KR101370800B1 - Data transmitting system using id information and method thereof - Google Patents

Abstract

The present invention relates to a data transmission system and method using ID information, and includes a plurality of nodes hierarchically connected according to an embodiment of the present invention and a data transmission device including a data transmission device for transmitting data to the plurality of nodes. In the system, the data transmission device, a signal generation unit for generating a signal for notifying the start of the ID setting in the order of branch branches from the upper node to the lower node of the plurality of nodes, and collecting from the lower node to the upper node And an ID information receiving unit for receiving the ID information, and a control unit for controlling data transmission using the ID information.
Accordingly, the data can be transmitted using only the ID information without having to know the link information of the node to which the data is to be transmitted.

Description

Data transmission system using ID information and its method {DATA TRANSMITTING SYSTEM USING ID INFORMATION AND METHOD THEREOF}

The present invention relates to a data transmission system and method using ID information, and more particularly, a technology for transmitting data using ID information of each node in a hierarchically connected network.

Today, different types of networks are being built in homes and businesses. Such a network consists of a main server and terminal devices which are a plurality of nodes connected thereto. The main server needs to know the information of each node in advance in order to transmit data to each node. In the conventional method, unique ID information must be stored in advance in each node or individually set using hardware such as a switch. However, such a method requires installation cost and setting cost of a switch and the like, and has a problem in that it is difficult to reset when an ID of a node is stored or managed incorrectly.

Accordingly, the present inventors have been able to easily grasp the connection relationship between all network nodes in the main server, and have studied a technology for transmitting data using only ID information of each node. The background technology of the present invention is disclosed in Korean Unexamined Patent Publication No. 10-2005-0101590 (October 25, 2005).

The technical problem to be achieved by the present invention is to provide a technique for transmitting data using ID information set in each node in a network in which a plurality of nodes are hierarchically connected.

In a data transmission system including a plurality of hierarchically connected nodes and a data transmission device for transmitting data to the plurality of nodes, the data transmission device is an upper node of the plurality of nodes. A signal generator for generating a signal indicating the start of ID setting in the order of branch branches from the sub-node to the sub-node, an ID information receiver for receiving the ID information collected from the sub-node from the upper node, and the ID information. It includes a control unit for controlling to transmit data.

In addition, the plurality of nodes includes an upper node and a lower node. The upper node sets a first ID, and then transmits a second ID updated with the first ID to the lower node. The second ID may be set as its own ID, and ID information may be transmitted to the upper node.

In addition, when the upper node is a branch node, when the second ID is transmitted to the first lower node of the first branch branch and the ID information is received from the first lower node, the second branch different from the first branch branch. The third ID may be transmitted to the second lower node of the branch.

In addition, the ID information may include the number of sub-nodes or node types, including the self.

In addition, each of the plurality of nodes may include one upper connection port and one or more lower connection ports.

A data transmission method of a data transmission system according to another embodiment of the present invention includes a plurality of nodes hierarchically connected and a data transmission device for transmitting data to the plurality of nodes. In the data transmission method,

Generating a signal indicating the start of ID setting in the order of the branch branches from the upper node to the lower node of the plurality of nodes, and setting the IDs in the order of the branch branches from the upper node to the lower node among the plurality of nodes; Receiving ID information collected from the lower node to the upper node, and controlling to transmit data by using the ID information.

As such, by receiving ID information set for each node in a network in which a plurality of nodes are hierarchically connected, data may be transmitted using only ID information without having to know link information of a node to which data is to be transmitted. In addition, it is easy to determine whether the entire network is properly configured through ID information of all nodes.

1 is a block diagram of a data transmission system according to an embodiment of the present invention;
2 is a flowchart of a method for managing IDs of a data transmission apparatus included in the data transmission system of FIG. 1;
3 is an exemplary diagram for describing setting IDs in a plurality of nodes included in the data transmission system according to FIG. 1;
4A to 4E are step by step example diagrams for explaining that ID information is generated from a plurality of nodes included in the data transmission system according to FIG. 1;
5 is an exemplary diagram of ID information input to the data transmission device of FIG. 1.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms used are terms selected in consideration of the functions in the embodiments, and the meaning of the terms may vary depending on the user, the intention or the precedent of the operator, and the like. Therefore, the meaning of the terms used in the following embodiments is defined according to the definition when specifically defined in this specification, and unless otherwise defined, it should be interpreted in a sense generally recognized by those skilled in the art.

1 is a relation diagram of a data transmission system according to an embodiment of the present invention, and FIG. 2 is a flowchart of a method for managing IDs of a data transmission apparatus included in the data transmission system according to FIG. 1.

1 and 2, a data transmission system includes a data transmission apparatus 100 and a plurality of furnaces. The data transmission apparatus 100 is connected to a plurality of nodes hierarchically connected. In this case, the plurality of nodes may be connected in a binary tree structure. In detail, the data transmission device 100 includes a signal generator 110, an ID information receiver 120, and a controller 130. The signal generator 110 generates a signal informing the start of the ID setting in the order of the branch branches from the upper node to the lower node of the plurality of nodes (S200). In this case, when the ID automatic setting signal is transmitted from the signal generator 110 to the highest node, each node sequentially sets its ID in order of branch branches from the highest node to the lowest node.

Here, each node is divided into a general node and a branch node according to the number of connection ports, and each node includes one upper connection port and one or more lower connection ports. For example, a general node includes one upper connection port and one lower connection port, and a branch node includes one upper connection port and a plurality of lower connection ports. Each node is physically separated from each other and is connected 1: 1 through other nodes and ports, in this case serial communication including RS232, RS422, RS485, Inter Integrated Circuit (I2C), and Serial Peripheral Interface Bus (SPI). (serial communication), a communication method of TCP can be used. Therefore, since each node newly transmits the received communication signal, the attenuation of the signal according to the distance is smaller than that of the BUS connection method, thereby increasing the communication distance. In addition, when there is a distance that can be connected through the port is possible to expand the node.

In addition, the plurality of nodes includes a parent node and a child node. In this case, the concept of a parent node and a child node is a relative concept, and the parent node may be a child node of another parent node, and the child node is a parent node of another node. Can be.

After setting the first ID, the upper node may transmit the second ID updated with the first ID to the lower node, and the lower node may set the second ID as its own ID, and transmit the ID information to the upper node. . Here, the ID information means connection structure information including the number of subnodes or the type of nodes, including each node itself.

In addition, when the upper node is a branch node that branches to two or more branch branches, when the second ID is transmitted to the first lower node of the first branch branch and receives ID information from the first lower node, the second branch branch The third ID may be transmitted to the second lower node of the.

Hereinafter, setting of IDs in the plurality of nodes will be described with reference to FIG. 3.

FIG. 3 is an exemplary diagram for describing setting IDs in a plurality of nodes included in the data transmission system of FIG. 1.

Referring to FIG. 3, a total of 11 nodes are connected hierarchically, and the number displayed on each node is the ID of the corresponding node. In this case, the node indicated by the circle is a branching node which branches into two or more branches. The signal generator 110 transmits a signal to the node 1 which is the highest node among the nodes included in the network. Node 1, the highest node, sets its ID to 1, and sends the updated ID 2 to node 2, the lower node.

Node 2 sets ID 2 transmitted from Node 1 as its own ID and transmits the updated ID 3 to the lower node. In this case, since node 2 is a branch node, first, ID 3 is transmitted to node 3 which is a lower node of the first branch branch ①. Node 3 sets its ID to 3, updates it, and sends ID 4, the updated ID, to the child node associated with it. Node 4 sets its ID to ID 4, and if there is no lower node connected to it, generates ID information and transmits it to upper node ID 3.

On the other hand, when node 2 receives ID information from node 3, which is a lower node, node 2 transmits ID 5 to node 5, which is a lower node connected to second branch (②). Node 2 may know that up to ID 4 is set to another node through ID information transmitted from node 3, and the updated ID 4 is transmitted to node 5.

In the second branch branch ②, nodes 5, 6, node 7, node 8, and node 9 are set in the same manner as the ID setting method of the nodes of the first branch branch ① described above. In this case, there are two branch nodes, node 7, node 8, in the second branch branch ②. The node 8 transmits the ID 9 to the node 9, and upon receiving the ID information from the node 9, transmits the ID 10 to the node 10 in the third branch branch ③. Thereafter, upon receiving the ID information from the node 10, the ID information is transmitted to the node 7. When the node 7 receives the ID information of the node 8, the node 7 transmits the ID 11 to the node 11 which is the fourth branch branch ④. In this way, each node automatically sets its ID in the order of branch branches.

Referring again to FIGS. 1 and 2, next, the ID information receiver 120 sets IDs in the order of branch branches from upper nodes to lower nodes of a plurality of nodes, and then ID information collected from lower nodes to upper nodes. Receive (S210). The ID information is information indicating a connection relationship of all nodes included in the network, and includes, for example, the number of all nodes, the type or number of lower nodes.

In addition, when each node included in the plurality of nodes receives ID information from a lower node connected to the node, the node may add its node type and node number information of the lower layer including itself to the upper node. In this case, instead of adding a packet for the corresponding information, the ID information received from the lower node is updated. Therefore, even when a plurality of lower nodes is connected, the size of the ID information does not increase.

In addition, when the branch node included in the plurality of nodes receives the plurality of ID information from the lower node connected to the node, the branch node may generate one ID information in which the plurality of ID information is arranged and transmit the same to the upper node.

4A through 4E are exemplary diagrams for describing generating ID information from a plurality of nodes included in the data transmission system of FIG. 1.

This describes generating ID information in the hierarchical node shown in FIG. 3. For convenience, node 2 is referred to as a first branch node, node 7 is a second branch node, and node 8 is a third branch node. do.

First, referring to FIG. 4A, node 8, the third branch node, receives ID information from nodes 9 and 10. Since node 9 and node 10 have no connected lower node and are normal nodes, node 9 and node 10 transmit information 'T1 1' to node 8. Node 8 generates array information (1,1), adds branch node code 'J' which is its node type, and updates the number of all subnodes including itself to 3 to 'T3 1, 1 J' ID information is created and transmitted to the upper node.

Referring to FIG. 4B, node 7, the second branch node, receives ID information from node 8 and node 11. The ID information input from node 8 is 'T3 1, 1 J' and the ID information input from node 11 is 'T1 1'. Node 7 generates such ID information as (1, 1, 1J) array information, adds branch code 'J' which is its node type, and updates the total number of subnodes including itself to 5 by 'T5'. ID information 1, 1, 1J J 'is generated and transmitted to the upper node.

Referring to FIG. 4C, the node 6 adds its own node type general node code '1' to the ID information 'T5 1, 1, 1J J' received from the node 7, and includes the total number of lower nodes including itself. Is updated to 6, the ID information 'T6 1, 1, 1J J1' is generated and transmitted to the upper node. Node 5, the upper node of node 6, adds the general node code '1', which is its node type, and updates the total number of lower nodes including itself to 7, thereby identifying the ID information of 'T7 1, 1, 1J J2'. Create and send to upper node.

Referring to FIG. 4D, node 2 receives ID information from nodes 3 and 5, which are lower nodes, as the first branch node. In the case of node 3, enter 'T2 2' including node type information and total number of nodes in ID information 'T1 1' of subordinate node 4, and in the case of node 5, 'T7 1, 1, 1J J2' Transmits the ID information. Node 2 arranges this ID information, adds the node type code 'J' to the array information (1, 1, 1J J2, 2), and updates the total number of subnodes including itself to 10. , 'T10 1, 1, 1J J2, 2 J' generates the ID information and transmits to the upper node.

Referring to FIG. 4E, Node 1, the top node, adds its own node type information '1' to the ID information 'T10 1, 1, 1J J2, 2 J' transmitted from Node 2, and includes the entire node including itself. The number of lower nodes is updated to 11 to generate ID information 'T11 1, 1, 1J J2, 2 J1', and the ID information is received to the ID information receiver 120 of the data transmission apparatus 100.

Referring back to FIGS. 1 and 2, next, the controller 130 controls to transmit data using ID information of the plurality of nodes (S220). The controller 130 receives ID information from the ID information receiver 120, and interprets the ID information to obtain unique ID information of nodes connected to the data transmission apparatus 100. Accordingly, the controller 130 may transmit data to the corresponding node without storing the connection information between the nodes separately. That is, since the ID of each node is known through the ID information, the ID of the node identified in the address of the data to be transmitted is inserted. In this case, the highest node that has received the data determines whether it matches its ID, and if it is different from its ID, transmits the data to the lower node, and finally the data can be transmitted to the node having the corresponding ID.

5 is an exemplary diagram of ID information input to the data transmission device of FIG. 1.

Referring to FIG. 5, the controller 130 may determine the structure of all nodes by analyzing [T11 1, 1, 1 JJ 2, 2J 1], which are ID information transmitted from the highest node. Here, T is an identifier representing the total number of nodes, and J is a branch node. Therefore, 'T11' means that the total number of nodes is 11, and since there are three Js, it can be seen that the total number of branch nodes is three. In addition, the interpretation is performed from the right character to the left direction of the ID information, which may be set differently by the user's setting.

First, the number '1', the rightmost character, is the top node and its type is a general node. The node ID is 1.

The next letter 'J' is a lower node connected to the highest node and its type is the first branch node. In this case, the node ID is two.

The next letter '2' is a lower node connected to the first branch branch connected to the first branch node. The type is a general node, and two sub nodes are connected. In this case, the IDs of each subnode are 3 and 4, respectively.

The next letter ',' means the connection to the second branch branch of the first branch node.

The next letter '2' represents the number of subnodes connected to the second branch branch of the first branch node, and the type is a general node. In this case, IDs of each subnode are 5 and 6.

The next letter 'J' represents the second branch node connected to the last node of the second branch branch. In this case, the ID of the second branch node is seven.

The next letter 'J' represents a third branch node, which is a child node connected to the first branch branch of the second branch node. In this case, the ID of the third branch node is eight.

The next letter '1' indicates that the number of subnodes connected to the first branch branch of the third branch node is one, and the type is a general node. In this case, the node ID is 9.

The next letter ',' means the connection to the second branch branch of the third branch node.

The next letter '1' indicates that there is one node connected to the second branch branch of the third branch node, and the type is a general node. In this case, the node ID is 10.

The next letter ',' again means a connection to the second branch branch of the second branch node.

The next letter '1' indicates that the number of subnodes connected to the second branch branch of the second branch node is one, and the type is a general node. In this case, the node ID is 11.

Using such ID information, the controller 130 may determine a hierarchical connection structure of a plurality of nodes as illustrated in FIG. 3.

As such, by assigning IDs to each node and receiving hierarchical structure information from a network in which a plurality of nodes are hierarchically connected, data can be transmitted using only ID information without having to know link information of a node to which data is to be transmitted. In addition, it is easy to determine whether the entire network is properly configured through ID information of all nodes.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, Therefore, the present invention should be construed as a description of the claims which are intended to cover obvious variations that can be derived from the described embodiments.

100: data transmission device 110: signal generator
120: ID information receiving unit 130: control unit

Claims (10)

A data transmission system comprising a plurality of nodes hierarchically connected and a data transmission device for transmitting data to the plurality of nodes,
The data transmission apparatus includes:
A signal generation unit for generating a signal informing of starting of node ID setting to set ID numbers in order of branch branches from the highest node to the lowest node of the plurality of nodes;
An ID information receiving unit configured to receive ID information including the number of all nodes collected from the lowest node to the highest node and node type code information arranged in a concatenated order of all nodes, from the highest node; And
It includes a control unit for controlling to transmit data by using the ID information,
The lowest node generates the ID information for the first time, adds its own general node code, and transmits it to the connected higher node.
The higher node of the plurality of nodes, if its own node is a general node, generates a general node code, adds the general node code to the ID information received from the connected lower node, and transmits the general node code to the connected higher node. Is a branch node, generates a branch node code, adds the branch node code to the ID information received from the connected lower node, and sends the branch node code to the connected upper node,
And the top node adds the general node code or the branch node code according to its node characteristics to the ID information received from the connected lower node and transmits the ID information to the ID information receiver. delete delete delete The method of claim 1,
Each of the plurality of nodes comprising:
One parent connection port and one or more child connection ports,
When the node ID setup start is received, the ID number is set in association with an upper node connected by the upper connection port, and the ID number setting of the lower node connected by the lower connection port is controlled.
When the ID number is set, the data transmission system using the ID information for transmitting the set ID number to the upper node connected by the upper connection port. A data transmission method of a data transmission apparatus in a data transmission system including a plurality of nodes hierarchically connected and a data transmission apparatus for transmitting data to the plurality of nodes,
Generating a signal informing of starting node ID setting to set ID numbers in order of branch branches from the highest node to the lowest node of the plurality of nodes;
Receiving ID information including the number of all nodes collected from the least significant node to the most significant node and node type code information arranged in a concatenated order of all the nodes from the most significant node; And
And controlling the data to be transmitted using the ID information.
The lowest node generates the ID information for the first time, adds its own general node code, and transmits it to the connected higher node.
The higher node of the plurality of nodes, if its own node is a general node, generates a general node code, adds the general node code to the ID information received from the connected lower node, and transmits the general node code to the connected higher node. Is a branch node, generates a branch node code, adds the branch node code to the ID information received from the connected lower node, and sends the branch node code to the connected upper node,
And the top node adds the general node code or the branch node code according to its node characteristics to the ID information received from the connected lower node and transmits the ID information to the ID information receiver. delete delete delete The method according to claim 6,
Each of the plurality of nodes comprising:
One parent connection port and one or more child connection ports,
When the node ID setup start is received, the ID number is set in association with an upper node connected by the upper connection port, and the ID number setting of the lower node connected by the lower connection port is controlled.
When the ID number is set, the data transmission method using the ID information for transmitting the set ID number to the upper node connected by the upper connection port.

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