JP4463966B2 - Communication rate measuring device, communication rate measuring method, recording medium recording communication rate measuring program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a communication rate measuring device for measuring whether any user terminal is within a communicable range in mobile communication, and particularly recognizes that the user of the user terminal is measuring the communication rate. It relates to a measurement method in which the mobile communication business side measures the communication rate.
[0002]
[Prior art]
Conventionally, the communication test apparatus is performed on a fixed communication network such as ISDN. On the other hand, in the case of measuring whether or not an arbitrary user terminal is within a communication range in mobile communication, an investigator is dispatched around the base station to perform a field survey. Specifically, investigators went to various areas holding user terminals and manually checked whether the call could be connected and calculated the communication rate based on the history. The communication rate is an important indicator of whether or not a user can make a call. For mobile operators, it is extremely important as market information when creating a base station deployment plan and flexibly changing the area of a base station. Useful.
[0003]
[Problems to be solved by the invention]
However, with the conventional method, it is necessary for the investigator to visit the user terminal in various areas, and it is inefficient because many investigators are required to obtain many samples related to communication. There was a problem. Therefore, it is possible to make a phone call to the user terminal for the test of the communication rate, but there is a possibility that it may be unpleasant for the user of the user terminal to make a phone call to the user terminal for a mere test, There was a problem of lack of feasibility. SUMMARY OF THE INVENTION An object of the present invention is to solve the above-described problems, and to provide a communication rate measuring apparatus capable of performing accurately and efficiently whether or not any user terminal is within a communication range in mobile communication.
[0004]
[Means for Solving the Problems]
Communication rate measuring apparatus of the present invention to solve the above problems, as shown in FIG. 2, the communication rate measuring apparatus for measuring a communication rate of a Subscriber terminal 20 that put the mobile communication network using a public network 80 When the user terminal 20 makes an incoming / outgoing call, the authentication station 70 determines whether or not the user terminal 20 is valid, and includes the calling telephone number determined by the authentication station 70 as illegal from the user database 40 create a call list, the call center 30 to call the pseudo incoming call to the user terminal 20 addressed according to the call list, the user terminal 20 receives the pseudo incoming call calling center 30 originates a call of performed paging, the base station 10 to create a call record by measuring the number of the paging has been a Subscriber terminal 20 connected to the sparse collects call record created in the base station 10 A collection center 60 for calculating the rate; Characterized in that it.
[0005]
In the apparatus configured as described above, the calling center 30 creates a call list from the user database 40 and calls a pseudo incoming call to the user terminal 20 via the public network 80 according to the call list. The user database 40, information of a user who has a contract with the mobile communication network operators are stored in a database, telephone number, name, current address, to claim age, fee course, the price for such monthly fee It has necessary data items . Pseudo incoming call becomes a no-ringing and no history at the user terminal, the user is intended to not at all aware that for which the incoming call. The call record creating means 50 creates a call record by measuring the number of simultaneous calls made by a pseudo incoming call and the number of user terminals connected to the simultaneous call. Provided. The collection center 60 collects the call records created by the call record creation means 50 and calculates the communication rate, and measures the communication rate that gives a bird's-eye view of the entire mobile communication network from the call records collected from each base station. it can.
Further, as shown in FIG. 4, a call originated from the call center 30 to the user terminal 20 is assigned a call telephone number that the certification authority 70 determines to be illegal. Since only the certificate authority 70 needs to be modified, there is an advantage that the cost of modifying the equipment can be reduced.
[0007]
Preferably, the calling center 30 issues a pseudo incoming call using the pseudo incoming call setup signal to the user terminal 20 according to the outgoing call list , and the base station 10 receives the pseudo incoming call setup signal when receiving the pseudo incoming call setup signal. It recognizes that it is a call performs paging of the user terminal 20, the user terminal which the simultaneous measures the number of connected user terminal 20 to the call is the connection to the number of the paging The number of 20 is transmitted to the collection center 60 together with the base station identification information . A pseudo incoming call using the pseudo incoming call setup signal is called by the calling center 30 to which a special telephone number is assigned in advance. However, the certificate authority 70 determines that it is illegal. The base station identification information is used for the collection center 60 to recognize individual base stations. In the collection center 60, the communication rate for each area in charge of the individual base station can be grasped from the base station identification information.
[0008]
As shown in FIG. 7, the communication rate measuring apparatus of the present invention that solves the above problem is a communication rate measuring apparatus that measures the communication rate of a user terminal 20 in a mobile communication network using a public network 80. A calling list is created from the database 40, and a calling center 30 that calls a pseudo incoming call using a pseudo incoming call setup signal to the user terminal 20 according to the calling list, and the calling center 30 makes a call. When the pseudo incoming call setup signal is received, it is recognized that the incoming call is a pseudo incoming call, and the user terminal 20 is collectively called, and the number of user terminals 20 connected to the simultaneous call is measured and the user is measured. A base station 10 that disconnects the connection with the terminal 20 and creates a call record including the number of simultaneous calls, the number of the connected user terminals 20 and base station identification information; Characterized by comprising a collection center 60 for calculating a collect and communicate rate call record form. Since the base station 10 makes a pseudo incoming call after disconnecting the connection with the user terminal 20 after the user terminal 20 responds to the incoming call signal and before transmitting the setup signal to the user terminal 20. The load on the mobile communication network can be reduced compared to the case where a pseudo incoming call is made via the mobile communication network like a certificate authority.
[0009]
As shown in FIG. 10, the communication rate measuring apparatus of the present invention that solves the above problem is a communication rate measuring apparatus that measures the communication rate of a user terminal 20 in a mobile communication network using a public network 80. A calling list is created from the database 40, and a calling center 30 that calls a pseudo incoming call using a pseudo incoming call setup signal to the user terminal 20 according to the calling list, and the calling center 30 makes a call. A base station 10 that receives a pseudo-incoming call, performs a general call of the user terminals 20, measures the number of user terminals 20 connected to the simultaneous call and creates a call record, and the base station 10 and a collection center 60 for calculating a collect and communicate rate created call record, the user terminal 20, when receiving a call using the setup signal for the pseudo incoming ring operation and incoming call history It characterized by cutting the call before performing exist. Since the user terminal 20 is remodeled, the realization cost of the pseudo incoming call is increased due to the production increase effect of the user terminal 20 in comparison with the case where the mobile terminal such as the base station 10 or the authentication station 70 supports the pseudo incoming call. Becomes cheaper.
[0010]
Preferably, the base station 10, the Upon receiving the pseudo incoming a setup signal recognition to perform the paging of the user terminal 20 that is a pseudo incoming call, the user terminal 20 connected to this paging the number of measures, transmits the number of the number of simultaneous calls between said connected the user terminal 20 with the base station identification information to the collection center 60.
[0011]
Communication rate measurement method of the present invention for solving the above-Te communication rate measuring method odor of measuring the communication rate of a Subscriber terminal 20 that put the mobile communication network using a public network 80, from the user database 40 Then, a call list including a calling telephone number determined to be illegal by the certification authority 70 is created, a pseudo incoming call is made to the user terminal 20 according to the created call list , and the pseudo call received Is received and the user terminal 20 is collectively called, the number of user terminals 20 connected to the simultaneous call is measured to create a call record, and the certificate authority 70 receives the user terminal 20 when the outgoing, and characterized in that the user terminal 20 to determine legitimate or not, when the determination result is negative, it calculates a collect and communicate rate call record created in the above To do .
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram illustrating an embodiment of the present invention. Here, a PHS (Personal Handyphone System) will be described as an example of the mobile communication network. In a mobile communication network, a base station 10, a calling center 30, a collection center 60, and an authentication station are provided by a public network 80 such as a subscriber line network or an ISDN (Integrated Services Digital Network) network constructed by a local telephone carrier. 70 is connected. A call is connected between the base station 10 and the user terminal 20 by radio in a predetermined frequency band. Communication between the base station 10 and the user terminal 20 uses a frequency band limited by a predetermined communication protocol in a time division manner, and the line capacity that can secure a call connection at a time is limited. Further, when there is an obstacle such as a building, the radio wave strength between the base station 10 and the user terminal 20 may be significantly attenuated, making it difficult to connect the call.
[0013]
The call center 30 creates a call list from the user database 40 and makes a pseudo incoming call to the user terminal 20 according to the call list via the public network 80. In the calling list, telephone numbers of user terminals extracted from the user database 40 are listed. The pseudo-incoming call has no ringing and no history on the user terminal side, and does not make the user aware of the incoming call at all. The user database 40 is a database of information of users who have contracted with a mobile communication network operator, and is used to request a fee such as a telephone number, name, current address, age, fee course, monthly usage fee, etc. Has the necessary data items. The call record creating means 50 creates a call record by measuring the number of user terminals connected to a simultaneous call by a pseudo incoming call, and is provided in each base station 10, for example. The collection center 60 collects the call records created by the call record creation means 50, and can measure the communication rate of bird's-eye view of the entire mobile communication network from the call records collected from each base station.
[0014]
In the apparatus configured as described above, the calling center 30 creates a calling list from the user database 40 ((1)). Note that the user database 40 is used only when a survey target is arbitrarily extracted under certain conditions, and is not used as personal data of the user. Next, the calling center 30 calls a pseudo incoming call to the user terminal 20 via the public network 80 according to the call list ((2)). The call record creating means 50 creates the call record by measuring the number of user terminals connected to the simultaneous call by the pseudo incoming call ((3)). Next, the call record creating means 50 transmits the call record to the collection center 60 (4). The collection center 60 calculates the communication rate by summing up the number of user terminals connected to the simultaneous call by the pseudo incoming call from the call record transmitted from the call record creating means 50 ((5)).
[0015]
FIG. 2 is a configuration block diagram for making a pseudo incoming call by devising the certificate authority on the mobile communication network side. 2 that have the same functions as those in FIG. 1 are denoted by the same reference numerals and description thereof is omitted. In the figure, the certification authority 70 determines whether or not the user terminal 20 is valid when making a call to the user terminal 20. A call number that the certification authority 70 determines to be illegal is assigned to a call for simultaneous calling by a pseudo incoming call that is called from the call center 30 to the user terminal 20. The call originated from the call center 30 to the user terminal 20 is authenticated as an unauthorized one by the certificate authority 70 and is treated as a pseudo incoming call, whereby the user terminal 20 has no history and no ringing. Since only the certificate authority 70 needs to be modified, there is an advantage that the cost of modifying the equipment can be reduced.
[0016]
Next, the operation of the apparatus configured as described above will be described. FIG. 3 is a diagram for explaining the operation of the normal incoming call sequence. Here, a case is shown in which a call is made not from the call center 30 but from a general subscriber terminal 22. When a call setup (Setup) is transmitted from the calling terminal 22 to the public network 80, the public network 80 connects the call setup to the base station 10 and returns a call setup acceptance (Call proc) to the calling terminal 22. . The base station 10 transmits a general call signal PCH to the user terminal 20, and channel assignment between the base station 10 and the user terminal 20 is performed. Further, the base station 10 inquires of the authentication station 70 whether the user terminal 20 is a valid user or not.
[0017]
When authentication is performed by the authentication station 70, the base station 10 performs call setting for the user terminal 20, and the user terminal 20 returns call setting acceptance to the base station 10. Subsequently, terminal authentication is performed between the base station 10 and the user terminal 20. The base station 10 returns a call setting acceptance to the public network 80. Subsequently, when a call is made at the user terminal 20, a ringing sound is transmitted to the calling terminal 22 via the base station 10 and the public network 80. When a response (Connect) is made at the user terminal 20, the response is transmitted to the calling terminal 22 via the base station 10 and the public network 80. On the other hand, when a response confirmation (Connect ack) is performed at the calling terminal 22, the response confirmation is transmitted to the user terminal 20 via the public network 80 and the base station 10. In this way, a normal incoming call sequence is performed.
[0018]
FIG. 4 is a diagram for explaining the operation of the pseudo incoming sequence using the certificate authority. Call setting (Setup) is transmitted from the calling center 30 to the public network 80 using a dedicated calling telephone number for a pseudo incoming call. Then, the public network 80 connects the call setting to the base station 10 and returns a call setting reception (Call proc) to the calling center 30. The base station 10 transmits a general call signal PCH to the user terminal 20, and channel assignment between the base station 10 and the user terminal 20 is performed. Further, the base station 10 inquires of the authentication station 70 whether the user terminal 20 is a valid user or not.
[0019]
The certificate authority 70 authenticates the calling telephone number as invalid. Then, when the base station 10 performs wireless disconnection on the user terminal 20, the user terminal 20 notifies the base station 10 of the completion of disconnection. When the base station 10 transmits a release completion (Releasecom) to the public network 80, the public network 80 instructs the calling center 30 to disconnect (Disc). On the other hand, when the calling center 30 transmits a release (Release) to the public network 80, the public network 80 transmits a release completion (Releasecom) to the calling center 30. Since the call is disconnected before the call setup (Setup) from the base station 10 to the user terminal 20, the user terminal 20 does not ring.
[0020]
FIG. 5 is an explanatory diagram of the communication rate measurement by the pseudo incoming call using the certificate authority. First, on the calling center 30 side, a telephone number to be investigated is extracted from the user database 40, and a calling list is created (S100). The calling center 30 issues a pseudo incoming call to the user terminal 20 via the public network 80 based on the call list (S102). The calling center 30 transmits a pseudo incoming setup signal to the base station 10 in order to connect a call to the user terminal 20 (S104). The pseudo-incoming setup signal for the pseudo-incoming call using the certificate authority is a dedicated calling telephone number for the pseudo-incoming call that is determined to be invalid by the certification authority 70.
[0021]
Then, the base station 10 receives the pseudo incoming call setup signal and counts the number of simultaneous calls of the user terminal 20 (S106). Next, an incoming call signal is transmitted to the user terminal 20 that the base station 10 is calling (S108). The base station 10 determines whether the user terminal 20 is responding to the incoming call signal (S110), and disconnects if there is no response. When there is a response, the base station 10 counts the number of connections as a pseudo incoming call (S112). Next, authentication is performed between the base station 10 and the authentication station 70, and disconnection occurs because the result of the authentication is invalid (S114). In this way, the base station 10 measures the number of user terminals connected to the simultaneous call by the pseudo incoming call and creates a call record.
[0022]
FIG. 6 is a block diagram showing a configuration in which a pseudo incoming call is made by devising a base station. 6 that have the same functions as those in FIG. 1 are denoted by the same reference numerals, and description thereof is omitted. In the figure, a base station 10 calls a user terminal 20 in response to a setup signal transmitted from a call center 30 according to a call list, and measures the number of user terminals connected to the call. . In addition, the base station 10 disconnects the connection with the user terminal 20 after the user terminal 20 responds to the incoming call signal and before transmitting the setup signal to the user terminal 20, so that there is no history and no response. It can be a ringing. The base station 10 also has a function of a call record creating means 50 for transmitting the number of user terminals connected to the collection center 60 and the number of simultaneous calls together with the base station identification information.
[0023]
FIG. 7 is a diagram for explaining the operation of the pseudo incoming sequence using the base station. A call setup (Setup) for a pseudo incoming call is transmitted from the calling center 30 to the public network 80. Then, the public network 80 connects the call setting to the base station 10 and returns a call setting reception (Call proc) to the calling center 30. The base station 10 transmits a general calling signal PCH based on a pseudo incoming call setup signal to the user terminal 20, and channel assignment between the base station 10 and the user terminal 20 is performed. In the case of call setup for a pseudo incoming call, the base station 10 does not inquire the authentication station 70 about whether the user terminal 20 is a valid user or not.
[0024]
Subsequently, when the base station 10 wirelessly disconnects the user terminal 20, the user terminal 20 notifies the base station 10 of the disconnection completion. When the base station 10 transmits a release completion (Releasecom) to the public network 80, the public network 80 instructs the calling center 30 to disconnect (Disc). On the other hand, when the calling center 30 transmits a release (Release) to the public network 80, the public network 80 transmits a release completion (Releasecom) to the calling center 30. Since the call is disconnected before the call setup (Setup) from the base station 10 to the user terminal 20, the user terminal 20 does not ring.
[0025]
FIG. 8 is an explanatory diagram of the communication rate measurement by the pseudo incoming call using the base station. First, on the calling center 30 side, a telephone number to be investigated is extracted from the user database 40, and a calling list is created (S200). The calling center 30 issues a pseudo incoming call to the user terminal 20 via the public network 80 based on the call list (S202). The calling center 30 transmits a pseudo incoming call setup signal to the base station 10 in order to connect a call to the user terminal 20 (S204). Next, the base station 10 receives the pseudo incoming call setup signal and counts the number of simultaneous calls of the user terminal 20 (S206). Next, an incoming call signal is transmitted to the user terminal 20 that the base station 10 is calling (S208). The base station 10 determines whether the user terminal 20 is responding to the incoming call signal (S210), and disconnects if there is no response. When there is a response, the base station 10 counts the number of connections as a pseudo incoming call (S212). Next, the base station 10 disconnects the call before transmitting the setup signal performed in the normal incoming call sequence to the user terminal 20 (S214). In this way, the base station 10 measures the number of user terminals connected to the simultaneous call by the pseudo incoming call and creates a call record.
[0026]
FIG. 9 is a configuration block diagram for making a pseudo incoming call by devising the user terminal. 9 that have the same functions as those in FIG. 1 are denoted by the same reference numerals and description thereof is omitted. In the figure, the calling center 30 calls a pseudo incoming call using a pseudo incoming setup signal to the user terminal 20 according to the outgoing call list, and the user terminal 20 makes a call using the pseudo incoming setup signal. When received, the call is disconnected before performing the ringing operation and storing the incoming call history.
[0027]
FIG. 10 is a diagram for explaining the operation of the pseudo incoming call sequence using the user terminal. A pseudo incoming call setup signal (Setup) is transmitted from the calling center 30 to the public network 80. Then, the public network 80 connects the call setting to the base station 10 and returns a call setting reception (Call proc) to the calling center 30. The base station 10 transmits a general call signal PCH corresponding to the pseudo incoming setup signal to the user terminal 20 and counts the number of simultaneous calls of the user terminal 20. Next, channel allocation between the base station 10 and the user terminal 20 is performed, and the number of connections of the user terminal 20 is counted. Further, the base station 10 inquires of the authentication station 70 whether the user terminal 20 is a valid user or not.
[0028]
On the other hand, when the user terminal 20 wirelessly disconnects the base station 10 in response to the pseudo incoming call setup signal, the base station 10 notifies the user terminal 20 of the completion of disconnection. The user terminal 20 is silent and has no history. When the base station 10 transmits a release completion (Releasecom) to the public network 80, the public network 80 instructs the calling center 30 to disconnect (Disc). On the other hand, when the calling center 30 transmits a release (Release) to the public network 80, the public network 80 transmits a release completion (Releasecom) to the calling center 30.
[0029]
FIG. 11 is an explanatory diagram of communication rate measurement by a pseudo incoming call using a user terminal. First, on the calling center 30 side, a telephone number to be investigated is extracted from the user database 40, and a calling list is created (S300). The calling center 30 issues a pseudo incoming call to the user terminal 20 based on the calling list via the public network 80 (S302). The calling center 30 transmits a pseudo incoming setup signal to the base station 10 in order to connect a call to the user terminal 20 (S304). Next, the base station 10 receives the pseudo incoming call setup signal and counts the number of simultaneous calls of the user terminal 20 (S306). Next, an incoming call signal is transmitted to the user terminal 20 that the base station 10 is calling (S308). The base station 10 determines whether the user terminal 20 is responding to the incoming call signal (S310), and disconnects if there is no response. When there is a response, the base station 10 counts the number of connections as a pseudo incoming call (S312). Next, the user terminal 20 recognizes that it is a pseudo incoming call (S314). Then, the user terminal 20 disconnects the call before performing the ringing operation and the incoming call history storage (S316). In this way, the base station 10 measures the number of user terminals connected to the simultaneous call by the pseudo incoming call and creates a call record.
[0030]
FIG. 12 is a diagram for explaining the operation of a pseudo incoming call sequence in another mobile communication mode. In the PHS described above, the public network 80, the authentication station 70, and the base station 10 exist between the calling center 30 and the user terminal 20. However, in mobile phone systems such as PDC, GSM, and CDMA, a public network 80 and a mobile network 90 including functions of an authentication station and a base station exist between the calling center 30 and the user terminal 20. ing. Call setting (Setup) is transmitted from the calling center 30 to the public network 80 using a dedicated calling telephone number for a pseudo incoming call. Then, the public network 80 connects the call setting to the mobile network 90 and returns a call setting reception (Call proc) to the calling center 30. The mobile network 90 transmits a general call signal PCH to the user terminal 20, and channel assignment between the mobile network 90 and the user terminal 20 is performed. Further, the mobile network 90 recognizes the telephone number of the call destination or recognizes the pseudo incoming call and disconnects the call connection with the user terminal 20.
[0031]
Then, when the mobile network 90 wirelessly disconnects the user terminal 20, the user terminal 20 notifies the mobile network 90 of the completion of disconnection. When the mobile network 90 transmits a release completion (Releasecom) to the public network 80, the public network 80 instructs the calling center 30 to disconnect (Disc). On the other hand, when the calling center 30 transmits a release (Release) to the public network 80, the public network 80 transmits a release completion (Releasecom) to the calling center 30. Since the mobile network 90 is disconnected before setting up the call to the user terminal 20 (Setup), the user terminal 20 is silent.
[0032]
In the above-described embodiment, the mobile phone system such as PDC, GSM, and CDMA has shown the case of measuring the communication rate by the pseudo call sequence using the authentication system. It is also conceivable that the communication rate is measured by a pseudo incoming sequence using a network base station or a user terminal.
[0033]
【The invention's effect】
As described above, according to the communication rate measuring apparatus of the present invention, along with any user terminal or accurately and efficiently performed are within some possible call in moving body communication, pseudo incoming non-ringing and no history Since the call is used, the user of the user terminal is not disturbed.
[Brief description of the drawings]
FIG. 1 is a configuration block diagram illustrating an embodiment of the present invention.
FIG. 2 is a configuration block diagram for making a pseudo incoming call by devising a certificate authority on the mobile communication network side.
FIG. 3 is an operation explanatory diagram of a normal incoming call sequence.
FIG. 4 is an operation explanatory diagram of a pseudo incoming sequence using a certificate authority.
FIG. 5 is an explanatory diagram of communication rate measurement by a pseudo incoming call using a certificate authority.
FIG. 6 is a block diagram illustrating a configuration in which a pseudo incoming call is made by devising a base station.
FIG. 7 is an operation explanatory diagram of a pseudo incoming sequence using a base station.
FIG. 8 is an explanatory diagram of communication rate measurement by a pseudo incoming call using a base station.
FIG. 9 is a configuration block diagram for making a pseudo incoming call by devising a user terminal.
FIG. 10 is an explanatory diagram of an operation of a pseudo call sequence using a user terminal.
FIG. 11 is an explanatory diagram of a communication rate measurement by a pseudo incoming call using a user terminal.
FIG. 12 is an operation explanatory diagram of a pseudo incoming call sequence in another mobile communication mode.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Base station 20 User terminal 30 Calling center 40 User database 50 Call record creation means 60 Collection center 70 Authentication station 80 Public network 90 Mobile network

Claims (7)

In communication rate measuring apparatus for measuring a communication rate of a Subscriber terminal that put the mobile communication network using a public network,
A certificate authority that determines whether the user terminal is valid when the user terminal makes an incoming call; and
From the user database, wherein to create a call list including power generation telephone number it is determined that fraud by the certificate authority, and the calling center that call pseudo incoming call addressed to the user terminal according to the call list,
The base in which the call center performs paging of the user terminal receives the pseudo incoming calls that a call, to create a call record to measure the number of a Subscriber terminal which is connected to the paging Bureau ,
A collection center for calculating the sparse communication rate to collect the call record created in the base station,
A communication rate measuring device comprising: The calling center calls a pseudo incoming call using a pseudo incoming setup signal to the user terminal according to the calling list,
Said base station, said upon receiving the pseudo incoming for setup signal performs paging of the user terminal to recognize that it is a pseudo incoming call, measures the number of connected user terminal to the paging and, communication rate measuring apparatus according to claim 1, characterized in that you sent to the collection center and the number with the base station identification information of the user terminal that the is the number of paging with the connection. In a communication rate measuring apparatus for measuring the communication rate of a user terminal in a mobile communication network using a public network,
A call center that creates a call list from a user database and calls a pseudo call using a pseudo call setup signal addressed to the user terminal according to the call list;
When the call center receives the pseudo incoming call setup signal, the call center recognizes that it is a pseudo incoming call and performs a general call of the user terminal, and the user terminal connected to the general call A base station that measures a number and disconnects the user terminal, and creates a call record including the number of simultaneous calls, the number of connected user terminals, and base station identification information;
A collection center for collecting call records created by the base station and calculating a communication rate;
A communication rate measuring device comprising: In a communication rate measuring apparatus for measuring the communication rate of a user terminal in a mobile communication network using a public network,
A call center that creates a call list from a user database and calls a pseudo call using a pseudo call setup signal addressed to the user terminal according to the call list;
A base station that receives a pseudo-incoming call originated by the call center, performs a general call of the user terminals, and measures the number of user terminals connected to the general call to create a call record When,
A collection center that collects call records created in the base station and calculates a communication rate;
The user terminal, the pseudo call for when receiving a call using the setup signal, ring operation and sparse communication rate measuring device you characterized by cutting the call before performing call history storage. Said base station, said upon receiving the pseudo incoming for setup signal performs paging of the user terminal to recognize that it is a pseudo incoming call, measures the number of connected user terminal to the paging and, communication rate measuring apparatus according to claim 4, characterized in that you sent to the collection center and the number with the base station identification information of the user terminal that the is the number of paging with the connection. In communication rate measuring method for measuring a communication rate of a Subscriber terminal that put the mobile communication network using a public network,
From the user database , create a calling list that includes the calling number that is determined to be fraudulent by the certificate authority ,
To call the pseudo incoming call addressed to the user terminal according to the call list the created,
Wherein receiving the pseudo incoming call that call performs paging of the user terminal, to create a call record by measuring the number of connected user terminal to the paging,
The certificate authority determines whether or not the user terminal is valid when the user terminal makes a call.
When the determination result is negative, the call record created is collected and a communication rate is calculated.
Communication rate measuring method according to feature that. The computer measures the communication rate of a Subscriber terminal that put the mobile communication network using a public network,
A certificate authority that determines whether the user terminal is valid when the user terminal makes an incoming call; and
From the user database, wherein to create a call list including power generation telephone number it is determined that fraud by the certificate authority, and the calling center that call pseudo incoming call addressed to the user terminal according to the call list,
A base station that receives a pseudo-incoming call originated by the call center , performs a general call of the user terminals , and measures the number of user terminals connected to the general call to create a call record When,
A collection center that collects call records created in the base station and calculates a communication rate;
A computer- readable recording medium on which a communication rate measurement program for functioning as a computer is recorded.

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