KR100599209B1 - Radio frequency quality monitoring system using mobile phone - Google Patents

Abstract

The present invention relates to a radio wave quality monitoring system using a terminal, and to a system for automatically monitoring and analyzing radio wave quality associated with a customer feel quality in a service area by using a call test function of a terminal installed at a main network management point. The present invention provides a call test request / collection module for collecting call test result data by sending a call test request message through a short message system to a terminal installed at a main point of a mobile communication network, and the call test request / collection module. A mobile communication terminal for collecting call test result data requested from the mobile communication terminal and transmitting the call test result data to the call test request / collection module; a call test database for storing call test result data collected by the call test request / collection module; A management server for generating and transmitting radio wave quality failure data from a test database and displaying and receiving an alarm signal generated from the radio wave quality failure generation module and a radio wave quality failure generation module for generating an alarm signal when the value of each item of the obstacle is outside the normal range. And the radio wave quality index according to the call test result data stored in the call test database. It consists of radio wave quality index analysis / management module.

PCS terminal, call quality, short message system, repeater, exchange

Description

Radio frequency quality monitoring system using mobile phone

1 is a block diagram of a call test system using a short message system of a mobile communication terminal according to the present invention.

2 is a block diagram of a radio wave quality monitoring system using a mobile communication terminal according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: PCS terminal 20: repeater

30 base station 40 switchboard

50: short message system 60: management server

70: integrated network management system 80: PCS network

90: call test request / collection module 100: call test database

110: radio wave quality disorder generation module 120: radio wave quality disorder database

130: failure interworking module 140: radio wave quality index analysis / management module

150: Radio wave quality index database

The present invention relates to a radio wave quality monitoring system using a mobile communication terminal, and more specifically, to the customer experience quality of a service area by using a main function (SMSC, call test function) of a PCS terminal installed at a main network management point. And a radio wave quality monitoring system for automatically monitoring and analyzing radio wave quality associated with the

Conventionally, in order to monitor the call quality experienced by subscribers of mobile communication terminals, the operating personnel must measure the call quality such as call delay connection, mute, mute, and oneway call in the field, or after a complaint is filed for a certain time. There was a problem that there is a limit in providing a good call quality to customers as only a temporary grasp after this elapses.

Therefore, the present invention is to solve the above-mentioned conventional problems, the object of the present invention is to use the main functions (SMSC, call test function) of the PCS terminal installed in the network management point (point) of the service area and upper area It is to provide a radio wave quality monitoring system using a mobile communication terminal that automatically monitors and analyzes the customer experience RF quality.

The radio wave quality monitoring system using a mobile communication terminal to achieve the object of the present invention collects call test result data by transmitting a call test request message through a short message system to a terminal installed with a repeater at a main point of the mobile communication network. A call test request / collection module for collecting a call test result data requested from the call test request / collection module and transmitting the call test request / collection module to the call test request / collection module; A call test database for storing call test result data collected by the call test database; a radio wave quality failure generation module for generating radio wave quality failure data from the call test database to generate an alarm signal when a value of each fault item is out of a normal range; Management server to receive and display alarm signal generated from radio wave quality generation module , The call consists of a test database arc propagation test results Quality Index analysis to analyze and manage the propagation quality index by the data / management module stored in the.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a call test system using a short message system of a mobile communication terminal according to the present invention.

As shown, the PCS terminal 10 and the repeater 20 connected to the PCS terminal 10 and the PCS terminal 10 capable of transmitting and receiving short messages and call testing is located, and controls the PCS terminal 10 through a wireless network. A base station 30 for connecting a communication channel, a switch 40 connected to the base station 30 to perform a function such as circuit switching, incoming / outgoing relay processing, handoff, roaming, etc. between the mobile communication subscribers; 40 is connected to the short message system 50 that is responsible for the transmission and reception of the short message, the management server 60 for managing call-related messages transmitted and received through the short message system 50, and the management server 60 Integrate Network Management System (INMS, 70), which allows network administrators to see the status of nodes at a glance and quickly take necessary actions in case of problems. It is. In this configuration, since the management server 60 must obtain RF-related data of the location where the customer is located in order to determine the call quality felt by the customer, the short message transmission and reception with the PCS terminal 10 installed in the field and The call test identifies the call quality. Specifically, the PCS terminal 10 retransmits 5 times at 20 second intervals if it does not receive a response message from the short message system 50 within 20 seconds after transmitting the short message to the management server 60. And, in order to monitor the RF call quality, the PCS terminal 10 receives a call test command short message (SMS) from the management server 60 and performs a call test. That is, the call test maintains 10 seconds after setting a general voice call with a Markov call or a predetermined PCS terminal number (MIN) as a test call, and transmits various radio wave quality indexes calculated at this time to the management server 60. At this time, the call connection attempt of the call test is performed for 60 seconds, and when failed, retry (twice) after 10 seconds.

In particular, the items of the radio wave quality data extracted using the PCS terminal 10 include the strength of the radio wave transmitted by the terminal (TX), the strength of the radio wave received by the terminal (RX), and the terminal is reversed. signal (TX_Adjust), the value indicating the loss rate of the frame (FER) generated during data transmission (FER: Frame Error Rate), the time it takes for the terminal to connect (Acctime), Pseudo Noise Offset As a value, PN_OFFSET, which is a unique identifier that can distinguish a cell or sector, Ec / lo, which represents a ratio of signal power (Ec) to noise power (lo), and the actual output of the corresponding RF repeater. It is composed. Herein, the strength TX of the radio wave transmitted by the terminal is in a range of good quality from -40 to 5 dbm, and the intensity RX of radio wave received by the terminal is in the range of good quality from -50 to -90 dbm. And, the quality good range of the value (TX_Adjust) that the terminal adjusts the reverse signal strength is -20 ~ 0dbm and the reverse defect is associated with noise. In addition, a FER (Frame Error Rate) indicating a loss rate of a frame generated during data transmission is, for example, two good frames when receiving 12 consecutive bad frames from the terminal. The transmission is stopped until the reception is received, and a reverse link one way call is generated. And, the quality good time of the time it takes for the terminal to connect (Acctime) is 1 to 3 seconds. When the PN value of the terminal, which is the only identifier capable of distinguishing a cell or a sector, is changed, it means that it is changed to coverage of the other station. In addition, a good numerical range of the quality indicating the ratio of the signal power Ec to the noise power lo is 0 to -7 dbm, and the actual output range of the corresponding RF repeater is different for each type of equipment. As such, the PCS terminal 10 extracts an average value for each radio wave quality index item by maintaining a general voice call for 10 seconds after setting a general voice call with a Markov number or a predetermined terminal number (MIN), which is a test code, in particular, a Pilot PN value (Offset Ec / lo pair) transmits the signal-to-noise power (Ec / lo) values of all PNs included in the active set after the call connection to the management server 60 as an average value until the end of the call.

Next, the failure determination / analysis system using the above-mentioned radio wave quality data will be described. 2 is a block diagram of a radio wave quality monitoring system using a mobile communication terminal according to the present invention. For reference, the same components as those of FIG. 1 will use the same reference numerals.

As shown, the present invention is largely based on the PCS terminal 10, the base station 30 for controlling the PCS terminal 10 and connecting the communication channel, the PCS network network 80, and the PCS network network 80 A short message system 50 connected to transmit and receive a short message, a call test request / collection module 90 connected to the short message system 50 to collect call test result data by a call test request, and a call test A call test database 100 connected to the request / collection module 90 to store call test result data, a radio wave quality failure generation module 110 to generate radio wave quality failure data from the call test database 100, and a radio wave Radio wave quality failure database 120 that stores the radio wave quality failure data generated from the quality failure generation module 110 and the radio wave quality failure data received from the radio wave quality failure generation module 110 to the quality failure data format (format) Converting Disability interworking module 130, management server 60 for displaying an alarm signal on the user screen by the radio wave quality failure data converted and transmitted from the disability interlocking module 130, and the call stored in the call test database 100 Radio wave quality index analysis and management module 140 for analyzing and managing the radio wave quality index by the test result data, radio wave quality index database for storing the wave quality index data analyzed by the radio wave quality index analysis / management module 140 It consists of 150.

The call test request / acquisition module 90 queries the call test terminal number (hereinafter, PCSMIN) from the call test database 100 to carry out 3 digits of the back digit of PCSMIN for load balancing of a specific base station or a specific call control processor (CCP). Random sorting is used to transfer the short message to the short message system 50. In particular, the call test subjects are transmitted at an interval of 1 hour, and the short message system 50 transmits the call completion target message to the call test request / collection module 90 after transmitting the call subject terminal number, and the PCS terminal 10. The call test result data transmitted from the call test request / collection module 90 is transmitted. Accordingly, the call test request / collection module 90 stores the call test result data received from the short message system 50 as a temporary file in the call test database 100 using the Sql Loader.

The propagation quality disorder generation module 110 queries the call test result data collected from the call test database 100 and uses past history data for 2 hours, 2 weeks ago, and 1 day before, respectively, as knowledge data. Then, the knowledge data is sorted by the terminal number PCSMIN, averaged, and the knowledge data is generated to generate radio wave quality disorder data. In particular, the radio wave quality failure generation module 110 generates radio wave quality failure data to generate an alarm signal when the value of each failure item is outside the normal range. This alarm signal generation will be described in detail.

Such alarm signal is generated when the limit alarm signal is generated when the radio wave quality disorder data is out of a certain threshold, and when it is out of the normal pattern due to the change of a certain trend in the past (2 weeks, 1 week, 1 day ago). It is divided into trend alarm signal. First, referring to the generation of a limit (alarm) alarm signal, the radio wave quality generation module 110 inquires the data for the data collected during the last four hours to determine the alarm. In this case, the first start is recognized as no data to exclude the alarm judgment. In addition, by querying the data per PCSMIN, the alarm condition is checked when the number of search results is 2 or more, and whether there is an alarm in the past, whether there is an existing limit alarm, or a trend alarm. Check whether there is. The threshold of the limit alarm is described with reference to Table 1 below.

Limit alarm threshold Item Alarm occurrence threshold Alarm Off Threshold Condition RX Less than -100dbm -90 dbm or more 3 times in a row TX More than 15dbm 10dbm or less Rx Level <50, except when not using Coupler, 3 times in a row TX Adjust More than 15dbm 10dbm or less 3 times of homology FER More than 2% 2% less than 3 times in a row AccTime More than 5 seconds Less than 3 seconds 3 times in a row Access retry More than 2 times 2 times or less 3 times in a row

As shown in Table 1, the radio wave quality failure generation module 110 creates and sends an alarm message when the radio wave quality failure data corresponds to a limit alarm occurrence threshold, and updates the alarm management database. .

Subsequently, referring to the generation of a trend alarm signal, the radio wave quality generation module 110 generates an alarm when a deviation from the normal pattern occurs due to a change in a certain trend in the past (two weeks, one week, one day ago). For example, if the output is sent 5dB lower than the past average output, a trend alarm is generated. Such a trend alarm is to alarm the change of the network environment change suddenly. In this case, the operator can view the repeater propagation environment graph and take appropriate action. That is, the radio wave quality failure generation module 110 inquires the data (two weeks ago, one week ago, three times each day data) for alarm determination. Trend reference values for each item will be described with reference to Table 2 below.

Trend Reference Item Print RX TX TX Adjust FER Reference value 5db 10dbm -20 -20 5

As shown in Table 2, the radio wave quality generation module 110 creates and sends an alarm message when the difference corresponds to the trend reference value compared with the past data, and updates the alarm management database.

In addition, the radio wave quality generation module 110 manages PN (Offset, Ec / lo) values by arranging up to six PN offset values and signal-to-noise power (Ec / lo) values for each PN according to signal strength. In other words, the PNs are sorted by PN for six PNs, and the PN signal-to-noise ratios are sorted in a good order. If the number of views is 3 or more and the best PN is 60% or more, a normal check is performed ( logging, otherwise logging as Poor Dominant. Also, it is checked whether there are four or more active PNs (Pilot pullution). In particular, there are two cases of PN alarms: first, when the past primary PN is not presently disappeared, and second, when the signal-to-noise ratio (ecio level) of the past primary PN falls below a certain level (currently 5dbm).

Meanwhile, the radio wave quality index analysis / management module 140 summarizes the radio wave quality index situation (hereinafter referred to as a health index) for each repeater and manages it as a database, and transmits the radio wave quality data (RX, TX, TXADJ, FER, ACCTIME) to the database. As shown in Table 3 below, scores are assigned to five levels based on 100 points, and score management for each item is performed.

Item Score Reference Item RX TX TX Adjust FER AccTime 100 ＞ -90dbm ＜ 3dbm ＜ -5 dbm <2% <3 Sec 80 ＞ -95 <10 <5 <4 <5 60 ＞ -100 <15 <15 <7 <7 40 ＞ -105 <20 <20 <10 <9 20 etc etc etc etc etc

The radio wave quality index management is automatically performed once a day at dawn time (06 o'clock), and evaluates the radio wave quality index indicator by repeater after data inquiry by terminal number (Pcsmin). In addition, the score is evaluated only when the number of inquiry data is one or more and stored as an evaluation score file, and the score is input to the database using the stored file Sql Loader.

As described above, according to the present invention, by using the main functions (SMSC, call test function) of the PCS terminal installed in the network management point (monitor) automatically by monitoring and analyzing the customer experience RF quality of the service area and the upper area, Effective network operation support and network management cost and maintenance cost can be reduced.

What has been described above is just one embodiment for implementing a radio wave quality monitoring system using a mobile communication terminal according to the present invention, the present invention is not limited to the above-described embodiment, which is claimed in the following claims Without departing from the gist of the present invention, anyone of ordinary skill in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

Claims (6)

delete delete delete A call test request / collection module for collecting call test result data by sending a call test request message through a short message system to a terminal installed with a repeater at a main point of a mobile communication network; A mobile communication terminal which collects the requested call test result data from the call test request / collection module and transmits it to the call test request / collection module; A call test database for storing call test result data collected by the call test request / collection module; By generating radio wave quality disorder data from the call test database, the PN offset value and the signal-to-noise power (Ec / lo) value of the terminal are sorted and managed by signal strength, and the past first PN disappears. A radio wave quality generation module for generating an alarm signal when there is no signal; A management server for receiving and displaying an alarm signal generated from the radio wave quality generation module; A radio wave quality monitoring system using a mobile communication terminal, characterized in that the radio wave quality index analysis / management module for analyzing and managing the radio wave quality index based on the call test result data stored in the call test database. A call test request / collection module for collecting call test result data by sending a call test request message through a short message system to a terminal installed with a repeater at a main point of a mobile communication network; A mobile communication terminal which collects the requested call test result data from the call test request / collection module and transmits it to the call test request / collection module; A call test database for storing call test result data collected by the call test request / collection module; Generates radio wave quality impairment data from the call test database, manages the PN offset value and the signal-to-noise power (Ec / lo) value of the terminal by signal strength, and manages the first PN of the past. A radio wave quality generation module for generating an alarm signal when the level of the signal-to-noise ratio falls; A management server for receiving and displaying an alarm signal generated from the radio wave quality generation module; A radio wave quality monitoring system using a mobile communication terminal, characterized in that the radio wave quality index analysis / management module for analyzing and managing the radio wave quality index based on the call test result data stored in the call test database. delete

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