission method using a gateway device, which has a CPU for controlling data transmitted and received in the above, and interconnects the plurality of transmission paths,
In the gateway device,
Data queue storage means for holding data transmitted and received by the transmission / reception buffer;
A bus interface for accessing the transmission / reception buffer via the data queue storage means;
A data transmission method characterized by providing a gateway function by exchanging with a device interface installed in the data transmission device;
I will provide a.

  As described above, the present invention provides a gateway device having a data queue storage means for holding data transmitted / received by a transmission / reception buffer, and a bus interface for accessing the transmission / reception buffer via the data queue storage means, as an existing device interface. By replacing, it is possible to easily provide a data transmission apparatus having a gateway function for relaying between transmission paths having different transmission methods and a method therefor.

  Hereinafter, embodiments of the present invention will be described with reference to FIGS.

  FIG. 1 is a block diagram showing a schematic configuration of a data transmission apparatus to which Embodiments 1 and 2 of the present invention are applied. In the first embodiment, a transmission / reception buffer (21) for transmission through the transmission line A (1), data queue storage means A (2a to 2n) and B (25) for holding transmission / reception data inside the apparatus. ), A CPU (22) for controlling transmission / reception data inside the apparatus, and a transmission / reception buffer (41) on the transmission line B (3) side in the data transmission apparatus 4 via the data bus (42). Bus interface (24).

  The operation monitoring processing unit (23) shown in FIG. 1 is not a component of the first embodiment, but a component of a second embodiment to be described later.

  In the first embodiment configured as described above, data transmitted through the transmission paths A (1) and B (3) having different transmission schemes are relayed to each other. First, when data is relayed from the transmission path A (1) side to the transmission path B (3) side, the received data received from the transmission path A (1) side is transmitted / received at the transmission / reception buffer ( 21) and then read out by the CPU (22) and stored in the corresponding queue in the data queue storage means A (2a to 2n).

  Next, when the CPU (22) scans the data queue storage means A (2a to 2n) and finds the queue storage means in which the data is stored, the CPU (22) reads the data from the corresponding queue storage means and sets the bus interface (24). To the transmission / reception buffer (41) on the transmission line B (3) side.

  Conversely, when data is relayed from the transmission path B (3) side to the transmission path A (1) side, the received data received from the transmission path B (3) side is transmitted / received in the transmission path B (3) side. (41). The CPU (22) reads the received data from the transmission / reception buffer (41) on the transmission path B (3) side and stores it in the data queue storage means B (25).

  Next, the CPU (22) checks whether or not data is stored in the data queue storage means B (25). If data is stored, the CPU (22) extracts the data from the data queue storage means B (25). The data is written into the transmission / reception buffer (21) on the transmission line A side.

  According to the first embodiment, it is possible to provide a gateway device that relays between transmission paths having different transmission methods.

  1 and 2 show a schematic configuration of a second embodiment of the present invention. In the second embodiment, in addition to the configuration shown as the first embodiment, an operation monitoring processing unit (23) for monitoring the operation of another device inserted in the same data transmission device (4) is provided. As shown, it is inserted into the data transmission device (4) together with a plurality of device interfaces (5a to 5n).

  In the second embodiment, the operation monitoring processor (23) is configured such that the control device (51) and the computer (52) are on the transmission line B (3) side via the bus interface (24) and the data bus (42). The operation of accessing the terminal 41 is monitored, and data transmitted and received by the control device (51) and the computer (52) on the transmission line B (3) side is intercepted. The intercepted data is used for issuing an alarm.

  For example, when the computer (52) transmits data on the transmission line B (3) side, the computer (52) writes to the transmission / reception buffer (41) on the transmission line B (3) side via the device interface (5a). Perform the action. The operation monitoring processor (23) detects the write operation, stores the written data in its own internal buffer, and notifies the CPU (22) by an interrupt.

  The CPU (22) starts the operation in response to the interrupt notified from the operation monitoring processor (23), reads data from the internal buffer of the operation monitoring processor 23, and stores it in the data queue storage means B (25).

  Similarly, when the control device (51) receives data by the transmission line B (3) side, the control device (51) transmits / receives a transmission / reception buffer (41) on the transmission line B (3) side via the device interface (5a). ) Read the received data. The operation monitoring processor (23) detects this read operation, stores the read data in its own internal buffer, and notifies the CPU (22).

  The CPU (22) reads data from the internal buffer of the operation monitoring processor (23) and stores it in the data queue storage means B (25). As described above, the data stored in the data queue storage means B (25) is written into the transmission / reception buffer (21) on the transmission line A (1) side by the CPU (22), and the transmission line A (1) side Sent to.

  According to the second embodiment, it is possible to provide a gateway device that can monitor other devices inserted in the same data transmission device and transfer data transmitted and received by the other device on one transmission path to the other transmission route. Can do.

  FIG. 2 is a block diagram showing a schematic configuration of the third embodiment of the present invention. The data transmission device (4) shown in the third embodiment includes a transmission processing unit (43) including a transmission / reception buffer (41) on the transmission line B (3) side, a plurality of device interfaces (5a to 5n), and a gateway device. (2).

  One device can be connected to each of the device interfaces (5a to 5n) inserted into the data transmission device (4). For example, a control device (51) and a computer (52) can be connected to each other. Data can be transmitted and received by the transmission line B (3) from the control device (51) and the computer (52) via the data transmission device (4).

  In the third embodiment, any one of the device interfaces (5a to 5n) inserted into the data transmission device (4) is replaced with the gateway device (2) shown in FIG. The gateway device (2) is configured as a card, for example, and can be replaced by removing or inserting a slot provided in the data transmission device (4).

  Specifically, for example, the device interface (5a) to which the control device (51) is connected is replaced with the gateway device (2), and the control device (11) is replaced with the control device (51) on the transmission path A (1) side. ).

  In this case, the data received by the control device (51) from the transmission line B (3) side is stored in the corresponding area of the transmission / reception buffer (41) on the transmission line B (3) side in the transmission processing unit (43). However, in the gateway device (2), the control device (51) relays the data received from the transmission path B (3) side to the transmission path A (1) side by the process described in the first embodiment.

  Thereby, for example, a newly installed control device (11), which is a steel plant controller, can receive data instead of the control device (51). On the contrary, the data transmitted by the control device (11) from the transmission path A (1) side is written into the corresponding area of the transmission / reception buffer (41) on the transmission path B (3) side by the processing of the gateway device 2 and transmitted. It is relayed to the road B (3) side.

  As a result, the newly installed control device (11) can transmit data to the transmission line B (3) side instead of the replaced control device (51). The third embodiment can provide a data transmission apparatus that can relay only necessary data between the transmission path A (1) and the transmission path B (3).

  FIG. 3 is a block diagram showing a schematic configuration of the fourth embodiment of the present invention. In FIG. 3, the control devices (11a to 11n) and computers (12a to 12n) connected to the transmission line A (1) are not shown in the figure, but are connected to the data transmission device (4) via the device interface. The connected control devices (51a to 51n) and computers (52a to 52n) are replaced.

  The data transmission device (4) shown in the fourth embodiment includes a transmission processing unit (43) including a transmission / reception buffer (41) on the transmission path B (3) side and the gateway device (2) described in the first embodiment. Composed.

  In the fourth embodiment configured as described above, the gateway device (2) includes the control devices (11a to 11n) and the computers (12a to 12n) connected to the transmission line A (1) by the process described in the first embodiment. Is relayed to the transmission line B (3) side, and the transmission line B is as if the data was transmitted by the replaced control devices (51a to 51n) and computers (52a to 52n). (3) Transmit to the side.

  Similarly, data transmitted from the transmission line B (3) side to the control devices (51a to 51n) and the computers (52a to 52n) is transferred to the transmission line A (1) by the process described in the first embodiment. The control device (11a to 11n) and the computer (12a to 12n) can be received by relaying.

  According to the fourth embodiment, it is possible to provide a data transmission device capable of relaying data for a plurality of devices using a single gateway device.

  FIG. 2 is a block diagram showing a schematic configuration of the fifth embodiment of the present invention. The data transmission device 4 shown in the fifth embodiment adopts the same configuration as that of the data transmission device 4 described in the third embodiment, but the gateway device (2) in the fifth embodiment performs the processing described in the second embodiment. The control device (51) and the computer (52) intercept data transmitted and received on the transmission line B (3) side via the device interfaces (5a to 5n) and transfer it to the transmission line A (1).

  According to the fifth embodiment, the gateway device (2) is newly inserted into the data transmission device (4) that is already transmitting through the transmission channel B (3), so that it is transmitted through the transmission channel B (3). It is possible to provide a data transmission apparatus capable of intercepting the received data through the transmission path A (1).

  FIG. 4 is a block diagram showing a schematic configuration of the sixth embodiment of the present invention. The data transmission device 4 shown in the sixth embodiment includes a transmission processing unit (43) including a transmission / reception buffer (41) on the transmission line B (3) side, a gateway device (71) described in the first embodiment, and an embodiment. And a gateway device (72) having the operation management processing unit (23) described in 2.

  In the sixth embodiment configured as described above, the gateway device (71) performs a process similar to the process described in the first embodiment, and a plurality of devices connected to the transmission path A (1) and the transmission path B ( 3) relays data to and from a plurality of devices connected to 3). Further, the gateway device (72) performs the processing described in the second embodiment so that the gateway device (71) and the transmission line A (1) Intercept data relayed with B (3) and transmit it to transmission line C (6).

  According to the sixth embodiment, a data transmission apparatus capable of transmitting the same data as the relay data to the transmission path C (6) while relaying the data between the transmission path A (1) and the transmission path B (3). Can be provided.

The block diagram which shows schematic structure which concerns on Example 1 and 2 of this invention. The block diagram which shows schematic structure which concerns on Example 3 and 5 of this invention. The block diagram which shows schematic structure which concerns on Example 4 of this invention. The block diagram which shows schematic structure which concerns on Example 6 of this invention. The block diagram which shows schematic structure of the conventional gateway apparatus.

Explanation of symbols

2 Gateway device 21 Transmission / reception buffer 22 on transmission line A side Gateway processor (CPU)
23 Operation monitoring processor 24 Bus interface 25 Data queue storage means B
2a to 2n Data queue storage means A
4 Data transmission device 41 Transmission / reception buffer 42 on transmission line B side Data bus 43 Transmission processing unit

Claims (7)

A gateway device for connecting a plurality of transmission paths with different transmission methods to each other, and a plurality of transmission / reception buffers respectively connected to any one of the transmission paths, and the transmission paths between the transmission paths In a data transmission device having a CPU that controls data to be transmitted and received, and a gateway device that interconnects the plurality of transmission paths,
The gateway device is
Data queue storage means for holding data transmitted and received by the transmission / reception buffer;
A bus interface for accessing the transmission / reception buffer via the data queue storage means;
A data transmission device characterized in that a gateway function is provided by exchanging with a device interface mounted on the data transmission device. The data transmission apparatus according to claim 1, wherein
An operation monitoring processor that monitors the operation of the device connected to the data transmission device, monitors the operation of the device connected to the data transmission device, and transmits / receives the device through one of the plurality of transmission paths; A data transmission device comprising a gateway device for transferring data to the other of the plurality of transmission paths. The data transmission device according to claim 2,
By inserting the first gateway device that does not have the operation monitoring processing unit and the second gateway device that has the operation monitoring processing unit, the operation of the first gateway device is performed by the second gateway device. A data transmission device having a function of monitoring and transferring data relayed by the first gateway device to the other of the plurality of transmission paths. The data transmission device according to claim 3, wherein
By monitoring the operation of the device connected to the other of the plurality of transmission paths by inserting the gateway device, the data transmitted and received by the device on one of the plurality of transmission paths is transferred to the other of the plurality of transmission paths. A data transmission device having a function of The data transmission apparatus according to claim 4, wherein
By inserting one gateway device instead of a plurality of device interfaces, data received by a plurality of control devices and computers is relayed to another transmission path by one gateway device, and another transmission path A data transmission apparatus having a function of relaying data received from the network as data transmitted by the plurality of control devices and computers. 2. The data transmission device according to claim 1, further comprising a bus into which a plurality of device interfaces can be inserted, connected to a control device and a computer via the device interface, and receiving data from the control device and the computer. In a data transmission device for transmission,
By inserting one gateway device instead of one device interface, the control device and the computer connected to the device interface receive data received from one of the plurality of transmission paths. It has a function of relaying to the other of the plurality of transmission lines and relaying data received from the other of the plurality of transmission lines to one of the plurality of transmission lines as data transmitted by the control device and the computer. A data transmission device. A gateway device for connecting a plurality of transmission paths with different transmission methods to each other, and a plurality of transmission / reception buffers respectively connected to any one of the transmission paths, and the transmission paths between the transmission paths In a data transmission method using a gateway device having a CPU for controlling data to be transmitted and received, and interconnecting the plurality of transmission paths,
In the gateway device,
Data queue storage means for holding data transmitted and received by the transmission / reception buffer;
A bus interface for accessing the transmission / reception buffer via the data queue storage means,
A data transmission method comprising: adding a gateway function by exchanging with a device interface mounted on the data transmission device.

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