KR100269592B1 - The method of remote synchronization of voice quality measurement device in mobile telecommunication environment - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a method for remotely synchronizing a sound quality measuring apparatus of a mobile communication system.

2. The technical problem to be solved by the invention

The present invention provides a method for remotely synchronizing a sound quality measuring apparatus of a mobile communication system by transmitting a specific dual tone multi-frequency signal to a called party at a predetermined interval at a calling party, and transmitting a plurality of dual tone multi-frequency signals at a predetermined period as a response signal at a called party. To provide a way.

3. Summary of the Solution of the Invention

The present invention includes a first step of transmitting a dual tone multi-frequency signal to a receiving side device; Determining whether a response dual tone multi-frequency signal has been received; A third step of repeating the step of transmitting the dual tone multi-frequency signal of the first step to the receiving device if the call is not received, and waiting for reception of the response double tone multi-frequency signal if the call is received; And obtaining a time for receiving the response double tone multi-frequency signal, and then releasing the call at the obtained time to synchronize synchronization.

4. Important uses of the invention

The present invention is used for the synchronization of the sound quality measurement device of the mobile communication system.

Description

Remote synchronization method of sound quality measurement device of mobile communication system

The present invention relates to a method for remotely synchronizing a sound quality measuring apparatus of a mobile communication system for remote synchronizing a sound quality measuring apparatus of a mobile communication system.

In wireless communication, most voice signals transmitted over mobile voice channels are distorted by channel noise and background noise. To reduce distortion and improve sound quality, sound quality measurement must be preceded.

Referring to Figure 1 looks at the configuration of the sound quality measurement apparatus of a general mobile communication system.

1 is a block diagram of an apparatus for measuring sound quality of a general mobile communication system.

In order to measure sound quality in a mobile communication network having a Public Switched Telecommunication Network (PSTN) 105, a Mobile Switching Center (MSC) 104, and a base station 103, various places in a serviceable area are conventionally used. Hear the voice repeatedly. However, subjective evaluation by repeated listening has a disadvantage in that it is almost impossible to use practically because the accuracy is very low even though a lot of manpower and cost are consumed. Therefore, there is an urgent need for the development of a mobile phone sound quality measurement method capable of estimating sound quality using an objective sound quality scale of voice under various noise and channel damage environments.

In the sound quality measurement device that measures not only the call quality but also the sound quality of the mobile communication system, the mobile station equipment 101 and the stationary equipment 102 must be synchronized to measure the sound quality of each other when calling. do. By the way, the conventional synchronization method is to transmit a specific voice in advance to recognize it and to measure the sound quality after a few seconds, but this method is not only very poor accuracy, the specific voice is not properly recognized There was a problem of malfunction.

Therefore, the present invention devised to solve the problems described above, the transmitting side transmits a specific dual tone multi-frequency signal to the called party at regular intervals, and the receiving side transmits a plurality of dual-tone multi-frequency signals as a response signal at regular intervals. The purpose of the present invention is to provide a method for remotely synchronizing a sound quality measuring apparatus for remote synchronizing a sound quality measuring apparatus of a mobile communication system.

1 is a block diagram of an apparatus for measuring sound quality of a general mobile communication system.

2A is an exemplary configuration diagram of a mobile station sound quality measuring apparatus to which the present invention is applied.

2B is an exemplary configuration diagram of a fixed station sound quality measurement apparatus to which the present invention is applied.

3 is a detailed view of the sound quality measurement unit of FIGS. 2A and 2B.

4 is a message flowchart of a method for remotely synchronizing a sound quality measuring apparatus of a mobile communication system according to an embodiment of the present invention;

* Explanation of symbols for the main parts of the drawings

301: digital signal processor 302, 303, 308, 309: memory

304: digital to analog converter 305: analog to digital converter

306: speech recognizer 307: codec

310: Tone Detector

In accordance with another aspect of the present invention, there is provided a method for remotely synchronizing a sound quality measurement apparatus, the method comprising: setting a call to transmit a dual tone multi-frequency signal to a receiving device; Determining whether a response dual tone multi-frequency signal has been received; As a result of the determination of the second step, if the call is not received, the process is repeated from the step of transmitting the dual tone multi-frequency signal of the first step to the receiving device, and if the call is received, the response double tone multi-frequency signal A third step of waiting for reception of the; And a fourth step of receiving a response double tone multi-frequency signal, obtaining a time to receive the last response double tone multi-frequency signal among the signals to be received, and then releasing the call at the obtained time to synchronize synchronization. do.

In addition, another method of the present invention is a remote synchronization method applied to a sound quality measuring apparatus, comprising: a first step of establishing a call and receiving a dual tone multi-frequency signal transmitted from an originating apparatus; A second step of generating a response double tone multi-frequency signal and transmitting it to the calling device; And a third step of releasing the call to synchronize synchronization after transmitting the response double tone multi-frequency signal.

On the other hand, another method of the present invention, a remote synchronization method applied to the sound quality measuring apparatus, comprising: a first step of transmitting a dual tone multi-frequency signal to the receiving device by setting up a call; Establishing a call to receive a dual tone multi-frequency signal transmitted from the originating apparatus; A third step of generating a response double tone multi-frequency signal and transmitting it to the calling device; A fourth step of determining whether a calling dual tone multi-frequency signal has been received by the calling device; As a result of the determination in the fourth step, if the call is not received, repeating the step of transmitting the dual tone multi-frequency signal of the first step to the receiving device, and if the call is received, the response double tone multi-frequency signal A fifth step of waiting for reception of the; A sixth step of releasing the call to synchronize synchronization after transmitting the response double tone multi-frequency signal from the receiving device; And a seventh step of receiving a response double tone multi-frequency signal at the calling device, finding a time to receive the last response double tone multi-frequency signal among the signals to be received, and then releasing the call at the obtained time to synchronize synchronization. Characterized in that made.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to FIGS. 2A to 4.

FIG. 2A is an exemplary configuration diagram of a mobile station side sound quality measurement apparatus to which the present invention is applied, and FIG. 2B is a schematic diagram of a stationary sound quality measurement apparatus to which the present invention is applied.

The sound quality measurement apparatus of the mobile communication system includes a power controller 201, 211, main controllers 203, 213, sound quality measurement units 204, 214, terminal interface units 208, 217, and remote processing units 209, 218. It is provided in common.

The sound quality measuring apparatus of the mobile station side mobile communication system further includes a terminal 206 and a global positioning system (GPS) 207, and the sound quality measuring apparatus of the fixed station side mobile communication system includes a modem (instead of the terminal 206). 216).

The power controllers 201 and 211 are used to control the power of the equipment, and the main controllers 203 and 213 are in charge of the overall control of the sound quality measurement apparatus. The sound quality measuring units 204 and 214 perform voice synchronization, sound quality measurement, and sound quality evaluation. The terminal 206 represents a mobile telephone terminal and transmits protocol data received during the call to the main control unit 203 and transmits the received voice to the sound quality measurement unit 204. The global positioning unit 207 is used for time synchronization between the mobile station sound quality measuring apparatus 101 and the fixed station sound quality measuring apparatus 102.

The original voice is input to the memories 205 and 215, and the input voice is transmitted to the other party through the channel via the terminal 206 or the modem 216, respectively. At this time, the distorted voice transmitted through the channel is input to the sound quality measuring units 204 and 214 for sound quality evaluation.

3 is a detailed view of the sound quality measurement unit of FIGS. 2A and 2B.

The sound quality measuring unit 204, 214 includes a digital signal processor 301, memories 302, 303, 308, and 309, a digital-to-analog converter 304, an analog-to-digital converter 305, a voice recognizer 306, and a codec. 307 and tone detector 310.

Digital signal processor 301 is used for sound quality measurement, and speech recognizer 306 is used to study the association between sound quality measurement and speech recognition. Digital-to-analog converter 304 and analog-to-digital converter 305 perform speech encoding.

The digital signal processor 301 evaluates the objective sound quality by obtaining a difference between the original voice and the received voice after performing waveform synchronization of the original voice and the distorted voice. From the objective sound quality scale calculated in this way, the subjective prediction function is used to predict the MOS (Mean Opinion Score). At this time, the objective sound quality scale and the subjective sound quality scale have high correlation with each other so that the sound quality measurement equipment can be trusted.

In addition, the digital signal processor 301 reads a specific dual tone multi-frequency signal stored in the ROM 302 and outputs it to the communication path through the digital-to-analog converter 304.

The tone detector 310 detects a dual tone multi-frequency signal from a signal input through a communication path and outputs it to an analog / digital converter 305, and the analog / digital converter 305 converts the input signal into a digital signal. Output to the digital signal processor 301.

The digital signal processor 301 receives a digitally converted dual tone multi-frequency signal to perform remote synchronization.

4 is a message flowchart of a method for remotely synchronizing a sound quality measurement apparatus of a mobile communication system according to an embodiment of the present invention.

As shown in the figure, the message flow of the sound quality measurement device remote synchronization method of the mobile communication system according to an embodiment of the present invention, when the call signal is first transmitted from the calling device to the receiving device (401), the receiving side The device sends a call response signal from the device to the calling device (402) to establish a call.

Subsequently, the calling digital signal processor reads the dual tone multi-frequency signal F ₁ stored in the ROM and transmits it to the receiving device (403).

In this case, since the vocoders of the mobile communication system do not pass the dual tone multi-frequency signal correctly, a reception error may occur in the receiving device.

As such, a reception error occurs at the receiving device, and the calling device does not receive the response double tone multi-frequency signal from the receiving device. As a result, the calling device repeatedly repeats the double tone after a predetermined time D ₁ . The frequency signal F ₁ is transmitted (404).

When the receiving side device receives the dual tone multi-frequency signal, the receiving double tone multi-frequency signal F ₁₁ is transmitted to the calling side device (405), and after a predetermined delay time D ₂ , the response double tone is sequentially determined. Transmit a frequency signal (differential multi-frequency signals F ₁₁ to F _1n ) (407, 408, 409). That is, when the receiving side receives the dual tone multi-frequency signal from the calling party, it continues after a certain time and then sends out the calling device and the predetermined signal sequentially.

At this time, since the vocoder of the mobile communication system does not pass the dual tone multi-frequency signal correctly, a reception error may occur at the calling device, and as a result, if the calling device does not receive the response dual tone multi-frequency signal, after the last _1, and it transmits a dual tone multi-frequency signals F ₁ (406).

When the calling device receives the response double tone multi-frequency signal transmitted from the receiving device (407), it analyzes the received response double tone multi-frequency signal and transmits the received response double tone multi-frequency signal for a few times. After determining whether it is a promised signal, the reception time of the last response double tone multi-frequency signal is obtained, and the calling party releases the call at the time of receiving the last response double tone multi-frequency signal, and synchronizes. After transmitting the multi-frequency signal, release the call to synchronize.

Subsequently, when synchronization is complete, measure the sound quality according to the test plan for measuring the sound quality. Table 1 below shows an example of the test plan.

In Table 1, the MML indicates a procedure of sending twice from the mobile station-side sound quality measuring apparatus and transmitting once from the station-side sound quality measuring apparatus.

And, the call processing period means the time until the calling party releases the call by attempting one call and attempts the next call, and includes a rest period.

The idle period is the time until the next call occurs after the call is released, which corresponds to the cleanup time of both sides after the call is released.

The called party's phone number joins the other party's phone number.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

The present invention as described above, since it is possible to grasp a more accurate voice reception time between the mobile station and the fixed station side of the sound quality measurement apparatus of the mobile communication system, it has the effect of improving the communication quality by increasing the reliability and accuracy of the sound quality measurement.

Claims (3)

In the remote synchronization method applied to the sound quality measurement device, A first step of establishing a call and transmitting a dual tone multi-frequency signal to a receiving side device; Determining whether a response dual tone multi-frequency signal has been received; As a result of the determination of the second step, if the call is not received, the process is repeated from the step of transmitting the dual tone multi-frequency signal of the first step to the receiving device, and if the call is received, the response double tone multi-frequency signal A third step of waiting for reception of the; And A fourth step of receiving a response double tone multi-frequency signal, obtaining a time to receive the last response double tone multi-frequency signal among the signals to be received, and then releasing the call at the obtained time to synchronize synchronization Remote synchronization method of the device. In the remote synchronization method applied to the sound quality measurement device, Establishing a call to receive a dual tone multi-frequency signal sent from the originating apparatus; A second step of generating a response double tone multi-frequency signal and transmitting it to the calling device; And And a third step of releasing the call to synchronize synchronization after transmitting the response double tone multi-frequency signal. In the remote synchronization method applied to the sound quality measurement device, A first step of establishing a call and transmitting a dual tone multi-frequency signal to a receiving side device; Establishing a call to receive a dual tone multi-frequency signal transmitted from the originating apparatus; A third step of generating a response double tone multi-frequency signal and transmitting it to the calling device; A fourth step of determining whether a calling dual tone multi-frequency signal has been received by the calling device; As a result of the determination in the fourth step, if the call is not received, repeating the step of transmitting the dual tone multi-frequency signal of the first step to the receiving device, and if the call is received, the response double tone multi-frequency signal A fifth step of waiting for reception of the; A sixth step of releasing the call to synchronize synchronization after transmitting the response double tone multi-frequency signal from the receiving device; And And a seventh step of receiving a response double tone multi-frequency signal at the calling device, finding a time to receive the last response double tone multi-frequency signal among the signals to be received, and then releasing the call at the obtained time to synchronize synchronization. Remote synchronization method of sound quality measurement device.