KR100374833B1 - Trust conviction method for lon talk home network - Google Patents

Abstract

The present invention relates to a method for checking reliability in a rontork home network, and further checks an error even between transmission adapters of a transmitting apparatus to further enhance the reliability of data transmission and reception. To this end, the present invention comprises a first step of determining whether there is an error with respect to transmission data output from a transmission means in a neuron chip of a transmission adapter; A second step of receiving data from the transmitting means again when an error is detected as a result of the determination of the first step, and converting the transmission data to be suitable for the RonTalk protocol and transmitting the received data to the receiving means if the error is not detected; A third step of receiving, at the receiving means, the data converted to be suitable for the rontalk protocol through a reception adapter, determining whether there is an error with respect to the received data, and generating an error presence signal according to the received data; A fourth step of converting the error presence signal into a neuron chip of a reception adapter so as to be suitable for a rontalk protocol and transmitting it to a transmission means; The transmitting means receives the error presence signal through the transmission adapter, and if the error is found to be present, transmits the data again, and if it is determined that the error does not exist, the fifth process is terminated.

Description

TRUST CONVICTION METHOD FOR LON TALK HOME NETWORK}

The present invention relates to a method for checking reliability in a rontalk home network, and more particularly, to a method for checking reliability of a rontork home network in which a transmitting side checks an error in advance and transmits data between a server and a client.

In general, the Lontalk scheme is a data transfer protocol between devices connected to a network, that is, a standard protocol for connecting a server and a client over a network.

FIG. 1 is a schematic diagram showing a home network using a general rontalk. As shown in FIG. 1, a server 1 and a client 2 connected to the same network transmit data to each other using a rontalk method. At this time, the server 1 and the client 2 are connected to the network through the adapter (3), (4).

Here, the adapters 3 and 4 are provided with a neuron chip 20 to support the rontalk method as shown in FIG. 2, and the server 1 and the client 2 in the network configured as described above. Describes data transmission and reception between

First, as shown in FIG. 3, when the server 1 transmits data to the server side adapter 3 when transmitting data from the server 1 to the client 2, the neuron chip 20 of the server side adapter 3 is used. ) Converts the data transmitted from the server 1 to the RonTalk protocol and transmits the data to the client 2 through the client-side adapter 4.

Then, the client 2 detects the presence or absence of an error through the Cyclic Redundancy Check (CL) of the received data, and transmits an error detection signal according to the client-side adapter 4 and the server-side adapter ( 3) to the server (1).

On the other hand, as shown in FIG. 4, when the client 2 transmits data to the client side adapter 4 during data transfer from the client 2 to the server 1, the neuron chip 20 of the client side adapter 4 is transmitted. ) Converts the data transmitted from the client 2 to the RonTalk protocol and transmits the data to the server 1 through the server-side adapter 3.

Then, the server 1 detects the presence or absence of an error through the seed on the received data and transmits the error presence detection signal accordingly to the client 2 through the server-side adapter 3 and the client-side adapter 4. .

However, the conventional technology described above has a problem that it takes a long time to detect a transmission error that occurs initially because an error is checked after data is transmitted to the reception apparatus even when a transmission error occurs between the transmission apparatus and the transmission adapter. .

Accordingly, the present invention devised in view of the above problems provides a method for verifying reliability in a RonTalk home network that can further enhance the reliability of data transmission and reception by checking errors even between transmission adapters of a transmission apparatus. There is a purpose.

1 is a block diagram of a conventional rontalk home network.

Fig. 2 is a block diagram showing the configuration of an adapter in Fig. 1;

Fig. 3 is a schematic diagram showing data transmission from a server to a client in Fig. 1;

Fig. 4 is a schematic diagram showing data transmission from a client to a server in Fig. 1;

5 is an operation flowchart of an embodiment of a method for verifying reliability in a Lontalk home network of the present invention;

Fig. 6 is a schematic diagram showing data transmission from a server to a client in Fig. 5;

Fig. 7 is a schematic diagram showing data transmission from a client to a server in Fig. 5;

8 is a flowchart illustrating an embodiment of a method for verifying reliability in a Lontalk home network according to the present invention;

***** Description of the symbols for the main parts of the drawings *****

1: server 2: client

3, 4: adapter

The present invention for achieving the above object comprises a first step of determining whether there is an error with respect to the transmission data output from the transmission means in the neuron chip of the transmission adapter; A second step of receiving data from the transmitting means again when an error is detected as a result of the determination of the first step, and converting the transmission data to be suitable for the RonTalk protocol and transmitting the received data to the receiving means if the error is not detected; A third step of receiving, at the receiving means, the data converted to be suitable for the rontalk protocol through a reception adapter, determining whether there is an error with respect to the received data, and generating an error presence signal according to the received data; A fourth step of converting the error presence signal into a neuron chip of a reception adapter so as to be suitable for a rontalk protocol and transmitting it to a transmission means; The transmitting means receives the error presence signal through the transmission adapter, and if it is determined that an error exists, retransmits the data, and if it is determined that the error does not exist, a fifth process of terminating the data transmission is performed. .

Hereinafter, with reference to the accompanying drawings, the operation and effects of the method for verifying reliability in a rontalk home network according to the present invention will be described in detail.

5 is an operation flowchart of an embodiment of the reliability confirmation method in the Lontalk home network according to the present invention. As shown in FIG. 5, the data transmitted from the server 1 in the neuron chip 20 of the server-side adapter 3 is shown. Receiving a data again when an error is detected by an error check, and transmitting the data in a rontalk manner as it is if an error is not detected; In the client 2, a second process of receiving the data transmitted in the rontalk method in the first process through the client-side adapter 4, error checking the received data, and transmitting an error presence signal accordingly. and; A third process of receiving, at the neuron chip 20 of the client-side adapter 4, an error presence signal of the second process and transmitting it in a rontalk method; In the server 1, a fourth process of receiving the error presence signal through the server-side adapter 3 and transmitting the data again or completing the transmission accordingly.

Fig. 6 is an operation flowchart of another embodiment of the reliability confirmation method in the Lontalk home network of the present invention. As shown therein, data transmitted from the client 2 in the neuron chip 20 of the client-side adapter 4 is shown. Error checking to receive data again when an error is detected, and to transmit the data as it is in a rontalk manner if an error is not detected; In the server 1, a second process of receiving the data transmitted in the rontalk method in the first process through the server-side adapter 3, error checking the received data and transmitting an error presence signal accordingly and; A third process of receiving, at the neuron chip 20 of the server-side adapter 3, an error presence signal of the second process and transmitting it in a rontalk manner; In the client 2, a fourth process of receiving the error presence signal through the client-side adapter 3 and transmitting the data again or completing the transmission accordingly is described.

First, when data is transmitted from the server 1 to the client 2 as shown in FIG. 6, the neuron chip 20 of the server-side adapter 3 performs an error check on the data transmitted from the server 1 and thereby an error. The presence or absence signal is transmitted to the server (1). At this time, the server (1) transmits data again when an error presence signal indicating that an error is detected and waits when an error presence signal indicating that no error is detected is inputted. The data input from 1) is transmitted to the client 2 through the client-side adapter 4 in a rontorque manner.

Accordingly, the client 2 receives the data transmitted from the server-side adapter 3 in a rontalk manner through the client-side adapter 4, error checks the received data, and generates an error presence signal accordingly. Send to client-side adapter 4.

Accordingly, the client-side adapter 4 receives the error presence signal from the client 2 and transmits the error presence signal to the server 1 through the server-side adapter 3 in a rontorque manner.

Then, the server 1 receives the error presence signal through the server-side adapter 3 and retransmits data or completes the transmission accordingly.

If the data is transmitted from the client to the server as shown in FIG. 7, the neuron chip 20 of the client-side adapter 4 checks the data transmitted from the client 2 and checks whether there is an error signal accordingly. (2), the client 2 transmits data again when an error presence signal indicating that an error is detected, and waits when an error presence signal indicating that no error is detected is inputted from the client (2). The data is transmitted to the server 1 through the server-side adapter 3 in a rontorque manner.

Accordingly, the server 1 receives the data transmitted from the client-side adapter 4 in the rontorque manner through the server-side adapter 3, error-checks the received data, and thereby generates an error presence signal. Is sent to the server-side adapter (3).

Accordingly, the server-side adapter 3 receives the error presence signal from the server 1 and transmits it to the client 2 through the client-side adapter 4 in a lone talk method.

Then, the client 2 receives the error presence signal through the client side adapter 4 and retransmits data or terminates the transmission accordingly, i.e., if the error is found to be transmitted again, the data is retransmitted and the error is In other words, the data transmission is terminated if it is found to be non-existent. In other words, in order to ensure the reliability of the data, the present invention checks the data error in the neuron chip of the transmitting adapter and also checks the data error at the receiving side. When the error occurs on the transmitter side, the transmitter receives the information on the error detection from the neuron chip on the transmitter side.

As described in detail above, the present invention adds a data error checking procedure to the neuron chip of the transmission adapter, thereby improving reliability of the transmission data and rapidly detecting data errors occurring on the transmission apparatus side.

Claims (1)

A first step of determining whether there is an error with respect to the transmission data output from the transmission means in the neuron chip of the transmission adapter; A second step of receiving data from the transmitting means again when an error is detected as a result of the determination of the first step, and converting the transmission data to be suitable for the RonTalk protocol and transmitting the received data to the receiving means if the error is not detected; A third step of receiving, at the receiving means, the data converted to be suitable for the rontalk protocol through a reception adapter, determining whether there is an error with respect to the received data, and generating an error presence signal according to the received data; A fourth step of converting the error presence signal into a neuron chip of a reception adapter so as to be suitable for a rontalk protocol and transmitting it to a transmission means; The transmitting means receives the error presence signal through a transmission adapter, and if it is determined that an error exists, retransmits the data, and if it is found that the error does not exist, performing a fifth process of terminating the data transmission. Reliability Verification Method in the Lonetalk Home Network.