KR100493416B1 - Method for controlling mobile communication network - Google Patents

Abstract

The present invention discloses a method for managing a wireless network for analyzing resources of the wireless network. In this general base station management system, since only performance data is collected and analyzed, it is possible to analyze the radio link-related performance in the CDMA mobile communication system, but the processor load due to cell loading and softer / soft handoff. In general, the analysis of the overall system of wireless network resources related to changes in loading occupancy, etc. has been a difficult problem. The present invention was created to solve the above-mentioned conventional problems, and an object thereof is to analyze various statistical characteristics and system parameters of the entire network by using performance data and configuration data collected from the switching center and transmission / reception power values of the base station. The present invention provides a method and apparatus for managing a wireless network, and according to the present invention, it is possible to prevent a decrease in call quality due to lack of wireless network resources, and to reduce unnecessary investment costs through efficient use of wireless network resources. Can be.

Description

How to manage your wireless network {METHOD FOR CONTROLLING MOBILE COMMUNICATION NETWORK}

The present invention relates to a method for managing a wireless network, and more particularly, to a method for managing a wireless communication network efficiently and to predict a resource shortage and a lack of resource of the wireless communication network.

A general next generation mobile communication system (IMT-2000) is a next generation mobile communication service that provides global roaming and multimedia services such as voice, high speed data, and video to wireless terminals in land and satellite environments.

This next generation mobile communication system includes a base station management system (BSM) that manages a base station controller (BSC) and a base station (BTS), and the base station management system (BSM) collects performance data from the base station and the base station controller and the operator. Send to.

As is known, performance data is a quantification of information related to the amount and quality of calls generated from a base station and a base station controller, frequency of use of processors and devices, channel and vocoder, resource share of a link, failure, and alarm, etc. It is used as basic statistical data for maintenance and performance evaluation of the entire system.

Typically, the base station management system periodically collects performance data according to the characteristics of the data. That is, statistical data related to traffic and channel directly related to a call are collected every 5 minutes, and other data are collected every 15 minutes. The performance data collected in these cycles are processed and stored in the form of 1 hour, 24 hours and 7 days according to the user's request.

In this general base station management system, since only performance data is collected and analyzed, it is possible to analyze radio link-related performance in a CDMA mobile communication system, but the processor load due to cell loading, softer / soft handoff, etc. In general, the analysis of the overall system of wireless network resources related to changes in loading occupancy, etc. has been a difficult problem.

The present invention was created to solve the above-mentioned conventional problems, and an object thereof is to analyze various statistical characteristics and system parameters of the entire network by using performance data and configuration data collected from the switching center and transmission / reception power values of the base station. It is to provide a method for managing a wireless communication network.

Wireless communication network management method in an embodiment of the present invention to achieve the above object,

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a) receiving efficiency data and configuration data provided from the mobile switching center and transmit / receive power values provided from the base station to calculate efficiency indicator values of traffic channel utilization, inter-sector call balance rate, frequency allocation efficiency, and link utilization;

b) calculating an average and a variance of the efficiency indicator values within a predetermined time; Calculating a management reference value P using the average value and the variance value; And an upper limit UP satisfying an upper limit UP = P + f (R) and a lower limit DOWN = Pf (R) through a normalization process according to the management reference value P and the reliability R. Calculating a reference value, an upper limit, and a lower limit for a predetermined time period of the efficiency index value calculated by step a), including setting a lower limit DOWN, and setting the management reference value, upper limit, and lower limit. Comparing the indicator value with the management reference value, the upper limit, and the lower limit, and then checking whether the capacity of the current wireless communication network resource is insufficient;

c) if it is determined in step b) that the capacity of the wireless communication network resource is insufficient, executing a trend analysis for predicting whether the temporary shortage is in accordance with the efficiency indicator value;

d) checking whether the current shortage of wireless network resources is a temporary phenomenon through the trend analysis of step c), and notifying the operator of the analysis result for resource management in case of a temporary phenomenon;

e) performing a trend analysis for predicting a resource shortage time of the wireless communication network by calculating a slope of the efficiency indicator when the capacity of the wireless communication network is not insufficient in step b); And

f) correlation analysis that analyzes the shortage factors of the wireless network resources when the shortage of the wireless network resources is above the set value by checking the trend performed in the step e) above the set values or when they are not a temporary phenomenon in the step d). And transmitting the first analysis result to the operator after the execution, and notifying the operator of the second analysis result when the value is less than the set value.

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According to the present invention, by receiving the performance data and configuration data of the switching center and the transmission and reception power value of the base station, by notifying the operator by predicting whether the efficiency indicator monitoring result is normal, the shortage and the lack of wireless network resources, the call due to the lack of wireless network resources It is possible to prevent the deterioration of quality, to efficiently use the radio network resources, to reduce unnecessary investment costs, and to call as many subscribers as possible within the limited frequency.

Hereinafter, a wireless communication network management method according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 is a block diagram showing a configuration of a wireless communication management apparatus applied to a wireless communication network management process according to the present invention. As shown in FIG. 1, the wireless communication network management apparatus includes a mobile switching center 101 and a base station 103. A data collection unit 105 connected to the data collection unit; a database 107 connected to an output side of the data collection number 105; an efficiency index calculation unit 109 connected to an output side of the database 107; and the efficiency index. A statistical processing unit 111 connected to the output side of the calculating unit 109, an efficiency index monitoring unit 113 connected to the efficiency index calculating unit 109 and the statistical processing unit 111, the efficiency index detecting unit 113, It is provided with the operator notification part 115 connected to the database 107.

Here, the data collection unit 105 receives the performance data and configuration data of the mobile switching center 101, the transmission and reception power value of each sector of the base station 103. The database 107 stores the received performance data and configuration data of the mobile switching center 101 and the transmit / receive power value of each sector of the base station 103, and stores the analysis results from the collected data.

The efficiency indicator calculator 109 receives the performance data and configuration data stored in the database 107, the transmission and reception power value of each sector of the base station for traffic channel usage rate, inter-sector call balance rate, frequency allocation efficiency, and link usage rate. It is provided to calculate the efficiency indicator value.

The statistical processor 111 calculates the average and variance of the efficiency indicator values of the efficiency indicator calculator 109 to determine the utilization rate of the wireless communication network through the trend analysis, and determines the factors that affect the efficiency indicator through the correlation analysis. .

The efficiency indicator monitoring unit 113 may determine whether there is an abnormality of the efficiency indicator and the resource shortage and lack of the wireless communication network from the factors affecting the efficiency indicator of the efficiency indicator calculator 109 and the wireless communication network utilization and efficiency indicator of the statistical processor 111. The operator notification unit 115 transmits data indicating whether there is an abnormality of the efficiency indicator of the efficiency indicator monitoring unit 113, a resource shortage and a lack time of the wireless communication network to the operator, and then the database ( 107).

In the wireless communication network management apparatus to which the embodiment of the present invention provided as described above is applied,

The performance data and configuration data of the mobile switching center 101 and the transmit / receive power value of each sector of the base station 103 are provided to the data collection unit 105, and the data collection unit 105 collects the collected performance data and configuration. Data and transmit / receive power values of respective sectors of the base station 103 are stored in the database 107.

The performance data and configuration data stored in the database 107 and the transmission / reception power value of each sector of the base station are provided to the efficiency indicator calculator 109, and the efficiency indicator calculator 109 receives the data and uses the traffic channel utilization rate and the sector. Calculate efficiency indicators for inter-call balance, frequency allocation efficiency, and link utilization.

In addition, the statistical processor 111 receiving the efficiency indicator value of the efficiency indicator calculator 109 calculates an average and a variance of the efficiency indicator value of the efficiency indicator calculator 109 to manage the management reference value P, the upper limit UP and the lower limit. Set (DOWN). That is, as shown in FIG. 2, the management reference value P is set to a management reference value P by obtaining an average value and a variance value of the efficiency indicators input for a predetermined time, and using the correlation degree R as an upper limit. Set (UP) and lower limit (DOWN).

The upper limit UP is an efficiency indicator value obtained by adding a normalization value f (R) to a management reference value P, and the lower limit DOWN is an efficiency obtained by subtracting a normalization value f (R) from the management reference value P. It is an index value. That is, the upper limit UP = P + f (R) and the lower limit SOWN = P-f (R) are set.

Meanwhile, the efficiency indicator monitoring unit 113 receives a management reference value P, an upper limit UP, a lower limit DOWN, and an efficiency indicator value calculated by the efficiency indicator calculator 109 of the statistical processor 111. The analysis determines the wireless network utilization and the correlation analysis to determine the factors affecting the efficiency indicator.

Here, the trend analysis and correlation analysis determines whether there is an abnormality of the efficiency indicator, resource shortage and lack time of the wireless communication network, etc. from factors affecting the wireless network utilization rate and efficiency index. Here, since detailed operation descriptions of the trend analysis and the correlation analysis of the efficiency indicator calculator 109 and the statistical processor 111 are generally well known technologies, detailed descriptions thereof will be omitted.

In addition, the operator notification unit 115 transmits data indicating whether there is an abnormality of the efficiency indicator of the efficiency indicator monitoring unit 113 and resource shortage time of the wireless communication network to the operator 121 and then transmits the data to the database 107. Save it.

3 is a diagram illustrating a wireless communication network management process according to the present invention. A wireless network management process according to the present invention will be described with reference to FIGS. 1 to 3.

First, the efficiency indicator calculator 105 receives the performance data and configuration data provided from the mobile switching center 101 and the transmit / receive power value for each sector provided from the base station 103 (step 201). 105 receives the performance data and configuration data and the transmit / receive power value to calculate efficiency indicator values for traffic channel utilization, inter-sector call balance, frequency allocation efficiency, and link utilization (step 203).

The average and the variances of the efficiency indicator values calculated by the step 203 are determined for a predetermined time, and the management reference value, the upper limit and the lower limit are set, and the efficiency indicator values, the management reference value and the upper limit and the lower limit, which are currently calculated in step 203. Then, it is checked whether the resource capacity of the wireless communication network is insufficient (step 205).

That is, the average value and the variance of the efficiency index value within a predetermined time are calculated, and the management reference value P is calculated using the calculated average value and the variance value, and the normalization process according to the management reference value P and the reliability R is performed. The upper limit UP and the lower limit DOWN satisfying the upper limit UP = P + f (R) and satisfying the lower limit DOWN = Pf (R) are set.

If it is determined in step 205 that the resource capacity of the wireless communication network is insufficient, a trend analysis is performed to predict whether there is a temporary shortage phenomenon according to the efficiency index value (step 207).

Through the trend analysis of step 207, it is checked whether the shortage of resource capacity of the current wireless communication network is a temporary phenomenon (step 209), and if it is a temporary phenomenon, the operator is notified of the analysis result for resource management (step 211).

On the other hand, if the capacity of the wireless communication network resources is not insufficient in step 205, the slope of the efficiency indicator is calculated to perform a trend analysis for predicting the resource shortage time of the wireless communication network (step 213).

Through the trend analysis performed in step 213, it is checked whether the shortage time of the wireless network resource is greater than or equal to the set value (step 215). After performing the correlation analysis to analyze (step 217), the first analysis result is transmitted to the operator (step 219), and if it is below the set value, the operator is notified of the second analysis result (step 221).

In this case, the analysis result of the step 211 is the efficiency indicator value, the first analysis result of the step 219 is an important occurrence factor of the efficiency indicator value, wireless network resource shortage time, wireless network resource shortage factor, and efficiency indicator Value, and the second analysis result of step 221 is an efficiency indicator value and a radio resource shortage factor.

As described in detail above, according to the wireless network management method according to the present invention, the traffic channel utilization, vocoder utilization, link utilization, processor load ratio, frequency allocation through the performance data and configuration data of the mobile switching center and the transmit / receive power value by sector of the base station. Analysis of the variation of efficiency indicator values according to efficiency indicators, paging number, and handoff number, as well as performance related to wireless link such as efficiency, cell loading, low power amplifier usage rate, etc. By predicting a shortage, etc., it is possible to prevent a decrease in call quality due to a lack of a wireless communication network, and to reduce unnecessary investment costs through the use of an efficient mobile communication system.

Although one embodiment of the present invention has been illustrated and described above, the present invention is not limited to the above-described embodiment but is defined by the following claims, and the present invention belongs to the present invention without departing from the gist of the present invention. It can be modified in various forms by those skilled in the art.

1 is a diagram showing the configuration of a wireless communication network management apparatus to which the method for managing a wireless communication network according to the present invention is applied.

2 is a diagram illustrating a processing result of the statistical processing unit of FIG. 1.

3 is a flowchart illustrating a wireless communication network management process according to the present invention.

<Description of Symbols for Main Parts of Drawings>

101: mobile switching center 103: base station

105: data collector 107: database

109: efficiency index calculator 111: statistical processor

113: efficiency indicator monitoring unit 115: operator notification unit

Claims (6)

delete a) receiving efficiency data and configuration data provided from the mobile switching center and transmit / receive power values provided from the base station to calculate efficiency indicator values of traffic channel utilization, inter-sector call balance rate, frequency allocation efficiency, and link utilization; b) calculating an average value and a variance of the efficiency index values within a predetermined time; calculating a management reference value P using the average value and the variance value; and according to the management reference value P and the reliability R. And setting an upper limit UP and a lower limit DOWN satisfying an upper limit UP = P + f (R) and satisfying a lower limit DOWN = Pf (R) through a normalization process. After the average and the variance of the efficiency indicator value calculated in step) are calculated, the management reference value is set, and the upper limit and the lower limit are set, and the efficiency indicator value calculated in step a) is compared with the management reference value, the upper limit and the lower limit. Checking whether there is insufficient capacity of a current wireless network resource; c) if it is determined in step b) that the capacity of the wireless communication network resource is insufficient, executing a trend analysis for predicting whether the temporary shortage is in accordance with the efficiency indicator value; d) checking whether the capacity shortage of the current wireless communication network resource is temporary through the trend analysis of step c), and notifying the operator of the analysis result for resource management in case of a temporary phenomenon; e) performing a trend analysis for predicting a resource shortage time of the wireless communication network by calculating a slope of the efficiency indicator when the capacity of the wireless communication network resource is not insufficient in the step b); And f) Correlation analysis that analyzes the radio resource shortage factor if it is not above the preset value or if it is not a temporary phenomenon in step d) by checking whether the shortage time of the wireless network resource is above the set value through the trend analysis performed in step e). And transmitting the first analysis result to the operator after the execution, and notifying the operator of the second analysis result when the first analysis result is less than the set value. delete The method of claim 2, wherein the analysis result of step d) is an efficiency indicator value. The method of claim 2, wherein the first analysis result of step f) is a main factor of an abnormality occurrence of the efficiency indicator value, a wireless network shortage time, a wireless network resource shortage factor, and an efficiency indicator value. The method of claim 2, wherein the second analysis result of step f) is the efficiency indicator value and a lack of radio communication network resources.