CN102196487B - Third-generation (3G) system neighbor cell measurement method for multi-card multi-mode mobile terminal - Google Patents

Third-generation (3G) system neighbor cell measurement method for multi-card multi-mode mobile terminal Download PDF

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CN102196487B
CN102196487B CN201110148706.9A CN201110148706A CN102196487B CN 102196487 B CN102196487 B CN 102196487B CN 201110148706 A CN201110148706 A CN 201110148706A CN 102196487 B CN102196487 B CN 102196487B
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card
mobile terminal
information
neighboring
adjacent area
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CN102196487A (en
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孙强
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Spreadtrum Communications Shanghai Co Ltd
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Spreadtrum Communications Shanghai Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

Abstract

The invention discloses a third-generation (3G) system neighbor cell measurement method for a multi-card multi-mode mobile terminal. The method comprises the following steps of: acquiring the 3G system neighbor cell information of user cards in the mobile terminal; after the 3G system neighbor cell information of a certain user card in the mobile terminal is acquired, judging whether the same 3G system neighbor cell information is stored in the mobile terminal or not; if the same 3G system neighbor cell information is not stored in the mobile terminal, storing the acquired 3G system neighbor cell information; if the same 3G system neighbor cell information is stored in the mobile terminal, performing combination processing on the acquired 3G system neighbor cell information and the same stored 3G system neighbor cell information, and storing the combined 3G system neighbor cell information; and measuring a corresponding 3G system neighbor cell by using the 3G system neighbor cell information stored in the mobile terminal. By the measurement method, the complexity of 3G system neighbor cell measurement in other modes is effectively simplified, and the measurement power consumption of the mobile terminal is reduced.

Description

The method of many card multi-module mobile terminals to 3G system nearby region measurement
Technical field
The present invention relates to wireless communication field, particularly the method for many card multi-module mobile terminals to 3G system nearby region measurement.
Background technology
Mobile communication technology development has formed the mobile communications network of multiple types, as the global communication mobile system (GSM in second generation mobile communication system (2G), Global System for Mobile Communication), Time Division-Synchronous Code Division Multiple Access (TD-SCDMA in 3-G (Generation Three mobile communication system) (3G), Time Division-Synchronous CDMA), Long Term Evolution (LTE in next generation mobile communication system, Long Term Evolution) and worldwide interoperability for microwave access (WIMAX, Worldwide Interoperability for Microwave Access).By 3G and its evolution system of third generation partner program (3GPP) standard of working out, mainly comprise TD-SCDMA, WCDMA (wideband CDMA) and LTE system.
Due to the networking asynchronism(-nization) of each communication network, the scope difference of each network coverage, application service content and rate that different operators provides also have very big difference.In the process of Communication Development, customer-centric is the focus of market competition.For consumers, it wishes to use a mobile terminal, by configuring different subscriber cards, for example subscriber identification card (SIM, Subscriber Identity Module, is designated hereinafter simply as SIM card; Or global customers identification module card, USIM, Universal Subscriber Identity Module, is designated hereinafter simply as usim card), to enjoy the application service that on heterogeneous networks, different operators provides.Meanwhile, on a mobile terminal, configuring different subscriber cards, to enjoy the service of consolidated network be also that consumer is needed simultaneously.
For the multimode user terminal that has multiple subscriber cards, the resident community of different cards can be the same or different, and the resident access technology of different cards also can be identical or different.Like this, different subscriber cards has own corresponding pattern (as TD-SCDMA pattern, GSM pattern, WCDMA pattern, be different access technologies), the broadcast message of community separately can be broadcasted in the resident Serving cell of different user card, and the Neighboring Cell List etc. of community separately.Therefore, different subscriber cards exists corresponding broadcast message own, access technology pattern, Neighboring Cell List etc.
For this reason, the mobile terminal of corresponding configurable multiple subscriber cards also arises at the historic moment, and makes to link up to become more convenient.Prior art provides the scheme of multiple this technology of support, for example, in U.S. Patent Application Publication US2006/0095600A1, just disclosed a kind of travelling carriage of bimodulus.Described bimodulus travelling carriage can be supported two kinds of different mobile communications networks, as GSM, CDMA.Described bimodulus travelling carriage can be identified the subscriber card being configured in travelling carriage automatically, and selects corresponding drive pattern.
In normal cellular network configuration, should there be several neighbor cells each Serving cell, so that mobile terminal from this Serving cell when moving and receive signal away from the direction of base station and reduce gradually, can there is a neighbor cell, its reception signal becomes greatly gradually, until be greater than Serving cell signal.Like this, mobile terminal just can successfully be realized community and switch, to guarantee the continuation of business.For supporting the mobile terminal of many card multimodes (comprising bimodulus), in order to guarantee the wherein smooth switching between each subscriber card and between each pattern, the system that just need to configure each subscriber card is all periodically measured.Due to the extensive use of 3G technology now, the subscriber card in multi-card mobile terminal is all supported TD-SCDMA pattern conventionally.When multiple subscriber cards in mobile terminal have all configured TD-SCDMA adjacent area, and mobile terminal is in non-TD-SCDMA pattern, for example, when GSM or EDGE (Enhanced Data Rate for GSM Evolution) or GPRS pattern, how effectively to process the measurement to TD-SCDMA system, have problem to be solved with regard to becoming.
Summary of the invention
The problem that the present invention solves is to provide the method for a kind of many card multi-module mobile terminals to 3G system nearby region measurement, to simplify the complexity of nearby region measurement between different system.
For addressing the above problem, the invention provides the method for a kind of many card multi-module mobile terminals to 3G system nearby region measurement, comprising:
Obtain the 3G system neighboring BS information of subscriber card in described mobile terminal;
Obtaining after the 3G system neighboring BS information of a subscriber card in described mobile terminal, judge in described mobile terminal, whether to have stored same 3G system neighboring BS information;
If do not store same 3G system neighboring BS information in described mobile terminal, the 3G system neighboring BS information that storage is obtained;
If stored same 3G system neighboring BS information in described mobile terminal, obtained 3G system neighboring BS information is merged and processes and store with existing same 3G system neighboring BS information;
With the 3G system neighboring BS information being stored in described mobile terminal, corresponding 3G system adjacent area is measured.
Compared with prior art, such scheme has the following advantages: by different cards in mobile terminal is merged for the metrical information of same 3G system, and carry out 3G system nearby region measurement according to the metrical information after merging.So, for many cards multi-module mobile terminal, block independently in situation at each, needn't go to one by one to measure the same 3G system adjacent area of each card, effectively simplified the complexity of measuring 3G system adjacent area under other patterns.And, owing to needn't measuring one by one the same 3G system adjacent area of each card, by less the power consumption that mobile terminal is measured.
Accompanying drawing explanation
Fig. 1 is a kind of execution mode flow chart that the present invention blocks the method for multi-module mobile terminal to 3G system nearby region measurement more;
Fig. 2 is a kind of embodiment flow chart that the present invention blocks the method for multi-module mobile terminal to 3G system nearby region measurement more;
Fig. 3 is that the present invention blocks the corresponding frequency schematic diagram in each SIM card adjacent area in a kind of embodiment of the method for multi-module mobile terminal to 3G system nearby region measurement more.
Embodiment
By 3GPP related protocol, TD-SCDMA as relevant in 3GPP TS 25.331 and the RRC agreement of WCDMA regulation are known, the different system Neighboring Cell List that in the signaling that network sends, Inter-RAT cell info list (different system cell information list) and Inter-RAT info (different system information) cell provide; Inter-frequency cell info list (different frequency cell information list) cell provides alien frequencies Neighboring Cell List; Intra-frequency cell info list (co-frequency cell information list) cell provides homogeneous-frequency adjacent-domain list; Comprise in addition in the message of above-mentioned cell, other configuration informations of adjacent area also can be provided simultaneously.
By 3GPP related protocol, LTE RRC agreement regulation as relevant in TS36.331 is known, measObjectEUTRA (UTRA measurement target in LTE network signal, UTRA is 3G network), MeasObjectEUTRA (EUTRA measurement target, EUTRA is the UTRA network of evolution), measObjectGERAN (GERAN policy goals, GERAN is GSM and evolvement network thereof), measObjectCDMA2000 (CDMA2000 measurement target, CDMA2000 is TD-SCDMA, another 3G network outside WCDMA) cell, Neighboring Cell List and neighboring BS information are provided in LTE system.
Continue research as an example of TD-SCDMA system example, also known by the related protocol regulation of TD-SCDMA, measure TD-SCDMA system, conventionally only need Midamble code (training sequence) part of TS0 be received and be processed.Maintain the synchronous of TD-SCDMA system, only need dwpts (descending pilot frequency time slot) part be received and be processed.And TD-SCDMA system is a system that the whole network is synchronous, the time reference of Ji Ge community is consistent, that is to say that frame boundaries and boundary of time slot are synchronous.Analysis is got off, and for many cards multi-module mobile terminal, no matter which subscriber card has configured the adjacent area of TD-SCDMA system, for the measurement of TD-SCDMA system, on same Measuring Time point, all can only measure a TD-SCDMA frequency Xia community.
There is the situation that frequency is identical in multiple adjacent areas of considering each subscriber card, if every subscriber card is measured respectively to its adjacent area, will greatly increase the complexity of measurement and the power consumption of mobile terminal.And, owing to there being the situation of community under the same frequency of duplicate measurements, measure efficiency also lower.Therefore, if can the neighboring BS information using in TD-SCDMA measuring process be processed and be simplified, may reduce the complexity of measurement, to improve measurement efficiency.And further analyze, although the concrete physics realization of each communication system (TD-SCDMA, GSM, WCDMA, LTE) has difference, but the elementary tactics in the time measuring should be general mutually, therefore described, neighboring BS information is processed and the method simplified extends to whole 3G system.。
Fig. 1 shows a kind of execution mode flow chart of the method for many card multi-module mobile terminals to 3G system nearby region measurement.Described many card multi-module mobile terminals comprise the method for 3G system nearby region measurement:
Perform step s1, obtain the 3G system neighboring BS information of subscriber card in described mobile terminal;
Execution step s2, obtaining after the 3G system neighboring BS information of a subscriber card in described mobile terminal, judges in described mobile terminal, whether to have stored same 3G system neighboring BS information; If not, forward step s3 to; If so, forward step s4 to;
Execution step s3, the 3G system neighboring BS information that storage is obtained;
Execution step s4, merges obtained 3G system neighboring BS information to process and store with existing same 3G system neighboring BS information;
Execution step s5, measures corresponding 3G system adjacent area with the 3G system neighboring BS information being stored in described mobile terminal.
Above-mentioned execution mode according to strategy focus on neighboring BS information merge.For mobile terminal, after the system message of Serving cell that receives a certain subscriber card, can obtain its neighboring BS information by resolution system message.Now, just need be by judging whether described neighboring BS information is that the neighboring BS information configuring first (judges whether mobile terminal has stored same 3G system neighboring BS information, for example subscriber card associative mode is TD-SCDMA, judge whether to have stored the system neighboring BS information of TD-SCDMA, to other communication systems also in like manner) determine whether to carry out to merge and process.
In specific embodiment, the 3G system neighboring BS information that storage is obtained comprises: by obtained 3G system neighboring BS information and respective user card information association store.
In specific embodiment, described respective user card information comprises the identifier of respective user card.
In specific embodiment, obtained 3G system Neighboring Cell List is merged into adjacent area union table with existing same 3G system Neighboring Cell List to be comprised: frequency identical in obtained 3G system Neighboring Cell List and existing same 3G system Neighboring Cell List is merged, form adjacent area union table.
For example, obtained 3G system Neighboring Cell List can be merged with frequency identical in existing same 3G system Neighboring Cell List, form adjacent area union table.Or, obtained 3G system Neighboring Cell List can be merged with frequency identical in existing same 3G system Neighboring Cell List, and the same cells under identical frequency is also merged, form adjacent area union table.Take which kind of merging mode, can be depending on the configuring condition of current 3G system Neighboring Cell List.
In specific embodiment, described many card multi-module mobile terminals comprise the method for 3G nearby region measurement: after measurement, according to stored 3G system neighboring BS information and the incidence relation of respective user card, obtain the measurement result that each subscriber card is corresponding.
Explanation by above-mentioned execution mode is known, by the neighboring BS information of each subscriber card is merged, has simplified the complexity of measuring, and has improved measurement efficiency.
Fig. 2 shows a kind of embodiment flow chart that the present invention blocks the method for multi-module mobile terminal to 3G system nearby region measurement more.Described many card multi-module mobile terminals comprise the method for 3G system nearby region measurement:
Perform step s10, the subscriber card that prestores of mobile terminal is set, obtain and store the position relationship prestoring between subscriber card and other subscriber card Serving cells;
Perform step s20, obtain the 3G system neighboring BS information of subscriber card in described mobile terminal;
Execution step s30, is obtaining after the 3G system neighboring BS information of described mobile terminal one subscriber card, judges in described mobile terminal, whether to have stored same 3G system neighboring BS information; If not, forward step s40 to; If so, forward step s50 to;
Execution step s40, the 3G system neighboring BS information that storage is obtained;
Execution step s50, merges obtained 3G system neighboring BS information to process and store with existing same 3G system neighboring BS information;
Execution step s60, judges whether active user's card is the subscriber card that prestores; If so, forward step s70 to; If not, forward step s80 to;
Execution step s70, based on the synchronous base of the subscriber card that prestores, measures in conjunction with the corresponding 3G system neighboring BS information of storing in mobile terminal;
Execution step s80, carry out synchronous base switching according to active user card and the position relationship that prestores between subscriber card Serving cell, based on the synchronous base of active user's card, with the corresponding 3G system neighboring BS information being stored in mobile terminal, corresponding 3G system adjacent area is measured.
Above-described embodiment has increased follows the switching of subscriber card to adjust measuring basis.To follow the switching of subscriber card to adjust measuring basis in order realizing, just to need to obtain the position relationship between each subscriber card Serving cell.According to described position relationship, just can, in the time that subscriber card switches, according to the position relationship of switch two subscriber card Serving cells, adjust measuring basis (synchronous base switching).
In specific embodiment, the synchronous base of the subscriber card that prestores is take the frame of the subscriber card Serving cell that prestores as benchmark, generally take its frame boundaries as benchmark.
In specific embodiment, the position relationship of subscriber card Serving cell and other subscriber card Serving cells of prestoring is observed time difference (OTD, the Observed Time Difference) relation of subscriber card Serving cell and other subscriber card Serving cells of prestoring.Particularly, described observed time difference is the time difference prestoring between subscriber card Serving cell frame and other subscriber card Serving cell frames.
Synchronous base is switched, take described 3G system as TD-SCDMA system, described mobile terminal comprises that two subscriber cards are as example, described synchronous base handoff procedure comprises: take the frame boundaries of the subscriber card that prestores (card 1) Serving cell as benchmark, be that its position is 0, the otd of other subscriber cards (card 2) Serving cell and the subscriber card Serving cell that prestores is that (unit that establishes this distance is QBC to a, be 1/4bit length, lower with, the scope of another a be-5000---+5000 between).The measuring position of SheTD community is b (b > 0) from the frame boundaries distance of the subscriber card Serving cell that prestores, if when subscriber card switches so at one time, be that synchronous base is from blocking 1 to card 2, to block 2 during as synchronous base, the measuring position of TD community just becomes (5416+b-a) %5416, wherein 5416 is the integer value that a TD frame is converted into QBC, meanwhile, and the become-a of otd of card 1 and card 2.
In addition, in above-described embodiment, block non-prestoring when subscriber card active user, actual is to measure in conjunction with the corresponding 3G system neighboring BS information of being stored in mobile terminal with the synchronous base of active user's card.In other embodiments, block non-prestoring when subscriber card active user, also can still measure in conjunction with the corresponding 3G system neighboring BS information of being stored in mobile terminal with the synchronous base of the subscriber card that prestores.Now, can not carry out the switching of synchronous base.
Below take the mobile phone of four card bimodulus as example, described four card dual-mode handsets for example, when other patterns (GSM/EDGE/GPRS/WCDMA/LTE pattern), are described in detail the process of each card TD-SCDMA nearby region measurement.It should be noted that, because concrete nearby region measurement process is known to the skilled person, and emphasis of the present invention do not lie in this, therefore will repeat no more concrete nearby region measurement process in following instance.
Fig. 3 shows the corresponding relation of each subscriber card (this sentences SIM card is example, but also replaceable be usim card) adjacent area and frequency in described four card dual-mode handsets.Shown in Fig. 3, described four card dual-mode handsets include four SIM card C1, C2, C3 and C4.Wherein, multiple TD-SCDMA adjacent area correspondence that SIM card C1 configures 3 frequency f 1, f 2and f 3.Multiple TD-SCDMA adjacent area correspondence that SIM card C2 configures 4 frequency f 1, f 3, f 4and f 5.Multiple TD-SCDMA adjacent area correspondence that SIM card C3 configures 4 frequency f 1, f 2, f 3and f 5.Multiple TD-SCDMA adjacent area correspondence that SIM card C4 configures 3 frequency f 1, f 4and f 5.Can find from described corresponding relation, four SIM cards always have adjacent area to have identical frequency between any two.Therefore, when for example having completed frequency f 2after the measurement of Xia community, the measurement result of the part adjacent area of SIM card C1 and C3 just can obtain cicada.Under other frequencies, the measurement situation of community also can be by that analogy.
Suppose that first completing the SIM card of registering is SIM card C1 after mobile terminal starts, SIM card C1 is as the SIM card that prestores.When the system message that mobile terminal issues by the Serving cell of SIM card C1 obtains after the Neighboring Cell List of Serving cell of SIM card C1, suppose that now mobile terminal not yet configures other Neighboring Cell List, the Neighboring Cell List of the Serving cell of SIM card C1 is the TD-SCDMA Neighboring Cell List configuring first.Mobile terminal can be by the identifier association store of the described Neighboring Cell List of obtained SIM card C1 and SIM card C1 (for convenience of description, the identifier of supposing SIM card C1 is exactly C1, other SIM card are by that analogy), and can obtain SIM card C1 and also store with the OTD relation of SIM card C2, SIM card C3 and SIM card C4 respectively.
When the system message that mobile terminal issues by the Serving cell of SIM card C2 obtains after the Neighboring Cell List of Serving cell of SIM card C2, owing to having stored the described Neighboring Cell List of SIM card C1 in mobile terminal now, thereby the non-TD-SCDMA Neighboring Cell List of configuration first of the described Neighboring Cell List of SIM card C2.Now, mobile terminal can merge the described Neighboring Cell List of the described Neighboring Cell List of SIM card C2 and SIM card C1.Specifically, frequency identical in the Neighboring Cell List of two cards is merged, form adjacent area union table storage.Further, merging in the process that forms adjacent area union table, if the Neighboring Cell List of the Neighboring Cell List of SIM card C1 and SIM card C2 has also configured community except frequency, can also merge identical community in two Neighboring Cell List.In the union table of described adjacent area, comprise the cell information under all adjacent areas of the SIM card C1 that updated and SIM card C2 corresponding frequency and each frequency.In addition,, when by the union table storage of described adjacent area, mobile terminal also can be by the identifier association store of the described Neighboring Cell List of obtained SIM card C2 and SIM card C2.
When the system message that mobile terminal issues by the Serving cell of SIM card C3 obtains after the Neighboring Cell List of Serving cell of SIM card C3, owing to having stored the described adjacent area union table of SIM card C1 and SIM card C2 in mobile terminal now, thereby the also non-TD-SCDMA Neighboring Cell List of configuration first of the described Neighboring Cell List of SIM card C3.Now, mobile terminal can merge the described Neighboring Cell List of SIM card C3 and the described adjacent area of storing union table again.Specifically, will in the Neighboring Cell List of SIM card C3, merge with frequency identical in the union table of described adjacent area, form new adjacent area union table storage.In addition,, if also configured community in the Neighboring Cell List of SIM card C3, forming new adjacent area union table also can be with reference to the respective process of adjacent area union table that forms before SIM card C1 and SIM card C2.The mode of follow-up formation adjacent area union table all can this reference, repeats no more.In addition,, when by the union table storage of described adjacent area, mobile terminal also can be by the identifier association store of the described Neighboring Cell List of obtained SIM card C3 and SIM card C3.
When the system message that mobile terminal issues by the Serving cell of SIM card C4 obtains after the Neighboring Cell List of Serving cell of SIM card C4, owing to having stored the described adjacent area union table of SIM card C1, SIM card C2 and SIM card C3 in mobile terminal now, thereby the same non-TD-SCDMA Neighboring Cell List of configuration first of the described Neighboring Cell List of SIM card C4.Now, mobile terminal can merge the described Neighboring Cell List of SIM card C4 and the described adjacent area of storing union table again, again forms new adjacent area union table storage.In addition,, when by the union table storage of described adjacent area, mobile terminal also can be by the identifier association store of the described Neighboring Cell List of obtained SIM card C4 and SIM card C4.
Complete after aforesaid operations, mobile terminal can judge whether to have occurred SIM card switching.Particularly, by identifying, whether the identifier of current SIM card judgement and the identifier of the SIM card C1 that prestores be consistent determines whether to have occurred SIM card switching to mobile terminal.
If the identifier of current SIM card is C1, now there is not SIM card and switch.Mobile terminal is using the synchronous base of SIM card C1 as this measuring basis, and the TD-SCDMA Neighboring Cell List of storing in conjunction with mobile terminal is measured.Now, the frequency of the described adjacent area of the required measurement of mobile terminal comprises f 1, f 2, f 3, f 4and f 5.
If the identifier of current SIM card is C3, can think SIM card switching has occurred, current SIM card has been switched to SIM card C3 from SIM card C1.Mobile terminal, according to the SIM card C1 having stored and the OTD relation of SIMC3, carries out the switching of synchronous base, and using the synchronous base of SIM card C3 as this measuring basis, the TD-SCDMA Neighboring Cell List of storing in conjunction with mobile terminal is measured.Now, the frequency of the described adjacent area of the required measurement of mobile terminal comprises f 1, f 2, f 3, f 4and f 5.
To all frequency (f 1, f 2, f 3, f 4and f 5) Xia community all completes after measurement, mobile terminal can according to before the Neighboring Cell List of storage and the incidence relation of identifier, obtain the measurement result that each SIM card is corresponding.So far, just completed the measurement of the TD-SCDMA adjacent area once configuring for each SIM card in mobile terminal.Follow-up periodic measurement also can be with reference to this operation corresponding repeating.
By seeing the example of TD-SCDMA nearby region measurement above, by the Neighboring Cell List of four SIM cards in mobile terminal is merged, can save the duplicate measurements to the adjacent area of identical frequency in each SIM card.Therefore, the efficiency that mobile terminal carries out nearby region measurement will obtain raising, and corresponding power consumption also will obtain reduction.And, for TD-SCDMA system, because it has the synchronous characteristic of the whole network, merge by described Neighboring Cell List, can also in the time measuring, carry out United Dispatching (in this example take the resident community of current SIM card as synchronous base, and Neighboring Cell List after being combined using this as measuring basis is unified to measure), thus the complexity of measuring simplified.
And, it should be noted that, though above with the example that is measured as to TD-SCDMA adjacent area, the present invention is not only suitable for TD-SCDMA, for example WCDMA or LTE are applicable to the present invention too.In addition, the present invention is not only applicable to bimodulus, also can be more multimodal combination, for example, can be two or more pattern in GSM, EDGE, GPRS, TD-SCDMA, WCDMA, LTE.
More than disclose many aspects of the present invention and execution mode, it will be understood by those skilled in the art that other side of the present invention and execution mode.In the present invention, disclosed many aspects and execution mode, just for illustrating, are not limitation of the invention, and real protection range of the present invention and spirit should be as the criterion with claims.

Claims (14)

1. the method for the multi-module mobile terminal of card more than to 3G system nearby region measurement, is characterized in that, comprising:
Obtain the 3G system neighboring BS information of subscriber card in described mobile terminal, specifically, after the system message of Serving cell that receives a certain subscriber card, obtain its neighboring BS information by resolution system message;
Obtaining after the 3G system neighboring BS information of a subscriber card in described mobile terminal, judge in described mobile terminal, whether to have stored same 3G system neighboring BS information;
If do not store same 3G system neighboring BS information in described mobile terminal, the 3G system neighboring BS information that storage is obtained;
If stored same 3G system neighboring BS information in described mobile terminal, obtained 3G system neighboring BS information is merged and processes and store with existing same 3G system neighboring BS information;
With the 3G system neighboring BS information being stored in described mobile terminal, corresponding 3G system adjacent area is measured.
2. the method for many card multi-module mobile terminals as claimed in claim 1 to 3G system nearby region measurement, is characterized in that, the 3G system neighboring BS information that storage is obtained comprises: by obtained 3G system neighboring BS information and respective user card information association store.
3. the method for many card multi-module mobile terminals as claimed in claim 2 to 3G system nearby region measurement, is characterized in that, described respective user card information comprises the identifier of respective user card.
4. the method for many card multi-module mobile terminals as claimed in claim 1 to 3G system nearby region measurement, it is characterized in that, obtained 3G system neighboring BS information is merged to processing with existing same 3G system neighboring BS information and comprise: obtained 3G system Neighboring Cell List and existing same 3G system Neighboring Cell List are merged into adjacent area union table.
5. the method for many card multi-module mobile terminals as claimed in claim 4 to 3G system nearby region measurement, it is characterized in that, obtained 3G system Neighboring Cell List is merged into adjacent area union table with existing same 3G system Neighboring Cell List to be comprised: frequency identical in obtained 3G system Neighboring Cell List and existing same 3G system Neighboring Cell List is merged, form adjacent area union table.
6. the method for many card multi-module mobile terminals as claimed in claim 4 to 3G system nearby region measurement, it is characterized in that, obtained 3G system Neighboring Cell List is merged into adjacent area union table with existing same 3G system Neighboring Cell List to be comprised: frequency identical in obtained 3G system Neighboring Cell List and existing same 3G system Neighboring Cell List is merged, and the same cells under identical frequency is also merged, form adjacent area union table.
7. the method for many card multi-module mobile terminals as claimed in claim 1 to 3G system nearby region measurement, it is characterized in that, to be stored in 3G system neighboring BS information in described mobile terminal, to 3G system, adjacent area measurement comprises: the synchronous base of the subscriber card that prestores based on described mobile terminal, with the corresponding 3G system neighboring BS information being stored in described mobile terminal, corresponding 3G system adjacent area is measured.
8. the method for many card multi-module mobile terminals as claimed in claim 1 to 3G system nearby region measurement, it is characterized in that, also comprise: to be stored in before 3G system neighboring BS information in described mobile terminal measures 3G system adjacent area, judge whether active user's card of described mobile terminal is the subscriber card prestoring;
With the 3G system neighboring BS information that is stored in, to 3G system, adjacent area measurement comprises: if active user blocks for the subscriber card that prestores, the synchronous base based on the subscriber card that prestores, measures corresponding 3G system adjacent area with the 3G system neighboring BS information being stored in described mobile terminal; If active user blocks the non-subscriber card that prestores, carry out synchronous base switching according to active user card and the position relationship that prestores between subscriber card Serving cell, based on the synchronous base of active user's card, with the corresponding 3G system neighboring BS information being stored in described mobile terminal, corresponding 3G system adjacent area is measured.
9. the method for many card multi-module mobile terminals as claimed in claim 8 to 3G system nearby region measurement, is characterized in that, judge that whether active user's card is that the subscriber card that prestores comprises: judge that whether the identifier that active user blocks is consistent with the identifier of the subscriber card that prestores.
10. block as claimed in claim 7 or 8 the methods of multi-module mobile terminals to 3G system nearby region measurement more, it is characterized in that, also comprise: set in advance the subscriber card that prestores of described mobile terminal, obtain and store the position relationship prestoring between subscriber card and other subscriber card Serving cells.
The method of 11. many card multi-module mobile terminals as claimed in claim 10 to 3G system nearby region measurement, is characterized in that, the position relationship prestoring between subscriber card and other subscriber card Serving cells is the OTD relation prestoring between subscriber card and other subscriber card Serving cells.
The method of 12. many card multi-module mobile terminals as claimed in claim 10 to 3G system nearby region measurement, it is characterized in that, the subscriber card that prestores that sets in advance mobile terminal comprises: after mobile terminal starts, the subscriber card that completes at first registration in mobile terminal is set to the subscriber card that prestores.
The method of 13. many card multi-module mobile terminals as claimed in claim 2 to 3G system nearby region measurement, it is characterized in that, also comprise: after measurement, according to stored 3G system neighboring BS information and the incidence relation of respective user card information, obtain the measurement result that each subscriber card is corresponding.
The method of 14. many card multi-module mobile terminals as claimed in claim 1 to 3G system nearby region measurement, is characterized in that, described 3G system comprises: TD-SCDMA, WCDMA or LTE; Described many card multimode terminals, its pattern comprises two or more pattern in GSM, TD-SCDMA, WCDMA, LTE.
CN201110148706.9A 2011-06-03 2011-06-03 Third-generation (3G) system neighbor cell measurement method for multi-card multi-mode mobile terminal Active CN102196487B (en)

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