KR100976468B1 - Method of Generating a Public Long Code Mask in a Mobile Communication System - Google Patents

Abstract

A method for generating a public long code mask (PLMN) in a terminal of a mobile communication system according to the present invention is a collision between a public long code mask of the terminal and one or more other terminals on a network. Receiving an overhead message including control information for indicating whether or not, assigning the control information to the first location of the public long code mask of the terminal and predetermined a mobile equipment identifier (MEID) of the terminal Hashing by the number of bits to assign to the second position of the public long code mask. Through this, the probability of collision of the public long code mask of the UE can be greatly reduced.

Public long code mask, hashing

Description

Method of Generating a Public Long Code Mask in a Mobile Communication System}

1 is a diagram illustrating a method of generating the long code.

FIG. 2 is a diagram illustrating a public long code mask format for a reverse fundamental channel and a reverse auxiliary control channel of wireless configuration 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 dedicated control channel having RC of 3, 4, 5, and 6; Is a diagram illustrating the public long code mask format for the forward packet data channel.

4 is a diagram showing the structure of the ESN.

5 is a diagram showing the structure of the MEID.

FIG. 6 is a diagram illustrating a method of hashing MEID 56 bits to the least significant 40 bits of a public long code mask (PLCM).

7 is a diagram illustrating a method according to a first embodiment of the present invention.

8 is a diagram illustrating a method according to a second embodiment of the present invention.

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 the reverse channel and serves to reduce interference with other subscriber stations.

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

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 and a Reverse Supplemental Code Channel in Radio Configuration (RC) 1 or 2. FIG.

FIG. 3 shows a reverse fundamental channel with RC 3, 4, 5, 6, Reverse Supplemental Channel, Reverse Dedicated Control Channel, Forward Fundamental Channel, Public long code mask for the Forward Supplemental Code Channel, the Forward Supplemental Channel, the Forward Dedicated Control Channel, and the Forward Packet Data Channel. This diagram shows the format.

As shown in FIGS. 2 and 3, the public long code mask format includes 37 bits of PLCM_37 (M36 to M0), and PLCM_37 (M36 to M0) can be further divided into M36 to M32 and PLCM_32 (M31 to M0). have.

The base station should inform the terminal how to generate the PLCM_32 through an Extended Channel Assignment Message (ECAM). If the 4-bit PLCM_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. permutation).

That is, if ESN = {E ₃₁ , E ₃₀ , E ₂₉ , ---, E ₂ , E ₁ , E ₀ }, the PLCM_32 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 }.

On the other hand, if the 4-bit PLCM_type (PLCM_TYPE) in the ECAM is '0001', the M36 to M32 are set to '11011' and the PLCM_32 is set to the 32-bit value (PLCM_32r) in the ECAM.

The ESN is used for call processing as an identifier uniquely assigned to a terminal in a CDMA 2000 system. 4 is a diagram showing the structure of the ESN.

As shown in FIG. 4, the ESN is composed of 32 bits. A manufacturer number (MFC: Manufacturer's Code) is assigned to the most significant (MSB: Most Significant Bit) 8 bit, and the least significant (LSB: Least Significant Bit) is 24 bit. The manufacturer's terminal serial number (SN) is assigned. The manufacturer number is assigned to each manufacturer and uniquely set. If the number of terminals of the manufacturer exceeds the allocated SN, a new MFC is allocated.

However, as the production of terminals increases, the ESN composed 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), which is used from an IS-2000 revision D.

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 MSB 32 bits, and the terminal serial number of the corresponding manufacturer is assigned to LSB 24 bits.

As described above, when the MEID is used without using the ESN as a delimiter for distinguishing the terminal, the existing method of generating a public long code mask (PLCM) using the ESN is modified. This is required.

As described above, when the MEID is used as the terminal identifier, a method of using a 56 bit MEID for generating the public long code mask may be considered. However, a collision occurs because the length of the MEID is longer than the length of the public long code mask.                         

One of the reasons for permutating and inserting the ESN when generating a public long code mask composed of 42 bits is that the 32-bit ESN is uniquely given to each terminal and cannot be easily recognized by a third party. . If a third party can easily find a public long code mask corresponding to a specific user, a security problem such as eavesdropping may occur.

Another reason for permutating and inserting the ESN is to avoid collisions between public long code masks. The public long code mask must be unique, and if two users in a base station use the same public long code mask, there may be a problem of interference and because the radio waves using the same public long code mask act as noise between radio waves. The quality of service will fall. Therefore, for this reason, the ESN uniquely assigned to each terminal is used to generate a public long code mask.

From the CDMA 2000 Revision D system, the 56-bit MEID is used as the identifier of the terminal instead of the 32-bit ESN due to the exhaustion of the ESN. In this case, the MEID, which is a unique number uniquely assigned to each terminal, should be used to generate the public long code mask, but since the 56-bit MEID cannot be inserted into the 42-bit public long code mask, 56 bits are used. Had to be hashed and inserted into bits less than or equal to 42 bits.

However, when hashing such a large number of bits to a small number of bits, each terminal cannot have a unique public long code mask, and some terminals have a collision problem in that they have the same public long code mask. In this case, in order to minimize the collision probability, it is required to hash the 56-bit MEID to as many bits as possible in the 42-bit PLCM.

Therefore, in order to avoid collision with the PLCM used in the existing mobile communication system, it is proposed that the most significant two bits of the PLCM are set to '10' and use the remaining 40 bits except the two bits to hash the MEID. At this time, the algorithm used for hashing is an algorithm called SHA-1 which is already made. 6 illustrates a method of hashing MEID 56 bits to the least significant 40 bits of the public long code mask PLCM.

As described above, when hashing the 56-bit MEID to 40 bits of the PLCM, a collision problem occurs in which some terminals have the same public long code mask. As described above, when a collision of the public long code mask occurs between terminals, serious problems such as interference and degradation of quality of service (QoS) occur, and thus a method of minimizing the probability of collision of the PLCM is required.

It is an object of the present invention to provide a method for generating a public long code mask which does not collide with other long code masks by using a parameter other than an electronic serial number (ESN).

In order to achieve the above object, according to the present invention, the network can know the public long code mask (PLCM) that is used by each user in a network and the fact that most of the PLCM conflicts occur between two users. By using the network, when a new user enters, the new user is informed of whether or not the PLCM is to be used by the new user. Therefore, the new user is allowed to use the PLCM which can avoid the collision and further minimize the collision probability of the PLCM.

According to one embodiment of the present invention, a method for generating a public long code mask (PLMN) in a terminal of a mobile communication system according to the present invention is described. To this end, an overhead message including control information for indicating whether the public long code mask collides between the public long code mask of the terminal and one or more other terminals on a network is received, and the control information is received from the public of the terminal. The mobile device identifier (MEID) of the terminal is hashed by a predetermined number of bits and assigned to the second location of the public long code mask.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 7 to 8.

First embodiment

7 is a diagram illustrating a method according to a first embodiment of the present invention.

First, the hashing is performed from the mobile device identifier MEID to 39 bits of the lowest LSB of the public long code mask PLCM using the SHA-1, and the 40th time of the public long code mask PLCM. Bit is used as a collision indication bit.

On the other hand, when a user in originating or page response is performed by a user in the network, the network determines whether or not the PLCM of the user is currently in conflict with other users in the network. The user is informed of the collision through the Extended Channel Assignment Message (ECAM), which is a message sent through a Paging Channel or a Broadcast Control Channel.

That is, by adding a bit that acts as a collision indication (PLCM Collision Indication) of the public long code mask (PLCM) to the Extended Channel Assignment Message (ECAM), if there is a collision The conflict indication bit of the new user is set to a value different from the conflict indication bit of the existing user. That is, when the bit of the existing user is set to '0' in case of a collision, the bit of the new user is set to '1', and the bit of the existing user is set to '1'. Sets the bit of the new user to '0'. The user may set the value of the PLCM Collision Indication Bit received through the Extended Channel Assignment Message (ECAM) to the 40th bit value of the public long code mask (PLCM). By doing so, it is possible to prevent a collision of the public long code mask between two users in one network.

Second embodiment

8 is a diagram illustrating a method according to a second embodiment of the present invention. The second embodiment of the present invention is an extension of the first embodiment. According to the second embodiment, in order for the network to manage the collision of the public long code mask, N bits are given to the user through the extended channel assignment message (ECAM), and the public long code The least significant (LSB) 40-N bits of the mask PLCM are mapped from the mobile device identifier MEID using SHA-1.

The network checks whether or not the public long code mask (PLCM) used by the user collides when a user in the network makes an origination or a page response, and thus the public long code mask (PLCM). N bits are transmitted to the terminal corresponding to the user through the Extended Channel Assignment Message (ECAM).

Meanwhile, the user sets the two most significant MSB bits of the public long code mask PLCM to '10' and sets the N bits starting from the 40th bit to the extension channel. Set to the value received through an assignment message (ECAM) and use SHA-1 from the mobile device identifier (MEID) for the least significant (LSB) (40-N) bits of the remaining public long code mask. To map.

That is, by adding an N bit that acts as a collision indication (PLCM Collision Indication) of the public long code mask (PLCM) to the Extended Channel Assignment Message (ECAM), if there is a collision The conflict indication bit of the new user is set to a value different from the conflict indication bit (s) of the existing user (s).

By doing this, it is possible to avoid collisions between more users than when sending only one bit to the user as in the first embodiment.

As described above, when the public long code mask (PLCM) collision is prevented from occurring among a predetermined number of users using one or more bits of the public long code mask (PLCM), the 56-bit mobile device It is possible to greatly reduce the probability of collision occurring when the identifier MEID is mapped to the 42-bit public long code mask PLCM.

Claims (11)

A method of generating a public long code mask (PLMN) in a terminal of a mobile communication system, Receiving an overhead message including control information indicating whether a public long code mask collides between the public long code mask of the terminal and one or more other terminals on a network; Allocating the control information to a first position of the public long code mask of the terminal; And Hashing a mobile device identifier (MEID) of the terminal by a predetermined number of bits and assigning the same to a second position of the public long code mask; The control information is composed of one or more bits, and when the public long code mask collides between the terminal and the one or more other terminals, the control information is assigned to the terminal and the one or more other terminals with different values. How to create a public long code mask. The method of claim 1, The hashing method uses a SHA-1 algorithm. The method of claim 1, The overhead message is a public long code mask generation method, characterized in that the extended channel allocation message delivered through a paging channel (Paging channel) or a broadcast control channel (Braodcast control channel). delete The method of claim 1, And the first position is a specific position bit of the public long code mask as the most significant bit, and the second position is a next lower bit of the least significant bit of the first position as the most significant bit. The method of claim 5, Method for generating a public long code mask, characterized in that the most significant two bits of the public long code mask for the terminal is set to binary 10. The method of claim 6, And wherein the mobile device identifier comprises 56 bits. delete delete delete delete

Images