KR101062112B1 - Terminal Unique Number Assignment and Operation Method in Mobile Communication System - Google Patents

Abstract

The present invention relates to an effective operating method of the ESN for the normal operation of the terminal and the system in a mobile communication system. In the present invention, the manufacturer code of the terminal unique number is reassigned to the terminal, and the reassignment type (RECYCLED_TYPE) is given to the terminal for multiple reassignments, and the SCM is newly set according to the given reassignment type, and according to the existing value. PLCM is created so that it does not collide with the long code mask. Therefore, even if the ESN is exhausted, it is possible to allocate additional ESNs without collision of the PLCM by the above method, thereby effectively solving the ESN exhaustion problem and the PLCM collision problem.

ESN, Terminal ID, PLCM, UIM_ID

Description

Assignment and operation of unique terminal number in mobile communication system {METHOD FOR ALLOCATING AMD OPERATING TERMINAL SPECIFIC NUMBER IN MOBILE COMMUNICATION SYSTEM}

1 is a diagram showing the structure of a conventional 32-bit ESN.

Fig. 2 shows the structure of a conventional 42 bit PLCM used in cdma2000.

3 is a diagram illustrating an example of a mapping table of a station class mark and a PLCM (P36 to P32) according to seven reassignment types (RECYCLED_TYPE) in the present invention.

FIG. 4 is a diagram illustrating a structure of an 8-bit station class mark capable of reporting a terminal realization of a reassignment terminal unique number and a reassignment type (RECYCLED_TYPE) to a base station when seven reallocations are possible.

FIG. 5 is a view showing an example of a mapping table of a station class mark and a PLCM (P36 to P32) according to three reallocation types (RECYCLED_TYPE) in the present invention.

FIG. 6 is a diagram illustrating a structure of an 8-bit station class mark capable of reporting a terminal realization of a reassignment terminal unique number and a reassignment type (RECYCLED_TYPE) to a base station when three reallocations are possible; FIG.

FIG. 7 is a view showing an example of a mapping table of a station class mark and a PLCM (P36 to P32) according to 13 reallocation types (RECYCLED_TYPE) in the present invention.

FIG. 8 is a diagram illustrating a structure of an 8-bit station class mark capable of reporting a terminal realization of a reassignment terminal unique number and a reassignment type (RECYCLED_TYPE) to a base station when 13 reallocations are possible.

9 is a view showing the structure of the PLCM of the terminal generated by the mapping value of the mapping table of FIGS. 3, 5 and 7 in the present invention.

FIG. 10 illustrates a part of a table indicating types of messages sent on a downlink common signaling channel. FIG.

FIG. 11 illustrates a portion of a table indicating types of messages sent on a downlink-oriented signaling channel. FIG.

12 illustrates an example of a newly defined terminal identifier (MSID) format according to the present invention.

FIG. 13 illustrates an example of a mapping table of a terminal identifier type (MSID_TYPE) according to a station class mark and a terminal unique number when seven reallocations are possible.

14 is a diagram illustrating an example of a mapping table of a terminal identifier type (MSID_TYPE) according to a station class mark and a terminal unique number when three reallocations are possible.

FIG. 15 illustrates an example of a mapping table of a terminal identifier type (MSID_TYPE) according to a station class mark and a terminal unique number when 13 reallocations are possible.

The present invention relates to a mobile communication system, and more particularly, to an effective operating method of a terminal unique number for the normal operation of the terminal and the system.

Currently, cdma2000 systems and terminals use a terminal serial number (ESN) to identify each terminal.

Figure 1 shows the structure of a conventional 32-bit ESN.

As shown in FIG. 1, the terminal serial number (ESN) includes a manufacturer code portion of the upper 8 bits and a serial number portion of the remaining 24 bits. The 8-bit is a part assigned uniquely to each terminal manufacturer by a Telecommunication Industry Association (TIA) authorized by the Federal Communications Commission (FCC), and the serial number part is uniquely assigned to each terminal by each terminal manufacturer. Part.

In particular, the terminal serial number (ESN) is a unique identifier of each terminal, and is used for generating user authentication and public long code mask (PLCM) in mobile communication systems and terminals. The common long code mask (PLCM) is generated using an ESN in a cdma2000 system, and is composed of 42 bits, as shown in FIG. The upper 10 bits of the PLCM are set to a fixed value to avoid collision with other long code masks, and the Per32-ESN is set to the lower 32 bits.

In addition, the TIA authorized by the FCC allocates a 32-bit unique number called a user identification module ID (UIM_ID) to a Removable User Identity Module (R-UIM), wherein the UIM_ID is an area for allocating an ESN. It is allocated within the range that does not overlap with the ESN. If the R-UIM is attached to the mobile communication terminal, a bit (1 bit) called a UIM_ID usage indicator is set to "1", and the UIM_ID is used instead of all ESNs. Therefore, in the case of the terminal to which the R-UIM is attached, permutated-UIM_ID is entered instead of permutated-ESN in the lower 32 bits of the PLCM shown in FIG.

However, due to the development of the mobile communication industry, the demand for mobile communication terminals increases and the number of companies that produce them increases the terminal unique numbers (ESN and UIM_ID). The biggest problem that occurs when the ESN and UIM_ID is depleted is that the collision of the PLCM generated by using the ESN or UIM_ID inevitably occurs, and when the collision occurs in the PLCM Problems may arise and capacity may be significantly reduced.

Accordingly, an object of the present invention is to propose a method for operating a system and a terminal normally while using the terminal unique number as it is when the terminal unique number is exhausted.

Another object of the present invention is to provide a method for operating a terminal unique number that can effectively prevent a collision of PLCM caused by the exhaustion of ESN.

In order to achieve the above object, the terminal unique number assignment method according to the present invention,
Reallocating the manufacturer code of the terminal unique number to the terminal;
And transmitting a reassignment type (RECYCLED _TYPE) indicating how many reassignments are to the terminal.
In addition, the present invention generates a common long code mask (PLCM) using the reallocated terminal unique number and the reassignment type (RECYCLED_TYPE).

Preferably, the terminal unique number is an electronic serial number (ESN) or a user identification module ID (UIM_ID), and the reassignment type (RECYCLED_TYPE) has one fixed value.

Preferably, the terminal determines the 5-bit portions P36 to P32 of the PLCM according to the reassignment type RECYCLED_TYPE. The 5-bit portions are determined to be values that do not conflict with all long code masks currently being used. The station class mark corresponding to the reassignment type (RECYCLED_TYPE) and the 5-bit portions P36 to P32 of the PLCM are stored in a table form, and the 5-bit portion is set to a value that does not conflict with all long code masks currently used. do.

In order to achieve the above object, the present invention determines the value of the Station Class Mark (SCMp) stored in the terminal according to the reassignment type (RECYCLED_TYPE) given to the terminal.

Preferably, the terminal unique number is an electronic serial number (ESN) or a user identification module ID (UIM_ID).

Preferably, whether or not the terminal implements the reassignment terminal unique number and the corresponding reassignment type (RECYCLED_TYPE) information is stored in the permanent memory of the terminal, registration message, outgoing message, page response message and terminal information (Terminal) Information) indicates that the value of the Station Class Mark (SCMp) delivered to the base station is set to a previously reserved value according to the reassignment type (RECYCLED_TYPE).

Preferably, whether the base station is a base station that implements a reassignment terminal unique number is information of an extended channel assignment (ECAM) used when the base station allocates a channel transmitted through signaling and information of a target base station during handoff. This can be done by setting the Message ID or Message Type of the General Handoff Message (GHDM), Universal Handoff Message (UHDM), or the like to a reserved value.
In addition, in order to achieve the above object, the operating method of the terminal unique number according to the present invention,
Reallocating the manufacturer code of the terminal unique number to the terminal;
Notifying the terminal of a reassignment type (RECYCLED _TYPE) indicating the number of reassignments;
And determining a value of a station class mark (SCMp) at which the terminal is stored according to the reassignment type.
In order to achieve the above object, the operating method of the terminal unique number according to the present invention,
In a wireless system for transmitting a plurality of messages through a downlink common signaling channel,
The base station sets the MSG_ID of the message indicating the channel allocation or information to the reserved MSG_ID, informing the terminal that the base station has implemented a reallocation unique number and a reassignment type (RECYCLED_TYPE);
And checking, by the terminal, the MSG_ID to generate a public long code mask (PLCM).

The present invention is implemented in a cdma2000 system and a terminal. However, the present invention can also be applied to a wireless communication system operating according to other standards. Hereinafter, preferred embodiments of the present invention will be described in detail.

The present invention provides a system and a terminal while maintaining the ESN and UIM_ID scheme when the terminal unique number, that is, the terminal serial number (ESN) and the terminal identification number (UIM_ID), which uniquely distinguish each terminal in the mobile communication system is exhausted. We propose a way to operate normally. That is, the present invention reassigns the manufacturer code of the terminal unique number to the terminal, and then informs the terminal of the reassignment type (RECYCLED_TYPE) for multiple reassignment, and the terminal newly sets the SCM according to the reassignment type. We propose a method to generate PLCM so that it does not collide with the existing long code mask according to the value.

To this end, the present invention proposes that an organization (TIA) having the authority to assign a manufacturer code of a terminal unique number to the terminal when the terminal unique number is exhausted is reassigned to the terminal. Preferably, when reassigning a manufacturer code, the manufacturer code, which was previously assigned first, is reassigned first to prevent the manufacturer codes from being identical among the terminals used.

In addition, the present invention proposes to inform the terminal of a reassignment type (RECYCLED_TYPE), which is a value indicating the number of reassignments when reassigning a manufacturer code for multiple reassignments. In this case, it is set to RECYCLED_TYPE1 for the first reassignment and RECYCLED_TYPE2 for the second reassignment. The reassignment type (RECYCLED_TYPE) given to the terminal by the TIA is not a value stored directly in the terminal or transmitted by the terminal to the base station.

3 is a diagram illustrating an example of a mapping table of a station class mark and a PLCM (P36 to P32) according to seven reassignment types (RECYCLED_TYPE).

As shown in FIG. 3, when seven reallocations are possible, the terminal sets bit 4, bit 3, bit 1, and bit 0 values of the Station Class Mark according to a given reassignment type (RECYCLED_TYPE), and accordingly, SCMp Is stored in its permanent memory. In addition, the SCMp stored in the terminal is transmitted to the base station through a registration message, an origination message, and a page response message without a request of the base station, or a status message according to the request of the base station. ), A terminal information message such as a status response message and an extended status response message.

FIG. 4 illustrates a structure of an 8-bit station class mark capable of reporting whether a realization of a reassignment terminal unique number and a reassignment type (RECYCLED_TYPE) to a base station when seven reallocations are possible. As shown in Fig. 4, the terminal sets the bit 4, bit 3 and bit 1-bit 0 of the SCM to one of the values shown in Fig. 3 to determine whether the terminal implements a reallocation unique number and the actual reassignment type. (RECYCLED_TYPE) may be informed to the base station.

In addition, when three reallocations are possible, the terminal sets bit 4 and bit 3 values of the Station Class Mark according to the given reassignment type (RECYCLED_TYPE), as shown in FIG. 5, and sets the corresponding SCMp into the permanent memory. Will be saved.

FIG. 6 illustrates a structure of an 8-bit station class mark capable of reporting a terminal realization of a reassignment terminal unique number and a reassignment type (RECYCLED_TYPE) to a base station when three reallocations are possible. As shown in FIG. 6, the terminal sets bit 4 and bit 3 of the SCM to one of the values shown in FIG. 5 to determine whether the terminal implements the reallocation unique number and the actual reassignment type (RECYCLED_TYPE). I can let you know.

When 13 reallocations are possible, as shown in FIG. 7, the terminal sets bit 4, bit 3, bit 1, and bit 0 values of the Station Class Mark according to the given reassignment type (RECYCLED_TYPE), and accordingly, SCMp Is stored in the permanent memory of the terminal. In addition, the stored SCMp is sent to the base station through a registration message, an outgoing message, a page response message without a request of the base station, or according to the request of the base station (Status Message), Status Response Message (Status Response Message) and extended state The terminal is sent to the base station through a terminal information message such as an extended status response message.

FIG. 8 illustrates a structure of an 8-bit station class mark capable of reporting a terminal realization of a reassignment terminal unique number and a reassignment type (RECYCLED_TYPE) to a base station when 13 reallocations are possible. As shown in FIG. 8, the terminal sets bit 4, bit 3, and bit 1-bit 0 of the SCM to one of the values shown in FIG. 7 to determine whether or not the terminal implements the reallocated unique number and the actual reassignment. The type (RECYCLED_TYPE) may be informed to the base station. In addition, "Power Class for Band Class 0 Analog Operation" information, which is informed using bit 1-bit 0 of the SCM, may be determined as a value previously determined by the terminal and the operator.

In addition, the present invention proposes a method of using the reallocated terminal unique number and the reassignment type (RECYCLED_TYPE) for the generation of the PLCM. To this end, the present invention uses the mapping table of the Station Class Mark and PLCM (P36 to P32) according to the reassignment type (RECYCLED_TYPE), to present the 5-bit portion (P36 to P32) of the 42-bit (P0 to P41) PLCM. The value does not conflict with any Long Code Mask in use. That is, the present invention finds and uses a pattern not currently used among the patterns of 5-bit portions P36 to P32 for generating PLCM according to the Station Class Mark by the reassignment type (RECYCLED_TYPE).

3, 5, and 7 are examples of mapping tables of Station Class Mark and PLCM (P36 to P32) according to the reassignment type (RECYCLED_TYPE), and FIG. 9 is a structure of PLCM generated by each mapping value. As such, when the 32-bit ESN is exhausted, an additional ESN can be allocated without collision of the PLCM by defining a unique number reassignment and reassignment type (RECYCLED_TYPE) and generating the PLCM.

FIG. 10 is a part of a table indicating types of messages sent through f-csch (downlink common signaling channel). In FIG. 10, the message is classified as MSG_ID. The MSG_ID of the ECAM, which is a message used when allocating a channel, is “010101”. In the present proposal, when the base station implementing the reassignment unique number and the reassignment type (RECYCLED_TYPE) transmits an ECAM to a terminal implementing the reassignment unique number and the reassignment type (RECYCLED_TYPE), the MSG_ID is set to "010101". It is proposed to set the reserved MSG_ID, which has not been previously used, so that the terminal can know whether the base station reassigns a unique number and the reassignment type (RECYCLED_TYPE). Therefore, when the MSG_ID of the ECAM is another reserved value other than "010101", the terminal sets P36 to P32 as a value read from the mapping table when the PLCM is generated.

FIG. 11 is a part of a table indicating the types of messages sent through f-dsch (downlink dedicated signaling channel). GHDM or UHDM is a message used by a current source base station to inform a terminal of information of a target base station when performing handoff. In case of GHDM, MSG_TYPE is “00011111”, and in case of UHDM, MSG_TYPE Is "00100010". In the present proposal, when the base station implementing the reassignment unique number and the reassignment type (RECYCLED_TYPE) transmits the GHDM or the UHDM to the terminal implementing the reassignment unique number and the reassignment type (RECYCLED_TYPE), the MSG_ID is set to "00011111. It is proposed to set the reserved MSG_TYPE, which is not previously used or not "00100010", so that the terminal can know whether to implement the assignment unique number and the reassignment type (RECYCLED_TYPE) of the target base station at the time of handoff. do. Therefore, if the MSG_TYPE of the GHDM or UHDM is another reserved value other than "00011111" or "00100010", the terminal proposes a PLCM generation in the target base station after performing a handoff. Set P36 to P32 as read from the mapping table.

Meanwhile, the system may require a mobile station identifier (MSID) having a unique value different from each terminal in addition to generating the PLCM. That is, it is necessary to have a unique value for each terminal in determining whether the terminal is a valid terminal or charging. To this end, the present invention proposes a method for generating a terminal identifier (MSID) using a station class mark and a terminal serial number.

12 is an example of a terminal identifier (MSID) generated using a station class mark and a terminal serial number (ESN). In FIG. 12, the ESN may be the original ESN or the Recycled ESN proposed by the present invention, depending on the value of the Station Class Mark.

13 shows an example of a mapping table of MSID_TYPE according to Station Class Mark and ESN when seven reallocations are possible.

As shown in FIG. 13, the ESN in the case of using the SCM shown in FIG. 3 means the recycled ESN proposed in the present invention, and the ESN in the case of using all the SCMs not shown in FIG. 3 means the original original ESN. . The MSID_TYPE value, which is a value used in FIG. 12, is determined according to the Station Class Mark and the ESN, and the MSID_TYPE has a length of 3 bits.

14 shows an example of a mapping table of MSID_TYPE according to Station Class Mark and ESN when three reallocations are possible.

As shown in FIG. 14, the ESN in the case of using the SCM shown in FIG. 5 means the recycled ESN proposed in the present invention, and the ESN in the case of using all the SCMs not shown in FIG. 5 means the original original ESN. do. The MSID_TYPE value, which is a value used in FIG. 10, is determined according to the station class mark and the ESN, where the MSID_TYPE has a length of 2 bits.

FIG. 15 is an example of a mapping table of a terminal identifier type (MSID_TYPE) according to a station class mark and a terminal unique number when 13 reallocations are possible.

In FIG. 15, the ESN in the case of using the SCM shown in FIG. 7 means the recycled ESN proposed in the present invention, and the ESN in the case of using all the SCMs not shown in FIG. 7 means the existing original ESN. The MSID_TYPE value, which is a value used in FIG. 12, is determined according to the Station Class Mark and the ESN. In this case, the MSID_TYPE has a length of 4 bits.

Therefore, when the terminal identifier (MSID) is determined, since all terminals can have a unique MSID for each terminal, the system can use the MSID for determining the validity and charging of the terminal.

In addition, although the present invention has been described by taking an ESN as an example for convenience of explanation, it is understood that the same applies to the case where UIN_ID is used instead of the ESN.

As described above, in the present invention, when the terminal unique number is exhausted, an organization (TIA) having the authority to assign the manufacturer code of the terminal unique number reassigns the manufacturer code of the terminal unique number to the terminal, and reassigns the type (RECYCLED_TYPE). ) Is used to generate the PLCM. By doing so, additional ESNs can be allocated without conflicting with the PLCM, thereby effectively solving the ESN exhaustion problem.

In addition, according to the present invention, by generating a terminal identifier (MSID) having a unique value for each terminal by using a station class mark and a terminal serial number, the system can more effectively determine the validity of the terminal and charge.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (18)

Reallocating the manufacturer code of the terminal unique number to the terminal; And transmitting a reassignment type (RECYCLED _TYPE) indicating the number of reassignments to the terminal.  The terminal is And a public long code mask (PLCM) using the reassigned terminal unique number and the reassigned type. delete The terminal unique number of claim 1 A terminal serial number (ESN) or a terminal identification number (user identification module ID: UIM_ID) characterized in that the terminal unique number assignment method. The method of claim 1 wherein the reassignment type is Terminal unique number assignment method, characterized in that it has a fixed value. The method of claim 1, wherein the terminal And a 5-bit portion of the station class mark and the PLCM corresponding to the reassignment type in a table form. The method of claim 5, wherein the terminal And a 5-bit part of the PLCM according to the reassignment type. The terminal of claim 6, wherein the terminal And assigning the 5-bit portion to a value that does not conflict with all long code masks currently in use. Reallocating the manufacturer code of the terminal unique number to the terminal; Notifying the terminal of a reassignment type (RECYCLED _TYPE) indicating the number of reassignments; And determining a value of a station class mark (SCMp) at which the terminal is stored according to the reassignment type. According to claim 8, wherein the terminal unique number Method of operating a terminal unique number characterized in that the terminal serial number (Electronic Serial Number (ESN)) or the terminal identification number (user identification module ID: UIM_ID). The method of claim 8, wherein the terminal Information indicating whether or not the terminal implements the unique number of the reallocated terminal and the reallocation type information (RECYCLED _TYPE). Operating method of the terminal unique number, characterized in that stored in the permanent memory. 10. The method of claim 8, wherein the terminal includes information indicating whether the terminal implements a reallocated terminal unique number and the reallocation type information. The method of operating a terminal unique number further comprising the step of notifying the Station Class Mark (SCMp) to the base station The method of claim 11, wherein the Station Class Mark (SCMp) is It is delivered to a base station through a registration message, an outgoing message, a page response message, and terminal information without a request of the base station, and is unique to the terminal, which is set to a previously reserved value according to the reassignment type. How the number works. The method of claim 11, wherein the Station Class Mark (SCMp) is Method of operating a terminal unique number characterized in that delivered to the base station through a message selected from the group consisting of a status message, status response message, extended status response message, terminal information message according to the request of the base station. In a wireless system for transmitting a plurality of messages through a downlink common signaling channel, The base station sets the MSG_ID (message_identification) of the message indicating the channel allocation or information to the reserved MSG_ID, informing the terminal that the base station has implemented a unique reallocation number and reassignment type (RECYCLED_TYPE); And checking, by the terminal, MSG_ID to generate a public long code mask (PLCM). 15. The method of claim 14, wherein said message is ECAM (Extended Channel Assignment) message, GHDM (General Handoff Message), UHDM (Universal Handoff Message) message operating method characterized in that the terminal. 15. The method of claim 14, wherein the terminal When the MSG_ID is set to a reserved MSG_ID that is not previously used, a 5-bit portion of a public long code mask (PLCM) is set to a value in a mapping table determined according to the reassignment type (RECYCLED_TYPE). Operation method of the terminal unique number. delete delete

Images