KR100387246B1 - Apparatus and Method for Voice Data Traffic Link Test in Gateway - Google Patents

Abstract

The present invention relates to an apparatus and method for testing voice data traffic link at a gateway, the gateway for testing the traffic link state between the gateway and the public telephone network or between the gateway and the digital network using tone signals, in particular, the encoding or decoding performance of the gateway. The present invention relates to a voice data traffic link test apparatus and method.

The present invention transmits packet data generated by decoding a tone signal or the tone signal at a gateway through a looping path between the gateway and the network, and encodes or decodes the tone signal or packet data that is looped back, and then reproduces the By analyzing the power ratio of the tone signal and the noise mixed therein, the signal-to-noise ratio is calculated, and the result is compared with a preset reference value and outputted as a result, thereby providing a voice data traffic link between the gateway and the network in voice data communication. It is possible to determine the state of, in particular the encoding and decoding performance of the gateway.

Description

Apparatus and Method for Voice Data Traffic Link Test in Gateway}

The present invention relates to an apparatus and method for testing voice data traffic link at a gateway, the gateway for testing the traffic link state between the gateway and the public telephone network or between the gateway and the digital network using tone signals, in particular, the encoding or decoding performance of the gateway. The present invention relates to a voice data traffic link test apparatus and method.

In general, a gateway that connects digital networks transmitting digital information checks a bit error rate (BER) to test a traffic channel. The BER refers to the probability that binary data of 1s and 0s are changed to wrong data on a communication line or a storage device. In data communication, the data received at the receiving end within a certain time period is higher than the data transmitted at the transmitting side. It is about to be wrong. For example, a communication line with a bit error rate of 10-4 is a line on which an error of about 10 bits occurs when transmitting 10,000 bits of data. The bit error rate of a communication line is not constant because it depends on the data signal rate and the length of the line, and most of these errors are caused by the influence of noise on the communication line.

In FIG. 1, the gateway 10 connecting the digital network A and the digital network B includes a BER calculation unit 12 and a memory unit 14 to perform a BER test on the traffic channel between the digital network A or the digital network B. ) And a pattern generator 16.

The pattern generator 16 generates a bit stream and transmits the bit stream to the digital network B, and simultaneously stores the bit stream in the memory unit 14, and the memory unit 14 stores the pattern generator ( 16 is a storage means for storing the generated bit stream, and the BER calculation unit 12 receives the bit stream looped back from the digital network B according to the bit stream transmission, and then the memory unit 14 The BER is calculated by comparing with the bit stream stored in.

2 shows a configuration of a BER test apparatus provided in the gateway 10 for performing voice data communication.

Unlike normal data communication, voice data communication is performed by the gateway 10. For example, the gateway 10 connecting the packet switched network and the public switched telephone network (PSTN) converts voice packet data received from the packet switched network into voice Pulse Code Modulation (PCM) data to perform voice data communication. The voice PCM data received from the PSTN is converted into packet data and transmitted to the packet switching network.

In this way, the gateway 10 which performs voice data communication has a decoding unit 10a for decoding and converting the voice packet data into voice PCM data, on the contrary, encoding the voice PCM data into voice packet data. An encoding unit 36 for converting is further provided. In general, the encoding or decoding in the gateway 10 is handled by a general purpose processor called a digital signal processor (DSP).

The operation of the BER test apparatus provided in the gateway 10 for voice data communication shown in FIG. 2 will be described.

First, the pattern generator 16 generates a bit stream for the BER test and transmits it to the encoding unit 10b, and stores the bit stream in the memory unit 14. The encoder 10b encodes the bit stream received from the pattern generator 16, converts the bit stream into PCM data, and transmits the bit stream to the PSTN. The decoder 10a decodes the PCM data looped back from the PSTN, reproduces the bit stream, and transmits the bit stream to the BER calculator 12. Accordingly, the BER calculator 12 compares and analyzes the bit stream stored in the memory 14 and the reproduced bit stream to calculate the BER.

However, in the voice data communication, when using the BER test to check the state of the traffic link, the bit stream generated by the pattern generator 16 loops through the encoder 10b or the decoder 10a. Therefore, the bit stream generated by the pattern generator 16 and the bit stream reproduced through the decoder 10a and transmitted to the BER calculator 12 cannot be the same. In particular, when the bit stream is a random sequence, since the encoding unit 10b and the decoding unit 10a recognize this as noise, the bit stream originally generated in the encoding or decoding conversion process remains as it is. There is no possibility of restoration. Therefore, even when traffic is normally transmitted without any error, the BER calculator 12 has no choice but to output a high value of BER. In voice data communication, it is very important that the transmission delay occurs during encoding or decoding. However, it is difficult to accurately measure the transmission delay by the BER test method.

As such, there is no credibility in the BER test results used as an indicator of communication quality in voice data communication. In addition, in performing a BER test in voice data communication, the BER test may be performed without passing the bit stream through the encoding unit 10b and the decoding unit 10a. No information is provided about the encoding and decoding performance of the gateway 10 which has a decisive impact on call quality.

For this reason, in the conventional voice data communication, the traffic link test method using the BER test is not adopted, and a system operator has been using a method of directly listening to the other party's voice heard through the terminal and evaluating the communication quality of the voice data communication.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and an object thereof is to provide packet data generated by decoding a tone signal or a tone signal at a gateway through a looping path between the gateway and a network, and then loop the tone back. After encoding or decoding the signal or packet data, it analyzes the power ratio of the reproduced tone signal and the noise mixed therein to calculate the signal-to-noise ratio, and compares it with a reference value already set and outputs the result. In communication, it is possible to grasp the state of the voice data traffic link between the gateway and the network, in particular, the encoding and decoding performance of the gateway.

1 is a block diagram showing a conventional BER test apparatus.

2 is a flowchart illustrating the operation of a conventional BER test apparatus.

3 is a block diagram showing a voice data traffic link test apparatus using a tone signal according to the present invention;

4 is a flowchart illustrating a method of testing a traffic link with a PSTN using a voice data traffic link test apparatus using a tone signal according to the present invention.

5 is a flowchart illustrating a method of testing a traffic link with a digital network using a voice data traffic link test apparatus according to the present invention.

6 is a flowchart illustrating a method for simultaneously testing a traffic link between a digital network and a PSTN using the voice data traffic link test apparatus according to the present invention.

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

300: gateway 30: decoding unit

32: test result calculator 34: tone signal generator

36: encoding unit

A feature of the present invention for achieving the above object is a tone signal generator for generating and transmitting a tone signal for performing a voice data traffic link test at the gateway; An encoding unit for encoding the tone signal to generate packet data; A decoding unit for decoding the packet data to reproduce a tone signal; And a test result calculator configured to receive the reproduced tone signal and analyze a power ratio of the reproduced tone signal and the noise mixed therein to calculate a test result. There is.

The present invention also provides a process for generating and transmitting a tone signal for a voice data traffic link test at a gateway; Generating packet data by encoding the tone signal; Reproducing the tone signal by decoding the packet data; Calculating a signal-to-noise ratio by analyzing the power ratio of the reproduced tone signal and the noise mixed therein; And providing a result of comparing the signal-to-noise ratio with a reference value that is already set and outputting a result thereof.

The generating and transmitting of the tone signal may include: transmitting the tone signal through a looping path between the gateway and the public telephone network when testing a traffic link between the gateway and the public telephone network; When testing the traffic link between the gateway and the digital network, characterized in that it comprises the step of transmitting to the tone signal direct encoding unit.

The generating and transmitting the packet data may include: generating packet data by encoding the looped tone signal returned when the traffic link between the gateway and the public telephone network is tested; In the case of testing the traffic link between the gateway and the digital network, encoding the tone signal to generate packet data and transmitting the same through a looping path between the gateway and the digital network.

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

In the voice data traffic link test apparatus according to the present invention, a tone signal generator 34, an encoder 36, a decoder 30, and a test result calculator 32 are shown in FIG. Is made of.

The tone signal generator 34 generates and transmits a tone signal which is an audible frequency signal of a voice frequency band (30 to 3000 Hz). Dual tone multi-frequency (DTMF), a signal generated when a button on a standard telephone is pressed and transmitted to a telephone company, can be used as the tone signal, and such DTMF encodes and decodes data in the gateway 300. This can be easily generated using a DSP.

The encoding unit 36 encodes the tone signal to generate packet data, and the decoding unit 30 decodes the packet data to reproduce the tone signal, and the test result calculator 32 stores the packet data. Receives and analyzes the reproduced tone signal by decoding and calculates the signal-to-noise ratio (S / N ratio) by comparing the reproduced tone signal with the power ratio of the mixed noise. It compares with the threshold value and prints out the result.

Using the voice data traffic link test apparatus configured as described above, the voice data traffic link between the gateway 300 and the PSTN or between the gateway 300 and the digital network may be respectively or simultaneously performed.

4 is a flowchart illustrating a method of testing a traffic link between the gateway 300 and the PSTN using the voice data traffic link test apparatus.

First, the tone signal generator 34 generates a tone signal for testing a traffic link between the gateway 300 and the PSTN and transmits the tone signal to the PSTN (S41). At this time, the tone signal generated by the tone signal generator 34 is transmitted to the PSTN through a looping path established between the gateway 300 and the PSTN, and then looped back to the gateway 300.

Subsequently, the encoder 36 receives the looped and returned tone signal, encodes the tone signal to generate packet data, and simultaneously transmits the generated packet data to the decoder 30 (S42). .

Accordingly, the decoding unit 30 receives the packet data transmitted by the encoding unit 36, decodes the packet data to reproduce the tone signal, and simultaneously transfers the reproduced tone signal to the test result calculation unit 32. Transmit (S43).

In addition, the test result calculator 32 receiving the tone signal from the decoding unit 30 analyzes the received tone signal (S44), and then compares the power ratio of the reproduced tone signal with the noise mixed therein to obtain S / The N ratio is calculated, and the result is compared with the reference value which is already set (S45).

A method of testing a traffic link between the gateway 300 and the digital network using the voice data traffic link test apparatus will be described with reference to FIG. 5.

First, the tone signal generator 34 generates a tone signal for testing a traffic link between the gateway 300 and the digital network and directly transmits the tone signal to the encoder 36 (S51).

After receiving the tone signal from the tone signal generator 34, the encoder 36 generates the packet data by encoding the tone signal and transmits it to the digital network (S52). In this case, the packet data generated and transmitted by the encoder 36 is transmitted to the digital network through a looping path established between the gateway 300 and the digital network, and then looped back to the gateway 300.

Thereafter, the decoding unit 30 receives the looped packet data and then decodes the packet data to reproduce the tone signal and simultaneously transmits the reproduced tone signal to the test result calculator 32 (S53). ).

Accordingly, the test result calculator 32 receiving the tone signal from the decoding unit 30 analyzes the received tone signal (S54), and then compares the power ratio of the reproduced tone signal with the noise mixed therein to obtain S /. The N ratio is calculated, and the result is compared with the reference value that is already set (S55).

A method of simultaneously testing a traffic link between the gateway 300 and the digital network and between the gateway 300 and the PSTN using the voice data traffic link test apparatus will be described with reference to FIG. 6.

First, the tone signal generator 34 generates a tone signal for testing a traffic link between the gateway 300 and the PSTN and transmits the tone signal to the PSTN (S61 and S62). At this time, the tone signal generated by the tone signal generator 34 is transmitted to the PSTN through a looping path established between the gateway 300 and the PSTN, and then looped back to the gateway 300.

Subsequently, the encoder 36 receives the looped and returned tone signal, encodes the tone signal to generate packet data, and simultaneously transmits the generated packet data to the digital network (S63 and S64). At this time, the packet data generated and transmitted by the encoder 36 is transmitted to the digital network through a looping path established between the gateway 300 and the digital network, and then looped back to the gateway 300.

Thereafter, the decoding unit 30 receives the looped packet data and then decodes the packet data to reproduce the tone signal and simultaneously transmits the reproduced tone signal to the test result calculator 32 (S65). ).

Accordingly, the test result calculator 32 receiving the tone signal from the decoding unit 30 analyzes the received tone signal (S66), and then compares the power ratio of the reproduced tone signal with the noise mixed therein to determine the S / The N ratio is calculated, and the result is compared with the reference value that is already set (S67).

Although the present invention has been described in detail only with respect to the above-described embodiments, it will be apparent to those skilled in the art that modifications or variations can be made within the spirit and scope of the present invention, and such modifications or changes are within the scope of the claims Will belong.

As described above, the present invention transmits packet data generated by decoding a tone signal or the tone signal in a gateway through a looping path between the gateway and a network, and encodes or decodes the tone signal or packet data that has been looped back. Then, the signal-to-noise ratio is calculated by analyzing the power ratio of the reproduced tone signal and the noise mixed therewith, and the result is compared with the preset reference value and the result is output. The state of the voice data traffic link, in particular the encoding and decoding performance of the gateway, can be determined.

Claims (8)

A tone signal generator for generating and transmitting a tone signal for performing a voice data traffic link test at the gateway; An encoding unit for encoding the tone signal to generate packet data; A decoding unit for decoding the packet data to reproduce a tone signal; And a test result calculator configured to receive the reproduced tone signal and analyze a power ratio of the reproduced tone signal and the noise mixed therewith to calculate a test result. The method of claim 1, And the tone signal is a DTMF generated by a digital signal processor provided in the gateway. The method of claim 1, When the tone signal generator tests the traffic link between the gateway and the public telephone network, the tone signal generator transmits the tone signal through a looping path between the gateway and the public telephone network to be input to the encoding unit, and between the gateway and the digital network. The apparatus of claim 1, wherein the tone signal is directly transmitted to the encoding unit when the traffic link is tested. The method of claim 1, When the traffic unit tests the traffic link between the gateway and the public telephone network, the encoding unit encodes the looped tone signal to generate packet data and simultaneously transmits the packet data directly to the decoding unit, and the traffic between the gateway and the digital network. In the case of testing the link, the tone signal received directly from the tone signal generator is encoded to generate packet data, and transmitted through the looping path between the gateway and the digital network to be input to the decoder. Device for testing voice data traffic links at a gateway. The method of claim 1, The test result calculator calculates a signal-to-noise ratio by analyzing the power ratio of the reproduced tone signal and the noise mixed therein, and compares it with a reference value that is already set to output the result. Link test device. Generating and transmitting a tone signal for a voice data traffic link test at the gateway; Generating packet data by encoding the tone signal; Reproducing the tone signal by decoding the packet data; Calculating a signal-to-noise ratio by analyzing the power ratio of the reproduced tone signal and the noise mixed therein; And comparing the signal-to-noise ratio with a preset reference value and outputting the result. The method of claim 6, The process of generating and transmitting the tone signal, When testing a traffic link between the gateway and the public telephone network, transmitting the tone signal through a looping path between the gateway and the public telephone network; And when the traffic link between the gateway and the digital network is tested, transmitting the tone signal directly to the encoding unit. The method of claim 6, The process of generating and transmitting the packet data, When testing a traffic link between the gateway and a public telephone network, encoding the looped returned tone signal to generate packet data; When testing the traffic link between the gateway and the digital network, encoding the tone signal to generate packet data and transmitting the same through a looping path between the gateway and the digital network. Voice data traffic link test method.