KR101346461B1 - Network connecting apparatus and network connecting method for communication on heterogeneous networks - Google Patents

Abstract

Disclosed are a network connection device and a network connection method for communication between heterogeneous networks. The network connection device according to the present invention receives the first data from the first network through a first interface capable of communicating with a first network, a second interface capable of communicating with a second network, and the first interface. And a controller configured to convert the second data to the second network through the second interface after converting the second data into the second data that can be transmitted and received in the second network. As a result, data transmission and reception between heterogeneous networks can be easily performed.

Description

NETWORK CONNECTING APPARATUS AND NETWORK CONNECTING METHOD FOR COMMUNICATION ON HETEROGENEOUS NETWORKS}

The present invention relates to a network connection device and a network connection method for communication between heterogeneous networks, and more particularly, a network connection device and a network connection that enable data communication therebetween in an environment in which heterogeneous networks cannot transmit data with each other. It is about a method.

Conventionally, when different networks exist, each network could only be accessed independently. However, in this environment, there were many difficulties in expanding a network or adding a new network. In particular, in industrial systems, the communication protocols and products are different for each manufacturer, so adding or expanding a network is more difficult than in a general network environment. For this reason, when the network needs to be expanded and added, there is a problem in that it is necessary to continue using the product that was used earlier than the product of another manufacturer in consideration of price or performance.

The conventional network system will be described by dividing it into a single network and a plurality of networks. In a single network, after receiving data through a suitable interface, the received data is displayed to the user. Here, the data is configured in a format that can be transmitted and received only in the network.

When another network enters this single network, that is, when the network is expanded or added, data received from each network has a format that can be transmitted and received only in that network. It becomes impossible. Therefore, the user can monitor all the data of each network, but there is a problem that can not process the data received from both networks in different networks.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a network connection device and a network connection method for facilitating expansion of a network by enabling data transmission and reception between heterogeneous networks.

Network connection device according to an embodiment of the present invention for achieving the above object is a first interface capable of communicating with the first network; A second interface capable of communicating with a second network; And receiving first data from the first network through the first interface, converting the first data into second data transceivable in the second network, and then transmitting the second data to the second network through the second interface. And converting the first data into second data by mapping a memory corresponding to the first interface and a memory corresponding to a second interface so that the first data is the same as the second data. It is characterized in that the memory structure is converted into a data format used in the second network.

And an input unit configured to receive a memory mapping method for converting the first data into the second data from a user.

In addition, the first interface and the second interface may be a peripheral component interconnect (PCI).

On the other hand, a network connection method according to an embodiment of the present invention for achieving the above object comprises the steps of: receiving first data from a first network through a first interface; Converting the received first data into second data transceivable in a second network; And transmitting the second data to the second network through a second interface; converting the received first data into second data that can be transmitted and received in a second network. The conversion to the second data may be performed by mapping a memory corresponding to the first interface and a memory corresponding to the second interface to make the first data into the same memory structure as the second data, to a data format used in a second network. Characterized in that the conversion.

The method may further include receiving a memory mapping method for converting the first data into the second data from a user.

In addition, the first interface and the second interface may be a peripheral component interconnect (PCI).

The first interface and the second interface may be provided in a personal computer (PC).

According to the network connection device and the network connection method according to the above configuration it is possible to easily perform the expansion of the network by enabling data transmission and reception between heterogeneous networks.

1 is a block diagram showing the configuration of a network connection device according to an embodiment of the present invention;
2 is a view showing a network connection system including a network connection device according to an embodiment of the present invention as a whole;
3 is a diagram illustrating a process of performing memory mapping in a network connection device according to an embodiment of the present invention.
4 is a flowchart illustrating the flow of a network connection method according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a block diagram showing the configuration of a network connection device according to an embodiment of the present invention. As shown in FIG. 1, the network connection device 100 according to an embodiment of the present invention includes a first interface 110, a second interface 120, and a controller 130.

The first interface 110 is an interface capable of transmitting and receiving data with any first network, and serves as a path for transmitting and receiving first data from the first network. Here, the first data refers to data that can be transmitted and received only by the first interface 110. For example, when the head, the data, and the tail are configured, the head and the tail are configured to move the first data through the first interface 110.

The second interface 120 is an interface capable of transmitting and receiving data with an arbitrary second network, and serves as a path for transmitting and receiving second data from the second network. In this case, the data may be transmitted and received only by the second interface 120. For example, when the head, the data, and the tail are configured, the head and the tail are configured to move the second data through the second interface 120.

The controller 130 has a function of receiving the first data received from the first interface 110 and converting the first data into the second data through memory mapping. That is, since the first data received from the first interface 110 cannot be transmitted or received through the second interface 120 as it is, a process of converting the second data into second data that can be transmitted and received in the second network is necessary. We named it memory mapping.

That is, the memory structure of the first data that can be transmitted and received in the first network is different from the data structure that can be transmitted and received in the second network. However, if only the structure is changed, that is, if the first data is made of the same memory structure as the data that can be transmitted and received through the second interface 120, the data can be transferred to the second network through the second interface 120.

Through this memory mapping process, data commonly used only in the first network can be moved in the second network, thereby connecting the first network and the second network.

In the above description, the controller 130 receives the first data received from the first interface 110, converts the first data into the second data through memory mapping, and then, through the second interface 120, the second network. Although the method of transmitting the data is described, the second data received from the second interface 120 can be converted to the first data through memory mapping and then transmitted to the first network through the first interface 110. Do.

Here, the first interface 110 and the second interface 120 may be configured as a peripheral component interconnect (PCI).

In addition, the first interface 110 and the second interface 120 may be provided in a device such as a personal computer (PC) to connect the first network and the second network.

Meanwhile, the network connection device 100 according to an embodiment of the present invention may further include an input unit (not shown) for receiving the data mapping criterion. Since the formats of data used in many networks are different, a predetermined mapping method is required to map the first data to the second data or to the third and fourth data formats as described above. The order or method for mapping data of different formats may be input by the input unit (not shown).

In addition, the controller 130 may perform data mapping according to a mapping condition input from an input unit (not shown) to connect separate networks or to add and expand another network.

FIG. 2 is a diagram schematically illustrating a network connection system including a network connection device according to an embodiment of the present invention.

As shown in FIG. 2, a network connection system including a network connection device 100 according to an embodiment of the present invention includes a network including a first interface 110, a second interface 120, and a controller 130. The connection device 100 exists, and the network connection device 100 connects the first network 10 and the second network 20.

In FIG. 2, the two networks are connected, but a larger number of networks can be connected by the same method.

The network connection device 100 includes a first interface 110, a second interface 120, and a controller 130 to connect the first network 10 and the second network 20.

The first interface 110 is an interface capable of transmitting and receiving data with the first network 10 and may be configured of PCI. It serves as a path for transmitting and receiving the first data 15 from the first network (10).

Here, the first data 15 refers to data that can be transmitted and received by the first interface 110. For example, as shown in FIG. 2, when the head, the data, and the tail are configured, the head and tail portions may be provided with the first data 15 through the first interface 110. ) Can be moved.

The second interface 120 is an interface capable of transmitting and receiving data with the second network 20 and serves as a path for transmitting and receiving the second data 25 from the second network. The second interface 120 may also be implemented in PCI.

Similarly, the second data 25 may be transmitted and received only by the second interface 120. For example, as shown in FIG. 2, when the first data 15 is composed of a head, data, and a tail, the second interface 120 is disposed at the head and the tail. The second data 25 can be moved through.

The controller 130 has a function of receiving the first data 15 received from the first interface 110 and converting the first data into the second data 25 through memory mapping. That is, since the first data 15 received from the first interface 110 cannot be transmitted or received through the second interface 120 as it is, the first data 15 is converted into second data 25 that can be transmitted and received in the second network. This is necessary, and we call it memory mapping.

That is, the memory structure of the first data 15 that can be transmitted and received in the first network 10 is different from the data structure that can be transmitted and received in the second network 20. However, if only the structure is changed, that is, if the first data is made of the same memory structure as the data that can be transmitted and received through the second interface 120, the data can be transferred to the second network through the second interface 120.

Through this memory mapping process, data commonly used only in the first network 10 can be moved in the second network 20, and as a result, connect the first network 15 and the second network 25. do.

In the above description, the control unit 130 receives the first data received from the first interface 110, converts the first data 15 into the second data 25 through memory mapping, and then the second interface 120. Although the method of transmitting to the second network 20 is described in the above description, after converting the second data 25 received from the second interface 120 into the first data 15 through memory mapping, It is also possible to transmit to the first network 10 via the first interface 110.

The network connection device 100 including the first interface 110 and the second interface 120 may be implemented as a personal computer (PC).

Meanwhile, the network connection device 100 according to an embodiment of the present invention may further include an input unit (not shown) for receiving the data mapping criterion. Since the formats of data used in many networks are different, a predetermined mapping method is required to map the first data to the second data or to the third and fourth data formats as described above. The order or method for mapping data of different formats may be input by the input unit (not shown).

In addition, the controller 130 may perform data mapping according to a mapping condition input from an input unit (not shown) to connect separate networks or to add and expand another network.

3 is a diagram illustrating a process of performing memory mapping in a network connection device according to an embodiment of the present invention.

As shown in FIG. 3, the first data 15 received from the first network 10 and the second data 25 received from the second network 20 have different data formats. That is, as illustrated in FIG. 2, when the data format is briefly divided into headers, data, and tails, the positions at which they are positioned are different from each other. Therefore, by changing these formats, the first data 15 can be changed to data that can be transmitted and received even in the second network 20. In other words, the first data 15 may be converted from the second network 20 to the second data 25, which is data that can be transmitted and received through the second interface 120.

Similarly, the second data 25 is also converted from the first network 10 to the first data 15 which can be transmitted and received by the first interface 110 through memory mapping in the controller 130 so that the data can move freely. do.

Due to the memory mapping function of the controller 130, data transmission and reception are possible between the first network 10 and the second network 20, which have not been exchanged with each other.

In addition, the method can be extended to not only the first network 10 and the second network 20 but also to a larger number of networks. You can also add or change different networks.

4 is a flowchart illustrating the flow of a network connection method according to an embodiment of the present invention.

First, the first data is received through the first interface (S200). Here, the first data has a data format that can be transmitted and received only with the first network through the first interface. Therefore, transmission and reception are not possible in other networks in principle.

Next, the first data is converted into second data (S210). Specifically, the second data is data that can be transmitted and received only from the second network through the second interface, that is, through different interfaces in different networks.

In this way, the memory mapping is used to convert the first data into the second data. This refers to a method of converting data having different data formats into a format corresponding to other data formats and making the data usable in another network. This is as described above.

Finally, the converted second data is transmitted through the second interface (S220). That is, since the first data is converted into second data that can be transmitted and received through the second interface to the second network, the first data can be transmitted to the second network.

In this manner, the first network and the second network may be connected to each other. The same method also allows the addition of a third or fourth network.

The method may further include receiving a memory mapping method for converting first data into the second data from a user. Since the formats of data used in many networks are different from each other, a predetermined mapping method is required to map the first data to the second data or the third and fourth data formats. The mapping method refers to mapping how to correspond the same item in different data formats.

According to the network connection device and the network connection method having the above-described configuration, it is possible to easily transmit and receive data between heterogeneous networks and to easily perform network expansion.

In the foregoing description, each component and / or function described in various embodiments may be implemented in combination with each other, and those skilled in the art may recognize the present invention described in the claims below. It will be understood that various modifications and variations can be made in the present invention without departing from the spirit and scope.

10 ...................................... 1 network
20 ...................................... 2 networks
100 ...................................... Network Connection
110 ...................... 1 interface
120 ...................................... 2 interface
130 ...

Claims (7)

A first interface capable of intercommunicating with the first network;
A second interface capable of communicating with a second network; And
Receiving first data from the first network through the first interface, converting the first data into second data transceivable in the second network, and then transmitting the second data to the second network through the second interface; Control unit; including,
The first data to second data is converted into a second network by mapping a memory corresponding to the first interface and a memory corresponding to a second interface to make the first data the same memory structure as the second data. Network connection device that converts data format used by delete The method of claim 1,
And wherein the first interface and the second interface are peripheral component interconnects (PCIs). Receiving first data from a first network via a first interface;
Converting the received first data into second data transceivable in a second network; And
Delivering the second data to the second network through a second interface;
In the converting of the received first data into second data that can be transmitted and received in a second network, converting the first data into the second data includes a memory corresponding to the first interface and a memory corresponding to the second interface. Mapping and converting the first data into the same memory structure as the second data and converting the first data into a data format used in a second network. delete 5. The method of claim 4,
And wherein the first interface and the second interface are PCI (peripheral component interconnect). 5. The method of claim 4,
The first interface and the second interface is a network connection method, characterized in that provided in the personal computer (PC).

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