KR100976469B1 - Method of Generating a public long code mask in a mobile communication system - Google Patents

Abstract

A method of generating a public long code mask in a mobile communication system is proposed. In the case where the electronic serial number (ESN) uses a mobile device identifier (MEID) instead, the terminal uses a mobile identification number (MIN) that is a terminal identification number instead of the electronic serial number (ESN). Create a public long code mask (PLCM).

Mobile identification number, electronic serial number

Description

How to generate a public long code mask in a mobile communication system {Method of Generating a public long code mask in a mobile communication system}

1 is a diagram illustrating a process of generating a long code.

2 is a diagram illustrating a public long code mask format for a reverse fundamental channel and a reverse auxiliary control channel with a radio configuration of 1 or 2. FIG.

3 shows a reverse fundamental channel, a reverse auxiliary channel, a reverse dedicated control channel, a forward fundamental channel, a forward auxiliary control channel, a forward auxiliary channel, and a forward only control with the wireless configurations 3, 4, 5, and 6; Diagram of a public long code mask format for the channel, forward packet data channel.

4 is a diagram showing the structure of an ESN.

5 is a diagram illustrating the structure of a MEID.

6 is a diagram showing the structure of a mobile identification number (MIN).

7 is a diagram showing the structure of the International Mobile Station Division (IMSI).

8 is a diagram illustrating a method of generating a public long code mask (PLCM) according to an embodiment of the present invention.

FIG. 9 is a diagram illustrating a format of a public long code mask (PLCM) generated by the method of FIG. 8.                 

10 is a diagram showing the format of a public long code mask (PLCM) generated by this method.

11 is a diagram showing the format of the public long code mask (PLCM) generated by this method.

The present invention relates to a method for generating a public long code mask in a mobile communication system.

The long code is used to encrypt the channel in the forward channel and to determine the location of the power control bits. In addition, the long code serves to distinguish each terminal in a reverse channel and serves to reduce interference with other subscriber stations.

The long code consists of 42 bits, and FIG. 1 is a diagram showing a process of generating the long code. As shown in FIG. 1, the long code is generated according to a 42-bit long code mask. The generated long code performs the role by being a modulo-2 inner product with a transmission signal. .

The long code mask is generated differently for each channel, and the public long code mask format used for the traffic channel is shown in FIGS. 2 and 3.

FIG. 2 is a diagram illustrating a public long code mask format for a Reverse Fundamental Channel with a Radio Configuration (RC) of 1 or 2 and a Reverse Supplemental Code Channel.

3 shows a reverse fundamental channel, a reverse supplemental channel, a reverse dedicated control channel, and a forward fundamental channel having the radio configuration (RC) of 3, 4, 5, and 6; Forward Fundamental Channel, Forward Supplemental Code Channel, Forward Supplemental Channel, Forward Dedicated Control Channel, Forward Packet Data Channel This diagram shows the public long code mask format for.

2 and 3, the format of the public long code mask includes PLCM_37 (M36 to M0), which is a 37-bit public long code mask, and the PLCM_37 (M36 to M0) is again a 5-bit public. It can be divided into long code masks M36 to M32 and PLCM_32 (M31 to M0) which are 32-bit public long code masks.

On the other hand, the base station must inform the terminal how to generate the PLCM_32 through an Extended Channel Assignment Message (ECAM). If the 4-bit public long code mask type (PLCM_TYPE) in the ECAM is '0000', the M36 to M32 are set to '11000' and the PLCM_32 sets an electronic serial number (ESN) as follows. Created by permutation.                         

That is, if ESN = {E ₃₁ , E ₃₀ , E ₂₉ , ---, E ₂ , E ₁ , E ₀ }, the 32-bit public long code mask is PLCM_32 = {E ₀ , E ₃₁ , E ₂₂ , E ₁₃ , E ₄ , E ₂₆ , E ₁₇ , E ₈ , E ₃₀ , E ₂₁ , E ₁₂ , E ₃ , E ₂₅ , E ₁₆ , E ₇ , E ₂₉ , E ₂₀ , E ₁₁ , E ₂ , E ₂₄ , E ₁₅ , E ₆ , E ₂₈ , E ₁₉ , E ₁₀ , E ₁ , E ₂₃ , E ₁₄ , E ₅ , E ₂₇ , E ₁₈ , E ₉ }.

If the 4-bit PLCM_TYPE included in the ECAM is '0001', the M36 to M32 are set to '11011' and the PLCM_32 is set to a value of a 32-bit public long code mask (PLCM_32r) received through the ECAM. do. The ESN is a unique identifier assigned to a terminal in the CDMA 2000 system and is used for call processing.

4 is a diagram showing the structure of the ESN. As shown in FIG. 4, the ESN is composed of 32 bits, and a manufacturer number (MFC: Manufacturer's Code) (MFC) is assigned to the most significant bit (MSB: Most Significant Bit) of the ESN, and the least significant (LSB: Least Significant Bit) is assigned. 24 bits are assigned a serial number (SN) of the manufacturer. The manufacturer number is assigned to each manufacturer and uniquely set. If the number of terminals of the corresponding manufacturer exceeds the previously assigned number (SN), a new MFC is allocated.

However, as the production of terminals increases, the ESN consisting of 32 bits is expected to be exhausted in the future. Thus, a new identifier for identifying a terminal is created in place of the ESN, which is a mobile equipment identifier (MEID). This MEID is used since the IS-2000 Revision D system.                         

5 is a diagram showing the structure of the MEID. As shown in Fig. 5, the MEID is composed of 56 bits. The MFC is allocated to 32 bits of MSB, and the terminal serial number of the corresponding manufacturer is allocated to bits of LSB.

As described above, if the MEID is used without using the ESN as a separator for identifying the terminal, it is required to modify an existing method of generating the public long code mask (PLCM) using the ESN. do.

As described above, in the CDMA 2000 system, when the MEID is used without using the ESN as a delimiter for distinguishing terminals, a modification is required to the existing method of generating a public long code mask using the ESN, but is still efficient. No method has been proposed.

It is an object of the present invention to provide a method for generating a public long code mask in a mobile communication system that does not collide with another long code mask using a parameter other than an electronic serial number (ESN).

In order to achieve the above object, in the present invention, when the electronic serial number (ESN) is used as the identifier for distinguishing the terminal instead of the mobile serial device identifier (MEID), the public long code using a parameter other than the electronic serial number (ESN). Create a mask. That is, in the present invention, a public long code mask (PLCM) is generated using a mobile identification number (MIN) which is a terminal identification number. The mobile identification number (MIN) is a 10 digit number obtained from a telephone number assigned to a terminal.

6 is a diagram showing the structure of a mobile identification number (MIN). In FIG. 6, the movement identification number MIN may be represented by 34 bits, and includes a second movement identification number MIN2 of 3 digits and a first movement identification number MIN1 of 7 digits. do.

For example, when the telephone number is 10 digits such as 011-234-5678, the first three digits' 011 'become the second mobile identification number MIN2, and the last seven digits' 2345678 'becomes the first moving identification number MIN1. However, if the number of telephone numbers is insufficient and the telephone number is expanded to 11 digits such as 011-9234-5678, the next three digits '119' are excluded from the first digit '0'. It becomes number MIN2, and the back 7 digit '2345678' becomes the 1st moving division number MIN1.

In addition, an international mobile station identity (IMSI) is used to distinguish terminals worldwide. The international mobile station classification (IMSI) is composed of up to 15 digits.

7 is a diagram showing the structure of the International Mobile Station Division (IMSI). As shown in FIG. 7, the first three digits of the International Mobile Station Classification (IMSI) are Mobile Country Codes (MCCs), and codes for identifying the corresponding countries are assigned. The next two digits are Mobile Network Codes (MNCs), which are used by the terminal to identify the corresponding network. In this case, the network is usually classified by a service provider that provides a communication service, but in some cases, one operator may have several mobile network codes (MNCs).

A mobile station identifier number (MSIN) is used to identify a user's terminal in each network, and a unique number is assigned to each terminal.

According to the present embodiment, in order to allow terminals in one country and in one mobile network to have their own public long code mask (PLCM), the public long code mask (PLCM) is used. The above-mentioned mobile identification number, i.e., telephone number (MIN), is used for generation. Therefore, within the same mobile network, each terminal can have its own public long code mask (PLCM).

8 is a diagram illustrating a method of generating a public long code mask (PLCM) according to an embodiment of the present invention.

When the public long code mask type PLCM_TYPE received through the extended channel assignment message ECAM is '0001', the 39-bit public long code mask PLCM_39 received through the extended channel assignment message ECAM is lowest. It is used as 39 bits to generate the public long code mask (PLCM). FIG. 9 is a diagram illustrating a format of the public long code mask PLCM generated by the method of FIG. 8.

As shown in FIG. 9, the most significant (or MSB) 2 bits (M41-M40) of the public long code mask are values that are not previously used to avoid collision with the public long code mask (PLCM) used by the existing terminal. Set to '10'. Meanwhile, the bit M39 following the most significant two bits is a value indicating the type of the public long code mask PLCM, and is set to '1' when the public long code mask type PLCM_TYPE is '0001'. do. On the other hand, the lowest 39 bits (M38-M0) is set to the 39-bit public long code mask (PLCM_39r) allocated by the base station through the extended channel assignment message (ECAM).

Meanwhile, a network in which the public long code mask type PLCM_TYPE received through the extended channel assignment message ECAM is '0000' and the mobile country code MCC and mobile network code MNC of the terminal are currently located ( If the same as the mobile country code (MCC) and mobile network code (MNC) of the network, i.e. not in the case of roaming between countries or mobile networks, the mobile identification number (MIN) is used for the public. You will create a long code mask (PLCM). 10 is a diagram showing the format of a public long code mask (PLCM) generated by this method.

As shown in FIG. 10, the most significant 2 bits (M41-M40) are set to '10', a value not previously used, in order to avoid collision with the public long code (PLCM) used by existing terminals. Bits M39 next to the most significant two bits M41-M40 are values representing the type of the public long code mask PLCM, and are the type (PLCM_TYPE) of the public long code mask PLCM. Is set to '0' because it is '0000'. The bit M38 next to the bit M39 is a value indicating whether the corresponding terminal is in a roaming state. In this case, the bit M39 is set to '0' because it is not a roaming state. On the other hand, the four bits (M37-M34) after the bit (M38) may use any value, but is set to '1111' as an example in FIG. As another example, this value may be set to the least significant 4 bits of the mobile device identifier (MEID). The remaining 34 bits (M33-M0) are set to the terminal identification number (MIN).

Meanwhile, the public long code mask (PLCM) type (PLCM_TYPE) received through the extended channel allocation message (ECAM) is '0000', and the mobile country code (MCC) and the mobile network code (MNC) of the corresponding terminal are present. The terminal is different from the mobile country code (MCC) and the mobile network code (MNC) of the network in which it is located, i.e., in case of roaming between countries or between networks. The public long code mask PLCM is generated using the MEID. 11 is a diagram showing the format of the public long code mask (PLCM) generated by this method.

As shown in FIG. 11, in order to avoid collision with the public long code mask (PLCM) used by the existing terminal, the most significant two bits (M41-M40) are set to '10', which is a value that terminals are not previously used. . Bits M39 next to the most significant two bits M41 to M40 are values representing the type of the public long code mask PLCM, and as described above, a type of the public long code mask PLCM ( PLCM_TYPE) is set to '0' because it is '0000'. The bit M38 next to the bit M39 is a value indicating whether the corresponding terminal is in a roaming state. In this case, the bit is set to '1' because the corresponding terminal is roaming. On the other hand, the lowest 38 bits (M37-M0) is set as a result of mapping the 56-bit mobile device identifier (MEID) to 38 bits. At this time, the mapping method used is an algorithm called SHA-1.

As described above, in the present invention, when using a mobile device identifier (MEID) instead of an electronic serial number (ESN) as a separator for identifying a terminal, a public long code mask is used by using a parameter other than the electronic serial number (ESN). This prevents collisions with other long code masks.

Claims (14)

In the method for generating a public long code mask (PLCM) in a mobile communication system, Receiving the public long code mask type included in an extended channel allocation message; and Generating a public long code mask using the control information included in the extension channel assignment message when the received public long code mask type indicates a predetermined specific value. Way. The method of claim 1, When the received public long code mask type indicates a predetermined other specific value, the public long code is determined by using identification information of the terminal according to at least one of a mobile country code and a mobile network code included in the international mobile station classification of the terminal. A public long code mask generation method comprising the step of generating a mask type. delete The method of claim 1, The control information included in the extended channel assignment message is a public long code mask generation method, characterized in that the public long code mask having a predetermined bit length. The method of claim 4, wherein Generating a public long code mask using the control information included in the extended channel assignment message, And allocating the most significant two bits of the public long code mask to binary 10. The method of claim 2, The identification information of the terminal corresponds to one of a mobile identification number (MIN) or a mobile equipment identifier (MEID). The method of claim 6, A public long code mask is generated using the mobile identification number when the mobile country code and the mobile network code of the terminal are the same as the mobile country code and mobile network code of the network where the terminal is currently located How to create a long code mask. The method of claim 7, wherein Allocating a predetermined bit to the most significant two bits of the public long code mask; Allocating type information of the public long code mask by a predetermined bit to a next lower bit of the most significant two bits; Allocating roaming information indicating whether the mobile station code and the mobile network code of the terminal and the network are the same by a predetermined bit to a next lower bit of the bit to which type information of the public long code mask is allocated; Allocating an arbitrary bit to a next lower 4 bits of the bit to which the roaming information is allocated; and And assigning the mobile identification number to the next lower bits of the arbitrary bit. The method of claim 8, And wherein the arbitrary bits are allocated equal to the least significant 4 bits of the mobile device identifier. The method of claim 6, The public long code mask is generated using the mobile device identifier when the mobile country code and the mobile network code of the terminal are different from the mobile country code and mobile network code of the network in which the terminal is currently located. How to create a long code mask. The method of claim 10, Allocating a predetermined bit to the most significant two bits of the public long code mask; Allocating type information of the public long code mask by a predetermined bit to a next lower bit of the most significant two bits; Allocating roaming information indicating whether the mobile station code and the mobile network code of the terminal and the network are the same by a predetermined bit to a next lower bit of the bit to which the type information of the public long code mask is allocated; and And allocating the mobile device identifier to the next lower bits of the roaming information bit in a specific mapping manner. The method of claim 11, The specific mapping method is a mapping method using a SHA-1 algorithm. delete delete

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