KR100321407B1 - Efficient Data Transmission Device and Method in Wireless Subscriber Network - Google Patents

Abstract

The present invention relates to an apparatus and method for efficiently transmitting a data signal transmitted by a subscriber using a wireless local loop (WLL), and more particularly, to a plurality of FAX or modems using one WLL timeslot frame. The present invention relates to being capable of transmitting a data signal, comprising: a base station controller of a wireless subscriber network; A tone detector for analyzing a signal applied from the interface unit to detect a data tone signal and passing consecutive data when the data tone signal is detected; And a format processing unit for reconstructing data suitable for a channel by sensing a transmission speed of a data signal applied from the tone detector, and a data transmission method of a wireless subscriber network; A tone detecting step of analyzing a signal applied from the interface unit and detecting a corresponding tone signal indicating data transmission; A transmission rate checking step of confirming a transmission rate of data when a data tone signal is detected in the tone detection step; A channel dividing step of dividing each channel into a plurality of frames based on the transmission rate identified in the transmission rate checking step, and loading data for each divided frame; The channel utilization efficiency is improved by the transmission step of transmitting data carried in units of frames in each channel division step for each channel.

Description

Efficient Data Transmission Apparatus and Method for Wireless Subscriber Network

The present invention relates to an apparatus and method for efficiently transmitting a data signal transmitted by a subscriber using a wireless local loop (WLL), and more particularly, to a plurality of FAX or modems using one WLL timeslot frame. It relates to being able to transmit data signals.

A wireless subscriber network (WLL) is a system for transmitting a voice signal or a data signal based on a transmission rate of 64 Kbps, and in the case of a voice signal, by compressing at a transmission rate of 32 Kbps instead of using a transmission rate of 64 Kbps, one ( Two (2) voice channel signals can be transmitted to the channel of 1), and in the case of the data signal, a facsimile or modem signal is transmitted using a transmission rate of 64 Kbps.

However, in the case of the currently used FAX, the international standard G3 mode has a transmission speed of 9.6 Kbps, the G4 mode has a speed of 14.4 Kbps, and Modem has a relatively high transmission speed of 14.4 Kbps.

Therefore, when transmitting data, it is inefficient to transmit only one data channel signal by allocating a channel transmission rate of 64 Kbps of the WLL. Therefore, by using a single WLL channel, several data channels are transmitted. Is to increase.

Hereinafter, a conventional data transmission method will be described with reference to the accompanying drawings.

Attached to explain the prior art, Figure 1 is a functional block diagram of a general wireless subscriber network system, Figure 2 is a detailed functional block diagram of a base station controller according to the prior art.

Referring to FIG. 1, the wireless subscriber network system according to the prior art includes: a switch 10 to which a plurality of subscribers are connected and connected;

A base station controller (RPC: Radio Port Controller) 20 which is connected to the switch 10 and processes a signal of an authorized WLL and transmits it to a base station (RP);

A base station 30 for wirelessly transmitting a WLL signal received from the base station controller 20;

Each subscriber manages and consists of a terminal 40 for transmitting and receiving signals such as voice or fax.

Referring to FIG. 2, the base station controller 20 of the conventional WLL system includes a switched trunk interface 22 connected to the switch 10 and receiving a subscriber signal;

A voice processing unit 24 connected to the switched trunk interface unit 22 for detecting a voice signal and compressing the signal at 32 Kbps;

A data processor 26 jointly connected to the switched trunk interface 22 with the voice processor 24 for detecting data signals and processing at a transmission rate of 64 Kbps;

The voice / data transmitter 28 transmits the voice and data signals received from the voice processor 24 and the data processor 26.

Hereinafter, the above-described configuration will be described in detail with reference to the accompanying drawings.

When calling the WLL subscriber from the caller through the switch 10, the switched trunk interface 22 connected from the switch 10 via the corresponding line receives the received signal from the voice processor 24 and the data processor 26. Apply equally to

The voice processing unit 24 and the data processing unit 26 process the signals received through the switched trunk interface unit 22, respectively, to determine whether they are voice signals or data signals, and in the case of voice signals, the voice processing unit ( 24) compresses the signal into a 32 Kbps signal and applies it to the voice / data transmitter 28.

When the signal received through the switched trunk interface unit 22 is processed and confirmed by the data processor 26 as a data signal, the signal is processed at the uncompressed transmission rate of 64 Kbps, and the voice / data transmitter 28 To apply.

The voice / data transmitter 28 functions to transmit an authorized signal to the transmitter of the base station 30.

The base station 30 functions to wirelessly transmit a WLL signal carrying a voice or data signal and to receive a signal transmitted from the terminal 40.

The terminal 40 is a device directly managed by each subscriber, and includes a transceiver having a low output, a transceiver for controlling the transceiver having a low output, and a voice or data transmitter. That is, the terminal 40 is one small system having both the functions of the base station controller 20 and the base station 30.

The conventional WLL system configured as described above has a transmission rate of 64 Kbps for each channel unit. When a voice signal is applied, it is compressed at 32 Kbps, and when a data signal is applied, the transmission rate is 64 Kbps. I did.

Therefore, in the case of the voice channel signal, by compressing and transmitting the signal up to 32Kbps or 16Kbps or 8Kbps, the channel utilization efficiency can be increased by 2 times, 4 times, or 8 times. (Bit) Since each one represents data, it cannot be compressed and transmitted like the voice signal, and all of the 64 Kbps per channel of the WLL system must be used.

The present invention improves the problem of transmitting only one data signal to one transmission channel without compressing and transmitting the data signal in the prior art as described above, maintaining the transmission speed of the data signal, and improving the speed of the WLL channel. An object of the present invention is to provide an apparatus and method for transmitting signals of multiple data channels by dividing a transmission rate.

The present invention devised to achieve the above object, in the base station controller of the wireless subscriber network; A tone detection unit for analyzing a signal applied from the interface unit to detect a data tone signal and passing continuous data when the data tone signal is detected; It is characterized in that it comprises a format processing unit for reconstructing the data to suit the channel by detecting the transmission speed of the data signal applied from the tone detector.

In addition, the present invention provides a data transmission method of a wireless subscriber network; A tone detecting step of analyzing a signal applied from the interface unit and detecting a corresponding tone signal indicating data transmission; A transmission rate checking step of confirming a transmission rate of data when a data tone signal is detected in the tone detection step; A channel dividing step of dividing each channel into a plurality of frames based on the transmission rate identified in the transmission rate checking step, and loading data for each divided frame; The channel division step includes a transmission step of transmitting data carried in units of frames for each channel.

1 is a functional configuration diagram of a system of a general wireless subscriber network,

2 is a detailed functional block diagram of a base station controller according to the prior art;

3 is a detailed functional configuration diagram of a wireless subscriber network base station control apparatus according to the present invention;

4 is a flowchart illustrating an efficient data transmission method of a wireless subscriber network according to the present invention;

5A is a structural diagram of a frame to which a 14.4 Kbps transmission rate is applied as an embodiment of the present invention;

5b is a structural diagram of a frame to which a 9.6 Kbps transmission rate is applied according to an embodiment of the present invention.

** Explanation of symbols on the main parts of the drawing **

10: switch 20: base station controller

22: interface unit 24: voice processing unit

26: data processing unit 28: voice / data transmission unit

30: base station 40: terminal

50: tone detection unit 60: format processing unit

Hereinafter, an apparatus and method for efficiently transmitting data in a wireless subscriber network according to the present invention will be described.

3 is a detailed functional configuration diagram of the apparatus for controlling a wireless subscriber station base station according to the present invention, and FIG. 4 is a flow chart of an efficient data transmission method for a wireless subscriber network according to the present invention. Is a structural diagram of a frame to which a 14.4 Kbps transmission rate is applied as an embodiment of the present invention, and FIG. 5B is a structural diagram of a frame to which a 9.6 Kbps transmission rate is applied as an embodiment of the present invention.

Of the member numbers described in the functional blocks of the drawings, blocks having the same functions as those of the prior art used the same member numbers.

Referring to FIG. 3, according to the present invention, an efficient data transmission apparatus of a wireless subscriber network analyzes a signal applied from the interface unit 22 to detect a data tone signal. When the data tone signal is detected, the tone detection unit 50 for passing the data signal continuously input;

A format processing unit 60 for detecting a transmission speed of the data signal applied from the tone detector 50 and reconstructing data to suit a channel is included.

4, the efficient data transmission method of the wireless subscriber network according to the present invention, in the data signal transmission method of the wireless subscriber network (WLL),

A tone detection step (S10) of analyzing a signal applied from the interface unit 22 and detecting a corresponding tone signal indicating data signal transmission;

When the data tone signal is detected in the tone detection step (S10), a transmission rate checking step (S20) of continuously checking the transmission rate of the input data signal, and

On the basis of the transmission rate confirmed in the transmission rate confirming step (S20), each channel CH by a time slot (TS) is divided into a plurality of frames, that is, data transmission. If the speed is 9.6 Kbps, the channel by each time slot (TS) is divided into 5 frames, and each frame is assigned a number or address of 0, 1, 1, 0, 1, and 14.4 Kbps data. In the case of the transmission rate, the channel by the timeslot (TS) is divided into three frames, and each frame is assigned a number or an address of 0, 1, 1 in order, and corresponds to each divided frame as described above. A channel division step (S30, S40, S35, S45) for carrying data,

In the channel division step, a transmission step (S50) of transmitting data carried in units of frames for each channel is configured.

Hereinafter, the present invention having the above-described configuration will be described in detail with reference to the accompanying drawings.

The wireless subscriber network (WLL) according to the present invention is connected to the switch 10 with a plurality of users subscribed, and the switch 10 transmits a communication signal or communication data received from each subscriber to a base station controller ( 20 is applied to the interface unit 22.

The interface unit 22 simultaneously applies the received subscriber signal to the voice processor 24 and the tone detector 50, respectively.

The voice processor 24 analyzes the input signal, and if it is determined that the voice signal is the result of the analysis, compresses the signal at a transmission rate of 34 Kbps and outputs the same to the voice / data transmitter 28 in the conventional manner. .

Since the tone detector 50 does not detect the tone signal by the data signal, the tone detector 50 does not pass the communication signal of the subscriber which is subsequently input.

In more detail, the signal applied to the tone detector 5 is not detected because the tone signal representing the data signal is not detected by the tone detector 5 (S10). No further processing

When the tone signal for transmitting data from the interface unit 22 is input, the voice processing unit 24 does not receive and process subsequent subscriber communication signals. However, the tone detection unit 50 detects the tone signal. Subsequently, the data signal continuously input is input and output to the format processing unit 60.

In more detail, when a tone signal indicating a data signal is detected by the tone detector 50 (S10), the data signal applied to the tone detector 50 is output to the format processor 60. By the transmission rate checking step (S20), the transmission rate of the data signal applied through the FAX or Modem from the subscriber is confirmed.

As a result of confirming or determining the transmission rate of the input data signal in the transmission rate checking step (S20), as an example, when the transmission rate is confirmed to be 9.6 Kbps or lower, The format processing unit 60 divides the 64 Kbps WLL channel by each time slot TS into five frames by the first sequential ID number assigning step S30.

Each of the five divided frames allocates the first bit and records an ID corresponding to the sequence number or the address number. The first data frame is "0", the second data frame is "1", and the third The ID number is recorded in the order of "1" in the data frame, "0" in the fourth data frame, and "1" in the fifth data frame.

In order to distinguish five consecutive data frames repeated in timeslot channel units as described above, using "0, 1, 1, 0, 1" as the sequence ID number repeats the above-described sequence of sequence IDs. This is because it is easy to check whether or not there is an abnormality in the order of the data frames, and it has been confirmed that an optimal result can be obtained experimentally. When a different order ID can be used for better results You may use the corresponding sequence ID number.

As described above, the division into five data transmission frames per WLL time slot (TS) channel unit is shown in detail in FIG. 5B.

In addition, when the transmission rate of the applied data signal is confirmed as a transmission rate of 14.4 Kbps in the transmission rate checking step (S20), the format processing unit 60 in the second order ID number In step S35, the WLL channel of 64 Kbps per timeslot TS is divided into three data frames, and the first bit of each divided three data frames is allocated, so that the first data frame is " 0 ". In step S35, the second data frame is assigned an ID number in the order of "1" and the third data frame is "1".

As described above, in order to classify each data slot into three data frames, using an order ID number of "0, 1, 1" is the same as that of the above-described embodiment. This is because it is easy to check whether or not there is an abnormality in the order of the data channels. When the same operation is performed using the ID numbers in different orders, the ID numbers in the corresponding order may be used.

The division of the timeslot channel of the wireless subscriber network (WLL) into three data transmission frames as described above is shown in detail in FIG. 5A.

The format processing unit 60 loads data into the corresponding frames divided by checking the transmission rate of the data signal as described above (S40 and S45), and outputs the data to the voice / data transmission unit 28 so that the base station 30 It is applied to and transmitted (S50).

Therefore, by dividing each WLL channel divided into timeslots (TS) into a plurality of data frames, and each frame transmits one data channel signal, a plurality of subscriber data channel signals simultaneously in one WLL timeslot channel. Will be sent.

Therefore, using the configuration described above, three subscriber data signals having a 14,4 Kbps transmission rate or three subscriber data signals having a 9.6 Kbps transmission rate can be carried per time slot channel having a 64 Kbps transmission rate of WLL. It becomes possible.

According to the present invention having the above configuration, since a plurality of subscriber data signals can be simultaneously transmitted using one WLL timeslot channel, the utilization efficiency of the WLL channel can be improved, and the user can increase the circuit or channel. .

In addition, there is an effect of recycling the limited frequency resources of the wireless subscriber network.

Claims (3)

In the base station controller of the wireless subscriber network, A tone detector which analyzes a signal received from the interface unit and detects a data tone signal and passes consecutive data when the data tone signal is detected; And a format processing unit for reconstructing data appropriately for a channel by sensing a transmission speed of a data signal applied from the tone detector. In the data transmission method of the wireless subscriber network, A tone detection step of analyzing a signal applied from the interface unit to detect a corresponding tone signal indicating data transmission; A transmission rate checking step of confirming a transmission rate of data when a data tone signal is detected in the tone detection step; A channel dividing step of dividing each channel into a plurality of frames based on the transmission rate identified in the transmission rate checking step, and loading data for each divided frame; Efficient data transmission method of the wireless subscriber network, characterized in that consisting of a transmission step for transmitting the data carried in the frame unit in the channel division step for each channel. The method of claim 2, When the transmission rate of the data is confirmed to be 9.6 Kbps in the transmission rate checking step, the channel is divided into five frames, and the divided frames have unique numbers in the order of 0, 1, 1, 0, 1. , When the data rate is confirmed to be 14.4 Kbps in the transmission rate checking step, the channel is divided into three frames, and the divided frame has a unique number in the order of 0, 1, 1, characterized in that the Efficient data transmission method in wireless subscriber network.