CN102065541A - Method and device for processing services on single-mode chip - Google Patents

Abstract

The invention discloses a method and device for processing services on a single-mode chip. The method comprises the following steps: receiving paging messages on other subscriber identity modules in a plurality of subscriber identity modules in a terminal in the period from the moment the terminal sends an origination message by using a first subscriber identity module to the moment the terminal receives a channel assignment message sent by a base station, wherein the terminal sends the origination message to carry out calling services, and the first subscriber identity module is one of a plurality of subscriber identity modules in the terminal; and dispatching the services according to the priority of the services corresponding to the paging messages and the priority of the calling services. Normal operation under the conditions of single mode and multiple standbys is ensured by adopting the method and the device.

Description

Method for processing business and device on the single mode chip

Technical field

The present invention relates to the communications field, especially relate to method for processing business and device on the single mode chip.

Background technology

Code division multiple access (Code Division Multiple Access, abbreviate CDMA as) in the system, CDMA 2000 1X systems for example, the flow process of caller comprises: end side (Mobile Station, abbreviate MS as) to base station side (Base Station, abbreviate BS as) (for example send call message, Org MSG), after the call message of terminal is received in the base station, (for example send an acknowledge message to terminal, Order MSG), simultaneously to the terminal distribution Traffic Channel and to terminal transmitting channel assignment message (ChannelAssignment MSG), this moment, Traffic Channel was set up terminal thereafter and the message between the base station (for example, professional connection message, the professional connection finished message etc.) all on the dedicated channel of having set up, transmit.

The dual-card dual-standby terminal of GSM is very general, but the situation in the cdma system is different.At present, in cdma system, realize that CDMA treats that (for example, two treating below is that example describes with two waiting) all needs to adopt the mode of two CDMA chips mostly, realizes by the mode that two CDMA chips are dispatched more.Use two CDMA chips to realize two treating because two cover radio frequencies are arranged, so two UIM cards can be operated on the different Traffic Channels, unaffected each other.Need to prove, also may have same problem, be to be the explanation that example is carried out at this, but be not limited to this system with CDMA in other system.

Though adopt two CDMA chips to realize twoly waiting to have avoided a lot of problems, will inevitably cause very big waste, increased the cost of terminal virtually; And adopt single mode chip to realize two treating, save the cost of terminal, but needed to solve following problem.

Carrier network generally has only a paging channel (being also referred to as Paging Channel), different international mobile subscriber identity (International Mobie Subscriber Identity, abbreviate IMSI as) user's probability of monitoring same frequency according to hash algorithm be (1/ frequency points), and general frequency points is 2～3, and the probability that such two UIM cards are operated on the same frequency of same paging channel is more than 30%.

In addition, if a UIM card makes a call, terminal will jump to non-time slot state by time slot state so, this moment, terminal can receive all General Paging Message (below be referred to as beep-page message) on the Traffic Channel, probably can receive the beep-page message relevant so this moment with another UIM card, the situation that therefore can cause confusion, and then influence the use of terminal.

Summary of the invention

Main purpose of the present invention is to provide method for processing business and device on a kind of single mode chip, to address the above problem at least.

According to an aspect of the present invention, method for processing business on a kind of single mode chip is provided, comprise: during terminal uses first subscriber identification module transmission call message to receive the channel assignment message of base station transmission to described terminal, receive the beep-page message on other subscriber identification modules in a plurality of subscriber identification modules of described terminal, wherein, described terminal sends described call message carrying out described calling service, and described first subscriber identification module is in a plurality of subscriber identification modules in the described terminal; Carry out service dispatching according to the priority of described beep-page message corresponding service and the priority of described calling service.

Further, carrying out service dispatching according to the priority of the priority of described beep-page message corresponding service and described calling service comprises: described terminal is proceeded described calling service, and described terminal or network side are handled described beep-page message corresponding service according to the type of described beep-page message, wherein, the priority of described calling service is higher than the priority of described beep-page message corresponding service.

Further, described terminal or network side are handled described beep-page message corresponding service according to the type of described beep-page message corresponding service and are comprised: be under the situation of speech called message at described beep-page message, described network side is to be under the situation of setting up the Traffic Channel stage at the state of described first subscriber identification module, calling party to described beep-page message sends message, wherein, it is busy that described message is used to indicate the terminal at the described first subscriber identification module place.

Further, described terminal or network side are handled described beep-page message corresponding service according to the type of described beep-page message corresponding service and are comprised: be that described terminal is preserved described short message under the situation of data burst message Data Burst of short message correspondence at described beep-page message.

Further, be that also comprise: described terminal notifying user receives described short message under the situation of data burst message Data Burst of short message correspondence at described beep-page message.

Further, described terminal or network side are handled described beep-page message corresponding service according to the type of described beep-page message corresponding service and comprised: be under the situation of short message message or data service message at described beep-page message, described terminal does not send the response message of described short message message or described data service message to described base station.

Further, described terminal is for supporting the terminal of CDMA systems, and described subscriber identification module is a subscriber identification module UIM card.

According to another aspect of the present invention, business processing device on a kind of single mode chip also is provided, comprise: receiver module, be used for during terminal uses first subscriber identification module subscriber identification module transmission call message to receive the channel assignment message of base station transmission to described terminal, receive the beep-page message on other subscriber identification modules in a plurality of subscriber identification modules of described terminal, wherein, described terminal sends described call message carrying out described calling service, and described first subscriber identification module is in a plurality of subscriber identification modules in the described terminal; Scheduler module is carried out service dispatching according to the priority of described beep-page message corresponding service and the priority of described calling service.

Further, described scheduler module is used to dispatch described terminal and proceeds described calling service, and according to the type of described beep-page message described beep-page message corresponding service is handled, wherein, the priority of described calling service is higher than the priority of described beep-page message corresponding service.

Further, described scheduler module is positioned at network side, at described beep-page message is under the situation of speech called message, it is to be under the situation of setting up the Traffic Channel stage at the state of described first subscriber identification module that described scheduler module is dispatched described network side, calling party to described beep-page message sends message, wherein, it is busy that described message is used to indicate the terminal at the described first subscriber identification module place.

Further, described scheduler module is arranged in described terminal, is that described scheduler module is dispatched described terminal and preserved described short message under the situation of data burst message Data Burst of short message correspondence at described beep-page message; And/or described scheduler module is arranged in described terminal, is under the situation of short message message or data service message at described beep-page message, dispatches described terminal does not send described short message message or response message from described data service message to described base station.

By the present invention, having solved that realizing on the single mode chip in the prior art bides one's time more and might cause confusion and influenced the problem of terminal use, and then having guaranteed the normal operation that single mode is bide one's time more.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present invention, constitutes the application's a part, and illustrative examples of the present invention and explanation thereof are used to explain the present invention, do not constitute improper qualification of the present invention.In the accompanying drawings:

Fig. 1 is the flow chart according to method for processing business on the cdma system single mode chip of the embodiment of the invention;

Fig. 2 is the structured flowchart according to business processing device on the CDMA systems single mode chip of the embodiment of the invention;

Fig. 3 is that the single mode dual-card dual-standby terminal needs according to the embodiment of the invention carry out caller scheduling occasion schematic diagram;

Fig. 4 is a process chart of receiving the beep-page message relevant with the UIM1 note in the UIM2 caller process according to the embodiment of the invention;

Fig. 5 is the process chart of receiving in the UIM2 caller process according to the embodiment of the invention with the called relevant beep-page message of UIM1;

Fig. 6 is a process chart of receiving the beep-page message relevant with the UIM1 data service in the UIM2 caller process according to the embodiment of the invention.

Embodiment

Hereinafter will describe the present invention with reference to the accompanying drawings and in conjunction with the embodiments in detail.Need to prove that under the situation of not conflicting, embodiment and the feature among the embodiment among the application can make up mutually.

Below be that example (being not limited to this) describes with the cdma system, need to prove, if cause in other system realizing that the reason that single mode is treated more is identical with cdma system, the scheme in following examples equally also can be applied in this system so.

Fig. 1 is that as shown in Figure 1, this flow process comprises the steps: according to the flow chart of method for processing business on the cdma system single mode chip of the embodiment of the invention

Step S102, (for example use first subscriber identification module in terminal, the subscriber identification module UIM card that uses in the CDMA terminal) sending call message receives during the channel assignment message of base station transmission to terminal, receive the beep-page message on other UIM cards in many UIM cards of terminal, wherein, terminal sends call message carrying out calling service, and a UIM card is in many UIM cards in the terminal;

Step S104 carries out service dispatching according to the priority of beep-page message corresponding service and the priority of calling service.

Pass through above-mentioned steps, can carry out service dispatching according to the priority of different business, for example, the higher business of priority ratio can preferentially be dispatched, solved single mode by such scheduling means (for example treats more, two treating) a UIM card makes a call in, probably can receive the problem that the beep-page message relevant with another UIM card can cause confusion this moment.

Preferably, when implementing, can think the highest of caller priority, to guarantee the carrying out of calling service.For example, terminal is proceeded calling service, and terminal or network side handle the beep-page message corresponding service according to the type of beep-page message, and wherein, the priority of calling service is higher than the priority of beep-page message corresponding service.

Need to prove that terminal herein or network side need be distinguished the type of the beep-page message of receiving, can distinguish which professional carrying out that can influence calling service like this, which business can not influence the carrying out of calling service.Can not process for influencing the business that calling service carries out, can accept for not influencing the business that calling service carries out.Below this is described respectively.

For example, at beep-page message is under the situation of speech called message, and network side is to be under the situation of setting up the Traffic Channel stage at the state of a UIM card, sends message to the calling party of beep-page message, wherein, it is busy that this message is used to indicate the terminal at a UIM card place.

Again for example, be that terminal is preserved this short message under the situation of data burst message Data Burst of short message correspondence at beep-page message.Preferably, terminal can also point out the user to receive short message.

Again for example, be under the situation of short message message or data service message at beep-page message, terminal does not send the response message of short message message or data service message to the base station.

Fig. 2 is the structured flowchart according to business processing device on the CDMA systems single mode chip of the embodiment of the invention, this device is used to realize the foregoing description and preferred implementation thereof, carried out repeating no more of explanation, the module that this device is related to describes below.As shown in Figure 2, this structure comprises: receiver module 22, scheduler module 24 describe respectively this below.

Receiver module 22, be used for during terminal uses first subscriber identification module UIM card transmission call message to receive the channel assignment message of base station transmission to terminal, receive the beep-page message on other UIM cards in many UIM cards of terminal, wherein, terminal sends call message carrying out calling service, and a UIM card is in many UIM cards in the terminal; Scheduler module 24 is connected to receiver module 22, carries out service dispatching according to the priority of beep-page message corresponding service and the priority of calling service.

Preferably, scheduler module 24 is used for dispatch terminal and proceeds calling service, and according to the type of beep-page message the beep-page message corresponding service is handled, and wherein, the priority of calling service is higher than the priority of beep-page message corresponding service.

Preferably, scheduler module 24 is positioned at network side, at beep-page message is under the situation of speech called message, scheduler module dispatch network side is to be under the situation of setting up the Traffic Channel stage at the state of a UIM card, calling party to beep-page message sends message, wherein, it is busy that message is used to indicate the terminal at a UIM card place.

Preferably, scheduler module 24 is arranged in terminal, is under the situation of data burst message Data Burst of short message correspondence at beep-page message, and the scheduler module dispatch terminal is preserved short message.

Preferably, scheduler module 24 is arranged in terminal, is under the situation of short message message or data service message at beep-page message, and dispatch terminal does not send the response message of short message message or data service message to the base station.

Pass through the foregoing description, provide a kind of on existing single mode chip, realize the every of multi-card multi-standby (especially double-card dual-standby) terminal calling procedure scheduling, promptly carry out the innovation of double-standby terminal calling procedure mechanism, according to the calling procedure of stipulating in the existing CDMA agreement, in the caller process, during certain UIM card is set up from transmission call message (Org MSG) to Traffic Channel, when receiving the beep-page message relevant on the same paging channel with another UIM card, priority according to business is dispatched, thereby realizing that same paging channel is two treats under the situation, the rational management of calling procedure guarantees that whole system is stable, the normal operation of caller function under the state efficiently.

Fig. 3 is that the single mode dual-card dual-standby terminal needs according to the embodiment of the invention carry out caller scheduling occasion schematic diagram, below in conjunction with Fig. 3 preferred embodiment is described.

Starting up of terminal registration is informed network with the MEID (perhaps ESN) and the IMSI of two UIM cards of terminal, binds; Network is handled accordingly, seal is penetrated concern in the data-in storehouse.

Terminal uses a UIM card (representing with UIM2) to make a call, during the base station sent call message (Org MSG) and receives the channel assignment message of sending the base station (Channel Assignment MSG) to terminal, terminal was received the General Paging Message (hereinafter referred to as beep-page message) relevant with UIM2 or another UIM card (representing with UIM1) on paging channel in terminal.

If the beep-page message of receiving is the speech called message (SO3) of UIM1, then the seal in the NetFind database is penetrated relation, judges that the state of UIM2 this moment is handled accordingly.Because UIM2 is in and sets up the Traffic Channel stage, so the terminal transmission that network is called out UIM1 from trend is receiveed the response, prompt terminal is conversed, and continues the calling procedure of UIM2 this moment.

If receive the Data burst relevant with the note of UIM1 by paging channel, then preserve this short message, and the prompting user.

If the beep-page message of receiving is the short message message (SO6 or SO14) of UIM1, after needing this moment terminal to send acknowledge message to the base station, and set up the content that just can obtain message after the Traffic Channel, then this moment, terminal did not send acknowledge message to the base station, continued the calling procedure of UIM2.

If the beep-page message of receiving is the data service message (SO33) of UIM1, then terminal does not transmit a reply message to the base station, continues the calling procedure of UIM2.

If the beep-page message of receiving is calling, note, the data-message of UIM2, the then processing of being correlated with according to the agreement of CDMA.

Terminal is received the channel assignment message of sending the base station (Channel Assignment MSG), Traffic Channel between terminal and the base station is set up at this moment, all signalings relevant with this terminal all will be transmitted on the Traffic Channel of having set up later on, the beep-page message relevant with UIM1 and UIM2 all can't be received this moment, can only receive the service message relevant with UIM2.

By the foregoing description, provided a kind of on existing protocol and terminal chip basis the improved double-card dual-standby caller dispatching method of on same paging channel, considering two UIM cards simultaneously, on single mode chip, realized the method for double-card dual-standby caller scheduling.

Fig. 4 is a process chart of receiving the beep-page message relevant with the UIM1 note in the UIM2 caller process according to the embodiment of the invention, and Fig. 5 is the process chart of receiving in the UIM2 caller process according to the embodiment of the invention with the called relevant beep-page message of UIM1; Fig. 6 is a process chart of receiving the beep-page message relevant with the UIM1 data service in the UIM2 caller process according to the embodiment of the invention, is that example describes below in conjunction with Fig. 4 to Fig. 6 with two CDMA separation between machine and card numbers, the IMSI that supposes user 1 is x, and the UIM card is UIM1; User 2 IMSI is y, and the UIM card is UIM2.

Starting up of terminal registration is informed network with the MEID (perhaps ESN) and the IMSI of two UIM cards of terminal, binds; Network is handled accordingly, seal is penetrated concern in the data-in storehouse.The user uses UIM2 to initiate audio call, and terminal sends call message (Org MSG) to the base station on reverse common channel; Terminal is not received the channel assignment message of sending the base station relevant with UIM2 (Channel Assignment MSG), but terminal is received the General Paging Message (hereinafter referred to as beep-page message) that send the last base station of Paging Channel (hereinafter referred to as paging channel); Terminal goes to judge whether with own relevant according to the value in the IMSI territory of beep-page message, if be complementary with IMSI value x or the y of UIM1 or UIM2, then explanation is with own relevant, type that need further analysis beep-page message; If the IMSI territory of beep-page message and x and y do not match, then need not pay close attention to this beep-page message.

If receive the Data burst relevant on the paging channel with the UIM1 note, then preserve this short message, and the prompting user.Need the message on the continuation monitoring seek channel this moment, receive the channel assignment message of sending the base station relevant (Channel Assignment MSG) with UIM2 up to terminal, this moment, Traffic Channel was set up, all beep-page messages relevant with UIM1 will receive no longer that the message relevant with UIM2 will be transmitted by the Dedicated Traffic Channel of having set up.

If receive the beep-page message relevant on the paging channel with UIM1, the IMSI territory and the x of beep-page message are complementary, and the value in the SO territory of beep-page message is 6 or 14, then this moment is received the note relevant with UIM1 in explanation, but also needs the foundation of follow-up business channel message body could be received from the base station.Because UIM1 and the shared paging channel of UIM2, if base station and UIM1 set up Traffic Channel, relevant with UIM2 so beep-page message can't be received, so the UIM2 calling can be failed.Because the priority of calling out will be higher than note, so do not respond the beep-page message relevant with the UIM1 note this moment, the channel assignment message relevant with UIM2 sent in the wait base station.Terminal is received the channel assignment message relevant with UIM2 that send the base station, and Traffic Channel is set up, and Bearer Channel is set up, beginning UIM2 caller conversation.Wait for the UIM2 end of conversation, the beep-page message relevant with the UIM1 note can be issued terminal once more, the processing that be correlated with this moment again.

If the IMSI territory and the x of beep-page message are complementary, and the value in the SO territory of beep-page message is 3, and then explanation is received relevant with UIM1 calledly this moment, and the seal that this moment, network should be searched in the database is penetrated relation, the state of judgement UIM2.Because UIM2 is in and sets up the Traffic Channel stage, so the terminal transmission that network is called out UIM1 from trend is receiveed the response, prompt terminal is conversed, and continues the wait base station and sends the channel assignment message relevant with UIM2.Terminal is received the channel assignment message relevant with UIM2 that send the base station, and Traffic Channel is set up, and Bearer Channel is set up, beginning UIM2 caller conversation.In the communication process, relevant with UIM1 called if network is received, then network is directly handled, and sends to the terminal of calling out UIM1 and receives the response, and prompt terminal is conversed.

If the IMSI territory and the x of beep-page message are complementary, and the value in the SO territory of beep-page message is 33, and then this moment is received the data service relevant with UIM1 in explanation, but also needs the foundation of follow-up business channel data could be received from the base station.Because UIM1 and the shared paging channel of UIM2, if base station and UIM1 set up Traffic Channel, relevant with UIM2 so beep-page message can't be received, so the UIM2 calling can be failed.Because the priority of calling out will be higher than data service, so do not respond the beep-page message relevant with the UIM1 data service this moment, the PPP that does not set up relevant data service connects, and the channel assignment message relevant with UIM2 sent in the wait base station.Terminal is received the channel assignment message relevant with UIM2 that send the base station, and Traffic Channel is set up, and Bearer Channel is set up, beginning UIM2 caller conversation.Wait for the UIM2 end of conversation, the beep-page message relevant with the UIM1 data service can be issued terminal once more, the processing that be correlated with this moment again.

In sum, by the foregoing description, realized following effect:

1. reduce CDMA pair and treat cost, realize the dual-card dual-standby terminal calling procedure fast based on existing chip;

2. on the basis of guaranteed efficiency and stability, realize simultaneously scheduling to two users' calling procedure;

3. adapt to various CDMA1x environment;

4. be adapted to the various situations and the flow process of caller.

Obviously, those skilled in the art should be understood that, above-mentioned each module of the present invention or each step can realize with the general calculation device, they can concentrate on the single calculation element, perhaps be distributed on the network that a plurality of calculation element forms, alternatively, they can be realized with the executable program code of calculation element, thereby, they can be stored in the storage device and carry out by calculation element, and in some cases, can carry out step shown or that describe with the order that is different from herein, perhaps they are made into each integrated circuit modules respectively, perhaps a plurality of modules in them or step are made into the single integrated circuit module and realize.Like this, the present invention is not restricted to any specific hardware and software combination.

The above is the preferred embodiments of the present invention only, is not limited to the present invention, and for a person skilled in the art, the present invention can have various changes and variation.Within the spirit and principles in the present invention all, any modification of being done, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (11)

1. method for processing business on the single mode chip is characterized in that, comprising:

During terminal uses first subscriber identification module transmission call message to receive the channel assignment message of base station transmission to described terminal, receive the beep-page message on other subscriber identification modules in a plurality of subscriber identification modules of described terminal, wherein, described terminal sends described call message carrying out described calling service, and described first subscriber identification module is in a plurality of subscriber identification modules in the described terminal;

Carry out service dispatching according to the priority of described beep-page message corresponding service and the priority of described calling service.

2. method according to claim 1 is characterized in that, carries out service dispatching according to the priority of the priority of described beep-page message corresponding service and described calling service and comprises:

Described terminal is proceeded described calling service, and described terminal or network side are handled described beep-page message corresponding service according to the type of described beep-page message, wherein, the priority of described calling service is higher than the priority of described beep-page message corresponding service.

3. method according to claim 2 is characterized in that, described terminal or network side are handled described beep-page message corresponding service according to the type of described beep-page message corresponding service and comprised:

At described beep-page message is under the situation of speech called message, described network side is to be under the situation of setting up the Traffic Channel stage at the state of described first subscriber identification module, calling party to described beep-page message sends message, wherein, it is busy that described message is used to indicate the terminal at the described first subscriber identification module place.

4. method according to claim 2 is characterized in that, described terminal or network side are handled described beep-page message corresponding service according to the type of described beep-page message corresponding service and comprised:

Be that described terminal is preserved described short message under the situation of data burst message Data Burst of short message correspondence at described beep-page message.

5. method according to claim 4 is characterized in that, is under the situation of data burst message Data Burst of short message correspondence at described beep-page message, also comprises:

Described terminal notifying user receives described short message.

6. method according to claim 2 is characterized in that, described terminal or network side are handled described beep-page message corresponding service according to the type of described beep-page message corresponding service and comprised:

At described beep-page message is under the situation of short message message or data service message, and described terminal does not send the response message of described short message message or described data service message to described base station.

7. according to each described method in the claim 1 to 6, it is characterized in that described terminal is for supporting the terminal of CDMA systems, described subscriber identification module is a subscriber identification module UIM card.

8. business processing device on the single mode chip is characterized in that, comprising:

Receiver module, be used for during terminal uses first subscriber identification module subscriber identification module transmission call message to receive the channel assignment message of base station transmission to described terminal, receive the beep-page message on other subscriber identification modules in a plurality of subscriber identification modules of described terminal, wherein, described terminal sends described call message carrying out described calling service, and described first subscriber identification module is in a plurality of subscriber identification modules in the described terminal;

Scheduler module is carried out service dispatching according to the priority of described beep-page message corresponding service and the priority of described calling service.

9. device according to claim 8 is characterized in that,

Described scheduler module, be used to dispatch described terminal and proceed described calling service, and according to the type of described beep-page message described beep-page message corresponding service is handled, wherein, the priority of described calling service is higher than the priority of described beep-page message corresponding service.

10. device according to claim 9, it is characterized in that, described scheduler module is positioned at network side, at described beep-page message is under the situation of speech called message, it is to be under the situation of setting up the Traffic Channel stage at the state of described first subscriber identification module that described scheduler module is dispatched described network side, calling party to described beep-page message sends message, and wherein, described message is used to indicate the terminal at the described first subscriber identification module place busy.

11. device according to claim 9 is characterized in that,

Described scheduler module is arranged in described terminal, is that described scheduler module is dispatched described terminal and preserved described short message under the situation of data burst message DataBurst of short message correspondence at described beep-page message; And/or,

Described scheduler module is arranged in described terminal, is under the situation of short message message or data service message at described beep-page message, dispatches described terminal does not send described short message message or response message from described data service message to described base station.

Images