KR20060130473A - Mobile communication terminal - Google Patents

Abstract

A method of encoding transmission data of a mobile communication terminal and a mobile communication terminal using the same are provided to replace depleted ESN(Equipment Serial Number) by MEID(Mobile Equipment ID) by generating long code and encoding data. A PLCM(Public Long Code Mask) is generated by using a virtual peculiar number indicative of a kind of a mobile communication terminal. Transmission data is encoded by using the PLCM. The PLCM contains a specific bit which means the kind of the mobile communication terminal. The specific bit is positioned on the most significant bit of the PLCM. The PLCM consists of 42 bits in total. The virtual peculiar number consists of 0 to 36 bits or 0 to 40 bits.

Description

Method of encrypting transmission data of mobile communication terminal and mobile communication terminal {MOBILE COMMUNICATION TERMINAL}

1 is a system configuration of a mobile communication terminal according to an embodiment of the present invention.

2 is a conceptual diagram of a transmission data encryption method of a mobile communication terminal according to an embodiment of the present invention.

3 is an example of a PLCM generated by the PLCM generator of FIG.

4 is another example of a PLCM generated by the PLCM generation unit of FIG.

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

10: mobile communication built-in antenna 12: control unit

14: key input unit 16: display unit

18: wireless unit 21: memory

22: voice processing unit 30: PLCM generation unit

32: codec section

The present invention relates to a transmission data encryption method of a mobile communication terminal and a mobile communication terminal thereof.

The conventional synchronous mobile communication terminal and the base station generates a long code using the device serial number ESN, and then encrypts the data with the long code to exchange data between the mobile communication terminal and the base station. The long code encrypted data is decrypted through the comparator of the base station or the mobile communication terminal to restore the data.

The long code is used to encrypt the channel and determine power control bits when passing data from the base station to the mobile communication terminal, and when uploading data from the mobile terminal to the base station (reverse channel). Used to distinguish.

However, as the equipment serial number (ESN), which is the device serial number currently used, is depleted, the use of a new long code is urgently needed. In particular, a long code will be generated using a mobile equipment ID (MEID) programmed by a manufacturer on behalf of an ESN. There was a great need for encryption.

An object of the present invention for solving the problems of the prior art, the transmission data encryption method of a mobile communication terminal that can supplement the newly introduced MEID and replace the ESN depleted by generating a long code in a new way to encrypt the data And a mobile communication terminal.

The present invention also provides a method for encrypting transmission data of a mobile communication terminal and a mobile communication terminal in which a collision does not occur in the mobile communication terminal period used in place of the depleted ESN.

The present invention for achieving the above object provides a transmission data encryption method of a mobile communication terminal comprising a PLCM generation step of generating a PLCM using a virtual unique number, and an encryption step of encrypting the transmission data using the PLCM. .

In another aspect, the present invention, the PLCM generation unit for generating a public long code mask (PLCM) using a virtual unique number indicating the type of the terminal, and the transmission data using the PLCM generated by the PLCM generation unit Provided is a mobile communication terminal including a codec unit for encrypting.

In this case, the PLCM may include a specific bit representing the type of the mobile communication terminal.

At this time, the PLCM is a total of 42 bits, the specific bit may be located in the most significant bit of the PLCM. In addition, the virtual unique number included in the PLCM may be located in 0 to 36 bits or 0 to 40 bits.

In another aspect, the present invention provides a mobile communication terminal for encrypting the transmission data by the transmission data encryption method described above.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

1 is a system configuration diagram of a mobile communication terminal according to one embodiment of the present invention.

1, the mobile communication terminal 10 according to an embodiment of the present invention is not only a folder type mobile communication terminal, but also a bar type, a flip type, a sliding type, and a rotation type. (rotating type) and combination type (combination type) of the mobile communication terminal can also be applied.

The mobile communication terminal 10 includes a control unit 12, a key input unit 14, a display unit 16, a wireless unit 18, a voice processing unit 22, a memory 21, a microphone 26, and a speaker 28. Has In addition, the mobile communication terminal 10 includes a PLCM generation unit 30 and a codec unit 32.

The controller 12 controls the overall operation of the mobile communication terminal 10. That is, the controller 12 performs an encryption processing function such as encrypting data to be transmitted to the base station, decrypting data received from the base station.

The key input unit 14 is an apparatus for interfacing with a user and includes a plurality of keys such as various function keys, numeric keys (0 to 9), special keys (＃, * ...), and the like. The key input unit 14 is an input unit for inputting basic user information necessary for transmitting or receiving data. The key input unit 14 includes buttons of any type formed on the mobile communication terminal 10 as well as numeric keys.

The display unit 16 may be formed of an LCD, an OLED, or the like, and outputs various displays and data generated by the mobile communication terminal 10. The display unit 16 displays a process or result of data transmitted between the mobile communication terminal 10 and the base station.

The wireless unit 18 is connected to an antenna to control transmission and reception of voice data and control data under the control of the control unit 12.

The memory 21 stores a plurality of programs and data. In particular, the memory 21 stores voice signals or voice data of a user who is allowed to transmit and receive voice calls.

The voice processor 22 converts the voice data received by the wireless unit 18 into an audible sound through the speaker 28 under the control of the controller 12, and outputs the voice signal input through the microphone 26. Output to the control unit 10.

The PLCM generation unit 30 generates a PLCM (Public Long Code Mask) to be used to encrypt voice data, text data, and control data to be transmitted to the base station based on the information input through the key input unit 14. The structure of the PLCM generated by the PLCM generator 30 will be described in detail below with reference to FIGS. 3 and 4.

The codec unit 32 encrypts voice data, text data, and control data to be transmitted to the base station using the PLCM generated by the PLCM generation unit 30. The data encrypted by the codec unit 32 is transmitted to the base station via the radio unit 18.

Meanwhile, the base station (not shown) decrypts the encrypted data using a PLCM comparator. Of course, the base station also includes a PLCM generation unit and a codec unit such as the mobile communication terminal 10 to encrypt the data to be delivered to the mobile communication terminal.

2 is a conceptual diagram of a transmission data encryption method of a mobile communication terminal according to an embodiment of the present invention.

Referring to FIG. 2, the PLCM generation unit 30 generates a PLCM which is a kind of long code. The PLCM generated by the PLCM generation unit 30 is synthesized with the transmission data in the codec unit 32 and encrypted. The encrypted data is transmitted to the base station through the radio unit 18 as described above.

3 is an example of a PLCM generated by the PLCM generation unit of FIG. 2.

The PLCM generated by the PLCM generation unit 30 is composed of a total of 42 bits. The 42-bit PLCM consists of the most significant bit (42th bit), the 1st to 37th bits (37 bits in total), the pseudo ESN portion or the virtual unique number (PLCM_37), and other bits. The most significant bit represents the type of mobile communication terminal. For example, if the most significant bit is "1", it means a 1x or 2G mobile communication terminal. If "0", it means a 1xEV-DO mobile communication terminal. Of course, the mobile communication terminal has been described with some examples, but is not limited thereto.

The pseudo ESN unit PLCM_37 is an identifier for identifying the mobile communication terminal 10 and corresponds to a pseudo device serial number arbitrarily formed by a predetermined rule. At this time, the pseudo ESN or virtual unique number is not the serial number of the mobile communication terminal given by the manufacturer at the time of manufacture, but is the serial number of the mobile communication terminal arbitrarily assigned by a specific rule between the base station and the terminal.

On the other hand, the pseudo ESN portion or the virtual unique number PLCM_37 is unlikely to overlap, but cannot be completely excluded. As described above, it is the highest bit that indicates the type of mobile communication terminal that minimizes the possibility of collision due to duplication of the pseudo ESN unit PLCM_37. As a result, the PLCM generated by the PLCM generation unit 30 distinguishes the types of terminals by the most significant bit together with the pseudo ESN which is an identifier for identifying the terminals, thereby minimizing the collision between the PLCMs.

4 is another example of the PLCM generated by the PLCM generator of FIG. 2.

The PLCM shown in FIG. 4 is the same as the PLCM of FIG. 3 in that the entire PLCM consists of 42 bits and includes the most significant bit representing the type of the terminal. The 40th bit) differs from the PLCM in FIG.

In the above, an embodiment of the present invention has been described with reference to the drawings, but the present invention is not limited thereto.

In other words, the PLCM is generated using a pseudo ESN or a virtual unique number, and it is sufficient if a specific bit includes a bit representing the type of the terminal, and the total number of bits or the number of bits of the pseudo ESN and the type of the terminal are used. Etc., various modifications are possible.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

As described above, the present invention has the effect of replenishing the newly introduced MEID instead of the depleted ESN by generating the long code in a new way to encrypt the data.

In addition, the present invention has the effect that a collision does not occur in the mobile communication terminal period used in place of the depleted ESN.

Claims (10)

A PLCM generation step of generating a PLCM (Public Long Code Mask) by using a virtual unique number indicating a type of a terminal; Transmitting data encryption method of a mobile communication terminal comprising an encryption step of encrypting the transmission data using the PLCM. The method of claim 1, The PLCM encryption method for the transmission data of the mobile communication terminal, characterized in that it comprises a specific bit representing the type of mobile communication terminal. The method of claim 2, And the specific bit is located in the most significant bit of the PLCM. The method of claim 2 or 3,  The PLCM is a transmission data encryption method of a mobile communication terminal, characterized in that total 42 bits. The method of claim 4, wherein The virtual unique number is a transmission data encryption method of a mobile communication terminal, characterized in that located in 0 ~ 36 bits or 0 ~ 40 bits. A PLCM generation unit generating a PLCM (Public Long Code Mask) by using a virtual unique number indicating a type of a terminal; And a codec unit for encrypting transmission data using the PLCM generated by the PLCM generation unit. The method of claim 6, The PLCM is a mobile communication terminal, characterized in that it comprises a specific bit representing the type of mobile communication terminal. The method of claim 7, wherein The specific bit is located in the most significant bit of the PLCM. The method according to claim 7 or 8,  The PLCM is a mobile communication terminal, characterized in that a total of 42 bits. The method of claim 9, The virtual unique number is a mobile communication terminal, characterized in that located in 0 ~ 36 bits or 0 ~ 40 bits.

Images