KR100308927B1 - Method for cell coverage survey of wireless fixed apparatus in DECT system - Google Patents

Abstract

The present invention is to measure the cell area of the wireless fixing device in the DECT system, the present invention is a wireless terminal having a wireless fixing device function and a terminal for simulating the actual wireless fixing device and a wireless terminal capable of transmission and reception simulation Form a call between them and enter the error rate check mode, transmit a certain data pattern from the simulation wireless terminal, and then store the transmitted data in the buffer, and the wireless terminal having the function of the wireless fixation device is the data of the simulation wireless terminal. After receiving the data pattern, the received data pattern is transmitted, and the simulation wireless terminal receives the data of the wireless terminal having the function of the wireless fixing device, compares the data with the data transmitted by the mobile terminal, and calculates the error rate. Set the error rate If the currently calculated error rate is not large, the simulation wireless terminal displays the result, if it is large, an alarm sounds and then displays the result, thereby precisely measuring the cell area of the individual wireless fixture in a multi-cell environment before the actual fixture is installed. Simple measurements can be made to optimize the capacity of the cell through the proper configuration of individual radios, and the installation technician can easily install the cells and optimize cell-to-cell handover.

Description

Method for measuring cell area of wireless fixed device of DLC system {Method for cell coverage survey of wireless fixed apparatus in DECT system}

The present invention relates to the measurement of the cell area of the wireless fixture of the wireless fixture of the DECT system. Particularly, in the multi-cell environment, the cell area of the individual wireless fixture is measured without the need for a precise measuring instrument before the actual fixture is installed. The present invention relates to a cell area measurement device of a wireless fixture of a DECT system that optimizes the capacity of a cell through proper configuration of a fixture, and is suitable for an installation technician to easily install cells and optimize inter-cell handover. In particular, the present invention is to add a parameter for the call quality to properly simulate the actual call environment to enable the cell design reflecting the actual use environment.

In general, in order to measure the cell area of the wireless fixture of the DECT system, the actual wireless fixation is performed using the cell coverage region survey (FPD) and the cell coverage region survey (PF), GDC-320TB. Simulate the device.

Thus, Figure 1 is a block diagram showing a cell area measurement device of the radio fixed device of such a DECT system.

Here, GDC-320TB, a cell area measurement tool, has a new antenna and a radio part to have a radio (RF) performance similar to that of the GDC-320H (GDC-320B), which is a previously developed wireless terminal. This is a modified model.

The GDC-320TH, a cell area measurement tool, is a modified model of the GDC-320TB, which simulates the actual wireless fixed device, and the software of the wireless terminal, GDC-320H, for transmission and reception.

2 is a diagram illustrating a cell design example of a general inappropriate DECT system, Figure 3 is a diagram showing a cell design example of a general suitable DECT system.

Thus, in indoor wireless environments such as offices or public places with many walls, multi-cells are constructed. If the cell location is not appropriate, as shown in FIG. 2, traffic is concentrated in a specific cell, thereby reducing the capacity of the cell. Error-free handover from one cell to another is impossible.

In FIG. 3, the cells are appropriately configured so that the traffic is not concentrated in a specific cell. The cells are evenly distributed and the cells are overlapped to allow handover. This requires measuring the cell area of the individual fixtures.

So, the PABX phone is composed of fixed part and portable part by simple software change, and the fixed device keeps broadcasting system information periodically through the synchronization channel and the mobile device keeps the system information consistent. The cell area of the fixture is identified by measuring the RSSI (Received Signal Strength Indicator) of the sync.

In this case, RSSI is a parameter used for measuring a wireless environment in a DECT system, and the wireless fixer and the wireless terminal measure RSSI levels as needed at the time measured. The measurement measures the DECT frequency band and measures it as the magnitude of the received signal.

On the other hand, the measured RSSI value is used as data for properly configuring the cell position. At this time, the simple fixing device uses a case of the wireless handset and mounts an antenna having the same radio pattern as the actual base station to generate a signal having the same specifications as the actual wireless fixing device (GDC-320B). That is, the cell area measurement is performed with the GDC-320TB and GDC320-TH which simulates the actual wireless fixing device and the wireless terminal.

So, place the simple wireless fixer, GDC-320TB, in the place where you will install the actual wireless fixer, and go around with the simple wireless handset, GDC-320TH, and check the RSSI level shown on the GDC-320TH. As a result, we designed the cell in such a way as to determine the range of the cell up to where the empirically available callable RSSI level is displayed.

4 is a diagram illustrating a cell design method using a cell area measuring apparatus of a wireless fixing apparatus of a conventional DECT system.

For example, if you set the RSSI level that is the reference for the cell area to 130 dBm, you can move around with the GDC-320TH and define the cell that can be covered by one wireless fixer up to the area where the RSSI level is 130 dBm. Install another wireless lock.

This simple cell area measurement tool (GDC-320TB / GDC-320TH) makes it simple and easy to set up a real wireless fixture for the first time, making it easy to build an appropriate multi-cell environment.

However, delimiting the cell area only by the RSSI level is insufficient to reflect the actual call environment. In general, it is true that the RSSI level and the actual call environment have a proportional relationship with each other. However, high RSSI levels do not always indicate a good call environment. For example, if an interference signal is present in another system or for other reasons in the DECT frequency band, the RSSI level has a high value. This is because the indication of the RSSI level merely indicates the magnitude of the received radio signal by searching the DECT radio frequency band. Therefore, even if the signal of the wireless fixture desired by the user is weak, if there is another interference signal of the same frequency band is displayed a high RSSI level. In this case, even if the RSSI level is displayed, this does not mean a good call environment. Therefore, the conventional simple cell area measuring apparatus has a problem in cell design when interference signals exist in the DECT frequency band.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, and an object of the present invention is to measure the cell area of an individual wireless fixation device in a multi-cell environment without the need for a precise measuring instrument before the actual fixing device is installed. It is to provide a cell area measurement method of the wireless fixture of the DECT system that can optimize the capacity of the cell through the proper configuration of the individual radio fixed device, the installation technician can easily install the cells and optimize the inter-cell handover.

1 is a configuration diagram of a cell area measuring apparatus of a wireless fixing apparatus of a conventional DECT system,

2 is a view showing a cell design example of a general inappropriate DECT system,

3 is a view showing a cell design example of a general suitable DECT system,

4 is a view illustrating a cell design method using a cell area measuring apparatus of a wireless fixing apparatus of a conventional DECT system.

5 is a flowchart illustrating a method for measuring a cell area of a wireless fixing device of a DECT system according to the present invention;

Fig. 6 is a configuration diagram of a cell area measuring apparatus of the radio fixing apparatus of the DECT system used in the present invention.

In order to achieve the above object, the method for measuring the cell area of the wireless fixing device of the DECT system according to the present invention,

A first step of establishing a call and entering an error rate checking mode between a wireless terminal having a wireless fixing device function, a terminal simulating an actual wireless fixing device, and a simulation wireless terminal capable of transmitting / receiving; A second step of transmitting a predetermined data pattern from the simulation wireless terminal and storing the transmitted data in a buffer when the BER check mode is entered; A third step of receiving a data of the simulation wireless terminal and transmitting the received constant data pattern, the wireless terminal having the function of the wireless fixing device; The simulation wireless terminal may further include: receiving a data of the wireless terminal having the function of the wireless fixing device, comparing the data with the data transmitted by the wireless terminal, calculating an error rate, and comparing whether the currently calculated error rate is greater than the set error rate; If the currently calculated error rate is not greater than the set error rate, the simulation wireless terminal displays the result. If the currently calculated error rate is greater than the set error rate, the simulation wireless terminal sounds a warning sound and then displays the result. Performing the steps is characterized by its technical configuration.

Hereinafter, an embodiment according to the technical idea of the method for measuring the cell area of the wireless fixing device of the present invention DECT system as described above is as follows.

5 is a flowchart illustrating a method for measuring a cell area of a wireless fixing device of a DECT system according to the present invention;

As shown here, a call is formed between a fixed device function terminal, which is a wireless terminal having a wireless fixed device function, and a terminal for simulating an actual wireless fixed device, and a measurement terminal, which is a wireless terminal for simulation that can transmit / receive. (BER) a first step (ST11) (ST12) to enter the check mode; A second step (ST13) of transmitting a predetermined data pattern from the simulation wireless terminal (GDC-320TH) and storing the transmitted data in a buffer when the BER check mode is entered; The wireless terminal having the function of the wireless fixing device (GDC-320TB) comprises a third step (ST14) of receiving data of the simulation wireless terminal (GDC-320TH) and then transmitting the received constant data pattern; The simulation wireless terminal (GDC-320TH) receives data of the wireless terminal (GDC-320TB) having the wireless fixing device function, calculates an error rate (BER) by comparing it with data transmitted by itself, and sets a set error rate (BER). A fourth step (ST15 to ST17) for comparing whether the currently calculated error rate BER is greater; If the currently calculated error rate BER is not greater than the set error rate BER, the simulation wireless terminal GDC-320TH displays the result, and if the currently calculated error rate BER is greater than the set error rate BER, The simulation wireless terminal (GDC-320TH) performs a fifth step (ST18) (ST19) of generating a warning sound and displaying the result.

Referring to the accompanying drawings, the operation of the method for measuring the cell area of the wireless fixed device of the DECT system according to the present invention configured as described above will be described in detail as follows.

First, the GDC-320TB is a fixed device function that modified the new antenna and the wireless part to have a radio (RF) performance similar to that of the GDC-320H (DECT wireless device), a previously developed wireless device (GDC-320B). It is a terminal. In addition, GDC-320TH is a measuring device terminal with GDC-320TB that simulates a real wireless fixed device and a software modification to the wireless terminal GDC-320H to transmit / receive. In addition, the BER (Bit Error Rate) is mainly expressed as a percentage or millisecond, and indicates the degree of broken data received.

Therefore, in order to solve the problem caused by the interference signal in the DECT frequency band, the present invention uses a method called 'BER check' in addition to the conventional radio environment simulation using only the RSSI level.

'BER check' means the following.

That is, a call (traffic channel) is formed between GDC-320TB and GDC-320TH. The GDC-320TH transmits a certain data pattern, and the GDC-320TB receives this data and then sends the received data back to the GDC-320TH. The GDC-320TH compares the data it sends with the data it receives to calculate the error rate and displays it on the LCD.

When the 'BER check' method is used, even if the RSSI level is high due to the interference signal, the interference signal affects the GDC-320TB and GDC-320TH which are wirelessly connected to each other, thereby increasing the BER.

Therefore, the simulation of the radio environment when there is an interference signal insufficient only by the RSSI level can be supplemented by 'BER check'. In addition, by setting the empirically available BER in the 'BER check' mode and giving a beep in comparison with the actual calculated BER, the installer can easily measure the area of the callable cell.

As can be seen in Figure 5, in order for the 'BER check (error rate check) mode to operate, a call path must be formed between the GDC-320TB and the GDC-320TH. This is because there must be a channel to exchange data with each other. After entering the 'BER check' mode, GDC-320TH transmits a predetermined pattern of data. The data pattern at this time does not have to be complicated, and it is possible to set '0000…'. … 'Or' 1111... … Certain data patterns, such as', are irrelevant.

The GDC-320TH should then only store / store the data pattern it sent. You need to know the data you send so you can calculate the BER.

Thus, in the present invention, to avoid the need to store data separately, the menu item '0000…' is used. … 'Or' 1111... … To select data. In this case, GDC-320TH does not need to save the data sent separately, but assumes that the data sent by the user is '0' or '1' according to the menu, and compares the received data with '0' or '1'. This avoids the cumbersome process of using buffers for storage.

Meanwhile, the GDC-320TB receives data transmitted from the GDC-320TH and transmits it as it is. At this time, GDC-320TB connects the sending buffer (Outbound Buffer) and the receiving buffer (Inbound Buffer) to perform this task.

Finally, the GDC-320TH calculates the BER by comparing the received data with a preset data pattern. In this case, the BER calculation may display only the number of received data, unlike the transmitted data, or may calculate and display it as a percentage or a fraction.

After the BER calculation is completed, a comparison is made with the limit BER preset for the cell area design. If the calculated BER is higher than the set limit BER, a beep will sound and vice versa will terminate the 'BER check' mode.

FIG. 6 is a block diagram of an apparatus for measuring a cell area of a wireless fixed device of a DECT system according to the present invention, and shows that more accurate wireless environment can be measured by RSSI level measurement and 'BER check' mode.

As such, the present invention simply measures the cell area of an individual wireless fixture in a multi-cell environment without the need for a precise instrument prior to the actual fixture installation, thereby optimizing the capacity of the cell through the proper configuration of the individual wireless fixture, and the installation technician It is easy to install them and optimize handover between cells.

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 method for measuring the cell area of the wireless fixed device of the DECT system according to the present invention has the effect of more accurately measuring the actual call environment.

That is, as described above, it is generally true that the RSSI level is in proportion to the cell range. Therefore, it is not reasonable to design the cell region only by measuring the RSSI level. However, in the situation where wireless data communication is actively performed, there is a high possibility that permanent interference signals such as other systems exist in the same frequency band. Therefore, the cell design considering the presence of such interference signal has emerged as an essential element in the installation of the wireless fixing device.

If an interference signal is present, the range for making a good call is reduced as much, and in this case, the cell design should be considered in consideration of the interference signal. In this case, it can be said that the effect of this invention is large. In the presence of an interference signal, the RSSI level measurement does not distinguish between a magnetic signal and another interference signal, and indicates a high RSSI level by measuring only the strength of a radio signal received in a predetermined range of frequency bands. However, in this case, the 'BER check' mode can be used to indicate the existence of the interference signal by breaking the data transmitted and received by the interference signal. Therefore, RSSI level measurement and 'BER check' mode can be used to make more accurate wireless environment measurement.

Claims (1)

In the method of measuring the cell area of the wireless fixture of the DECT system, A first step of establishing a call and entering an error rate checking mode between a wireless terminal having a wireless fixing device function, a terminal simulating an actual wireless fixing device, and a simulation wireless terminal capable of transmitting / receiving; A second step of transmitting a predetermined data pattern from the simulation wireless terminal and storing the transmitted data in a buffer when the BER check mode is entered; A third step of receiving a data of the simulation wireless terminal and transmitting the received constant data pattern, the wireless terminal having the function of the wireless fixing device; The simulation wireless terminal may further include: receiving a data of the wireless terminal having the function of the wireless fixing device, comparing the data with the data transmitted by the wireless terminal, calculating an error rate, and comparing whether the currently calculated error rate is greater than the set error rate; If the currently calculated error rate is not greater than the set error rate, the simulation wireless terminal displays the result. If the currently calculated error rate is greater than the set error rate, the simulation wireless terminal sounds a warning sound and then displays the result. Method for measuring the cell area of the wireless fixture of the DECT system, characterized in that for performing the step.