KR20080052362A - Apparatus and method for analyzing performance of a modem, and method for examinating function of the apparatus - Google Patents

Abstract

An apparatus and a method for analyzing performance of a modem, and a method for examining functions of the apparatus are provided to check up the performance of the modem and diagnose own functions by uploading and downloading modulated/demodulated signals and coded/encoded signals to analyze the signals. An incoming signal connector(300) receives modulated/demodulated signals and coded/decoded signals from a modem. An outgoing signal connector(400) transmits a standard signal generated from a host to the modem, so as to compare the performance of modems. A modem analysis processing unit(500) outputs the standard signal to the outgoing signal connector, and outputs modulated/demodulated signals or coded/decoded signals to the host. The host compares the modulated/demodulated signals or coded/decoded signals to the standard signal.

Description

Apparatus and method for analyzing performance of a modem, and method for examinating function of the apparatus}

The present invention is a modem analysis device which is proposed for the purpose of developing a repeater of a wireless portable Internet system, and outputs from a channel codec by using a MAT front-end at a connection between a channel codec and a modem for bidirectional baseband performance analysis. It is a device capable of signal analysis in both directions that can receive the signal and at the same time can apply the signal output from the MAT to the modem.

The present invention was derived as a study performed as a part of the IT new growth engine core technology development project of the Ministry of Information and Communication and the Ministry of Information and Telecommunication Research and Development. Communication system development]

Conventional modem performance analysis device, or MAT (Modem Analysis Tool), uses a method of receiving and analyzing a modulated signal of a modem from a MAT or generating a modulated signal for data given a MAT and applying it to an input of a demodulator. . The modem includes a modulation function and a demodulation function. The modulation functions used in the wireless mobile Internet are largely QAM mapping and IFFT, and the demodulation function requires synchronization signal acquisition, FFT, and de-mapping. Therefore, MAT includes the same function, and does not include synchronous acquisition and receives a signal from a modem and uses it as a reference signal. At this time, it can be connected between the MAT and the modem as an analog signal through the AD converter, and is connected as a signal before AD conversion as a base band signal.

However, according to the conventional modem analysis apparatus, only the performance of the modulation or demodulation of the modem is analyzed, and the performance of the coding or decoding process of the signal on the modem cannot be analyzed. There was a limit to analyzing performance.

The technical problem to be achieved by the present invention is a bidirectional baseband modem performance analysis device composed of MAT main and MAT front-end, the signal output from the channel codec using the MAT front-end to the connection portion between the channel codec and the modem The present invention relates to a modem analysis apparatus and method capable of receiving a signal in both directions capable of receiving a signal output from the MAT and simultaneously applying the signal to a modem, and a method for investigating the function of such a modem analysis apparatus.

In order to achieve the above object, the modem performance analysis apparatus according to the present invention includes a reception signal connection unit for receiving a modulation / demodulation signal or a coding / decoding signal of the modem; A transmission signal connection unit for transmitting a reference signal generated by the host to the modem for performance comparison of the modem; And a modem analysis processing unit for outputting the reference signal to the transmission signal connection unit, and outputting the modulation / demodulation signal or the coding / decoding signal received from the reception signal connection unit to the host. The modulation / demodulation signal or the coding / decoding signal received from the processor may be compared with the reference signal.

Preferably, the reception signal connection unit, the first interface unit for the interface with the modem; A second interface unit in charge of an interface with the modem analysis processing unit; And controlling the reception of the modulation / demodulation signal or the coding / decoding signal from the modem through the first interface unit, and transmitting the received modulation / demodulation signal or the coding / decoding signal to the modem through the second interface unit. And a reception signal controller for controlling the output to the analysis processor.

Preferably, the first interface unit is connected to an input / output interface unit of the modem that interfaces the output of the modulation / demodulation signal and the coding / decoding signal and interfaces the input of the reference signal. do.

Preferably, the transmission signal connection unit, the third interface unit for performing an interface with the modem analysis processing unit; A fourth interface unit in charge of interfacing with the modem; And a transmission signal control unit controlling the reception of the reference signal from the modem analysis processing unit through the third interface unit, and outputting the received reference signal to the modem through the fourth interface unit. do.

Preferably, the fourth interface unit is connected to an input / output interface unit of the modem that interfaces the output of the modulation / demodulation signal and the coding / decoding signal and interfaces the input of the reference signal. do.

Preferably, the modem analysis processing unit comprises: a fifth interface unit for interfacing the reception of the modulation / demodulation signal or the coding / decoding signal from the reception signal connection unit and the transmission of the reference signal to the transmission signal connection unit; A sixth interface unit for interfacing reception of the reference signal from the host and interfacing transmission of the modulation / demodulation signal or the coding / decoding signal to the host; A first memory unit configured to store reception of the modulation / demodulation signal or the coding / decoding signal received from the fifth interface unit; A second memory unit which stores the reference signal received from the sixth interface unit; And a main control unit controlling to output the modulation / demodulation signal or the coding / decoding signal stored in the first memory unit to the host, and outputting the reference signal stored in the second memory to the transmission signal connection unit. It is characterized by including.

In order to achieve the above another object, the modem performance analysis method according to the present invention, receiving a modulated signal and a coded signal of the modem; And comparing the reference signal generated by the host with the received modulated signal and the coded signal for performance comparison of the modem, and outputting a performance analysis result of the modem.

In order to achieve the above object, another example of the modem performance analysis method according to the present invention, the step of outputting the reference signal generated in the host to the modem for performance comparison of the modem; Receiving a demodulated signal and a decoded signal corresponding to the reference signal from the modem; And comparing the received demodulated signal and the decoded signal with the reference signal, and outputting a performance analysis result of the modem.

In order to achieve the above another object, the function test method of the modem performance analysis apparatus according to the present invention, the step of outputting the reference signal generated in the host for the function test of the modem performance analysis device to the modem; Receiving an analog-to-digital conversion signal for the reference signal from the modem; And comparing the received analog / digital converted signal with the reference signal to test a function of a modem performance analysis device.

Modem performance analysis apparatus and method, and the function test method of the modem performance analysis apparatus according to the present invention is easy to grasp the modem performance by uploading and downloading the signal modulated / demodulated and coded / decoded in the modem, In addition, the function of the modem performance analyzer itself can be inspected to increase the reliability of modem performance analysis.

Hereinafter, a modem performance analysis apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall system configuration diagram for explaining a modem analysis apparatus according to the present invention. As shown in FIG. 1, the overall system configuration diagram includes a host 10, a modem analysis processing unit 20, a transmission signal processing unit (TX) 30, a reception signal processing unit (RX) 40, and a modem 50. It is composed.

FIG. 2 is a block diagram illustrating in detail the entire system configuration shown in FIG. 1.

The first modem 100 is responsible for coding and modulating the input signal. To this end, the first modem 100 includes a coding unit 110, a modulation unit 120, and a first input / output interface unit 130.

The coding unit 110 encodes the input signal and outputs the encoded signal to the modulator 120. In particular, the coding unit 110 according to the present invention outputs the encoded signal to the modulation unit 120, and also to the first input / output interface unit 130.

The modulator 110 modulates the signal coded by the coding unit 110 and outputs the modulated signal to the first input / output interface unit 130.

The first input / output interface unit 130 outputs the signal modulated by the modulator 120 to the first modem 200. In particular, the first input / output interface unit 130 according to the present invention outputs the modulated signal to the second modem 200 and also to the reception signal connection unit 300. In addition, the first input / output interface unit 130 receives the coded signal from the coding unit 110 and outputs the received signal to the receiving signal connection unit 300.

The second modem 200 demodulates and decodes a signal received from the first modem 100. To this end, the second modem 200 includes a demodulator 210, a decoder 220, and a second input / output interface 230.

The demodulator 210 demodulates the signal modulated by the modulator 120, and outputs the demodulated signal to the decoder 220. Meanwhile, the demodulator 210 according to the present invention receives and demodulates a reference signal generated by the host 600, and outputs the demodulated signal to the second input / output interface 230.

The decoding unit 220 decodes the demodulated signal and outputs the decoded signal to the second input / output interface unit 230. Meanwhile, the decoder 210 according to the present invention receives and decodes a reference signal generated by the host 600, and outputs the decoded signal to the second input / output interface 230.

The second input / output interface 230 receives a coded and modulated signal from the first modem 100 and outputs the signal to the demodulator 210. Meanwhile, the second input / output interface unit 230 receives the reference signal generated by the host 600 through the transmission signal connection unit 400 and outputs the reference signal to the demodulator 210 and the decoder 220. In addition, the second input / output interface unit 230 receives the demodulated signal from the demodulator 210 and outputs the demodulated signal to the reception signal connection unit 300. In addition, the second input / output interface unit 230 receives the decoded signal from the decoding unit 220 and outputs the decoded signal to the reception signal connection unit 300.

The reception signal connection unit 300 receives a modulated signal or a coded signal from the first modem 100, and outputs the received signal to the modem analysis processing unit 500. In addition, the reception signal connection unit 300 receives a demodulated signal or a decoded signal from the second modem 200, and outputs the received signal to the modem analysis processing unit 500. To this end, the reception signal connection unit 300 includes a first interface unit 310, a reception signal control unit 320, and a second interface unit 330.

The first interface unit 310 is responsible for an interface for exchanging signals with the first modem 100 and the second modem 200. In particular, the first interface unit 310 is connected to the second input / output interface unit 230 of the second modem 200 to receive the reference signal demodulated or decoded by the second modem 200. It is characterized by.

The reception signal controller 320 controls reception of a modulation / demodulation signal or a coding / decoding signal from the first modem 100 or the second modem 200 through the first interface unit 310, and receives the received modulation / The demodulation signal or the coding / decoding signal is controlled to be output to the modem analysis processing unit 500 through the second interface unit 330.

The second interface unit 330 is in charge of interfacing with the modem analysis processing unit 500. Accordingly, the second interface unit 330 outputs the received modulation / demodulation signal or coding / decoding signal to the modem analysis processing unit 500. In particular, the second interface unit 330 receives the demodulated and decoded reference signals and outputs them to the modem analysis processor 500.

The transmission signal connection unit 400 transmits the reference signal generated by the host 600 to the second modem 200 to compare the transmission performance of the second modem 200. To this end, the transmission signal connection unit 400 includes a third interface unit 410, a transmission signal control unit 420, and a fourth interface unit 430.

The third interface unit 410 is in charge of the interface with the modem analysis processing unit 500. The third interface unit 410 receives the reference signal generated by the host 600 from the modem analysis processing unit 500.

The transmission signal controller 420 controls the reception of the reference signal received from the modem analysis processing unit 500 through the third interface unit 410, and transmits the received reference signal to the second modem through the fourth interface unit 430. Control to output to (200).

The fourth interface unit 430 is in charge of interfacing with the second modem 200. The fourth interface unit 430 outputs the received reference signal to the second input / output interface unit 230 of the second modem 200. To this end, the fourth interface unit 430 is connected to the second input / output interface unit 230 that interfaces the output of the modulation / demodulation signal and the coding / decoding signal and interfaces the input of the reference signal.

The modem analysis processing unit 500 outputs the reference signal generated by the host 600 to the transmission signal connection unit 400, and outputs the modulation / demodulation signal or coding / decoding signal received from the reception signal connection unit 300 to the host 600. Will output To this end, the modem analysis processing unit 500 includes a fifth interface unit 510, a main controller 520, a first memory unit 530, a second memory unit 540, and a sixth interface unit 550. .

The fifth interface unit 510 interfaces the reception of the modulation / demodulation signal or the coding / decoding signal from the reception signal connection unit 300, and the transmission of the reference signal to the transmission signal connection unit 400.

The main controller 520 controls to store the modulation / demodulation signal or the coding / decoding signal received through the fifth interface unit 510 in the first memory unit 530, and modulates the modulation / stored data stored in the first memory unit 530. The / demodulation signal or the coding / decoding signal is controlled to be output to the host 600 through the sixth interface unit 550. In addition, the main controller 520 controls to store the reference signal received through the sixth interface unit 550 in the second memory unit 540, and stores the reference signal stored in the second memory unit 540 in the fifth interface. Control to output to the transmission signal connection unit 400 through the unit 510.

The first memory unit 530 stores the modulation / demodulation signal or the coding / decoding signal received from the fifth interface unit 510 under the control of the main controller 520. In addition, the first memory unit 530 outputs the stored modulation / demodulation signal or coding / decoding signal to the sixth interface unit 550 under the control of the main controller 520.

The second memory unit 540 stores the reference signal received from the sixth interface unit 550 under the control of the main controller 520. In addition, the second memory unit 540 outputs the stored reference signal to the fifth interface unit 510 under the control of the main controller 520.

The sixth interface unit 550 interfaces reception of a reference signal from the host 600, and interfaces transmission of a modulation / demodulation signal or coding / decoding signal to the host 600.

The host 600 compares a modulation / demodulation signal or a coding / decoding signal received from the modem analysis processing unit 500 with a reference signal. When the coded or modulated signal is received by the first modem 100, the host 600 generates a reference signal and a received coded or modulated signal generated to analyze the coding or modulation performance of the first modem 100. Compare As a result of the comparison, if similarity in the acceptable range is recognized between the reference signal and the received coded or modulated signal, the host 600 determines that the coding or modulation performance of the first modem 100 is normal. However, as a result of the comparison, if similarity is not recognized between the reference signal and the received coded or modulated signal, the host 600 determines that the coding or modulation performance of the first modem 100 is not normal.

On the other hand, the host 600 generates a reference signal for analyzing the demodulation or decoding performance of the second modem 200, and outputs the generated reference signal to the modem analysis processing unit 500. As described above, the modem analysis processing unit 500 outputs the reference signal to the second modem 200 through the transmission signal connection unit 400. The second modem 200 generates a demodulated signal or a decoded signal with respect to the received reference signal, and outputs the generated demodulated signal or the decoded signal to the received signal connection unit 300. The reception signal connection unit 300 outputs a demodulation signal or a decoding signal for the reference signal to the modem analysis processing unit 500, and the modem analysis processing unit 500 outputs the corresponding signal to the host 600. The host 600 compares a demodulated signal or a decoded signal for the reference signal received from the modem analysis processor 500 with a previously generated reference signal. As a result of the comparison, if similarity in the acceptable range is recognized between the reference signal and the received demodulated signal or decoded signal, the host 600 determines that the demodulation or decoding performance of the second modem 100 is normal. However, as a result of the comparison, if similarity is not recognized between the reference signal and the received demodulated or decoded signal, the host 600 determines that the demodulation or decoding performance of the second modem 100 is not normal.

Hereinafter, a modem analysis method according to the present invention will be described in detail with reference to the accompanying drawings. As necessary, the components shown in FIG. 2 are cited.

3 is a flowchart of an embodiment for explaining a modem analysis method according to the present invention.

The modem analysis processor 500 receives a signal modulated or coded by the first modem 100 through the reception signal access unit 300 (operation 700). This modulated or coded signal is output to the host 600.

After operation 700, the host 600 compares the reference signal generated for comparing the modulation or coding performance of the first modem 100 with the received modulation signal or coding signal, thereby modulating or coding the first modem 100. The performance analysis result is output (step 702). If the similarity in the tolerance range between the reference signal and the received coded or modulated signal is recognized, the host 600 outputs an analysis result that the coding or modulation performance of the first modem 100 is normal. However, if similarity is not recognized between the reference signal and the received coded or modulated signal, the host 600 outputs an analysis result that the coding or modulation performance of the first modem 100 is not normal.

Figure 4 is a flow chart of another embodiment for explaining a modem analysis method according to the present invention.

In operation 800, the reference signal generated by the host 600 is output to the second modem 200 in order to compare the demodulation or decoding performance of the second modem 200. The reference signal generated by the host 600 is output to the second modem 200 via the modem analysis processing unit 500 and the transmission signal connection unit 400. The second modem 200 generates a demodulated signal or a decoded signal with respect to the received reference signal, and outputs the generated demodulated signal or the decoded signal to the received signal connection unit 300.

After operation 800, the modem analysis processor 500 receives a demodulation signal or a decoding signal for the reference signal generated from the second modem 200 through the reception signal access unit 300 (operation 802). This demodulated signal or decoded signal is output to the host 600.

After operation 802, the host 600 compares the reference signal generated for the demodulation or decoding performance comparison of the second modem 200 with the received demodulation signal or the decoding signal, and demodulates or decodes the second modem 200. The performance analysis result is output (step 804). If the similarity within the allowable range between the reference signal and the received demodulated signal or decoded signal is recognized, the host 600 outputs an analysis result that the demodulation or decoding performance of the second modem 100 is normal. However, if the similarity is not recognized between the reference signal and the received demodulated signal or decoded signal, the host 600 outputs an analysis result that the demodulation or decoding performance of the second modem 100 is not normal.

Hereinafter, a function test method of a modem performance analysis apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

5 is a flowchart of an embodiment for explaining a function test method of a modem performance analysis apparatus according to the present invention.

In operation 900, the reference signal generated by the host 600 is output to the second modem 200 to check the function of the modem performance analyzer illustrated in FIG. 2. The reference signal here is different from the reference signal described in FIGS. 3 and 4. That is, the reference signals described with reference to FIGS. 3 and 4 are signals for comparing modulation / demodulation or coding / decoding performance of the first modem 100 or the second modem 200, but the reference signals in FIG. 5 are modem performance analysis. The difference is that it is a reference signal for checking the function of the device itself. The reference signal generated by the host 600 is output to the second modem 200 via the modem analysis processing unit 500 and the transmission signal connection unit 400. The second modem 200 converts the received reference signal (digital signal) into an analog signal, converts the converted analog signal back into a digital signal, and outputs the converted signal to the reception signal connection unit 300. The second modem 200 includes a converter (not shown) for analog / digital conversion, and the converter forms a closed loop with the modem performance analyzer.

After operation 900, the modem analysis processor 500 receives an analog / digital conversion signal for the reference signal generated from the second modem 200 through the reception signal access unit 300 (operation 902). This analog / digital conversion signal is output to the host 600.

After operation 902, the host 600 compares the reference signal generated for the function test of the modem performance analyzer with the received analog / digital converted signal to test the function of the modem performance analyzer (operation 904). If the similarity within the allowable range between the reference signal and the received analog-to-digital conversion is recognized, it is determined that the respective functions of the reception signal connection unit 300, the transmission signal connection unit 400, and the modem analysis processing unit 500 are normal. However, as a result of the comparison, if similarity is not recognized between the reference signal and the received analog-to-digital conversion, it is determined that the respective functions of the reception signal connection unit 300, the transmission signal connection unit 400 or the modem analysis processing unit 500 are not normal. do.

Meanwhile, the above-described modem performance analysis method and the function test method of the modem performance analysis apparatus may be implemented by computer readable codes / instructions / programs, and may be read by a medium, for example, a computer. The recording medium can be implemented in a general-purpose digital computer for operating the code / instructions / program. The computer-readable recording medium may be a magnetic storage medium (eg, ROM, floppy disk, hard disk, magnetic tape, etc.), optical reading medium (eg, CD-ROM, DVD, etc.) and carrier wave (eg Storage media, such as through the Internet). In addition, embodiments of the present invention may be implemented as a medium (s) containing computer readable code, such that a plurality of computer systems connected through a network may be distributed and processed. Functional programs, codes and code segments for realizing the present invention can be easily inferred by programmers in the art to which the present invention belongs.

Modem performance analysis apparatus and method of the present inventors, and a method for checking the function of the modem performance analysis apparatus has been described with reference to the embodiment shown in the drawings for clarity, but this is only illustrative, and having ordinary skill in the art It will be appreciated that various modifications and other equivalent embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the appended claims.

1 is an overall system configuration diagram for explaining a modem analysis apparatus according to the present invention.

FIG. 2 is a block diagram illustrating in detail the entire system configuration shown in FIG. 1.

3 is a flowchart of an embodiment for explaining a modem analysis method according to the present invention.

Figure 4 is a flow chart of another embodiment for explaining a modem analysis method according to the present invention.

5 is a flowchart of an embodiment for explaining a function test method of a modem performance analysis apparatus according to the present invention.

Claims (9)

A reception signal connection unit for receiving a modulation / demodulation signal or a coding / decoding signal of a modem; A transmission signal connection unit for transmitting a reference signal generated by the host to the modem for performance comparison of the modem; And A modem analysis processing unit outputting the reference signal to the transmission signal connection unit and outputting the modulation / demodulation signal or the coding / decoding signal received from the reception signal connection unit to the host, And the host compares the modulation / demodulation signal or the coding / decoding signal received from the modem analysis processing unit with the reference signal. The method of claim 1, wherein the receiving signal connection unit A first interface unit in charge of interfacing with the modem; A second interface unit in charge of an interface with the modem analysis processing unit; And Controlling the reception of the modulation / demodulation signal or the coding / decoding signal from the modem through the first interface unit, and analyzing the received modulation / demodulation signal or the coding / decoding signal through the second interface unit. Modem performance analysis apparatus comprising a receiving signal control unit for controlling to output to the processing unit. The method of claim 2, wherein the first interface unit And an input / output interface unit of the modem which interfaces the output of the modulation / demodulation signal and the coding / decoding signal and interfaces the input of the reference signal. The method of claim 1, wherein the transmission signal connection unit A third interface unit in charge of interfacing with the modem analysis processor; A fourth interface unit in charge of interfacing with the modem; And And a transmission signal control unit controlling the reception of the reference signal from the modem analysis processing unit through the third interface unit, and outputting the received reference signal to the modem through the fourth interface unit. Modem Performance Analysis Device. The method of claim 4, wherein the fourth interface unit, And an input / output interface unit of the modem which interfaces the output of the modulation / demodulation signal and the coding / decoding signal and interfaces the input of the reference signal. The method of claim 1, wherein the modem analysis processing unit A fifth interface unit for interfacing the reception of the modulation / demodulation signal or the coding / decoding signal from the reception signal connection unit, and for interfacing the transmission of the reference signal to the transmission signal connection unit; A sixth interface unit for interfacing reception of the reference signal from the host and interfacing transmission of the modulation / demodulation signal or the coding / decoding signal to the host; A first memory unit configured to store the modulation / demodulation signal or the coding / decoding signal received from the fifth interface unit; A second memory unit which stores the reference signal received from the sixth interface unit; And And a main control unit controlling to output the modulation / demodulation signal or the coding / decoding signal stored in the first memory unit to the host and to output the reference signal stored in the second memory to the transmission signal connection unit. Modem performance analysis device, characterized in that. Receiving a modulated signal and a coded signal of a modem; And And comparing the reference signal generated in the host with the received modulated signal and the coded signal to compare the performance of the modem, and outputting a result of the performance analysis of the modem. Receiving a modulated signal and a coded signal of a modem; And A computer-readable program having recorded thereon a program for executing the step of outputting a result of the performance analysis of the modem by comparing the reference signal generated at the host with the received modulated signal and the coding signal for performance comparison of the modem. Record carrier. Outputting a reference signal generated at the host to the modem for performance comparison of the modem; Receiving a demodulated signal and a decoded signal corresponding to the reference signal from the modem; And comparing the received demodulated signal and the decoded signal with the reference signal, and outputting a result of analyzing the performance of the modem.

Images