KR19980074239A - Fax signal detection method for voice / fax common equipment - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for detecting fax signals in voice and fax machines, and more particularly to a method for accurately detecting a paxton without being affected by noise.

In the method of detecting a fax signal of a voice / fax common device according to the present invention, the time interval between the facsimile received from the air transmission is counted, and the authenticity of the previous faxton is determined according to the value of the counted time interval.

As a result, the method for detecting a fax signal of the voice / fax common device according to the present invention can accurately detect a fax signal without being influenced by noise, and also allow the switching from the voice mode to the fax mode to be performed accurately.

Description

Fax signal detection method for voice / fax common equipment

1 shows a normal Paxton.

2 is a diagram illustrating a noisy paxton.

3 is a block diagram schematically showing the configuration of a conventional telephone / fax common apparatus.

4 is a view showing a paxton applied to an embodiment of the present invention.

5 is a flowchart illustrating a fax signal detection method of a voice / fax common device according to an embodiment of the present invention.

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

10: data terminal device 20: data line terminal device

30: public transmission line

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for detecting fax signals in voice and fax machines, and more particularly to a method for accurately detecting a paxton without being affected by noise.

In general, a telephone converts a voice signal into an electrical signal and transmits the voice signal to a counterpart user via a public transmission path, and also converts an electrical signal from the public transmission path into a voice signal to enable voice communication between telephone subscribers. In addition, facsimile converts image information such as photographs, pictures, and text into electric signals, transmits them through an air transmission path, and enables image communication by restoring the electric signals from the air transmission path. The facsimile is available now with the addition of a telephone feature. In addition, the telephone function and the facsimile function may be mounted in a single demodulator and added to a data processing device such as a personal computer. A telephone / fax common device equipped with both a telephone function and a fax function automatically switches from a voice mode that enables voice calls to the other party subscriber to a fax mode to receive image information from the other party subscriber. This mode switching is determined by the reception of a fax signal having a certain frequency (for example, 1100 Hz). This fax signal should be generated only when the other party wants to transmit image information. However, the fax signal may be generated by noise during a voice call. That is, the fax signal may be generated normally and generated by noise. This normal paxton is generated at constant time intervals (e.g., 4 sec) as shown in FIG. 1, while the noisy paxstone is generated at non-uniform time intervals (e.g., 0.7 sec and 12 sec) as shown in FIG. Is generated. For example, the noise paxton is generated by low frequency oscillation such as a howling phenomenon because the output of the speaker is returned to the microphone during a voice call using the speaker and the microphone. Due to this noise paxton, the conventional fax signal detection method of the voice / fax common apparatus incorrectly switched the voice mode to the fax mode even though the counterpart subscriber did not require the fax mode for the transmission of the image information. This is due to the conventional method of detecting a fax signal of a voice / fax common device by simply switching from the voice mode to the fax mode based on the number of times of reception of the paxton. As a result, the conventional method for detecting a fax signal of a voice / fax common device has resulted in a decrease in the reliability of the voice / fax common device. This drawback will be described in detail with reference to FIGS. 1 to 3.

Referring to FIG. 3, there is shown a voice / fax common apparatus having a Data Circuit Terminal Equipment (20) for matching a Data Terminal Equipment (10) with a public transmission path (30). It is. The data terminal device 10 includes a memory, a central processing unit, and the like to perform data processing and perform data communication via a public transmission path. The data line terminal device 20 modulates the data from the data terminal device 10 into an analog type high frequency signal and transmits the data line terminal 30 to the air transmission path 30. The data line terminal device 20 transmits data from the high frequency signal received from the air transmission path 30. The demodulated data is transmitted to the data terminal device 10. In addition, the data line terminal device 20 transmits a transmission control extended character (Data Link Escape-Character; DLEC) having a constant logical value according to the reception of Paxton, which is a kind of analog transmission control signal from the public transmission line 30. And the data is transmitted to the data terminal device 10. For example, when a factone is received at intervals of 4 sec as shown in FIG. 1A, the data line terminal 20 receives the DLEC for the facsimile every 4 sec as shown in FIG. 1B. To feed. On the contrary, as shown in FIG. 2A, the data line terminal device 20 has an interval of 0.7 sec in the case where four facsitons are continuously received from the air channel 30 at intervals of 0.7 sec and 12 sec. As a result, DLEC is generated in one paxton having a 12sec interval with DLEC for three paxtons. Then, the data terminal device 10 counts the number of DLECs for the facsimile from the data line terminal device 20 and switches the data line terminal device 20 from the voice mode to the fax mode when a certain number is reached.

As described above, the fax signal detection method used in the conventional voice / fax common apparatus switches the voice mode to the fax mode simply by the number of reception of the faxton regardless of the authenticity of the facsimile. For this reason, the conventional mode switching method of the voice / fax common apparatus incorrectly switches the data line terminal device from the voice mode to the fax mode when the opposite telephone subscriber does not request the fax mode for image transmission. The credibility of the was dropped.

Accordingly, an object of the present invention is to provide a fax signal detection method of a voice / fax common apparatus capable of accurately detecting a fax signal received from an air transmission path.

Another object of the present invention is to provide a method for detecting a fax signal of a voice / fax common apparatus which can accurately switch from a voice mode for a voice call to a fax mode for reception of image information.

In order to achieve the above object, the method for detecting a fax signal of a voice / fax common device according to the present invention comprises the steps of counting the time interval between the facsimile received from the air transmission, and whether or not the authenticity of the previous paxton in accordance with the value of the time interval Determining the step.

In the method of detecting a fax signal of a voice / fax common device according to the present invention, the method comprises the steps of counting the time interval between the facsimile received from the air transmission in the voice call mode, and determining the authenticity of the previous facsimile based on the value of the time interval. And counting a successive number of authentic fauxstones, and switching the voice mode to a fax mode when the successive number of facstones reaches a threshold number.

Other objects and advantages of the present invention in addition to the above objects will become more apparent from the detailed description of the embodiments of the present invention with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 4 to 5.

4 illustrates a paxton applied to an embodiment of the present invention.

The signal shown in Fig. 4 in Fig. 4 is applied as an input to the data line terminal apparatus 20 equipped with a modem via the public transmission path. This signal is converted into a digital control signal and applied to the data terminal device 10 as a? Signal in FIG. In the voice mode, the A signal is input via the public transmission line 30. At this time, the CPU of the data terminal device 20 loads the telephone / fax program and performs logical processing on this signal. The data terminal apparatus suspends recognition of the first input A signal as a paxstone and waits for input of the next signal. Subsequently, the B signal is input and the time signal with the first signal is 1 (sec) and the signal A is recognized as a noise signal and ignored. Since the time interval between the next input C signal and B signal is 1.5 (sec), the B signal is also recognized as a noise signal and ignored. Subsequently, the time interval between the D signal and the C signal is compared to show the authentic paxton signal interval of 4 (sec). Therefore, the C signal is recognized as a paxstone and the effective number of paxtons is one. Subsequently, the time interval between the input E signal and the previous signal D is 8 (sec), and the C and D signals are ignored by the E signal. Since the F signal is input and the time interval between the F signal and the E signal is 4 (sec), the E signal is recognized as a paxton, and the effective number of paxtons becomes 1 again. The time interval between the input G signal and the F signal is 4 (sec), and the F signal and the G signal are also recognized as Paxtons, and the effective number of Paxtons is added by 2 by the F signal and by 3 by the G signal. Satisfies and recognizes it as a fax signal from the time of G signal. The effective paxton number n can be arbitrarily set to the number of consecutive paxtons having a time interval of 4 (sec).

5 is a flowchart illustrating a step-by-step method of detecting a voice / fax signal according to an embodiment of the present invention and is performed by the data terminal apparatus 10 shown in FIG.

During the call in the voice mode for transmitting voice data including voice information via the public transmission path 30 (step 10), a signal having a frequency of 1100 Hz to the data line terminal device 20 via the public transmission path. Is input. The data terminal device 10 connected to the data line terminal device 20 determines whether the first signal of the signal is a paxton (step 12). If the first signal is determined to be a paxton, the number of effective paxtons is counted. The count counter is set to 1 and the time counter for counting the time interval between the faxton signals is set to 0 (step 14). If the first input signal in step 12 is not a Paxstone having a frequency of 1100 Hz, the first signal is ignored and the current voice transmission mode is maintained. Next, the next signal generated is detected to determine whether it is a paxton (step 16). When the first signal is recognized as Paxton in step 12 and when the subsequent signal is recognized as Paxton, it is determined whether the time interval between the first signal and the next signal is 4 (sec) by the accumulated value by the time counter (Step 18). ). If it is recognized in step 16 that the next signal is not a paxton, the time counter is added and the step 16 is repeated to measure the time interval between signals with the next input signal (step 20). In step 18, if the time interval between the signal of the first signal and the next signal is recognized as the signal time interval 4 (sec0) of the authentic paxton signal, the first signal is determined to be a valid paxton and the count counter adds 1 ( Step 22) In order to measure the time interval between signals with the input signal, the time counter is reset to 0. (Step 24) In step 18, the time interval between the first signal and the next signal is If it is not 4 (sec), the first signal is recognized as a signal due to noise and the first signal is ignored and the count counter is set back to 1. (Step 26) The process of steps 24 to 26 is performed. After completion, it is determined whether the number of consecutive effective faxstones n having a frequency of 1100 Hz and a time interval of 4 (sec) is satisfied (step 28). Count If the cumulative value of the immer does not satisfy the continuous effective number of effective number n, the process of steps 16 to 28 is repeated for the next input signal. It is the process of detecting the first paxton, and in steps 16 to 20, it is determined whether the paxton is the next signal, and if it is the paxton, the time interval with the previous signal is compared, and if it is not paxton, the paxton is received. Steps 22 to 24 calculate the counter according to the result of comparing the time intervals of the two paxtons, and do steps 28 to 30 satisfy the number n or more consecutive effective faxtons to date? According to whether or not the current input signal is determined as a fax signal, if the continuous number of faxes n or more is not satisfied, the next signal input is received.

After determining the continuous faxstone with respect to the signal applied to the input of the data terminal device 10 through the process up to the thirtieth step, if it is determined to be a fax signal, it is switched to the fax mode and data transmission / reception including image information is performed. Otherwise, the voice transmission mode is maintained to transmit / receive data including voice information.

As described above, the method for detecting a fax signal of the voice / fax common device according to the present invention can accurately distinguish whether the previous paxton is a noise component or an authentic paxton by the time interval between the paxtons. In addition, the method for detecting a fax signal of a voice / fax common apparatus according to the present invention can accurately switch between a voice mode and a fax transmission mode by detecting the number of consecutive effective paxtons and further improve the reliability of the voice / fax common apparatus. You can.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the detailed description of the specification but should be defined by the claims.

Claims (5)

In voice / fax common equipment, Counting the time interval between facsimile received from the air transmission; And determining the authenticity of the previous paxton according to the value of the time interval. The method of claim 1, And determining the authenticity of the previous facsimile is to compare the counted time interval with a threshold time. The method of claim 2, The step of determining the authenticity of the previous paxstone, the fax signal detection method, characterized in that the previous paxton is regarded as the authentic paxton only when the counted time interval is equal to the threshold time. In voice / fax common equipment, Counting the time interval between facsimile received from the air transmission in the voice call mode, Determining the authenticity of the previous paxton according to the value of the time interval; Counting a continuous number of authentic faux stones, And switching the voice mode to the fax mode when the successive number of faxstones reaches a threshold number. The method of claim 4, wherein Determining the authenticity of the previous Paxton is compared with the counted time interval, the threshold time, The counting step of the facsimile is a counting of the number of facsitons when the time interval and the threshold time are the same, and when the time interval and the threshold time is different, the facsimile signal detection, characterized in that for setting the initial number Way.