KR100311960B1 - Apparatus and method for selectional operating base station in DECT system - Google Patents

Abstract

The present invention provides a selective operation of a base station in a wireless switching system. The present invention comprises a voice processing unit for receiving voice data and converting it into a desired voice signal format in a specific wireless specification; A CPU which receives a control signal and processes the control signal to control the baseband controller; A plurality of baseband controllers for converting the voice data processed by the voice processor into transmission data according to the DECT protocol under the control of the CPU; A plurality of line drivers for receiving the transmission data of the baseband controller and converting the waveform into a form suitable for remote transmission and transmitting the waveform to a base station selector; A base station selection database connected to the CPU and storing base station selection information; A base station that is configured to receive data from the plurality of line drivers to operate only an appropriate base station through connection / disconnection with the base station under the control of the CPU, the base station to be used as the designation of a wireless terminal or manager among a plurality of base stations By effectively operating the large area as possible, and even in the case of a simple exchange, the base station without a terminal in the area can be reduced power consumption by not operating.

Description

Apparatus and method for selectional operating base station in DECT system

The present invention relates to a selective base station operating apparatus and method for operating a large number of base stations even with the capacity of a limited wireless exchange system in a wireless exchange system. An optional base station operating apparatus and method thereof in a wireless switching system, which effectively utilizes a wide area as possible, and is suitable for reducing power consumption by not operating a base station having no terminal in the area even in a simple exchange. It is about.

In general, the DECT system is configured as shown in FIG.

In the present invention, for example, applied to the DECT (Digital Enhanced Cordless Telephone, European Digital Cordless Telecommunication Standard) belonging to the simple switch among the wireless switch. In particular, the DECT system is a pico-cell system with a radius of 40 to 300 meters.

In the case of a system capable of supporting three base stations (BS, Base Station) as shown in FIG. 1, a wide area cannot be secured, and a base station can only be installed in a limited area with a large amount of call. In addition, a base station in which no wireless terminal exists in one base station operates while consuming power.

FIG. 2 is a detailed block diagram of a wireless terminal interface board (WTIB) and a base station mounted in DECT, which is a simple wireless switch in FIG.

As shown therein, reference numeral 11 denotes a voice processor which receives voice data and converts the voice data into a desired voice signal format in a specific wireless specification, and 12 denotes a CPU which controls the baseband controller 13 by receiving and processing a control signal. 13 is a plurality of baseband controllers for converting the voice data processed by the voice processing unit 11 into transmission data according to the DECT protocol under the control of the CPU 12, and 14 is a baseband controller 13 of the baseband controller 13. A plurality of line drivers for receiving the transmission data to convert the waveform into a form suitable for long-distance transmission to transmit to the base station (20). Reference numeral 20 denotes a base station which modulates the data transmitted through the line driver 14 to the frequency of the DECT system and outputs the RF (Radio frequency).

The operation of the conventional radio terminal interface device configured as described above is as follows.

First, control data between the main device of the keyphone / PBX (Private Branch Exchange) system and the WTIB board is controlled by the CPU 12, and the base band controller 13 is operated by exchanging control information with the main device. Control.

Thus, the voice signal received from the main device is converted by the voice processor 11 into a desired voice signal format in a specific wireless specification. For example, a DECT system will convert ADPCM (Adaptive Differential Pulse Code Modulation) PCM data to ADPCM data.

The baseband controller 13 transmits the DECT control signal, the ADPCM voice signal, and other control information to the line driver 14 as transmission data according to the DECT protocol, and the line driver 14 transmits the data at a long distance. In order to convert the waveform into an appropriate form for transmission to the base station 20.

Then, the base station 20 modulates the received data by the DECT system at a frequency (1.8 to 1.9 GHz) and outputs the RF data.

However, in the conventional technology, if a base station is installed as a limited base station in a wireless switching system, it is inevitable to install a base station by giving priority to an area with high call volume. The problem arises that the exchange system must be installed.

In addition, in a large area, even when there is no call volume, the base station must be operated at all times in preparation for intermittent calls, and there is a problem that a base station without any wireless terminal in one base station must consume power.

Accordingly, the present invention has been proposed to solve the above-mentioned conventional problems, and an object of the present invention is to effectively utilize a wide area as much as possible by operating a base station to be used by a wireless terminal or a manager among a plurality of base stations. In addition, even in the case of a simple switch, there is provided a selective base station operating apparatus and method in a wireless switching system that can reduce power consumption by not operating a base station having no terminal in the area.

1 is a block diagram of a conventional wireless switching system,

FIG. 2 is a detailed block diagram of the radio terminal interface device in the DECT in FIG. 1;

3 is a block diagram of a radio switch system to which the present invention is applied;

4 is a block diagram of an apparatus for selectively operating a base station in a radio switching system according to the present invention;

5 is a block diagram of a base station selection unit in FIG.

6 is a schematic configuration diagram of the switch unit in FIG. 5;

7 is a detailed configuration diagram of the switch in FIG.

8 is a flowchart illustrating an embodiment of a method for operating a selective base station in a wireless switch system according to the present invention;

9 is a flowchart illustrating another embodiment of a method for operating a selective base station in a radio switch system according to the present invention.

Explanation of symbols on the main parts of the drawings

20: base station 30: optional base station operation unit

31: voice processing unit 32: CPU

33: baseband controller 34: line driver

35: base station selection database 36: base station selection unit

In order to achieve the above object, an optional base station operating apparatus in a wireless switch system according to the present invention,

A voice processor for receiving voice data and converting the voice data into a desired voice signal format in a specific wireless specification; A CPU which receives a control signal and processes the control signal to control the baseband controller; A plurality of baseband controllers for converting the voice data processed by the voice processor into transmission data according to the DECT protocol under the control of the CPU; A plurality of line drivers for receiving the transmission data of the baseband controller and converting the waveform into a form suitable for remote transmission and transmitting the waveform to a base station selector; A base station selection database connected to the CPU and storing base station selection information; The technical configuration is characterized by consisting of a base station selection unit for receiving data from the plurality of line drivers to operate only the appropriate base station through connection / disconnection with the base station under the control of the CPU.

Selective base station operation method in a wireless switch system according to an embodiment of the present invention to achieve the above object,

If the base station is busy, determining whether the base station has a radio signal strength below the threshold; If the radio signal strength is less than or equal to a threshold, searching a base station selection database to determine whether a neighbor base station of a call terminal exists; Determining whether the number of currently operating base stations is less than or equal to the maximum number of operating base stations according to an operation request for the base station, when there is an adjacent base station of the call terminal; If the number of currently operating base stations is less than or equal to the maximum number of operating base stations, operating the base stations; When the number of currently operating base stations is greater than or equal to the maximum number of operating base stations, the technical configuration is characterized by performing a step of notifying that the base stations are all in use.

Selective base station operation method in a wireless switch system according to another embodiment of the present invention to achieve the above object,

If the base station is not in a call, determining whether the current time timer has reached a predetermined time; If the current time timer reaches a predetermined time, initializing the timer, requesting an operation of the base station, and determining whether a wireless terminal exists in the base station; If there is no radio terminal in the corresponding base station, the step of stopping the operation of the base station according to the base station operation stop request is characterized in that the technical configuration.

Hereinafter, an embodiment according to the technical concept of the selective base station operating apparatus and method in the wireless switch system of the present invention as described above are as follows.

4 is a block diagram of an apparatus for operating an optional base station in a radio switch system according to the present invention.

As shown therein, a voice processor 31 which receives voice data and converts the voice data into a desired voice signal format in a specific wireless specification; A CPU 32 for receiving and processing a control signal to control the baseband controller 33; A plurality of baseband controllers 33 for converting the voice data processed by the voice processor 31 into transmission data according to the control of the CPU 32; A plurality of line drivers 34 receiving the transmission data of the baseband controller 33 and converting the waveform into a form suitable for remote transmission and transmitting the waveform to the base station selector 36; A base station selection database 35 connected to the CPU 32 to store base station selection information; The base station selection unit 36 receives data from the plurality of line drivers 34 and operates only an appropriate base station through connection / disconnection with the base station 20 under the control of the CPU 32.

Reference numeral 20 denotes a base station operated by the base station selector 36 to modulate the data transmitted from the line driver 34 to the frequency of the DECT system and output the RF.

As shown in FIG. 5, the base station selector 36 is connected to each of the plurality of line drivers 34 and connected to all the base stations, and is controlled by a control signal of the CPU 32. A plurality of switch units 37 are configured to switch the line driver 34 so that only a selected base station is operated.

As illustrated in FIG. 7, the plurality of switch units 37 may include a decoder that receives and decodes a control signal for controlling a base station from the CPU 32 and a signal indicating disconnection from all base stations, respectively. 38); A transmission processor (39) for processing transmission data transmission between the line driver (34) and the base station (20) in accordance with the output signal of the decoder (38); In accordance with the output signal of the decoder 38 is composed of a receiving processor 39 for processing the transmission of the received data between the line driver 34 and the base station 20.

8 is a flowchart showing an embodiment of a method for operating a selective base station in a wireless switch system according to the present invention, showing a control operation of a base station in a call.

As shown therein, when the base station 20 is busy, the base station 20 determines whether the radio signal strength of the corresponding terminal is less than or equal to the threshold (ST11) (ST12); If the radio signal strength is less than or equal to the threshold, searching the base station selection database 35 to determine whether there is an adjacent base station of the call terminal (ST13) (ST14); Determining whether the number of currently operating base stations is less than or equal to the maximum number of operating base stations in response to an operation request for the base station, if there is an adjacent base station of the call terminal; If the number of currently operating base stations is less than or equal to the maximum number of operating base stations, operating the corresponding base station (ST16); If the number of currently operating base stations is greater than or equal to the maximum number of operating base stations, step ST17 indicating that the base stations are all in use is performed.

9 is a flowchart showing another embodiment of a method for operating a selective base station in a radio switching system according to the present invention, and shows a control operation of a base station that is not in a call.

As shown therein, if the base station 20 is not busy, determining whether the current time timer has reached a predetermined time (ST21) (ST22); If the current time timer reaches a predetermined time, initializing the timer and then requesting an operation of the base station and determining whether a wireless terminal exists in the base station (ST23 to ST25); If there is no radio terminal in the corresponding base station, the step of stopping the operation of the base station according to the base station operation stop request (ST26) is performed.

The operation of the selective base station operation apparatus and its method in the radio switching system according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

3 is a block diagram of a radio switch system to which the present invention is applied.

Thus, the present invention, as shown in Figure 3, in a small wireless switching system to install a large number of base stations more than the base station capacity to secure a large area call area, the base station operation in the administrator's landline telephone during actual operation The base station is operated only when there is a case where it is used by controlling a specific base station by request / stop specification or request / stop of a specific base station operation of the radio terminal. If there is no radio terminal in the base station, the radio base station is not operated. In FIG. 3, 1, 3, and 4 base stations are in operation, and the remaining 2, 5, and 6 base stations are not in operation.

In FIG. 4, the voice processing unit 31 exchanges the PCM voice signal with the back plane of the main device by the main device and the voice signal of the wireless switch in a highway manner, and receives the received PCM data of 32 Kbps of G.726, which is a DECT signal standard. Is converted to ADPCM signal.

The baseband controller 33 supports the DECT protocol, and the CPU 32 controls the baseband controller 33 to allow the DECT service to operate normally.

In addition, the baseband controller 33 transmits the DECT control signal, 320-bit ADPCM voice signal, and other control information to the line driver 34, and the line driver 34 transmits the waveform in an appropriate form to transmit data over a long distance. The conversion is transmitted to the base station 20.

Then, the base station 20 modulates the received data into a frequency (1.8 to 1.9 GHz) of the DECT system and outputs the RF data.

The present invention inserts a base station selector 36 between the line driver 34 and the base station 20 so that only the appropriate base station 20 is connected to or disconnected from each of the line drivers 34 and any base station 20. Operate. Using the base station selection database 35 containing base station information currently operating, the CPU 32 may control which base station 20 performs an operation according to an operation request and a suspension.

FIG. 5 shows the base station selector 36 in FIG.

Thus each line driver 34 and all of the plurality of base stations 20 can be connected by the base station selector 36, the control of which is controlled by the control signal of the CPU 32.

In FIG. 5, the switch units SW1 to SW3 37 which perform the actual switching function are shown in block in FIG.

That is, as shown in FIG. 6, one line driver 34 and a plurality of base stations can be connected to any base station by using control signals A, B, and C, and this line is used when the All Disable signal is used. The driver 34 is not connected to any base station.

The circuit diagram of the actual switch part in FIG. 6 is shown in FIG.

Thus, as shown in FIG. 7, one TX / RX signal is connected to one of nine according to the control signals A, B, and C, and in case of All Disable, it is not connected to any one.

On the other hand, the operation of the present invention, when there are a plurality of base stations 20, as shown in Figure 3, only operating the base station 20 that the terminal actually exists, and may also be requested to operate as a specific base station 20 toward the terminal switch. Alternatively, a specific base station 20 can be operated even from a fixed telephone of a specific manager.

In addition, if the radio signal strength of the terminal is lower than a predetermined level in the base station 20 connected to the terminal in communication, the base station adjacent to the base station 20 in the base station selection database 35 is considered to be out of the communication area. It is possible to automatically widen the call area by operating (20).

As shown in Fig. 8, in the case of a call, the base station checks the radio signal strength of the terminal and if it is lower than a certain threshold, the base station 20 is considered to be leaving the base station 20 and is adjacent to the base station selection database 35. The base station is checked for existence. Therefore, if the neighboring base station exists, the operation request of the neighboring base station.

Another method of requesting the operation of a particular base station may be to request the base station from a wired terminal, such as a specific operator or manager, and to select a base station in advance by pressing a key button on a wireless terminal to perform operation of the base station. You may ask.

Then, the CPU 32 operates the base station when the number of the base stations 20 currently talking is less than the maximum number of base stations. If the base station 20 is not available, the CPU 32 indicates that the base stations are all in use.

On the other hand, if there is no radio terminal in the base station, as shown in Figure 9, you can request a specific operator or manager to stop the current base station, and operate the base station at a certain interval, the presence of a new terminal in the base station If there is a wireless terminal to check the operation of the base station is converted to a state capable of calling. If there is no wireless terminal, the operation returns to the stopped state again.

By doing so, the wireless terminal which is suddenly turned on can make a call service.

In addition, when the call area is an office or a building arbitrarily, the call area can be freely changed where the boundary of the unused area is clear. That is, the CPU 32 may simply control the base station selector 36 to newly set up a communication area.

In addition, in the case of an office, if the base station does not need to operate after leaving the office, the administrator may stop the operation of the base station in the wired or wireless telephone.

As such, the present invention effectively utilizes a wide area as possible by operating a base station to be used by a wireless terminal or a manager among a plurality of base stations, and does not operate a base station without a terminal in the area even in a simple exchange. It will reduce consumption.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the selective base station operating apparatus and method thereof in the radio switching system according to the present invention selectively operate only the region to be used by connecting a plurality of base stations to a small switching system to make wide use of the call area. This allows small exchanges to cover large areas.

In addition, the present invention also has the effect of reducing the power consumption by cutting off the power in the case of the base station not used.

Claims (5)

A voice processor for receiving voice data and converting the voice data into a desired voice signal format in a specific wireless specification; A CPU which receives a control signal and processes the control signal to control the baseband controller; A plurality of baseband controllers for converting the voice data processed by the voice processor into transmission data according to the DECT protocol under the control of the CPU; A plurality of line drivers for receiving the transmission data of the baseband controller and converting the waveform into a form suitable for remote transmission and transmitting the waveform to a base station selector; A base station selection database connected to the CPU and storing base station selection information; And a base station selector configured to receive data from the plurality of line drivers and operate only an appropriate base station through connection / disconnection with a base station under the control of the CPU. The method of claim 1, wherein the base station selection unit, And a plurality of switch units connected to each of the plurality of line drivers and connected to all the base stations, and controlled by a control signal of the CPU to switch the line drivers to operate only a selected base station among the base stations. Optional base station operation apparatus in a wireless switching system. The method of claim 2, wherein the plurality of switch unit, A decoder which receives and decodes a control signal for controlling a base station from the CPU and a signal indicating disconnection with all base stations, respectively; A transmission processor for processing transmission data transmission between the line driver and the base station according to the output signal of the decoder; And a reception processor configured to process reception data transmission between the line driver and the base station according to the output signal of the decoder. If the base station is busy, determining whether the base station is less than or equal to the radio signal strength of the corresponding terminal; If the radio signal strength is less than or equal to a threshold, searching a base station selection database to determine whether a neighbor base station of a call terminal exists; Determining whether the number of currently operating base stations is less than or equal to the maximum number of operating base stations according to an operation request for the base station, when there is an adjacent base station of the call terminal; If the number of currently operating base stations is less than or equal to the maximum number of operating base stations, operating the base stations; And if the number of currently operating base stations is greater than or equal to the maximum number of operating base stations, performing a step of notifying that the base stations are all in use. If the base station is not in a call, determining whether the current time timer has reached a predetermined time; If the current time timer reaches a predetermined time, initializing the timer, requesting an operation of the base station, and determining whether a wireless terminal exists in the base station; And if the wireless terminal does not exist in the corresponding base station, stopping the operation of the base station in response to the base station operation stop request.