KR100556358B1 - Method for Operating of Mobile Communication System and Hashing Channel of Mobile Telecommunication Device - Google Patents

Abstract

The present invention relates to the operation of a mobile communication system and channel hashing of a terminal. Particularly, when a communication system expands an FA, a method of operating a mobile communication system and a mobile communication terminal capable of appropriately operating an extended FA and an existing FA. Channel hashing method. According to an embodiment of the present invention, when the base station system using at least one existing FA adds at least one FA, the operating FA for the FA of the base station system and the determined operating condition are determined according to the determined operating condition. And setting a synchronization channel message and an extended CDMA channel list message (ECCLM) for each of the extended FAs.

Therefore, according to the present invention, the mobile communication system can be efficiently operated by using the existing FA and the expansion FA.

Communication system operation

Description

Method for operating mobile communication system and channel hashing method of mobile communication terminal {Method for Operating of Mobile Communication System and Hashing Channel of Mobile Telecommunication Device}

1 is a flowchart illustrating a channel hashing method in a communication system according to the prior art.

2 is a view for explaining a communication system operating method according to the first embodiment of the present invention.

3 is a view for explaining a method of operating a communication system according to a second embodiment of the present invention.

4 is a view for explaining a communication system operating method according to a third embodiment of the present invention.

5 is a view for explaining a communication system operating method according to a fourth embodiment of the present invention.

The present invention relates to a method for operating a communication system, and in particular, when a communication system base station providing high-speed data and voice services expands an FA, an operating method and movement of a mobile communication system to properly operate an extended FA and an existing FA. A terminal channel hashing method of a communication system.

In a mobile communication system, a base station may support multiple frequencies. A CDMA channel list message (hereinafter, abbreviated as CCLM) or an extended CDMA channel list message (extended CDMA) may be used to inform the mobile station of the available frequencies. Channel List Message: hereinafter referred to as ECCLM).

CCLM is used when no ECCLM is sent, mainly used in IS-95A / B systems, and ECCLM is used in IS-2000 (Interim Standard 2000) systems, the current CDMA system standard that provides a transition path to third generation services. do.

The terminal determines a frequency to be serviced using its own telephone number among the frequencies received from the CCLM or ECCLM.

Hereinafter, a channel hashing method in a communication system according to the prior art will be described with reference to the accompanying drawings.

1 is a flowchart illustrating a channel hashing method in a communication system according to the prior art.

The channel hashing method in a communication system according to the related art shows a channel hashing method when receiving an overhead message from a forward-paging channel (F-PCH), and the terminal acquires a pilot channel. If it fails or fails to acquire the sync channel, it will try again from the system decision state.

As shown in FIG. 1, when the terminal is powered on or when the terminal comes to a system determination state from another state, the terminal first selects a system to be used (S11). That is, it selects whether to use a CDMA system or an analog system, and moves to a primary channel in the selected system to prepare for call processing. If the primary channel fails, it moves to the secondary channel and performs the same task.

Next, an operation for obtaining a pilot channel is performed (S12).

If a pilot channel is successfully acquired, an operation for acquiring a sync channel is performed (S13).

The sync channel contains system information and timing information. The sync channel moves to a frequency where a primary paging channel is used to receive a system parameters message (SPM). S14).

The received system parameter message (SPM) contains information indicating whether ECCLM (Extended CDMA Channel List Message) is transmitted on the corresponding paging channel. In this case, ECCLM is used for channel hashing, and when the ECCLM is not transmitted, CCLM (CDMA Channel List Message) is used for channel hashing (S15, S16, and S17).

When ECCLM is used for channel hashing (S17), it is determined whether the base station and the terminal support QPCH (Quick Paging Channel) or RC (Radio Configuration) is greater than 2 (S18).

Judgment result (S18) When the base station and the terminal supports the QPCH (Quick Paging Channel), or if the RC (Radio Configuration) is greater than 2, it supports QPCH (Quick Paging Channel) from the total frequency included in the ECCLM or radio (RC) Configuration) selects a service frequency among frequencies greater than 2 and moves to the selected frequency (S19).

However, in the determination result (S18), even if the CCLM is used for channel hashing or ECCLM is used for channel hashing, if the base station or the terminal does not support QPCH (Quick Paging Channel) and RC (Radio Configuration) is less than or equal to 2, The terminal selects a service frequency from all frequencies included in CCLM or ECCLM and moves to the selected frequency (S20).

This embodiment of the prior art will be described in more detail with reference to Table 1.

1FA 2FA 3FA 4FA

That is, as shown in Table 1, there are four FAs, and the ECCLM having 1FA, 2FA, 3FA, and 4FA as candidate frequencies is transmitted, and the enhancement terminal has an overhead from the forward-paging channel (F-PCH). Receive the message, the primary channel (primary channel) is 1FA, the secondary channel (secondary channel) in case the primary channel (primary channel) failed in case 3FA is set, the SCHM (Sync) contained in the primary channel Assuming that the frequency with the primary paging channel in the CHannel Message) is set to 2FA, in the conventional case, for example, the terminal prepares for call processing on the primary channel 1FA (if it fails, of course, the secondary channel 3FA). After the pilot channel acquisition, move from the sync channel to 2FA with the primary paging channel. The terminal is channel hashed to one FA of candidate frequencies 1FA, 2FA, 3FA, and 4FA of the ECCLM. If the selected frequency is 4FA, the channel hashing is 1FA → 2FA → 4FA.

As described above, the terminal selects the service frequency using the information of the CCLM or ECCLM and moves to the selected frequency. However, if an FA is added for the enhancement system (if a new FA is added in addition to the four FAs in Table 1), the newly added FA should be added to the CCLM or the ECCLM. The enhanced terminal selects a service frequency from all frequencies including the added FA and moves to the selected frequency. However, depending on the system, the enhanced terminal may want to operate differently, and there is no specific operation method so far, so it is necessary to define it.

The present invention has been made in view of the above, and when a new FA is added, the extended FA and the existing FA can be efficiently allocated to the IS-95A or 95B terminal (existing terminal) and the enhanced terminal, respectively, and efficiently operated. The present invention provides a method for operating a mobile communication system and a terminal channel hashing method for a mobile communication system.

As described above, in the method of operating the mobile communication system, when an at least one new FA is added in a base station system using at least one existing FA, the IS-95A or 95B terminal and the enhanced terminal are changed according to the FA utilization rate of the system. The system to use selects the use of the at least one existing FA and the at least one extension FA.

Preferably, when providing the FAs to the IS-95A or 95B terminal and the enhanced terminal, the existing terminal to use the existing FA, the enhanced terminal to use the extension FA, the existing terminal is a primer The existing FA is set to a channel and the enhanced terminal sets the extended FA to a primer channel.

Preferably, in the synchronization channel message transmitted from the existing FA, the frequency with the primary paging channel is allocated in the existing FA, and in the synchronization channel message transmitted from the extension FA, the frequency with the primary paging channel is allocated in the extended FA.

Preferably, the existing terminal and the enhanced terminal are configured to use the existing FA as a primer channel, respectively.

The sync channel message transmitted from the existing FA allocates a frequency of a primary paging channel to the existing FA, and the sync channel message transmitted from the extended FA allocates a frequency of a primary paging channel to the extended FA. If the channel hashing for the enhanced terminal is first performed in the existing FA, the channel is redirected from the existing FA to the expansion FA and channel hashed to the extension FA. In addition, the existing FA sends an extended global service redirection message (EGSRDM) for the redirection.

Preferably, the existing FA transmits a message for allocating the existing FA in the ECCLM, and allocates the extended FA in the extended channel list message (ECCLM) transmitted in the extended FA.

Preferably, when providing the FAs to the existing terminal and the enhanced terminal, the at least one extension FA and the at least one existing FA are used for both the existing terminal and the enhanced terminal.

Preferably, primary channels for the existing terminal and the enhanced terminal are set to use the existing FA.

In the sync channel message transmitted from the existing FA and the extended FA, a frequency having a primary paging channel is allocated to the existing FA.

Preferably, the ECCLM transmitting the existing FA and the extended FA transmits a message for allocating the existing FA and the extended FA.

Preferably, when the FAs are provided to the existing terminal and the enhanced terminal, the existing terminal is used for the existing terminal, the extended FA and the existing FA are used for the enhanced terminal, and the primary for the existing terminal is used. The channel uses the existing FA, and the primary channel for the enhanced terminal uses the extended FA. In the sync channel message transmitted from the existing FA, a frequency having a primary paging channel is allocated from the existing FA, and a sync channel message transmitted from the extended FA is allocated a frequency having a primary paging channel from the extended FA. do.

Preferably used in the primary channel and the existing FA for the existing terminal and the enhanced terminal.

Preferably, in the synchronization channel message transmitted from the existing FA and the extended FA, a frequency having a primary paging channel is allocated from the existing FA.

Preferably, the channel hashing of the existing terminal is performed in the existing FA, or moves from the existing FA to the expansion FA and finally in the existing FA through redirection, and the channel hashing of the enhanced terminal is performed in the existing FA or the extension FA. This is done everywhere, and the extension FA sends an extended Global Service Redirection Message (EGSRDM) for the redirection.

Preferably, the existing FA transmits a message for allocating the existing FA and an extended channel list message (ECCLM) for transmitting the existing FA and the extended FA in the extended FA. .

Preferably, in case of providing FAs to the existing terminal and the enhanced terminal, the at least one existing FA and the at least one extension FA are used for the existing terminal, and the extension FA is used for the enhanced terminal. .

Preferably, the primary channel for the existing terminal is set in the existing FA, the primary channel for the enhanced terminal is set in the extension FA.

Preferably, in the synchronization channel message transmitted from the existing FA, a frequency having a primary paging channel is allocated by the existing FA, and in the synchronization channel message transmitted from the extension FA, a frequency having a primary paging channel is allocated by the extension FA.

Preferably, primary channels for the existing terminal and the enhanced terminal are set in the existing FA.

In the sync channel message transmitted from the existing FA, the frequency having the primary paging channel is allocated by the existing FA, and in the sync channel message transmitted from the extended FA, the frequency with the primary paging channel is allocated by the extended FA.

Preferably, the channel hashing for the existing terminal is made from an existing FA to an existing FA or an expansion FA, and the channel hashing for the enhanced terminal is first made in the existing FA, and then redirected from the existing FA to the expansion FA and expanded. Channel hashing, and the existing FA sends an extended global service redirection message (EGSRDM) for the redirection.

Preferably, the existing FA transmits a message for allocating the existing FA and the extended FA and transmits a message for allocating the extended FA in an extended channel list message (ECCLM) transmitted from the extended FA.

In the terminal channel hashing method of the present invention as described above, in a system using at least one existing FA and at least one new extended FA, channel hashing is selected according to the usage rates of the FAs of the existing terminal and the enhanced terminal. do.

Preferably, channel hashing for the existing terminal is performed at the existing FA, and channel hashing for the enhanced terminal is performed at the extended FA.

Preferably, when the channel hashing for the existing terminal and the channel hashing for the enhanced terminal is hashed in the existing FA and the expansion FA.

Preferably, channel hashing for the existing terminal is performed in the existing FA, and channel hashing for the enhanced terminal is performed in the extension FA or the existing FA.

Preferably, channel hashing for the existing terminal is performed at the existing FA or at the extended FA, and channel hashing for the enhanced terminal is performed at the extended FA.

Other objects, features and advantages of the present invention will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

Hereinafter, a method of operating a communication system according to the present invention will be described with reference to the accompanying drawings.

The present invention proposes four methods of operating the FA when the FA is expanded for the enhancement system. Each system can be used in one of four ways depending on the system situation.

2 is a view for explaining a communication system operating method according to a first embodiment of the present invention.

In the first embodiment of the present invention, the existing terminal uses only the existing FA, and the enhancement terminal uses only the extended FA.

Thus, the detailed method of the first embodiment of the present invention can be divided into two types.

First of all, the existing terminal and the enhanced terminal use different primary and secondary channels, and the existing FA and the extended FA use different SCHMs (synchronous channel messages). .

The FA configuration in the first embodiment of the present invention is shown in Table 2.

1FA 2FA 3FA 4FA 5FA 6FA 7FA

 That is, if there are 7 FAs of 1 FA, 2 FA, 3 FA, 4 FA and 5 FA, 6 FA, and 7FA, which are existing FAs, the existing terminal uses only 1 FA, 2 FA, 3 FA, and 4 FA. In this case, the enhanced terminal uses only the extended 5 FA, 6 FA, and 7 FA.

Basically, the present invention relates to a channel hashing method according to CCLM or ECCLM by transmitting an ECCLM for channel hashing of an enhanced terminal and receiving an overhead message from the F-PCH.

In the first embodiment of the present invention, the existing terminal is allocated to 1 FA and the enhanced terminal is assigned to 5 FA as a primary channel for preparing for call processing after system selection.

Secondary channels are allocated from existing FAs (eg, 1 FA) for the case where the existing terminal has 3 FAs and the enhanced terminal has no extended FAs.

EXT_CDMA_FREQ indicating the frequency where the primary paging channel is located is transmitted through the SCHM. EXT_CDMA_FREQ included in the SCHM transmitted from the existing FA is allocated from the existing FA, and EXT_CDMA_FREQ included in the SCHM transmitted from the extended FA is allocated from the extended FA. do.

ECCLM adds 5 FA, 6 FA, and 7 FA, which are newly added FAs.

In this case, if the first case of the first embodiment of the present invention is briefly described with reference to FIG. 1, if it is determined in step S15 that ECCLM is transmitted (sent) from the base station, it is determined that ECCLM is transmitted, step S17. In step S18, the base station and the terminal determine whether QPCH support or RC (Radio Configuration) is greater than 2, the base station supports QPCH, even if the RC is greater than 2, the terminal supports the QPCH If it is not supported and RC is not greater than 2, the terminal enters step S20. If the terminal supports QPCH, and RC is larger than 2, the terminal enters step S19.

In the first embodiment of the present invention, when the existing FA and the extended FA use different SCHMs, channel hashing is performed. For example, the existing terminal has 1 FA (primary channel) → 2 FA (EXT_CDMA_FREQ). 4 FA (channel hashing), and the enhancement terminal is 5 FA (primary channel) → 6 FA (SCHM) → 7 FA (channel hashing).

Secondly, the existing terminal and the enhanced terminal use the same primary channel and the secondary channel, and the existing FA and the extended FA use different SCHMs.

As shown in Table 2, when the second case of the first embodiment of the present invention also has seven FAs, existing terminals use only 1FA, 2 FA, 3 FA, and 4 FA, and enhance terminals are expanded. Only 5 FA, 6 FA, and 7 FA are used.

Basically, the present invention relates to a channel hashing method according to CCLM or ECCLM transmission by transmitting an ECCLM for channel hashing of an enhanced terminal and receiving an overhead message through F-PCH.

In the second case of the first embodiment of the present invention, a primary channel allocates an FA, for example, 1 FA, which allocates the same primary channel regardless of an existing terminal or an enhanced terminal. As a channel, the secondary channel is allocated from the same FA, for example, 3 FA, regardless of the existing terminal or the enhanced terminal. That is, the existing terminal and the enhanced terminal use the same primary channel and secondary channel.

EXT_CDMA_FREQ indicating the frequency where the primary paging channel is located is transmitted through the SCHM. EXT_CDMA_FREQ included in the SCHM transmitted from the existing FA is allocated from the existing FA, and EXT_CDMA_FREQ included in the SCHM transmitted from the extended FA is allocated from the extended FA. do.

ECCLM is the same as in the first case.

In the second case of the first embodiment of the present invention, since the primary and secondary channels are allocated in 1FA and 3FA, and after acquiring a synchronization channel through SCHM, the primary and secondary channels are moved to a paging channel to obtain a system parameter message. After the primary channel is assigned at 1FA (or 3FA), the enhanced terminal is redirected from the existing FA to the extended FA through EGSRDM (Extend Global Service Redirection Message).

For example, when the enhanced terminal is 1xEV-DV (IS-2000 Revision C), if REDIRECT_P_MIN = 9 or REDIRECT_P_MAX = 10, CDMA_CHAN = 5 FA. That is, if the redirection protocol revision is 9 or 10, the enhanced terminal is redirected to 5 FA.

In the second case of the first embodiment of the present invention, the channel hashing of the existing terminal and the enhancement terminal is, for example, 1 FA → 2 FA → 4 FA (by hashing). Becomes 1 FA (primary channel) → 2 FA (EXT_CDMA_FREQ) → 5 FA (by redirection) → 6 FA (EXT_CDMA_FREQ) → 7 FA (by hashing).

The first embodiment of the present invention is an appropriate method when the existing terminal is sufficient to the existing FA, the enhancement terminal is sufficient to the expansion FA.

3 is a view for explaining a communication system operating method according to a second embodiment of the present invention.

According to the second embodiment of the present invention, as shown in FIG. 3, both the existing terminal and the enhanced terminal use the existing FA and the new FA.

In the second embodiment of the present invention, the existing terminal and the enhanced terminal use the same primary channel and the secondary channel, and the existing FA and the extended FA also use the same SCHM.

As shown in Table 2, when the second embodiment of the present invention also has seven FAs, 1FA, 2 FA, 3 FA, and 4 FA are existing FAs, and 5 FA, 6 FA, and 7 FA are In the case of an extended FA, ECCLM is basically transmitted, and an overhead message is received by F-PCH and used for channel hashing according to CCLM or ECCLM.

In the second embodiment of the present invention, 1 FA is allocated as a primary channel regardless of an existing terminal or an enhancement terminal, and 3 FA is allocated as a secondary channel regardless of an existing terminal or an enhancement terminal. That is, the existing terminal and the enhanced terminal use the same primary channel and secondary channel.

The frequency with the primary paging channel in the SCHM (EXT_CDMA_FREQ) included in the primary channel is set to 2 FA of the existing FA. That is, existing FA and extension FA use the same SCHM.

ECCLM includes existing FAs, 1 FA, 2 FA, 3 FA, 4 FA, and expansion FA, 5 FA, 6 FA, and 7 FA.

In the second embodiment of the present invention, since the existing terminal and the enhanced terminal can use all FAs, the SCHM is allocated in, for example, 2FA. In such a case, channel hashing of the terminal may be, for example, 1 FA → 2 FA → 4 FA or 1 FA → 2 FA → 7 FA.

The second embodiment of the present invention may be the most efficient method since the existing terminal and the enhanced terminal may use all the FAs.

4 is a view for explaining a method of operating a communication system according to a third embodiment of the present invention.

In the third embodiment of the present invention, as shown in FIG. 4, a conventional terminal uses only an existing FA and an enhanced terminal uses all FAs.

Thus, the detailed method of the third embodiment of the present invention can be divided into two types.

First, the first method is a case in which the existing terminal and the enhanced terminal uses different primary channels and secondary channels, and the existing FA and the expansion FA use different SCHMs. Similar to the first case of one embodiment,

As shown in Table 2, when the first method of the third embodiment of the present invention also has seven FAs, 1FA, 2 FA, 3 FA, and 4 FA are existing FAs, 5 FA, 6 FA, In case of an extended FA, ECCLM is basically transmitted, and an overhead message is received in F-PCH and used for channel hashing according to whether CCLM or ECCLM is transmitted.

In this case, the primary terminal is assigned a primary channel at an existing FA, for example, 1FA, and the primary terminal is assigned to an enhanced terminal at an extended FA, for example, 5FA. Secondary channels can be allocated to existing terminals in 3FA, and enhanced terminals can be allocated in all FAs. If there is no extended FA, they are allocated in 1FA to operate in the existing FA.

In addition, the SCHM (EXT_CDMA_FREQ) may allocate an existing FA to 2 FAs and an extended FA to 6 FAs.

In this case, the FA for channel assignment of the existing terminal through ECCLM includes 1 FA, 2 FA, 3 FA, 4 FA, FA for channel allocation of the enhanced terminal all FAs including expansion FA 1FA, 2 FA, 3 FA, 4 FA, 5 FA, 6 FA, 7 FA.

The channel hashing in the first method according to the third embodiment of the present invention can be performed only with the existing FA, for example, 1 FA → 2 FA → 4 FA, and the enhanced terminal is 5 FA → 6 FA → You can hash both existing and extended FAs, such as 3 FAs (traditional FAs) or 5 FAs → 6 FAs → 7 FAs (extended FAs).

The second method of the third embodiment of the present invention is a case where an existing terminal and an enhancement terminal use the same primary channel and a secondary channel, and the existing FA and the extended FA use the same SCHM. . That is, the existing terminal, the primary channel of the enhancement terminal, the secondary channel usage method and the SCHM usage method are similar to the second embodiment of the present invention.

As shown in Table 2, when the second method of the third embodiment of the present invention also has seven FAs, 1FA, 2 FA, 3 FA, and 4 FA are existing FAs, 5 FA, 6 FA, If the 7 FA is an extended FA, ECCLM is basically transmitted and receives an overhead message with the F-PCH.

At this time, a primary channel is assigned at 1FA and a secondary channel is assigned at 3FA for the existing terminal and the enhanced terminal.

SCHM (EXT_CDMA_FREQ) is allocated at 2 FA.

At this time, the configuration of the ECCLM is the same as the first case of the third embodiment.

In the second case of the third embodiment of the present invention as described above, primary and secondary channels are allocated in 1FA and 3FA, and existing terminals can channel hash to extended FA. In this case, EGSRDM (Extend Global Service) An existing terminal assigned an extension FA can be redirected to an existing FA through a redirection message.

For example, in the case of an existing terminal, if REDIRECT_P_MIN = 1 and REDIRECT_P_MAX = 8, CDMA_CHAN = existing FA, for example, 1 FA. That is, if the redirection protocol revision is 8 between 1, the existing terminal is redirected to 1 FA, which is an existing FA.

In the second method of the third embodiment of the present invention, channel hashing is performed by, for example, 1FA → 2 FA → 4 FA or 1 FA → 2 FA → 6 FA → 1 FA (the existing FA by redirection in 6FA). R) → 2 FA → 4 FA, and the enhanced terminal can be 1 FA → 2 FA → 5 FA (extended FA) or 4 FA (existing FA).

The third embodiment of the present invention is an appropriate method when the existing terminal is sufficient as the existing FA, but the enhanced terminal is not sufficient as the extended FA.

5 is a view for explaining a communication system operating method according to a fourth embodiment of the present invention.

As shown in FIG. 5, the fourth embodiment of the present invention describes a method in which an existing terminal uses all FAs and an enhancement terminal uses only an extended FA.

Such a fourth embodiment of the present invention can also be divided into two types of detailed methods.

First, the first method is a case where an existing terminal and an enhanced terminal use different primary channels and a secondary channel, and the existing FA and the extended FA use different SCHMs.

In the fourth embodiment of the present invention, as shown in Table 2, when 7 FAs are present, 1FA, 2FA, 3FA, and 4FA are existing FAs, and 5 FA, 6 FA, and 7FA are extended FAs. Basically, ECCLM is transmitted and receives overhead message by F-PCH.

First, in the first case, the primary terminal is assigned as a primary channel and the existing terminal is assigned at 1 FA and the enhanced terminal is assigned at 5 FA.

As a secondary channel, the existing terminal is assigned at 3 FA and the enhanced terminal is assigned at 1 FA, which is an existing FA, in order to operate at 1FA.

In addition, SCHM (EXT_CDMA_FREQ) allows existing FAs to be allocated at 2 FAs and extended FAs at 6 FAs.

At this time, the ECCLM includes a FA for channel allocation of the existing terminal 1 FA, 2 FA, 3 FA, 4 FA, 5 FA, 6 FA, 7 FA, FA for enhancement channel allocation FA is an expansion FA 5 FA, 6 FA, and 7 FA.

In the first case of the fourth embodiment of the present invention, channel hashing can be set to 1 FA → 2 FA → 4 FA (by hashing) or 7 FA (by hashing) in the case of an existing terminal. The enhanced terminal can be 5 FA → 6 FA → 7 FA (by hashing).

The second method of the fourth embodiment of the present invention is a case where an existing terminal and an enhancement terminal use the same primary channel and a secondary channel, and the existing FA and the extended FA use different SCHMs. .

As shown in Table 2, when the second method of the fourth embodiment of the present invention also has seven FAs, 1FA, 2FA, 3FA, and 4FA are existing FAs, and 5 FA, 6 FA, and 7FA are expanded. In case of FA, ECCLM is transmitted by default and receives overhead message by F-PCH.

In the second case of the fourth embodiment of the present invention, both the existing terminal and the enhanced terminal are assigned to 1 FA as the primary channel, and both the existing terminal and the enhanced terminal are assigned to the 3FA as the secondary channel. Assign it to work.

In this case, SCHM (EXT_CDMA_FREQ) allows existing FAs to be allocated, for example, from 2 FAs, and extended FAs, for example, from 6 FAs.

And the configuration of ECCLM is the same as the first case of the fourth embodiment.

In this case, since the primary channel is allocated from 1FA, the enhanced terminal hashes the channel to the existing FA. In this case, the enhanced terminal in the existing FA is redirected to the extended FA through EGSRDM (Extend Global Service Redirection Message). do.

For example, in the case of an enhanced terminal, if REDIRECT_P_MIN = 9 and REDIRECT_P_MAX = 10, CDMA_CHAN = extension FA, for example, 5 FA. That is, when the redirection protocol revisions are 9 and 10, the enhancement terminal is redirected to the 5 FA which is the expansion FA.

The channel hashing in the second method of the fourth embodiment of the present invention can be performed by, for example, 1 FA → 2 FA → 4 FA (by hashing) or 1 FA → 2 FA → 7 FA. The terminal can be 1 FA → 2 FA → 5 FA (by extension) → 6 FA → 7 FA (by hashing).

As described above, the fourth embodiment of the present invention is an appropriate method when an enhanced terminal is sufficient with an extended FA, but an existing terminal is not sufficient with an existing FA.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

 As described above, the first embodiment of the present invention is an appropriate method when the existing terminal is sufficient as the existing FA and the enhanced terminal is sufficient as the extension FA. In the second embodiment, the existing terminal and the enhanced terminal can use all the FAs. Therefore, the third embodiment may be the most efficient method. In the third embodiment, the existing terminal is sufficient as the existing FA, but the enhanced terminal is an appropriate method when the expanded FA is not sufficient. In the fourth embodiment, the enhanced terminal is an extended FA. Although sufficient, the existing terminal is an appropriate method when the existing FA is not sufficient, it is an appropriate method when expanding the FA in the base station.

As described above, an optimized communication system can be provided by selecting and applying one of the embodiments of the present invention according to the situation of the system.

Claims (34)

When a base station system using at least one existing frequency assignment (FA) expands at least one FA, Determining operating conditions for the FA of the base station system; And Setting a synchronization channel message and an extended CDMA channel list message (ECCLM) for each of the existing FA and the extended FA according to the determined operating condition. Way. The method of claim 1, wherein the setting step, When the operating condition is a condition that the IS-95A or 95B terminal uses the existing FA and the enhanced terminal uses the extension FA, A synchronization channel message of the existing FA including information indicating that a primary paging channel is allocated in the existing FA and a synchronization channel of the extended FA including information indicating that a primary paging channel is allocated in the extended FA. Method of operation of a mobile communication system, characterized in that for setting the message. The method of claim 2, And setting a different primary channel and a secondary channel in each of the IS-95A or 95B terminal and the enhanced terminal. The method of claim 2, And setting the same primary channel and secondary channel in each of the IS-95A or 95B terminal and the enhanced terminal. The method of claim 2, And switching to the extended FA by using an extended global service redirection message (hereinafter, referred to as 'EGSRDM') in the existing FA. The method of claim 2, wherein the setting step, And setting the ECCLM of the existing FA including information for allocating a channel in the existing FA and the ECCLM of the extended FA including information for allocating a channel in the extended FA. The method of claim 1, wherein the setting step, When the operating condition is a condition that the IS-95A or 95B terminal and the enhancement terminal use both the existing FA and the expansion FA, And setting a synchronization channel message of the existing FA and the extended FA including information indicating that a primary paging channel is allocated from the existing FA. The method of claim 7, wherein And setting the same primary channel and secondary channel in each of the IS-95A or 95B terminal and the enhanced terminal. The method of claim 7, wherein the setting step, And setting ECCLMs of the existing FA and the extended FA including information on allocating channels in the existing FA and the extended FA. The method of claim 1, wherein the setting step, When the operating condition is a condition that the IS-95A or 95B terminal uses the existing FA and the enhanced terminal uses the existing FA and the expansion FA, Setting a synchronization channel message of the existing FA including information indicating that a primary paging channel is allocated at the existing FA and a synchronization channel message of the extended FA including information indicating that a primary paging channel is allocated at the extended FA. A method of operating a mobile communication system, characterized in that. The method of claim 10, And setting a different primary channel and a secondary channel in each of the IS-95A or 95B terminal and the enhanced terminal. The method of claim 1, wherein the setting step, When the operating condition is a condition that the IS-95A or 95B terminal uses the existing FA and the enhanced terminal uses both the existing FA and the expansion FA, And setting a synchronization channel message of the existing FA and the extended FA including information that the primary Paging channel of the existing FA and the extended FA are allocated at the same frequency. The method of claim 12, And setting the same primary channel and secondary channel in each of the IS-95A or 95B terminal and the enhanced terminal. The method of claim 12, And converting the existing FA into the existing FA using the EGSRDM in the extended FA. The method of claim 10 or 12, wherein the setting step, And a mobile communication system for setting the ECCLM of the existing FA including information for allocating a channel in the existing FA and the ECCLM of the extended FA including information for allocating a channel in the existing FA and the extended FA. How to operate. The method of claim 1, wherein the setting step, When the operating condition is a condition that the IS-95A or 95B terminal uses both the existing FA and the expansion FA and the enhanced terminal uses the extension FA, Setting a synchronization channel message of the existing FA including information indicating that a primary paging channel is allocated at the existing FA and a synchronization channel message of the extended FA including information indicating that a primary paging channel is allocated at the extended FA. A method of operating a mobile communication system, characterized in that. The method of claim 16, And setting a different primary channel and a secondary channel in each of the IS-95A or 95B terminal and the enhanced terminal. The method of claim 16, And setting the same primary channel and secondary channel in each of the IS-95A or 95B terminal and the enhanced terminal. The method of claim 18, And using the EGSRDM in the existing FA, switching to the extended FA. The method of claim 16, wherein the setting step, A mobile communication system configured to set the ECCLM of the existing FA including information for allocating a channel in the existing FA and the extended FA and the ECCLM of the extended FA including information for allocating a channel in the extended FA How to operate. If at least one FA is added to the base station system, According to the configuration of the primary channel (Secondary Channel) and the primary channel (Secondary Channel) of the mobile communication terminal, receiving the synchronization channel message of the existing FA from the existing FA, and receiving the synchronization channel message of the extended FA from the expansion FA step; Receiving an Extended CDMA Channel List Message (ECCLM) through a primary paging channel set according to the sync channel message; And Channel hashing method comprising the step of performing channel hashing using the received ECCLM. delete delete delete delete delete delete delete delete delete delete delete delete delete

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