KR100369322B1 - V.21 preamble tone detection method of base station controller in the WLL system - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a V.21 preamble tone detection method at a control station in a wireless subscriber network (WLL) system.

2. The technical problem to be solved by the invention

The present invention provides a WLL for providing a corresponding data service according to an analog fax call by detecting, by software, the V.21 preamble tone detection unit in the vocoder of the control station that receives the in-band V.21 preamble tone during data service. To provide a V.21 preamble tone detection method at a control station in the system.

3. Summary of Solution to Invention

The present invention relates to a preamble tone detection method in a wireless subscriber network system, wherein when a fixed subscriber of a wired subscriber matching device connected to a local exchange (LE) attempts to call a mobile subscriber of the wireless subscriber matching device, A first step of detecting a level of a signal by a preamble tone detector of a domestic vocoder and storing an actual incoming signal of a predetermined level or more in a buffer; A second step of performing fast Fourier transform (FFT) on the incoming signal stored in the buffer to determine a characteristic of the signal through a frequency component; By measuring the energy of each frequency band through the fast Fourier transform (FFT), and comparing the signal energy in the low frequency region and the signal energy in the high frequency region, whether the incoming signal is a voice signal or a V.21 preamble tone Determining a third step; And in response to the determination result of the third step, when the incoming signal is a V.21 preamble tone, performs a service option change request to a selection processor, switches to a data service mode, and performs a corresponding data service according to an analog fax incoming call. Providing a fourth step.

4. Important uses of the invention

The present invention is used in the WLL system and the like.

Description

V.21 preamble tone detection method of base station controller in the WLL system

The present invention relates to a V.21 preamble tone detection method in a control station in a wireless local loop (WLL) system. In particular, the present invention relates to a V.21 incoming data through in-band during data service. The present invention relates to a V.21 preamble tone detection method at a control station in a WLL system in which a precoder tone of a control station can be detected in software.

In general, the WLL system is a system that forms a link by using a wireless system instead of a wired line from a telephone station to a subscriber terminal. The WLL system can be constructed in a shorter time than the conventional wired network, and the maintenance is easy. This is expected to play an important role in the construction of information infrastructure in the future.

Such a WLL system includes a wireless subscriber matching device for forming a wireless link with a base station, a base station for making a wireless link with the wireless subscriber matching device in a wired connection with a telephone exchange station, a control station for controlling the base station, It consists of a telephone exchange.

For example, FIG. 1 is a block diagram of a WLL system in which a control station is directly connected to a local exchange (LE) of a region without using a telephone exchange, and is a plurality of base stations 20 for configuring a radio link. A wireless subscriber matching device 10, a plurality of base stations 20 for forming a wireless link with the plurality of wireless subscriber matching devices 10, and a control station 30 for controlling the plurality of base stations 20. And a local exchange (LE) 40 to which a plurality of wired subscriber matching devices 50 are connected while forming a wired link with the control station 30.

In the WLL system having the above-described configuration, conventionally, a fixed subscriber of the wired subscriber matching device 50 connected to the LE 40 at the time of data service transmits an analog fax to the mobile subscriber of the wireless subscriber matching device 10. There was no way to detect the V.21 preamble tone sent by the fixed subscriber's fax in the wired subscriber matching device 50 when attempting an analog fax) call.

Here, the V.21 preamble tone transmitted by the fax of the fixed subscriber in the wired subscriber matching device 50 has a frequency of 1650 Hz for 1 bit and a frequency of 1850 Hz for 0 bit, respectively. The modulated signal.

As described above, there is no conventional method for detecting a V.21 preamble tone in a WLL system. Therefore, when an analog fax call is attempted by a fixed subscriber in the wired subscriber matching device 50, it is determined whether the call is a general voice call or an analog fax call. There was a problem in that it could not provide the corresponding data service according to the analog fax call because it is not known exactly.

The present invention has been proposed in order to solve the above problems, and the analog fax by the V.21 preamble tone detection unit in the vocoder of the control station detects the V.21 preamble tone coming through the in-band during data service by software. An object of the present invention is to provide a V.21 preamble tone detection method at a control station in a WLL system for providing a corresponding data service according to a call.

1 is an exemplary configuration of a WLL system in which a control station is directly connected to an LE in a region without using a telephone exchange station.

2 is an explanatory diagram showing frequency components of a V.21 preamble tone;

3 is an explanatory diagram showing frequency components of an audio signal;

4 is an exemplary configuration diagram of a vocoder in a control station of a general WLL system.

5 is an exemplary configuration diagram of a vocoder in a control station of a WLL system for performing a V.21 preamble tone detection method according to the present invention.

6 is a flow diagram of an embodiment of a V.21 preamble tone detection method at a control station in a WLL system in accordance with the present invention.

* Explanation of symbols for main parts of the drawings

31: Vocoder 32: QCELP encoding section

33: QCELP decoding section 34: V.21 preamble tone detection section

In order to achieve the above object, the present invention provides a method for detecting a preamble tone in a wireless subscriber network system, wherein a fixed subscriber of a wired subscriber matching device connected to a local exchange (LE) calls a mobile subscriber of the wireless subscriber matching device. A first step of detecting a level of a signal in a preamble tone detector of a vocoder in a control station, and storing an actual incoming signal of a predetermined level or more in a buffer; A second step of performing fast Fourier transform (FFT) on the incoming signal stored in the buffer to determine a characteristic of the signal through a frequency component; By measuring the energy of each frequency band through the fast Fourier transform (FFT), and comparing the signal energy in the low frequency region and the signal energy in the high frequency region, whether the incoming signal is a voice signal or a V.21 preamble tone Determining a third step; And in response to the determination result of the third step, when the incoming signal is a V.21 preamble tone, performs a service option change request to a selection processor, switches to a data service mode, and performs a corresponding data service according to an analog fax incoming call. And a fourth step of providing the same. The present invention provides a method for a fixed subscriber of a wired subscriber matching device connected to a LE in a WLL system to attempt an analog fax call to a mobile subscriber of a wireless subscriber matching device. In this case, the control station detects the preamble tone of the fax subscribed to the LE to enable service option negotiation between the control station and the wireless subscriber matching device.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, the V.21 preamble tone is detected using a Fast Fourier Transform (FFT) feature for each of the V.21 preamble tone and the voice signal.

That is, in the WLL system, as described above, the V.21 preamble tone transmitted by the fax of the fixed subscriber in the wired subscriber matching device connected to the LE is 1650 Hz for 1 bit and 1850 Hz for 0 bit. A frequency shift keying (FSK) modulated signal each having a frequency. Therefore, when a signal transmitted from a fixed subscriber in a wired subscriber matching device connected to LE is analyzed through a frequency domain by performing fast Fourier transform (FFT), most signals are detected only at 1650 Hz and 1850 Hz. Since the value of the 21 preamble tone is always 0x7e (01111110), the power ratio of the 1650 Hz and 1850 Hz signals may be detected to some extent.

In addition, in case of sampling at 8K rate, fast Fourier transform (FFT) of voice signal, the signal distribution can be found in all bands from 0Hz to 8KHz, especially in low frequency band. can see.

Therefore, the characteristics of the preamble tone and the voice signal of the FAX can be confirmed through the fast Fourier transform (FFT).

FIG. 2 is an explanatory diagram showing the frequency components of the V.21 preamble tone, and FIG. 3 is an explanatory diagram showing the frequency components of the voice signal, and it can be seen that the characteristics of the V.21 preamble tone and the voice signal are different from each other. .

In the present invention, the V.21 preamble tone detector is separately configured to detect the V.21 preamble tone in the vocoder in the control station of the WLL system.

That is, the general control station vocoder 31 is responsible for the QCELP encoding unit 32, which is responsible for the Qualcomm Code Excited Linear Predictive coding (QCELP) encoding as shown in FIG. 4, and is responsible for QCELP decoding. It consists of a QCELP decoding section 33.

In the vocoder 31 configured as described above, the QCELP encoding unit 32 performs QCELP encoding on PCM (Pulse Code Modulation) data coming in through a serial interface, thereby transmitting a QCELP packet to a selector processor. On the contrary, the QCELP decoding unit 33 decodes the QCELP packet data coming from the selected processor, restores the original voice signal, converts the PCM data, and transmits the data to the switching center through the serial interface.

5 is an exemplary configuration diagram of a vocoder 31 in a control station of a WLL system for performing a V.21 preamble tone detection method according to the present invention. The QCELP encoding unit 32 responsible for QCELP encoding and QCELP decoding are performed. A V.21 preamble tone detector which detects V.21 preamble tones coming through in-band by operating separately from the QCELP decoding unit 33 and the QCELP encoding unit 32 and the QCELP decoding unit 33. 34).

When the V.21 preamble tone detection unit 34 detects the V.21 preamble tone in the vocoder 31 having the above configuration, a request for a service option change request is made to a selection processor through a parallel interface. Can be.

The V.21 preamble tone detector 34 is largely divided into a signal detection portion, a fast Fourier transform (FFT) portion, and an energy level comparison portion.

The V.21 preamble tone detection method according to the present invention made by the V.21 preamble tone detection unit 34 in the vocoder 31 configured as described above will be described with reference to FIG.

First, the signal detection step (S1) detects whether the energy level has a certain value or more for the signal coming into the vocoder 31 through the serial interface, and if it is determined that the signal has a certain value or more, V.21 The preamble tone detection unit 34 stores the buffer.

In other words, when a call is connected, the signal coming into the vocoder 31 through the serial interface does not enter any signal for a predetermined time.

Therefore, when it is determined that the actual signal comes in, the signal is stored in the buffer in the V.21 preamble tone detector 34.

In other words, in the signal detection step S1, the vocoder 31 performs the function of determining whether the signal is not input or the signal is input.

After the signal detection step S1, a fast Fourier transform (FFT) step S2 is performed to perform a fast Fourier transform with the signal detected in the step S1.

That is, in the fast Fourier transform (FFT) step S2, the signal characteristics may be identified through the frequency component diagrams of FIGS. 2 and 3 by frequency converting the signal detected in the signal detection step S1.

After the fast Fourier transform (FFT) step (S2), proceed to the energy level comparison step (S3) to measure the energy per frequency band through the fast Fourier transform (FFT) in the fast Fourier transform (FFT) step (S2) It is determined whether the signal entering the vocoder 31 is a voice signal or a V.21 preamble tone.

That is, in the energy level comparison step (S3), the characteristics shown in the frequency component diagrams of FIGS. 2 and 3 are detected and the signal energy in the low frequency region and the signal energy in the high frequency region are compared. If the signal energy of is similar to the signal energy in the high frequency region, it is determined that the signal entering the vocoder 31 is a V.21 preamble tone, and if the signal energy in the low frequency region is higher than the signal energy in the high frequency region, It is determined that the signal entered into the 31 is an audio signal.

If it is determined that the energy level comparison step (S3) is a V.21 preamble tone, the process proceeds to the data service mode switching step (S4), where the vocoder 31 performs a service option change request to the selection processor to perform the data service mode. If the V.21 preamble tone is not detected even after a predetermined time has elapsed, the preamble tone detection operation is no longer performed.

The present invention as described above, the V.21 preamble tone in the vocoder of the control station to the V.21 preamble tone coming through the in-band during data service to measure the energy of each frequency band through a fast Fourier transform (FFT) And by detecting and enabling the analog fax call to the mobile subscriber in the wireless subscriber matching device, there is an effect that can provide the corresponding data service according to the analog fax call.

Claims (2)

A preamble tone detection method in a wireless subscriber network system, When a fixed subscriber of a wired subscriber matching device connected to a local exchange (LE) attempts to call a mobile subscriber of the wireless subscriber matching device, a signal level is detected by a preamble tone detection unit of a vocoder in the control station, and the level is greater than or equal to a predetermined level. A first step of storing the actual incoming signal in a buffer; A second step of performing fast Fourier transform (FFT) on the incoming signal stored in the buffer to determine a characteristic of the signal through a frequency component; By measuring the energy of each frequency band through the fast Fourier transform (FFT), and comparing the signal energy in the low frequency region and the signal energy in the high frequency region, whether the incoming signal is a voice signal or a V.21 preamble tone Determining a third step; And According to the determination result of the third step, when the incoming signal is a V.21 preamble tone, a service option change request is performed by a selection processor and the data service mode is switched to provide a corresponding data service according to an analog fax call. 4th step V.21 preamble tone detection method in a control station in a wireless subscriber network system comprising a. The method of claim 1, The third step, As a result of measuring the energy level of each frequency band and comparing the signal energy in the low frequency region with the signal energy in the high frequency region, if the signal energy in the low frequency region and the signal energy in the high frequency region are similar, the incoming signal is V.21 V is determined by the preamble tone, and when the signal energy in the low frequency region is higher than the signal energy in the high frequency region, the incoming signal is judged as a voice signal. .21 Preamble Tone Detection Method.