JPH0723459A - Peculiar number surreptitios use detection of cellular mobile communication system - Google Patents

Abstract

PURPOSE: To make it possible to check whether a specific number allocated to a user's own mobile station is stolen by a third party in the same base station or not by retrieving a message received at the time of a mobile station non-speaking mode. CONSTITUTION: The method consists of a step 43 for judging whether a message received by a mobile station in a non-speaking mode state is a response message to a system access from the mobile station to a base station or not, a step 46 for comparing whether a specific number included in the message coincides with the specific number of the mobile station itself or not when the judging step 43 judges that the message is the response message of the base station, a step 47 for checking whether the current state of the mobile station is a system access state to the base station or not when the comparing step 46 judges that both specific numbers coincide with each other, and a step 48 for generating an alarm signal when the checking step 47 judges that system access to the base station is not executed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cellular mobile communication system, and more particularly to a cellular mobile communication system which is capable of confirming whether or not another person is stealing a unique number assigned to a mobile station. The present invention relates to a method for detecting number theft.

[0002]

2. Description of the Related Art Generally, in a mobile communication system, a unique number is assigned to each mobile station, for example, a mobile identification number (MIN) corresponding to a regional number of the mobile station.
2), the mobile identification number (Mobi
le Indentivication Number; MIN1), a serial number that confirms the mobile station to the cellular system (Serial Number; S)
N, this is the Manufacturer's Code (Mfr Co
(including de)) will be assigned to wirelessly communicate with other mobile stations based on this unique number.

A mobile station is constructed as shown in FIG. 1, and a base station (Land) called a cell site (Cell Cite) is used.
Station) 15 is a wireless telecommunication switching center (MISO; Mobile T)
elephone Switching Office) 100 connects the mobile station. The base station 15 uses an antenna (A1) for transmitting and receiving various data to and from the mobile station through the antenna (ANT1).
NT2) is included.

The antenna (ANT2) is connected to the reception filter section 1 and the transmission filter section 13. The reception filter unit 1 is connected to the audio / logic control unit 3 via the reception unit 2, and the transmission filter unit 13 is connected to the audio / logic control unit 3 via the transmission unit 12. The audio / logic control unit 3 is connected to the reception unit 2 and the transmission unit 12 via the frequency synthesis unit 11. Also,
The audio / logic control unit 3 is connected to the microprocessor 4, the speaker 9, and the microphone 10. The microprocessor 4 is connected to the PROM 7, EPROM 5, memory section 6, liquid crystal display section 8, and keypad 14.

A mobile station constructed in this way is equipped with an EIA (El
ectronic Industries Association) specification call processing (C
Protocol (Protoco) specified by all Processing
l) is to be followed. The operation of the mobile station will be described with reference to FIGS. 2 to 4, which are flowcharts defined in the EIA specification.

FIG. 2 is a flow chart for explaining the registration process. When the mobile station is turned on, the mobile station controls the control channel (Co
The control channel with the strongest received signal strength is searched (Scan) among the control channels (step S).
1). When the control channel with the highest received signal strength is searched, the mobile station enters the non-call mode (step S
2) The message transmitted by the current base station 15 is received through the selected control channel (step S).
3). That is, in the non-speech mode, the base station 15 transmits high-frequency-modulated data and receives it through the antenna (ANT2) of the mobile station.

The process of processing the received message from the base station will be described with reference to FIG.
Filters only the necessary band of the received high frequency signal and inputs it to the receiving unit 2. The receiving unit 2 amplifies the input weak high frequency signal at an arbitrary level, mixes it with the local oscillation frequency of the frequency synthesizing unit 11 to detect an intermediate frequency signal, and demodulates this with the original signal for audio / audio Input to the logic control unit 3. The audio / logic control unit 3 outputs an audio signal to the speaker 9, and outputs the data of the base station 15 to the microprocessor 4 by separating the audio signal and the data from the demodulated signal.
The microprocessor 4 retrieves the message of the base station 15 received in the non-talking mode state.

[0008] The retrieved message is an overhead message (Overhead Message
In the case of e), whether or not registration is possible is determined by an algorithm defined by the Electronic Industries Association (EIA). When the registration is determined, the telephone number (MIN1), the area number (MIN2) and the serial number (SN) of the mobile station itself, which are stored in the EPROM 5, are read, and this is transmitted through the audio / logic control unit 3 to the transmission unit 12 Entered in. Transmitter 12
Is the unique number of the input mobile station itself (MIN1, MIN
(2, SN) is modulated into a high frequency signal generated by the frequency synthesis unit 11, this is amplified and transmitted to the base station 15 through the transmission filter unit 13 and the antenna (ANT2) (step S4). After that, the mobile station waits for a registration confirmation message from the base station 15.

When the base station 15 receives the unique number (MIN1, MIN2, SN) or the like sent by the mobile station, the base station 15 sends a registration confirmation message to the mobile station. After receiving the registration confirmation message transmitted from the base station 15, the microprocessor 4 of the mobile station confirms whether or not the unique numbers (MIN1, MIN2) transmitted by itself are present in the received registration confirmation message. Whether or not registration is possible will be known (step S5). FIG. 3 is a flow chart for explaining a call process. The mobile station selects the control channel having the highest received signal strength among the control channels of the base station 15 to which the mobile station belongs (step S1).
1) Enter the non-call mode (step S12). When the user of the mobile station inputs the telephone number through the keypad 14 and presses the call button (step S13) to make a call in such a non-call mode, the microprocessor 4 causes the microprocessor 4 to store the unique number stored in the EPROM 5. Number (MIN
1, MIN2, SN) and the telephone number dialed by the user are sent to the base station 15 (step S14). After this, the mobile station waits for voice channel allocation from the base station 15. The base station 15 transmits the unique number (MI
After receiving (N1, MIN2, SN), etc., it is confirmed whether the received unique number, etc. is a permitted registration number. If it is a permitted number, an initial voice channel assignment message is sent to the mobile station through the antenna (ANT1) to assign a voice channel (step S1).
5). This allows the user to talk to the called party through the assigned voice channel (step S1).
6).

FIG. 4 is a flow chart for explaining the overall operation of the mobile station in the non-call mode. When the call button is pressed to make a call in the non-call mode (step S21) (step S22), the system access operation to the base station 15 is performed (step S23). When a message is received in the non-call mode (step S24), if an overhead message is received (step S25), the message is analyzed to request registration (step S2).
In 6), the system access operation to the base station 15 is performed (step S27).

If the received message is not an overhead message but a call message (step S
28), the microprocessor 4 searches whether the unique numbers (MIN1, MIN2) existing in the call message match the unique numbers (MIN1, MIN2) of the mobile station itself (step S29). If they match, a call response is sent to the base station 15 (step S30).

[0012]

In such a cellular mobile communication system, when the mobile station makes a request to the base station,
You will always send a message containing your own unique number. In addition, the base station provides a specific service after transmitting a message including the unique number. Such a process is a basic communication protocol, and is not a problem in the protocol itself. However, in the conventional cellular mobile communication system, even if the unique number of a mobile station is illegally stolen by another mobile station, the terminal itself cannot detect illegal plagiarism. There was a problem that some measures such as changes could not be taken.

An object of the present invention is to search for a message received when the mobile station is in the non-call mode and confirm that the unique number assigned to the mobile station is being stolen by another person in the same base station. It is possible to provide a method for detecting the stealing of a unique number of a cellular mobile communication system.

[0014]

A feature of the present invention for achieving the above object is that a message received by a mobile station in a non-call mode is a response message to a system access from the mobile station to a base station. If there is a response message from the base station in the determination step, it is determined whether the unique number on the message matches the unique number of the mobile station itself, and a comparison is made. If the unique numbers match at the stage, it is checked whether the mobile station is currently in the system access state to the base station, and if the system access to the base station is not made at the check stage, an alarm signal is issued. And the stages that occur.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to FIGS. FIG. 5 is a flowchart showing a process of detecting the stealing of a unique number of a mobile station according to the present invention.

When the user turns on the power of the mobile station, the mobile station controls the control channel (Control Channel) having the highest received signal strength among the control channels of the base station 15 to which the user belongs.
Will be searched (step S41). When the largest control channel is searched, the mobile station enters the non-call mode (step S42), and receives the message transmitted by the base station 15 through the selected control channel (step S43).

The process of processing the received message will be described in detail with reference to FIG. 1. In the non-communication mode, the base station 15 outputs high-frequency modulated data and transmits it through the antenna (ANT2) of the corresponding mobile station. Be received. The reception filter unit 1 filters only a necessary band with the received high frequency signal and inputs the filtered signal to the reception unit 2. Receiver 2
After amplifying the input weak high-frequency signal at an arbitrary level, mixes it with the local oscillation frequency of the frequency synthesizer 11 to detect an intermediate-frequency signal, demodulates this to the original signal, and decodes it to the audio / logic controller. Enter in 3. The audio / logic control unit 3 outputs an audio signal to the speaker 9, and
The data of the base station 15 is output to the microprocessor 4 by separating the audio signal and the data from the demodulated signal. The microprocessor 4 retrieves the message of the base station 15 received in the non-talking mode state.

First, the message received from the base station 15 is a response message of the base station 15 to the system access from the mobile station to the base station 15, for example, an initial voice channel allocation message of the base station in response to a call request of the mobile station or the mobile station. To the base station 15 from the base station 15
Is a confirmation message (step S)
44). At this time, if the received message is not the response message of the base station 15, it is determined whether it is a call message (step S45), and the procedure for the call message is performed (step S49). Such a procedure is the same as that already described in FIG.

If the received message is the initial voice channel assignment message or confirmation message, the unique numbers (MIN1, MIN2) existing in the message and the unique numbers of the mobile station of its own (MIN1, MIN2) match. It is compared whether or not there is (step S46). As a result of the comparison, if the two unique numbers match, it is determined whether or not the mobile station is currently in the state of system access to the base station 15 (step S47). That is, the base station 15
It is determined whether or not the system access is made in response to the registration request or the call button is pressed to make a call.

If the system has been accessed, the procedure for the initial voice channel assignment message or confirmation message is performed (step S49). Such a procedure is the same as that described with reference to FIGS. 2 and 3. However, when a message as described in detail is received while the mobile station has not accessed the system, another mobile station other than the currently operating mobile station receives its own unique number (MIN
1, MIN2, SN) is used for plagiarism.
As a result, a warning message is displayed to the user of the mobile station through the liquid crystal display unit 8 and a warning sound is generated through the speaker 9 (step S48).

[0021]

As described above, according to the present invention, if the message received from the base station in the state where the mobile station does not make system access to the base station is the registration confirmation message, the unique message in the message is added. A warning message and a warning sound are generated when the numbers and the unique numbers of the terminals are compared and searched for and they match. Also, if the received message is an initial voice channel assignment message, a warning message and a warning sound are generated when the unique number existing in the message and the unique number of the terminal are compared and searched for.

As a result, according to the present invention, when the mobile station is in the non-call mode, it is possible to confirm that the unique number assigned to the mobile station is stolen by another person in the same base station. When it is confirmed that another person is illegally plagiarizing his / her terminal, a warning message or warning sound is generated to the user. As a result, the user can immediately report the fact of the theft of another person to the radio communication system operating station, so that the illegal use and theft of the cellular mobile communication system can be dealt with.

[Brief description of drawings]

FIG. 1 is a block diagram of a general mobile station.

FIG. 2 is a flowchart illustrating a general registration process.

FIG. 3 is a flowchart for explaining a general calling process.

FIG. 4 is a flowchart for explaining the overall operation of the mobile station in the non-call mode.

FIG. 5 is a flowchart showing a process of detecting the theft of a unique number of a mobile station according to the present invention.

[Explanation of symbols]

 1 Reception Filter 2 Reception 3 Audio / Logic Control 4 Microprocessor 5 EPROM 6 Memory 7 PROM 8 Microphone 9 Speaker 10 Microphone 11 Frequency Synthesizer 12 Transmitter 13 Transmitter Filter 14 Keypad 15 Base Station 100 Wireless Communication Exchange Station

Claims (5)

[Claims] 1. A step of determining whether a message received by a mobile station in a non-call mode is a response message to a system access from a mobile station to a base station, and if the determination step is a response message. If the unique number matches in the comparison step between the unique number put on the message and the own unique number of the mobile station, and if the unique number matches in the above comparison step, the mobile station is now connected to the base station. A cellular mobile communication system characterized by the following steps: a step of checking whether or not it is in an access state, and a step of generating an alarm signal if system access to the base station is not made in the checking step. Unique number theft detection method. 2. The method for detecting theft of a unique number in a cellular mobile communication system according to claim 1, wherein the response message from the base station is a registration confirmation message or an initial voice allocation message. 3. The method for detecting plagiarism of a unique number in a cellular mobile communication system according to claim 1, wherein the unique number compared in the comparing step is a mobile identification number. 4. The method according to claim 4, further comprising the step of: if the message is not a response message from the base station, determining whether the message is a calling message, and if the message is a calling message, the procedure according to the calling message is performed. Item 1. A method for detecting theft of a unique number in the cellular mobile communication system according to Item 1. 5. The method according to claim 1, further comprising the step of performing a procedure according to the received message if the system access to the base station is made in the checking step.
A method for detecting the plagiarism of a unique number in a cellular mobile communication system as described.