KR20110024898A - Network performance simulation system and network performance simulation method - Google Patents

Abstract

PURPOSE: A network performance verification system and a communication network performance verification method are provided to perform modeling for a verification call and to generate the verification call based on a modeling result. CONSTITUTION: A communication network verification device(200) obtains time information related to a process time of each call through communication network. The communication network verification device generates a call generation interval table based on start time interval. The communication network verification device generates a verification call based on the call generation interval table. The communication network verification device applies the verification call to a communication network.

Description

Network performance verification system and network performance verification method {NETWORK PERFORMANCE SIMULATION SYSTEM AND NETWORK PERFORMANCE SIMULATION METHOD}

The present invention relates to a network performance verification system, and more particularly, to perform modeling for generation of a verification call by acquiring information related to a call processing time actually processed in a communication network, and to generate a verification call based on the modeling result. Network performance verification system that can verify verification accuracy and reliability by performing verification simulation with call patterns that occur in actual network environment instead of simple uniform call pattern by performing verification simulation to verify the stability of communication network by applying And a communication network performance verification method and a communication network performance verification method for the communication network verification device and the communication network verification device.

Currently, with the rapid increase of mobile subscribers and the advancement of services, the capacity of mobile communication systems is increasing, and the proportion of data calls as well as voice calls in mobile communication services is gradually increasing. . In addition, according to the development and implementation of a number of supplementary services to satisfy various customer needs, various types of call processing are simultaneously performed in a large-scale mobile communication system. The increase of increases the segmentation of the terminal type and the complexity of the service that one terminal needs to process.

Accordingly, the mobile communication network that predicts and verifies the influence of multiple calls and services in advance and verifies the call processing performance of the mobile communication system, and simulates each terminal before commercialization and verifies in the mobile communication system The importance of terminal service verification is emerging.

The existing verification technology for this purpose simply generates a virtual terminal call defined in the call generation standard of the mobile communication network, that is, a verification call by simply generating a predetermined number of per per time (unit) for the mobile communication system verification. Approved to mobile communication network. Therefore, the existing verification technology cannot take into account the actual call generation pattern occurring in the mobile communication network, there are problems that cannot properly verify the system problem according to the call pattern occurring in the actual commercial network.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a communication service by processing a call corresponding to at least one terminal device in a communication network, and obtaining a predetermined predetermined communication network verification device. Obtains time information related to the processing time of each call processed through the communication network for a time, and calls for the verification call based on the start time interval between each call recognized based on the time information of each call acquired by the communication network verification apparatus. A network performance verification system and a network performance verification method for generating a generation interval table and generating a verification call based on the call generation interval table and applying the verification call to a communication network to be verified, and are actually processed in a communication network. model for generating verification call by acquiring information related to call processing time It is to perform verification simulation to verify the stability of communication network by performing ring and creating / applying verification call based on the modeling result.

The present invention has been made in view of the above circumstances, and another object to be reached in the present invention is to obtain time information related to processing time of each call processed through a predetermined communication network for a predetermined predetermined acquisition time, A communication network that generates a call generation interval table for a verification call based on a start time interval between calls recognized based on time information of each call, generates a verification call based on the call occurrence interval table, and applies it to a communication target network. Provides network performance verification method of verification device and communication network verification device, obtains information related to call processing time actually processed in communication network, performs modeling for verification call generation and generates verification call based on modeling result This is to perform verification simulation to verify the stability of the communication network by applying.

Communication network performance verification system according to a first aspect of the present invention for achieving the above object is a communication network for providing a communication service by processing a call corresponding to at least one terminal device; And obtaining time information related to a processing time of each call processed through the communication network for a predetermined acquisition time, and based on a start time interval between each call recognized based on the obtained time information of each call. And a communication network verification device for generating a call generation interval table and generating a verification call based on the call generation interval table and applying the verification call to a communication target network.

Communication network verification apparatus according to a second aspect of the present invention for achieving the above object comprises: an information acquisition unit for obtaining time information related to the processing time of each call to be processed through the predetermined communication network for a predetermined acquisition time; A table generation unit generating a call generation interval table for a verification call based on a start time interval between calls that are recognized based on time information of each call acquired through the information acquisition unit; And a verification call generation unit generating a verification call based on the call occurrence interval table and applying the verification call to a communication network.

Preferably, the information acquisition unit acquires the billing information corresponding to each call processed through the communication network during the acquisition time, extracts the start time information of the corresponding call recorded in the billing information of each call obtained, and the start of each call Time information can be obtained as the time information.

Preferably, the table generator calculates a start time interval between calls based on the start time information of each call obtained through the information acquisition unit, and derives a start time interval between calls, and derives the start time interval between the calls. Based on the call start frequency for each start time interval based on the call generation interval table corresponding to the frequency for each start time interval can be generated.

Preferably, the table generator calculates a start time interval between calls based on the start time information of each call obtained through the information acquisition unit, and derives a start time interval between calls, and derives the start time interval between the calls. Calculate the probability density for each start time interval by applying the mean (μ) and standard deviation (σ) derived based on the probability density function, and generate the call generation interval table based on the probability density for each start time interval. can do.

Preferably, the verification call generation unit, based on the frequency or probability density for each start time interval included in the call generation interval table, the corresponding frequency or probability density of the start time interval sequentially from the minimum or maximum start time interval The verification call may be generated according to a predetermined number of times corresponding to.

In accordance with another aspect of the present invention, there is provided a method for verifying a network performance, the method comprising: providing a communication service by processing a call corresponding to at least one terminal device in a communication network; Obtaining, by the network verification apparatus, time information related to a processing time of each call processed through the communication network for a predetermined acquisition time; Generating a call generation interval table for a verification call based on a start time interval between calls that are recognized based on time information of each call acquired by the communication network verification apparatus; And generating, by the communication network verification apparatus, a verification call based on the call generation interval table and applying the verification call to a communication target network.

In accordance with a fourth aspect of the present invention, there is provided a method for verifying a network performance of a communication network verifying apparatus. step; A table generation step of generating a call generation interval table for a verification call on the basis of a start time interval between each call recognized based on the obtained time information of each call; And a verification call generation step of generating a verification call based on the call occurrence interval table and applying the verification call to a communication network to be verified.

Preferably, the information acquisition step, obtaining the charging information corresponding to each call processed through the communication network during the acquisition time, and extracting the start time information of the corresponding call recorded in the obtained billing information of each call; The method may include obtaining start time information of each call as the time information.

Preferably, the step of generating the table, the step of deriving the start time interval between calls by calculating the start time interval between each call based on the start time information of each call obtained, and based on the derived start time interval between calls And generating the call generation interval table corresponding to each start time interval based on the call start frequency for each start time interval.

Preferably, the step of generating the table, the step of deriving the start time interval between calls by calculating the start time interval between each call based on the obtained start time information of each call, and based on the derived start time interval between calls Calculating the probability density for each start time interval by applying the mean (μ) and the standard deviation (σ) to the probability density function, and generating the call generation interval table based on the probability density for each start time interval. It may include.

Preferably, the verification call generation step, based on the frequency or probability density for each start time interval included in the call generation interval table, the corresponding frequency or probability of the start time interval sequentially from the minimum or maximum start time interval The verification call may be generated according to a predetermined number of times corresponding to the density.

Therefore, according to the network performance verification system and the network performance verification method of the present invention, the information related to the call processing time actually processed in the communication network, particularly the start time information of the corresponding call recorded in the billing information of each call is obtained, Based on the probability density of each call start time interval based on the start time interval, especially the probability density of each call start time interval based on the normal distribution, the call generation interval table for generating the verification call is generated by generating the call generation interval table. Modeling may be performed, and verification simulation may be performed to verify the stability of the communication network by generating / applying a verification call based on the modeling result.

Therefore, according to the network performance verification system and the network performance verification method of the present invention, modeling for generation of a verification call is performed by applying information related to a call processing time actually processed in a communication network, and a verification call is generated based on the modeling result. By performing verification simulation to verify the stability of the communication network by generating / applying, it is possible to secure verification accuracy and reliability by performing verification simulation with a call pattern occurring in a commercial network environment.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

1 is a diagram illustrating a network performance verification system according to a preferred embodiment of the present invention.

As shown in FIG. 1, the network performance verification system according to the present invention includes a communication network 100 that provides a communication service by processing a call corresponding to at least one terminal device 1. Acquire a time information related to the processing time of each call processed through the communication network 100 for a predetermined acquisition time, and the call for the verification call based on the start time interval between each call recognized based on the obtained time information of each call And a communication network verification device 200 generating a generation interval table, generating a verification call based on the call generation interval table, and applying the verification call to a communication network (for example, the communication network 100).

Here, the at least one terminal device 1... 10 may be a type of a terminal using a communication service by transmitting and receiving a voice call or data call through the communication network 100.

In addition, the communication network 100, which is the basis for obtaining time information related to the processing time of the call from the communication network verification apparatus 200, processes a call corresponding to at least one terminal device (1 ... 10) and the corresponding terminal device. (1 ... 10) A communication system employing system configurations for providing a communication service to each of them, wherein the switching device 110 and the location registration device, which is a system configuration generally adopted in the mobile communication system as shown in FIG. It may be a mobile communication network including the (120) and the like.

Here, the exchange apparatus 100 may include an originating exchange and a destination exchange for performing voice call processing such as setting up a voice call call and transmitting and receiving call data when considering a voice service, and a data call when considering a data service. It may include a Serving GPRS Support Node, a GPRS-General Packet Radio Service (SGSN) and a Gateway GPRS Support Node (GPRS-General Packet Radio Service), which perform data call processing such as session establishment and data transmission and reception.

The communication network verification apparatus 200 obtains time information related to a processing time of each call processed through the communication network 100 for a predetermined acquisition time, and starts between each call recognized based on the obtained time information of each call. Generate a call generation interval table for the verification call based on the time interval, generate a verification call based on the call occurrence interval table and apply it to the communication target network (eg, the communication network 100), thereby verifying the communication network (example) : Performance verification, that is, stability for the communication network 100, may be performed.

Here, in FIG. 1, a communication network (eg, a communication network that verifies a verification call based on a call generation interval table generated by the communication network verification apparatus 200 based on time information related to a processing time of each call processed through the communication network 100). 100)) to verify the performance, that is, the stability of the communication network 100, but if the communication target network is another communication network (not shown), the network verification device 200 is processing time of each call processed through the communication network 100 The verification call based on the call origination interval table generated based on the time information related to the ACK shall be applied to another communication network (not shown).

Hereinafter, with reference to Figure 2 will be described the configuration of a preferred network verification apparatus 200 according to a preferred embodiment of the present invention.

The communication network verification apparatus 200 according to the present invention includes an information acquisition unit 210 for obtaining time information related to a processing time of each call processed through a predetermined communication network (for example, the communication network 100) during a predetermined acquisition time. And a table generator 220 for generating a call generation interval table for the verification call based on the start time interval between the calls recognized based on the time information of each call acquired through the information acquisition unit 210, And a verification call generation unit 230 for generating a verification call based on the call occurrence interval table and applying the verification call to a communication network (for example, the communication network 100).

The information acquisition unit 210 obtains time information related to a processing time of each call processed through a predetermined communication network (for example, the communication network 100) during a predetermined acquisition time. Here, the information acquisition unit 210 may obtain time information related to the processing time of each call processed through the communication network 100 from the communication network 100 or may be obtained from another communication network (not shown).

More specifically, the information acquisition unit 210, when a predetermined information acquisition event occurs, time information related to the processing time of each call processed through the communication network (for example, the communication network 100) for a predetermined predetermined acquisition time. Acquire. At this time, the predetermined information acquisition event, the information acquisition is selected by the operator of the communication network verification apparatus 200, or a predetermined time set by the operator (for example, daily X time, monthly X day Y time, cycle time (20 Time, elapsed, etc.). In addition, the preset acquisition time may mean a preset time (eg, 24 hours, 30 days, etc.) by an operator of the communication network verification apparatus 200.

Thus, the information acquisition unit 210 is processed through the communication network (for example, the communication network 100) during the acquisition time (for example, 24 hours) when an information acquisition event occurs (for example, each month reaches X time Y time). Obtain time information related to the processing time of each call. At this time, the information acquisition unit 210 obtains the billing information corresponding to each call processed through the communication network 100 during the acquisition time and extracts the start time information of the corresponding call recorded in the billing information of each call obtained, Preferably, start time information of a call is obtained as the time information.

In general, in the case of a voice service, when a terminal device (for example, the terminal device 1) delivers a Setup message to the switching device 110, the originating exchange included in the switching device 110 is an IAM (Initial Address Message) to the destination exchange. When a message is received and ANM (Answer Message) is received from the destination exchange, the originating exchange generates the charge information (CDR) by indicating the start time of the mobile origination call and provides it to the charging server.

Meanwhile, in the case of data service, when the terminal device (for example, the terminal device 10) transmits an Activate PDP Context Request for using the data service to the exchange device 110, the SGSN included in the exchange device 110 is referred to as GGSN. Deliver Create PDP Context Request. At this time, SGSN and GGSN display the data call start time in S-CDR and G-CDR, respectively, to generate the generated billing information and provide it to the billing server.

Accordingly, the information acquisition unit 210 is processed through the communication network 100 during the acquisition time from the switching device 110 in the communication network 100 or from a charging server (not shown) located in another communication network (not shown). Acquiring the billing information corresponding to the call, extracting the start time information of the corresponding call recorded in the billing information of each call obtained, it is possible to obtain the start time information of each call as the time information.

The table generator 220 generates a call generation interval table for the verification call based on the start time interval between the calls recognized based on the time information of each call acquired through the information acquisition unit 210.

In more detail, the table generator 220 derives the start time interval between calls by calculating the start time interval between each call based on the start time information of each call obtained through the information acquisition unit 210. . For example, the starting time interval between calls can be derived as shown in Table 1 below.

Table 1.

No. Start time of call (T) Start time interval (S), milisec One 2009/06/10 13: 10: 0.000 0 2 2009/06/10 13: 10: 0.005 5 3 2009/06/10 13: 10: 0.010 5 4 2009/06/10 13: 10: 0.012 2 5 2009/06/10 13: 10: 0.023 11 6 2009/06/10 13: 10: 0.100 77 7 2009/06/10 13: 10: 0.102 2 8 2009/06/10 13: 10: 0.110 8 9 2009/06/10 13: 10: 0.115 5 10 2009/06/10 13: 10: 0.120 5 ... ...

That is, the information acquisition unit 210 obtains the start time information (T) of each call based on the charging information for the calls (1) to (10) ... processed in the communication network 100 during the acquisition time, The table generation unit 220 derives the start time interval S between calls by calculating the start time interval between each call based on the start time information of each call obtained through the information acquisition unit 210. Here, the derivation of the start time interval (S) between these calls by the information acquisition unit 210 may be calculated by an automatic calculation tool based on the start time information of each call obtained through the information acquisition unit 210, or It may be calculated by a manual calculation tool operated by the operator to calculate based on the start time information of each call obtained through the information acquisition unit 210.

The table generation unit 220 generates a call generation interval table corresponding to each start time interval based on the call start frequency for each start time interval based on the derived call start time interval S. Can be.

To illustrate a preferred example, the table generator 220 derives an average (μ) and a standard deviation (σ) based on the derived start time interval S between the calls, and derives the average (μ) and the standard. The probability density for each start time interval (S) is calculated by applying the deviation (σ) to the probability density function. Accordingly, the table generator 220 may calculate the call start frequency for each start time interval S between each call, for example, a probability density.

)에 대해서 확률밀도함수 f(x)에 대입하여 각각의 호 간 시작시간간격(S)에 대한 확률밀도를 계산한다. 여기서,

는 표준편차(σ)의 제곱값인 분산이다. 예를 들어, 평균(μ)은 13.3 이고 분산(

)은 5 라고 가정하면, 테이블생성부(220)는, 정규분포 N(13.3, 5)에 대해서 하래와 같은 확률밀도함수 f(x)에 대입하여 각각의 호 간 시 작시간간격(S)에 대한 확률밀도를 계산한다.That is, the table generation unit 220, the table 1. On the basis of the call start time interval S derived as described above, an average μ and a standard deviation σ of the start time interval S are derived. And, the table generating unit 220, the call start time interval (S) to the normal distribution N (μ,

) And calculate the probability density for each call start time interval (S) by substituting the probability density function f (x) for. here,

Is the variance that is the square of the standard deviation σ. For example, the mean (μ) is 13.3 and the variance (

Assuming that 5 is 5, the table generation unit 220 substitutes the probability density function f (x) as shown below for the normal distribution N (13.3, 5) to each call start time interval (S). Calculate the probability density for

Then, f is applied by applying a scale variable K (e.g. MAX / MIN value according to a predefined rule) to the probability density calculated for each call start time interval (S) through the probability density function f (x). By calculating the '(x) value, the table generation unit 220 includes the following call generation interval table including probability density f (x) for each start time interval (S) between each call and f' (x) applied to K. You can create 1. Here, it is assumed that the MIN value of the start time interval S between each call is 1 and the MAX value is 500, and K = 500.

Call occurrence interval table 1.

Call start time interval
(S = x), milisec Probability density f (x)  f '(x) = f (x) * 500 One 0.001 0.5 2 0.002 One 3 0.005 2.5 4 0.01 5 5 0.012 6 6 0.02 10 7 0.05 25 8 0.1 50 9 0.15 75 10 0.2 100 ... Sum = 1 Sum = 500

That is, the table generator 220 calculates a start time interval between calls based on the start time information of each call obtained through the information acquisition unit 210, and derives a start time interval S between calls and derives it. Based on the call start frequency of each call start time interval (S), specifically, the call occurrence interval table as described in the above call occurrence interval table 1. Can be generated.

The verification call generation unit 230 generates a verification call based on the call generation interval table generated by the table generation unit 220 and applies the verification call to a communication network (for example, the communication network 100) to be verified.

Specifically, the verification call generation unit 230 sequentially starts the corresponding call start time interval from the minimum or maximum call start time interval based on the frequency or probability density for each call start time interval included in the call occurrence interval table. A verification call is generated according to a predetermined number of times corresponding to the corresponding frequency or probability density. For example, the verification call generation unit 230 is based on the probability density (f (x) or (f '(x))) for each call start time interval S included in the call generation interval table 1. described above. From the minimum or maximum (e.g., minimum call start time interval (S) = 1), verify according to the number of times corresponding to the probability density (e.g. (f '(x))) of the start time interval between the corresponding calls. Create an arc.

Accordingly, the application table in which the verification call generation unit 230 sequentially generates the verification call from the minimum call start time interval S = 1 based on the call generation interval table 1. will be as follows.

Application table.

Validation call order Call start time interval
(S = x), milisec One 2 2 3 3 3 4 4 5 4 6 4 7 4 8 4 9 5 10 5 ... ...

That is, the verification call generation unit 230 performs the rounding operation because the probability density (eg, (f '(x))) of the minimum call start time interval S = 1 is 0.5 based on the call occurrence interval table 1. Recognize the number of times as 0, and the probability density (for example, (f '(x))) of the start time interval (S) = 2 between the next issue is 1, so the number is recognized as 1 by applying the decimation Since the probability density of the start time interval (S) = 3 (for example, (f '(x))) is 2.5, the number of times is recognized as 2 by applying the decimation operation, and the start time interval (S) = 4 probability of the next issue. Since the density (e.g., (f '(x))) is 5, the number is recognized as 5 by applying the arithmetic operation, and the probability density (e.g. (f' (x))) of the start time interval (S) = 5 between the next issue. ) Is 6, so that the recognition process of recognizing the number 6 by applying the decrement operation is performed up to the maximum call start time interval S, so that verification calls can be generated sequentially as in the above-described application table. .

That is, as can be seen from the above-described application table. The verification call generation unit 230 does not apply the inter-call start time interval S = 1, which is recognized as 0 when generating the verification call, and the number is 1; According to the recognized call start time interval (S) = 2, the first verification call is generated in 2 milisec and applied to the communication network (for example, the communication network 100) to be verified, and the call start time interval recognized as 2 According to (S) = 3, a second verification call is generated after 3 milisec and applied to the communication network (for example, the communication network 100) to be verified, and a third verification call is generated after 3 milisec, and the communication network (for example, the communication network (100) is generated. 4) after 4 milisec is generated according to the start time interval (S) = 4 where the number is 5, and applied to the communication network (for example, the communication network 100) to be verified and 4 milisec. Later, a fifth verification call is generated and applied to the communication network (eg, the communication network 100) to be verified and 4 milisec. Create a sixth verification call on the network to be verified (e.g., communication network 100) and apply it to the network to be verified (4) after 4 milisec. A process of generating a second verification call and applying the verification call to a communication target network (for example, the communication network 100) will be performed.

Accordingly, the communication network verification apparatus 200 according to the present invention applies the verification call generated by the verification call generation unit 230 to the communication network (for example, the communication network 100) that is the verification target in the communication network (for example, the communication network 100). By collecting and analyzing the result of the call processing, it is possible to verify the performance, that is, stability of the communication network (for example, the communication network 100) that is the verification call.

As described above, the communication network performance verification system according to the present invention obtains information related to the call processing time actually processed in the communication network, in particular, the start time information of the corresponding call recorded in the billing information of each call, and starts the call between calls. Modeling for verification call generation by creating a call generation interval table for generating a verification call based on the probability of starting a call between each call start time interval based on a time interval, in particular, the probability density of each call start interval between normal calls. The verification simulation can be performed to verify the stability of the communication network by generating / applying a verification call based on the modeling result.

Therefore, the network performance verification system according to the present invention performs modeling for generation of a verification call by applying information related to a call processing time actually processed in the communication network, and generates / applies a verification call based on the modeling result. By performing verification simulation to verify the stability of the network, verification accuracy and reliability can be secured by performing verification simulation with the call pattern occurring in the actual commercial network environment.

Hereinafter, a communication network performance verification method according to a preferred embodiment of the present invention will be described with reference to FIGS. 3 and 4. Here, for the convenience of description, the configuration shown in FIGS. 1 and 2 described above will be described with reference to the corresponding reference numerals.

First, a method of verifying a network performance according to the present invention will be described with reference to FIG. 3.

The communication network performance verification method according to the present invention provides a communication service by processing a call corresponding to at least one terminal device (1 ... 10) in the communication network (100) (S20 to S35).

That is, when a call attempt for a voice service is transmitted from the terminal device 1 to the switching device 110 in the communication network 100 (S20), the corresponding system components including the switching device 110 process the corresponding call. The call processing is performed in the communication network 100 (S22), and thus, the terminal device 1 may receive a communication service, that is, a requested voice service, through the communication network 100 (S25). In addition, when a call attempt for data service is transmitted from the terminal device 10 to the switching device 110 in the communication network 100 (S30), the corresponding system components including the switching device 110 process the corresponding call. Call processing is performed in the communication network 100 (S32), and thus, the terminal device 1 may receive a communication service, that is, a requested data service, through the communication network 100 (S35).

Meanwhile, according to the communication network performance verification method according to the present invention, the communication network verification apparatus 200 obtains time information related to the processing time of each call processed through the communication network 100 during a predetermined acquisition time (S10). Thus, the time information for the calls of steps S20 to S35 processed by the communication network 100 during the acquisition time will also be obtained by the communication network verification apparatus 200.

In addition, the communication network verification apparatus 200 generates a call generation interval table for the verification call based on the start time interval between the calls recognized based on the time information of each call acquired during the acquisition time (S40). Accordingly, the communication network verification apparatus 200 generates a verification call based on the generated call generation interval table (S50), and applies the verification call generated to the communication network (for example, the communication network 100) to be verified (S60).

Accordingly, the communication network verification apparatus 200 collects the processing result of the call processing in the communication network (for example, the communication network 100) by applying a verification call to the communication network (for example, the communication network 100) that is the verification target (S70). By (S80), the verification call will be able to verify the performance, that is, the stability of the communication network (eg, the communication network 100) to be verified.

Hereinafter, a communication network performance verification method of the communication network verification apparatus 200 according to the present invention will be described in more detail with reference to FIG. 4.

Hereinafter, a communication network performance verification method of the communication network verification apparatus 200 according to the present invention will be described in more detail with reference to FIG. 4.

First, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention determines whether a predetermined information acquisition event occurs (S100). In the preset information acquisition event, information acquisition is selected by an operator of the communication network verification apparatus 200, or a specific time set by the operator (for example, daily X time, monthly X day Y time, and cycle time (20 hours)). Elapsed, etc.).

Therefore, when an information acquisition event occurs (e.g., each month reaches X time Y time), the communication network performance verification method of the communication network verifying apparatus 200 according to the present invention includes a communication network (e.g., 24 hours) during an acquisition time (e.g., 24 hours). Time information related to the processing time of each call processed through the communication network 100 is obtained (S110). Here, the preset acquisition time may mean a preset time (eg, 24 hours, 30 days, etc.) by the operator of the communication network verification apparatus 200.

At this time, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention, in step S110 acquires the billing information corresponding to each call processed through the communication network 100 during the acquisition time to the billing information of each call obtained It is preferable to extract recorded start time information of the corresponding call, and to obtain start time information of each call as the time information.

And, the network performance verification method of the communication network verification apparatus 200 according to the present invention, depending on whether the acquisition time (for example, 24 hours) has elapsed (S130), terminate the information acquisition process or repeat the steps S110 and S120 To continue the information acquisition process.

After the acquisition time has elapsed and the information acquisition process is finished, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention is based on the start time interval between each call recognized based on the obtained time information of each call, Generate a call generation interval table for the verification call (S140 ~ S150).

More specifically, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention, the start time interval between the call is derived by calculating the start time interval between each call based on the obtained start time information of each call. (S140). For example, it may be possible to derive the start time interval between calls as shown in Table 1 above. That is, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention, each obtained based on the charging information for the call (1) to call (10) ... processed in the communication network 100 during the acquisition time Based on the start time information (T) of the call, the start time interval S between each call is derived.

 In addition, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention, based on the derived call start frequency for each start time interval based on the start time interval (S) of the call between each start time interval frequency for each start time interval; A corresponding call generation interval table may be generated (S150).

Referring to a preferred example, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention, derives the average (μ) and the standard deviation (σ) based on the derived start time interval (S) between calls and The probability density for each start time interval (S) is calculated by applying the derived mean (μ) and standard deviation (σ) to the probability density function. Thus, in the network performance verification method of the communication network verification apparatus 200 according to the present invention, the call start frequency for each start time interval (S) between each call, it is possible to calculate the probability density as a specific example.

)에 대해서 확률밀도함수 f(x)에 대입하여 각각의 호 간 시작시간간격(S)에 대한 확률밀도를 계산한다. 여기서,

는 표준편차(σ)의 제곱값인 분산이다. 예를 들어, 평균(μ)은 13.3 이고 분산(

)은 5 라고 가정하면, 본 발명에 따른 통신망검증장치(200)의 통신망 성능 검증 방법은, 정규분포 N(13.3, 5)에 대해서 하래와 같은 확률밀도함수 f(x)에 대입하여 각각의 호 간 시작시간간격(S)에 대한 확률밀도를 계산한다.That is, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention, Table 1. On the basis of the call start time interval S derived as described above, an average μ and a standard deviation σ of the start time interval S are derived. In addition, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention, the start time interval (S) between calls to the normal distribution N (μ,

) And calculate the probability density for each call start time interval (S) by substituting the probability density function f (x) for. here,

Is the variance that is the square of the standard deviation σ. For example, the mean (μ) is 13.3 and the variance (

Assuming that 5 is 5, the network performance verification method of the network verification apparatus 200 according to the present invention substitutes the probability density function f (x) as shown below with respect to the normal distribution N (13.3, 5). The probability density for the start time interval (S) of the liver is calculated.

Then, f is applied by applying a scale variable K (e.g. MAX / MIN value according to a predefined rule) to the probability density calculated for each call start time interval (S) through the probability density function f (x). '(x) value is calculated, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention, probability density f (x) for each start time interval (S) between each call, apply f' (x) It can generate the above-mentioned call generation interval table 1. including.

That is, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention, by deriving the start time interval (S) between calls by calculating the start time interval between each call based on the start time information of each call obtained, and derive A call origination lookup table such as the above call origination interval table corresponding to the frequency of each start time interval based on the call start frequency for each call start time interval (S), specifically, the probability density by normal distribution. Can be generated.

In addition, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention generates a verification call based on the call generation interval table generated in step S150 and applies it to a communication network (for example, the communication network 100) to be verified. (S160).

Specifically, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention, based on the frequency or probability density for each call start time interval included in the call generation interval table, the minimum or maximum call start time A verification call is generated according to a predetermined number of times corresponding to the corresponding frequency or probability density of the call start time interval from the interval sequentially.

For example, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention includes a probability density f (x) for each start time interval S between calls included in the call generation interval table 1. based on (f '(x))), starting from the minimum or maximum (e.g., minimum arc start time interval (S) = 1), the probability density (e.g., (f' (x) The verification call is generated according to the number of times corresponding to))).

Accordingly, according to the communication network performance verification method of the communication network verification apparatus 200 according to the present invention, based on the call generation interval table 1. described above to generate the verification call sequentially from the minimum call start time interval (S) = 1 The application table is the application table described above. May be the same as

That is, the communication network performance verification method of the communication network verification apparatus 200 according to the present invention, based on the call generation interval table 1. The probability density of the minimum call start time interval (S) = 1 (for example, (f '( x))) is 0.5 so that the number is recognized as 0 by applying arithmetic operation, and since the probability density (for example, (f '(x))) is 1 at the start time interval (S) = 2 between the next issue, Recognize the number of times as 1, and since the probability density of starting time interval (S) = 3 between the next issue (e.g. (f '(x))) is 2.5, the number is applied as 2 by applying the decimation operation, and the next issue starts. Since the probability density of time interval (S) = 4 (e.g. (f '(x))) is 5, the number of times is recognized as 5 by applying the decimation operation, and the probability density (S) = 5 between the start time interval of the next issue ( Example: Since (f '(x))) is 6, the cognitive process that recognizes the number as 6 by applying the decimation operation is performed up to the start time interval (S) between the arcs, and then sequentially as shown in the application table described above. Generate validation arc Can be performed.

That is, as can be seen from the above-described application table. In the network performance verification method of the network verification apparatus 200 according to the present invention, the start time interval (S) between calls, the number of times is recognized as 0 when generating a verification call = 1 Does not apply, and generates the first verification call in 2 milisec according to the starting time interval (S) = 2 where the number is recognized as 1 and applies it to the communication network (for example, the communication network 100) to be verified. It is recognized as 2, and after 3 milisec, the second verification call is generated after 3 milisec according to the start time interval (S) = 3 between calls, and the third verification call is generated after 3 milisec. Applied to the communication network (eg, communication network 100) to be verified, and generates a fourth verification call after 4 milisec according to the start time interval (S) = 4 between the number of times recognized as 5, (100)) and generate a fifth verification call after 4 milisec. 4th milisec is applied to the trust network (for example, communication network 100) and generates a sixth verification call after verification, and 4th milisec is applied to the communication network (for example, communication network 100). Example: After applying to the communication network (100), and generates an eighth verification call after 4 milisec, the process to apply to the communication network (for example, the communication network 100) to be verified.

 As described above, the communication network performance verification method according to the present invention, by obtaining the information related to the call processing time actually processed in the communication network, in particular, the start time information of the corresponding call recorded in the billing information of each call, the inter-call start A call generation interval table for generating a verification call is generated by generating a call generation interval table for generating a verification call based on the probability of starting a call between each call starting time interval based on the time interval, in particular, a probability density for each call starting interval between normal calls. Modeling may be performed, and verification simulation may be performed to verify the stability of the communication network by generating / applying a verification call based on the modeling result.

Therefore, according to the present invention, a method for verifying a network performance performs modeling for generating a verification call by applying information related to a call processing time actually processed in a communication network, and generates / applies a verification call based on the modeling result. By performing verification simulation to verify the stability of the network, verification accuracy and reliability can be secured by performing verification simulation with the call pattern occurring in the actual commercial network environment.

Although the present invention has been described in detail with reference to preferred embodiments, the present invention is not limited to the above-described embodiments, and the technical field to which the present invention belongs without departing from the gist of the present invention as claimed in the following claims. Anyone skilled in the art will have the technical idea of the present invention to the extent that various modifications or changes are possible.

In practice, modeling for verification call generation is applied by applying information related to call processing time processed in the communication network, and verification simulation is performed to verify the stability of the communication network by generating / applying a verification call based on the modeling result. When applying the network performance verification system and the network performance verification method that can perform verification simulation with a call pattern occurring in a commercial network environment, the accuracy and reliability of the network performance and stability verification, as well as the efficiency of the verification, In terms of service satisfaction, it is possible to make great strides, and there is not only a good possibility of marketing or sales of the applied network verification equipment and verification service solution, but also it can be clearly implemented in reality.

1 is a control block diagram of a communication network performance verification system according to a preferred embodiment of the present invention.

2 is a control block diagram of a communication network verification apparatus according to a preferred embodiment of the present invention.

3 is a flowchart illustrating a control flow of a method for verifying network performance according to a preferred embodiment of the present invention.

4 is a flowchart illustrating a control flow of a communication network performance verification method of a communication network verification apparatus according to an exemplary embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

1 ... 10: terminal equipment

100: communication network

110: exchange device

120: location registration device

200: communication network verification device

Claims (12)

A communication network processing a call corresponding to at least one terminal device to provide a communication service; And Acquire time information related to processing time of each call processed through the communication network for a predetermined acquisition time, and call for verification call based on the start time interval between each call recognized based on the obtained time information of each call. And a communication network verification device for generating a generation interval table, generating a verification call based on the call generation interval table, and applying the verification call to a communication target network. An information obtaining unit obtaining time information related to a processing time of each call processed through a predetermined communication network for a predetermined predetermined obtaining time; A table generation unit generating a call generation interval table for a verification call based on a start time interval between calls that are recognized based on time information of each call acquired through the information acquisition unit; And And a verification call generation unit generating a verification call based on the call occurrence interval table and applying the verification call to a communication network to be verified. The method of claim 2, The information acquisition unit, Acquiring the billing information corresponding to each call processed through the communication network during the acquisition time, extracting the start time information of the corresponding call recorded in the billing information of each call obtained, and obtaining the start time information of each call as the time information. Communication network verification apparatus, characterized in that. The method of claim 3, wherein The table generation unit, The start time interval between calls is derived by calculating the start time interval between each call based on the start time information of each call obtained through the information acquisition unit, and the call start for each start time interval based on the derived start time interval between calls. And generating the call generation interval table corresponding to the frequency for each start time interval based on the frequency. The method of claim 3, wherein The table generation unit, A starting time interval between calls is derived by calculating start time intervals between each call based on the start time information of each call obtained through the information acquisition unit, and an average (μ) derived based on the derived start time interval between calls. And calculating a probability density for each start time interval by applying a standard deviation (σ) to a probability density function, and generating the call generation interval table based on the probability density for each start time interval. The method according to claim 4 or 5, The verification call generation unit, Based on the frequency or probability density for each start time interval included in the call occurrence interval table, a verification call is performed according to a predetermined number of times corresponding to the corresponding frequency or probability density of the corresponding start time interval sequentially from the minimum or maximum start time interval. Communication network verification apparatus, characterized in that to produce. Providing a communication service by processing a call corresponding to at least one terminal device in a communication network; Obtaining, by the network verification apparatus, time information related to a processing time of each call processed through the communication network for a predetermined acquisition time; Generating a call generation interval table for a verification call based on a start time interval between calls that are recognized based on time information of each call acquired by the communication network verification apparatus; And And generating, by the network verification apparatus, a verification call based on the call occurrence interval table, and applying the verification call to a communication target network. An information acquisition step of acquiring time information related to a processing time of each call processed through a predetermined communication network for a predetermined predetermined acquisition time; A table generation step of generating a call generation interval table for a verification call on the basis of a start time interval between each call recognized based on the obtained time information of each call; And And a verification call generation step of generating a verification call based on the call occurrence interval table and applying the verification call to a communication target network. The method of claim 8, The information acquisition step, Acquiring charging information corresponding to each call processed through the communication network during the acquisition time; And extracting start time information of the corresponding call recorded in the charging information of each call obtained, and obtaining start time information of each call as the time information. The method of claim 9, The table generation step, Deriving a start time interval between calls by calculating a start time interval between each call based on the obtained start time information of each call; And generating the call generation interval table corresponding to the frequency for each start time interval based on the derived call start frequency for each start time interval based on the derived call start time interval of the communication network verification apparatus. How to verify network performance. The method of claim 9, The table generation step, Deriving a start time interval between calls by calculating a start time interval between each call based on the obtained start time information of each call; The probability density for each start time interval is calculated by applying the mean (μ) and the standard deviation (σ) derived based on the start time interval between the derived calls to the probability density function, and based on the probability density for each start time interval. And generating the call generation interval table to verify the communication network performance of the communication network verification apparatus. The method of claim 10 or 11, The verification call generation step, Based on the frequency or probability density for each start time interval included in the call occurrence interval table, a verification call is performed according to a predetermined number of times corresponding to the corresponding frequency or probability density of the corresponding start time interval sequentially from the minimum or maximum start time interval. A communication network performance verification method of a communication network verification apparatus, characterized in that the generation.

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