KR19990080961A - How to send a fax - Google Patents

Abstract

SUMMARY OF THE INVENTION An object of the present invention is to provide a fax transmission method which eliminates the loss of training time and reduces the overall talk time.

Determining whether the model of the receiver is the same as the model of the transmitter by checking NSF (Digital Information of Subscriber) frame data transmitted from the receiver in response to the ring tone transmitted from the transmitter; Transmitting data of a corresponding length from a transmitting side to a receiving side following NSS (None Standard of Subscriber) or DCS (Digital Command of Subscriber) frame data according to whether the determined model is the same, and a DCS transmitted from the transmitting side Or receiving and checking NSS frame data to receive training data having a length corresponding to whether the received data is NSS frame data, and checking an error of data from the received training data. Transmitting the data corresponding to the result to the transmitting side; After the sending of the raining data and the transmission of the data corresponding to the checked result from the training data are repeatedly performed until the error of the data is not detected at the receiving side, if there is no error detection, the message is transmitted to the receiving side. Characterized in that it comprises a step.

Description

How to send a fax

The present invention relates to a fax transmission method, and more particularly, to a fax transmission method for shortening a training sequence time of a fax using a V.17 long training sequence using a non-standard fax protocol.

In the conventional fax transmission method, as shown in FIG. 1, after a receiving side detects a calling tone transmitted after a dialing signal from a transmitting side, a NSF (None Standard Facility) frame and a DIS (Digital Information of Subscriber) frame is transmitted to the sender.

The transmitting side detects the NSF frame transmitted from the receiving side, checks in the detected NSF frame whether the transmitter being used is the same type as the receiver of the counterpart, and if it is the same type, the V.17 long as shown in FIG. Long Training + TCF ( φ ′s Series (where TCF is about 1.0 sec long binary data to confirm the training. φ NSS (None Standard of Subscriber) frame consisting of a series of consecutive data is sent to the receiving side, and if it is not the same type, the digital command of subscriber (DCS) frame that is generally used between different models are sent to the receiving side.

The receiving side receives these data and checks whether there is a data error, and if there is an error, transmits a FTT (Failure of Training) frame, and if normal, a CFR (Confirmation) frame to the transmitting side.

In this case, when the transmitting side receives the FTT frame, the transmission rate is lowered to transmit the DSC frame to the receiving side. Then, the V.17 long training sequence is transmitted. The short training sequence shown in Fig. 4 is performed.

However, in the conventional fax transmission method, a plurality of serially arranged at about 1.0 sec. φ In order to synchronize with the receiver when transmitting a TCF (Training confirmation) signal for a training confirmation consisting of bits, as shown in FIG. 4, a V.17 long training sequence is transmitted, followed by a TCF signal. When the FTT data is received from the receiver because the time of Ying is 1400ms longer than 142ms of Short Training, it must be retried with a long training sequence. Therefore, the total communication time is increased due to the time loss, which increases the call rate. There was a problem.

Accordingly, the present invention has been invented in view of such a conventional problem, and an object of the present invention is to provide a fax transmission method for reducing the total talk time by eliminating the loss of training time.

1 is a view schematically showing a protocol for implementing a conventional fax transmission method

2 schematically illustrates a protocol for implementing a fax transmission method according to the present invention.

3 is a flowchart illustrating a process of transmitting and receiving a signal in a fax transmission method according to the present invention.

4 shows a training sequence;

In order to achieve the above object, the fax transmission method of the present invention checks the NSF.DIS frame data transmitted from the receiver in response to a ring tone transmitted from the transmitter to determine whether the receiver is the same as the transmitter. And transmitting training data of a corresponding length from the transmitting side to the receiving side according to whether the determined model is the same or not, and receiving the DCS or NSS frame data transmitted from the transmitting side. And receiving training data of a corresponding length according to whether the received data is checked and received as NSS frame data, and checking an error of the data from the received training data to correspond to the result. To the transmitting side, and the training data from the transmitting side. Repeating the transmission and transmission of the data corresponding to the checked result from the training data until the error is not detected at the receiving side and transmitting the message to the receiving side if there is no error detection. It is characterized by.

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

2 shows a protocol for implementing the fax transmission method of the present invention, and FIG. 3 shows a procedure for implementing the fax transmission method of the present invention, respectively.

First, in response to a ringing tone following the dialing transmitted from the transmitting side, the receiving side transmits NSF and DIS frame data to the transmitting side (S ₁₀ ).

After receiving the NSF and DIS frame data at the transmitting side (S ₁₁ ), the NSF frame data is checked to determine whether the model of the receiving side which is the counterpart is the same as the model of the transmitting side (S ₁₂ ).

If it is not the same type, DCS frame data, which is a protocol used to communicate between other general types, is sent to the receiving side (S ₁₆ ), and then a long V.17 long training sequence and a plurality of data lengths shown in FIG. φ TFC data for determining an error of data formed in a bit string is sent (S ₁₇ ).

On the other hand, if it is the same model, NSS frame data, which is a protocol used between the same models, is transmitted to the receiving side (S ₁₃ ), and then a short V.17 short training sequence and a plurality of short data lengths shown in FIG. φ It is formed into a bit string and transmits TCF data for data error determination (S ₁₄ ).

The transmitter then receives the NSS or DCS frame data (S ₁₈ ), and then checks whether the received data is an NSS (S ₁₈ ).

At this time, if it is not NSS data, the V.17 long training sequence having a long data length and TCF data for data error determination are sent to the receiver (S ₂₀ ). If it is NSS data, a V.17 short training sequence having a short data length is transmitted. And transmits TCF data for data error determination to the receiving side (S ₁₉ ).

The receiving side checks the TCF data to determine whether there is an error in the data (S ₂₁ ).

If it is determined that there is a data error, FTT (Failure of Training) data is sent, and if there is no data error, CFR (Confirmation) data is sent to the sender, and this process is performed until the sender receives CFR data. Repeatedly, when the transmitting side receives the CFR data, it transmits the V.17 short training sequence + message data to the transmitting side.

As described above, according to the FAX transmission method of the present invention, the NSF signal transmitted from the receiving side is checked by the transmitting side to determine whether the same type is used. Since the protocol is performed by transmitting the TCF data for determination, the training time can be greatly reduced, and the overall data transmission time can be reduced.

Claims (4)

Determining whether the model of the receiver is the same as the model of the transmitter by checking NSF (Digital Information of Subscriber) frame data transmitted from the receiver in response to the ring tone transmitted from the transmitter; Transmitting data of a corresponding length from a transmitting side to a receiving side following NSS (Digital Command of Subscriber) frame data according to whether the same model is determined; Receiving training data of a corresponding length depending on whether the received data is NSS frame data after checking and receiving DCS or NSS frame data transmitted from a transmitter; Checking an error of the data from the received training data and transmitting data corresponding to the result to the transmitting side; The transmission of the training data from the transmitting side and the transmission of the data corresponding to the checked result from the training data are repeatedly performed until no error of the data is detected at the receiving side. Fax transmission method comprising the step of transmitting a message to the side. The method of claim 1, The training data of the corresponding length is V.17 short training sequence + multiple φ Bits are arranged in successive TCF (Training Conformation) data, and if the models are different, the V.17 long training sequence + a plurality of φ A fax transmission method comprising bits consisting of TCF data arranged consecutively. The method of claim 2, The check of data error on the receiving side is performed by φ A method of fax transmission, comprising using TCF data arranged in succession of bits. The method according to any one of claims 1 to 3, wherein If the error of the data is checked, the receiving side transmits the FTT (Failure of Training) data to the transmitting side, if there is no error of the data transmission method characterized in that it transmits the CFR (Confirmation) data.