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CN103458417B - For coordinating method and the radio communication device thereof of business operation - Google Patents

For coordinating method and the radio communication device thereof of business operation Download PDF

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Publication number
CN103458417B
CN103458417B CN201210447266.1A CN201210447266A CN103458417B CN 103458417 B CN103458417 B CN 103458417B CN 201210447266 A CN201210447266 A CN 201210447266A CN 103458417 B CN103458417 B CN 103458417B
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communication device
circuit
frequency resource
radio communication
coordinating
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CN103458417A (en
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陈宏岳
张中芸
陈思佑
王斌锐
李正轩
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MediaTek Inc
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MediaTek Inc
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Abstract

A kind of method for coordinating business operation and radio communication device thereof, above-mentioned business packet contains circuit-switched service and packet switching service, wherein comprises for coordinating the method for business operation: perform this packet switching service of first user identification card;Perform idle pulley task to receive this circuit-switched service of the second Subscriber Identity Module;And according in the multiple coodination modes come into, the radio frequency resource shared with the distribution of this circuit-switched service for this packet switching service.The present invention can realize the balance operation between packet switching service and circuit-switched service for the method and radio communication device thereof coordinating business operation.

Description

For coordinating method and the radio communication device thereof of business operation
Technical field
The present invention is related to the coordinated manipulation between communication service, and particularly with regard to packet transfer mode (PacketTransferMode, circuit switching (the CircuitSwitched of the different user identification card PTM) and under connection mode (ConnectedMode), CS) coordinated manipulation and between packet switch (PacketSwitched, PS).
Background technology
nullIncreased requirement due to substantial amounts of calculating Yu network,So having been developed that now various wireless communication technology,Such as global system for mobile communications (GlobalSystemforMobilecommunications) technology、GPRS (general packet radio service) (GeneralPacketRadioService,GPRS) technology、Enhanced data rates for gsm evolution (EnhancedDataratesforGSMEvolution,EDGE) technology、UMTS (UniversalMobileTelecommunicationSystem,UMTS) technology、CDMA 2000 (CodeDivisionMultipleAccess2000,CDMA2000) technology、TD SDMA (TimeDivision-SynchronousCodeDivisionMultipleAccess,TD-SCDMA) technology、Worldwide interoperability for microwave accesses (WorldwideInteroperabilityforMicrowaveAccess,WiMAX) technology、Long Term Evolution (LongTermEvolution,LTE) technology、Enhancement mode Long Term Evolution (LongTermEvolution-Advanced,LTE-A) technology、Time-division Long Term Evolution (Time-DivisionLTE,TD-LTE) technology or other technologies.Normally, mobile phone only supports that the geographical position of a wireless communication technology and no matter user, at which, provides the user radio communication service at any time by the wireless communication technology supported.Especially in the commercial age now, mobile phone becomes the requisite instrument for convenience of business management.For businessman, since they are also required to operate a business, so typically can have more than a mobile phone to make business during going out even to go abroad.Another part the user discover that having multi-section mobile phone can preferably save or control wireless traffic cost (including telephone service and/or data service).But, when user must make one's options between mobile phone continually and need to carry with all mobile phones, the mobile phone having two or more than two becomes trouble.In order to provide more easily method for having the user of multiple subscriber number, in mobile phone industry, support that the double card of two or more subscriber identification module or many cards mobile phone arise at the historic moment by single transceiver (or modem).Specifically, each wireless communication module in double card or many cards mobile phone can perform wireless transmission and the reception of unique user number.It addition, user wishes that the said goods has the function receiving calling (above two business comes from two Subscriber Numbers) while performing data service.
But, design problem can be introduced while reaching above-mentioned functions, time division multiple acess (TimeDivisionMultipleAccess, the TDMA) channel wherein associated with two or more wireless communication modules there will be conflicting situation.In other words, only allowing a wireless communication module to utilize above-mentioned single transceiver to obtain Internet resources, meanwhile other wireless communication modules do not control single transceiver.Such as, configurable double-card mobile telephone makes the first wireless communication module performing PS data service take single transceiver, above-mentioned PS data service comprises such as multimedia messaging service (MultimediaMessagingService, MMS), instant short message service (InstantMessagingService, IMS), by file transmission, web page browsing or other PS data services of file transfer protocol (FTP) (FileTransferProtocol, FTP).When the business network associating the second wireless communication module asks the mobile terminal (MobileTerminated for the second wireless communication module, MT) during calling, because now the second wireless communication module does not accesses above-mentioned single transceiver, so above-mentioned MT calling can be lost, and because the second wireless communication module can not receive beep-page message (pagingmessage) from business network, so the second wireless communication module is unaware that the access that MT calls.Additionally, when the first wireless communication module performs PS business, second wireless communication module is sustainable to be interrupted above-mentioned PS business thus obtains the control to single transceiver to receive internet message (such as beep-page message), or execution Radio Measurement, thus allow the second wireless communication module to maintain mobility, but so will reduce PS data transfer rate or the data throughout of PS business.
Accordingly, it would be desirable to a kind of flexible approach manages the operation between multiple wireless communication modules of multiple Subscriber Identity Modules, so that the second wireless communication module can receive MT calling from network while the first wireless communication module performs PS business.
Summary of the invention
In view of this, the present invention provides a kind of method for coordinating business operation and radio communication device thereof.
A kind of method for coordinating business operation, implements between circuit-switched service and packet switching service in a wireless communication device, comprises: perform this packet switching service of first user identification card;Perform idle pulley task to receive this circuit-switched service of the second Subscriber Identity Module;And according in the multiple coodination modes come into, the radio frequency resource shared with the distribution of this circuit-switched service for this packet switching service.
A kind of radio communication device for coordinating business operation, this business packet contains circuit-switched service and packet switching service, this radio communication device being used for coordinating business operation comprises: first processor logical block, for performing this packet switching service of first user identification card;Second processor logical block, for performing idle pulley task to receive this circuit-switched service of the second Subscriber Identity Module;And the 3rd processor logical block, for according in the multiple coodination modes come into, the radio frequency resource shared with the distribution of this circuit-switched service for this packet switching service.
The present invention can realize the balance operation between packet switching service and circuit-switched service for the method and radio communication device thereof coordinating business operation.
Accompanying drawing explanation
Fig. 1 is the wireless communication system schematic diagram described according to embodiments of the present invention.
Fig. 2 is the hardware architecture diagram of the MS described according to embodiments of the present invention.
Fig. 3 is the method flow diagram coordinating CS business and PS business operation in a wireless communication device described according to embodiments of the present invention.
Fig. 4 is the weight schematic diagram of the quality of PS business under different coodination modes and the MT call successful rate of CS business described according to embodiments of the present invention.
Fig. 5 is the radio communication device schematic diagram described according to embodiments of the present invention.
Fig. 6 is to describe about five Different Reliability grades and the list schematic diagram of relevant coodination modes.
Fig. 7 is the schematic diagram of the change of PS data throughout in the PS business of radio communication device described according to embodiments of the present invention.
Detailed description of the invention
Some vocabulary is employed to censure specific element in the middle of specification and claims.Person of ordinary skill in the field is it is to be appreciated that hardware manufacturer may call same element with different nouns.This specification and claims book is not using the difference of title as in the way of distinguishing element, but using element difference functionally as the criterion distinguished." comprising " mentioned in description and claim in the whole text is an open term, therefore should be construed to " comprise but be not limited to ".Additionally, " coupling " word comprises any directly and indirectly electrical connection at this.Therefore, if first device is coupled to the second device described in literary composition, then represents first device and can directly be electrically connected in the second device, or be indirectly electrically connected to the second device through other device or connection means.
Following description is to realize highly preferred embodiment of the present invention, and it is the purpose in order to describe the principle of the invention, not limitation of the present invention.It is to be understood that the embodiment of the present invention can be realized by software, hardware, firmware or its combination in any.
Fig. 1 is the wireless communication system schematic diagram described according to embodiments of the present invention.Wireless communication system 100 comprises movement station (MobileStation, MS) 110, business network 120 and 130.Behind MS110 resident (campon) Liang Ge community, it can carry out radio communication with the business network 120 and 130 being respectively associated two Subscriber Numbers.Base station (Node-B), base station (BaseStation, BS), improved B S (advancedBS, ABS), enhancement mode BS (enhancedBS, EBS) or other websites can be used to manage above-mentioned community.But, only allow to communicate with an execution in 130 with business network 120 simultaneously.Business network 120 with 130 can with in GSM/GPRS/EDGE, WCDMA, CDMA2000, TD-SCDMA, WiMAX, LTE and TD-LTE technology any two kinds compatible.Subscriber Number can be provided respectively by two Subscriber Identity Modules, and two of which Subscriber Identity Module is mutually compatible with 130 technical specifications used with business network 120 respectively.Such as, business network 120 can be GSM/GPRS/EDGE system, and correspondingly, one Subscriber Identity Module can be subscriber identification module (SubscriberIdentityModule, SIM) card, business network 130 can be WCDMA, LTE or TD-LTE system and correspondingly, another one Subscriber Identity Module can be Global Subscriber identification module (UniversalSubscriberIdentityModule, USIM) card.Selectively, business network 120 can be CDMA2000 system and correspondingly, and one of them Subscriber Identity Module is Removable User Identity Module (RemovableUserIdentityModule, R-UIM) card;In addition business network 130 can be TD-SCDMA system and correspondingly, and another Subscriber Identity Module can be CDMA subscriber identification module (CDMASubscriberIdentityModule, CSIM) card.MS110 can wirelessly access the internet resource, such as perform Email transmission, web page browsing, files passe/download, instant short message, video flowing, by the voice (voiceoverInternetProtocol of Internet protocol, VoIP) transmission or other business, or radiotelephone call can be carried out.It addition, main frame or notebook can connect/couple MS110 and wirelessly access the internet resource by MS110.In gsm system, MS110 can be that the SIM of each insertion operates in idle pulley (idlemode) or dedicated mode (dedicatedmode).At the idling mode, MS110 measures the BCCH (BroadcastControlChannel of community from the cell list that specific transactions network provides, BCCH) there is the community of more preferable signal quality with search, or carry out synchronize with the synchronized cells of specific cell, wherein MS110 prepares in the upper random access procedure that performs of direct access communications channels (RandomAccessChannel, RACH) all the time to ask dedicated channel.In dedicated mode, MS110 takies physical channel and attempts synchronous, and sets up logic channel and perform switching by it.Because MS110 is assembled with one or more usim card, so the usim card that MS110 can be each insertion operates in the idle pulley and connection mode of WCDMA or TD-SCDMA network.
Fig. 2 is the hardware architecture diagram of the MS described according to embodiments of the present invention.MS200 comprises the single RF module 220(i.e. radio-frequency module of baseband chip 210 and coupling antenna 230).Baseband chip 210 can comprise multiple hardware unit to perform base band signal process, it includes analog digital conversion (analogtodigitalconversion, ADC)/digital-to-analogue conversion (digitaltoanalogconversion, DAC), Gain tuning, modulating/demodulating, coding/decoding etc..RF module 220 can receive RF wireless signal at antenna 230, and the RF wireless signal of reception is converted to baseband signal, then baseband chip 210 processes above-mentioned baseband signal, or RF module 220 receives baseband signal from baseband chip 210 and is converted into RF wireless signal, then pass through antenna and above-mentioned RF wireless signal is sent.RF module 220 also comprises multiple hardware unit to perform wireless frequency conversion.Such as, RF module 220 can comprise frequency mixer with by baseband signal and the carrier multiplication of vibration in the radio frequency of cordless communication network, wherein radio frequency can be application 900MHz, 1800MHz or 1900MHz in gsm networks, or can be application 900MHz, 1900MHz or 2100MHz in a wcdma network, or apply the frequency in other wireless access techniques (RadioAccessTechnology, RAT) network.As in figure 2 it is shown, Subscriber Identity Module 10 and 20 inserts two slots of MS200.MS200 can further include double card controller 240, and it connects or couples baseband chip 210 and Subscriber Identity Module 10,20.According to power management integrated chip (PowerManagementIntegratedChip, PMIC) with the demand of battery, double card controller 240 provides identical or different voltage for Subscriber Identity Module 10 from 20, can be wherein that each Subscriber Identity Module determines magnitude of voltage at initial period.Baseband chip 210 reads data from one of them of Subscriber Identity Module 10 and 20, and writes data in one of them of Subscriber Identity Module 10 and 20 by double card controller 240.It addition, the instruction issued according to baseband chip 210 of double card controller 240 optionally to Subscriber Identity Module 10 and 20 tranmitting data register, restart and/or data signal.It is one or more that baseband chip 210 can be supported in GSM/GPRS/EDGE, WCDMA, CDMA2000, TD-SCDMA, WiMAX, LTE and TD-LTE technology.Subscriber Identity Module 10 and 20 can be any two in SIM, usim card, R-UIM card, CSIM card, and its wireless communication technology supported with baseband chip 210 is corresponding.nullTherefore MS200 can the most resident identical or heterogeneous networks operator be the Liang Ge community of Subscriber Identity Module 10 and 20 offer inserted,And utilize single RF module 220 to operate in different modes with baseband chip 210,Such as connection mode、Idle pulley、Cell private channel (CellDedicatedChannel,CELL_DCH) pattern、Cell forward access channel (CellForwardAccessChannel,CELL_FACH) pattern、Cell paging channel (CellPagingChannel,CELL_PCH) wireless access registration area paging channel (UniversalTerrestrialRadioAccessRegistrationAreaPagingCha nnel on pattern and global land,URA_PCH) pattern.It addition, MS200 comprises user's interface device 250, it provides the user user interface to interact with MS200, and wherein this user's interface device 250 can comprise keyboard, touch screen, touch pad, game paddle, mouse and/or scanner etc..Such as, when MS200 is just receiving MT calling, user's interface device 250 can point out MT to call on the touchscreen, and user can answer MT calling by the virtual button of answering on contact touch screen.Additionally, MS200 comprises sensor 260 for sensing the kinestate of MS200, such as gravity sensor.In one embodiment, during double card controller can be integrated in baseband chip 210.Being appreciated that the hardware configuration shown in Fig. 2 can be adjusted to comprise the hardware configuration of multiple Subscriber Identity Module, the present invention is not limited to this.
Fig. 3 is the method flow diagram coordinating CS business and PS business operation in radio communication device (the 200 of such as Fig. 2) described according to embodiments of the present invention.The method can be included in program code and when the processor unit of baseband chip 210 loads and performs said procedure code by having related data structures and/or specific hardware circuit is implemented.First, in step S310, radio communication device performs the PS business of first user identification card.Then, in step S320, radio communication device performs idle pulley task (idlemodetask) to receive the MTCS business of the second Subscriber Identity Module.Then, in step S330, according to the coodination modes come into, the RF resource that radio communication device (220 in such as Fig. 2 and 230) distribution is shared is to the first or second Subscriber Identity Module.
Fig. 4 is the weight schematic diagram of the quality of PS business under different coodination modes and the MT call successful rate of CS business described according to embodiments of the present invention.In the diagram, WPSRepresent the weight of PS quality of service, WCSRepresenting the weight of the MT call successful rate of CS business, wherein radio communication device performs PS Yu the CS business of first and second Subscriber Identity Module respectively.Radio communication device is according to having come into which kind of coodination modes, and for associating the channel activity RF resource that (comprise and send and reception activity), distribution was shared of first and second Subscriber Identity Module, the most each coodination modes has PS weight WPSAnd CS weight WCS.In lists, dash " " represents the CS business being under only data pattern (dataonlymode) without weight.In cell, this specific transactions of the most expressions of circle has the highest weight than other business under identical coodination modes.Specifically, under only data pattern, when the PS channel activity associating first user identification card is with the CS channel activity conflict associating the second Subscriber Identity Module, shared RF resource can be fully allocated to PS channel activity.The conflict of CS with PS channel activity means that their execution time cycle is the most overlapping and can not mutually stagger.Under data better model (databettermode), in order to ensure that shared RF resource, higher than present level, when the quality measurements of above-mentioned conflict generation and PS business is less than present level, is distributed to PS channel activity by the quality of PS business.On the contrary, when the quality measurements of above-mentioned conflict generation and PS business is equal to or more than present level, shared RF resource is distributed to CS channel activity.The quality measurements of PS business can be PS data throughout.Under calling better model (callbettermode), in order to ensure that the MT call successful rate of CS business is higher than preset level, when the occupancy of above-mentioned conflict generation and CS business is less than present level, shared RF resource is distributed to CS channel activity.On the contrary, when the occupancy of above-mentioned conflict generation and CS business is equal to or more than present level, shared RF resource is distributed to CS channel activity.The occupancy of CS business can be represented by the ratio listening to the number of collisions between the quantity of PCH and CS and PS channel activity in conflict within the time in the past cycle, and above-mentioned occupancy can be set to the numerical value more than 0.5.Such as when within past three minutes, there is CS channel activity and conflict with the ten of PS channel activity times and shared RF resource distribute to CS channel activity to listen to PCH in six conflicts in the past, then the occupancy of CS business is 0.6.Although above-described embodiment discloses three kinds of coodination modes, but those skilled in the art can arbitrarily select two of which in it is put into practice, and the present invention is not limited to this.It addition, those skilled in the art may utilize different titles to call above-mentioned coodination modes, if but coodination modes has function similar to the aforementioned embodiment, fall within protection scope of the present invention.
When operating radio communication device under calling better model or data better model, the second Subscriber Identity Module can perform cell selection procedure, but the second Subscriber Identity Module can not perform cell selection procedure under only data pattern.Normally, cell selection procedure can be divided into normal cells select (normalcellselection) to select (storedlistcellselection) with storage list community.In one embodiment, under calling better model, signal or the quality of service that normal cells selects or store list community to select to depend on having detected whether is performed.Performing storage list community under data better model only to select, therefore the second wireless communication module interrupts PS business and becomes less frequently.So, when entering calling better model, processor unit 210 configures radio communication device and has the normal cells selection of execution association the second Subscriber Identity Module and the function of two kinds of processes of storage list community selection, but when entering data better model, processor unit 210 configures radio communication device and has the function only carrying out the selection of storage list community.Normal cells selection course comprises radio communication device and searches for all RF carrier waves without previous message received, and RF carrier wave is compared and selected the community with peak power as current business community.Storage list cell selection procedure comprises below step.The neighbor cell list that first radio communication device provides according to network maintains list of frequency (i.e. storing list), turn allows for MS and selects service district in the frequency storing list.Specifically, in storage list community selects, storage list can represent the public land mobile network (PublicLandMobileNetwork allowing radio communication device roaming, PLMN) identity code (Identity, ID) and the ID of the community of the most resident mistake of radio communication device.In other words, the scrambler (scramblingcode) originally distributing to each community can be used as ID, and is stored.In another embodiment, along with weight WCSRaising (i.e. weight WPSDecline), in the CS business of radio communication device, the quantity of neighbor cell is consequently increased.Such as, under calling better model, processor unit 210 can configure radio communication device and makes it have the ability monitoring up to 6 neighbor cells when the resident GSM cell of radio communication device, and have and when UTRAN (E-UTRAN) community of UMTS Terrestrial radio access network (UMTSTerrestrialRadioAccessNetwork, the UTRAN)/evolution of radio communication device resident second Subscriber Identity Module, neighbor cell is performed with frequency and the ability of inter-frequency measurement.Under data better model, processor unit 210 can configure radio communication device and makes it have the ability monitoring less neighbor cell (such as 1,2,3,4) when the resident GSM cell of radio communication device, and having the ability that neighbor cell performs common frequency measurement when the UTRAN/E-UTRAN community of resident second Subscriber Identity Module of radio communication device, therefore the second wireless communication module interrupts PS business and becomes less frequently.Additionally, the quantity of the neighbor cell of monitoring can be according to weight WCSThe constant preset or variable.
User can pass through the selection connecting the specific coodination modes of control or the gravity treatment of man machine interface (man-machineinterface, MMI).User can select suitable coodination modes by the MMI of radio communication device from three kinds of coodination modes (the most only data pattern, data better model, calling better model).Fig. 5 is the radio communication device schematic diagram described according to embodiments of the present invention.Such as, originally under acquiescence coodination modes, radio communication device (such as calling better model) is operated.If user feels that the data communication in the PS business of first user identification card is relatively slow, then user can be switched to only data pattern or data better model to improve packet data throughput from calling better model.In one embodiment, the volume key 310 of radio communication device in the operable Fig. 5 of user, roller 320, ball key 330 are to select or the suitable coodination modes of gravity treatment or adjust weight WPS.In another embodiment, user with selection or the suitable coodination modes of gravity treatment or can adjust weight W by the touch screen 340 sliding, rolling or other specific actions operate in Fig. 5PS.In another embodiment, user can select or the suitable coodination modes of gravity treatment by rocking radio communication device, and wherein the sensor 260 of Fig. 2 can sense the kinestate of radio communication device.Therefore, can be that PS Yu CS channel activity redistributes shared RF resource to respond the newly selected coodination modes.
Selectively, radio communication device can automatically control the selection to specific coodination modes, with the balance of the MT call successful rate of the PS quality of service and the second Subscriber Identity Module that reach first user identification card.In one embodiment, the attribute of quality of service (QualityofService, QoS) during above-mentioned model selection can relate to packet data protocol (PacketDataProtocol, PDP) context (context).Above-mentioned attribute comprises reliability level (reliabilityclass) and Throughput Class (throughputclass).The transmission characteristic that reliability level instruction application program needs, wherein data reliability may be defined as following content: Service Data Unit (ServiceDataUnit, SDU) losing probability, SDU unordered transmission (SDUdeliveroutofsequence) probability, copy SDU send (duplicateSDUdelivery) probability and damage SDU (corruptedSDU) probability.The bandwidth of Throughput Class explanation PDP Context request, the negotiable factor of two of which: peak throughput and average throughput define user data-throughput demand.Peak throughput refers to the Maximum Bit Rate of the anticipatory data transmission by strengthening GPRS (EGPRS) network.Average throughput refers to the mean bit rate (summation is that the total data in the PDP Context cycle is transmitted) transmitted by the data of EGPRS network.
Fig. 6 is to describe about five Different Reliability grades and the list schematic diagram of relevant coodination modes.When determining that running application program in PS business is non real-time traffic (non-realtimetraffic), such as web page browsing, FTP download, background program upgrading etc., the processor configuration radio communication device in baseband chip (in such as Fig. 2 210) enters calling better model.On the contrary, when determining that running application program in PS business is real-time traffic (realtimetraffic), such as voip call, processor configuration radio communication device entrance data better model or only data pattern.On the other hand, according to the storage record of the log-on message of application program or data base, processor can identify whether the application program of running is real-time traffic or non real-time traffic, and above-mentioned processor can select suitable coodination modes according to storage record or log-on message.
Fig. 7 is the schematic diagram of the change of PS data throughout in the PS business of radio communication device described according to embodiments of the present invention.First, initial configuration radio communication device is to calling better model.When PS data throughout always below threshold value TL in period of time T P1 being detected, processor can configure radio communication device and enters data better model, and wherein threshold value TL is less than the average throughput MT of PS business.When detect PS data throughout in period of time T P2 always above threshold value TH time, processor can configure radio communication device and returns to call better model, and wherein threshold value TH is higher than the average throughput MT of PS business.Therefore by continuing to monitor the change of PS data throughout, processor promptly can determine suitable coodination modes for radio communication device.
Notably say, support that any radio communication device sharing two or more SIMs of a single wireless electric resources can perform the coordinated manipulation method between above-mentioned CS business and PS business.Especially, the baseband chip of radio communication device can comprise the microprocessing unit (Micro-ProcessingUnit, MPU) for performing said method step.Owing to each step of this method is decomposed into the specific function that baseband chip provides, so needing the process logic of different piece in the MPU of baseband chip to perform above-mentioned functions.
As the sequence word of the modified elements in detail in the claims such as " first ", " second ", " the 3rd " is not meant to the time sequencing that the grade self with any preferable power, preferable level or an element performs higher than another element or method, and as just label for distinguishing an element with definite title and another element with same names (except modifying sequence word).
The present invention is described by preferred embodiment, it is to be understood that it is not limited to that.Any those skilled in the art, without departing from the spirit and scope of the present invention, does change and the modification of equalization, comes under the covering scope of the present invention.

Claims (26)

1., for the method coordinating business operation, for implementing between circuit-switched service and packet switching service in a wireless communication device, comprise:
Perform this packet switching service of first user identification card;
Perform idle pulley task to receive this circuit-switched service of the second Subscriber Identity Module;And
According to one in the multiple coodination modes come into, the radio frequency resource shared with the distribution of this circuit-switched service for this packet switching service.
2. the method for coordinating business operation as claimed in claim 1, it is characterised in that the plurality of coodination modes comprises only data pattern, data better model and at least two called in better model.
3. the method for coordinating business operation as claimed in claim 2, it is characterized in that, the step of radio frequency resource that this distribution is shared comprises further: conflicts and time this radio communication device comes into this only data pattern when packet switched channels activity and circuit-switched channel are moving phase, distributes to associate this packet switched channels activity of this first user identification card by radio frequency resource that this is shared.
4. the method for coordinating business operation as claimed in claim 2, it is characterised in that the step of this radio frequency resource shared of this distribution comprises further:
When packet switched channels activity conflicts with circuit-switched channel activity, when quality measurements comes into this data better model less than present level and this radio communication device, distribute this radio frequency resource shared for this packet switched channels activity;And
When this packet switched channels activity conflicts with this circuit-switched channel activity, when this quality measurements comes into this data better model equal to or higher than this present level and this radio communication device, distribute this radio frequency resource shared for this circuit-switched channel activity.
5. the method for coordinating business operation as claimed in claim 4, it is characterised in that this quality measurements is packet switched data handling capacity.
6. the method for coordinating business operation as claimed in claim 2, it is characterised in that the step of this radio frequency resource shared of this distribution comprises further:
When packet switched channels activity conflicts with circuit-switched channel activity, when the occupancy of this circuit-switched service comes into this calling better model less than present level and this radio communication device, distribute this radio frequency resource shared for this circuit-switched channel activity;And
When this packet switched channels activity conflicts with this circuit-switched channel activity, when this occupancy of this circuit-switched service comes into this calling better model equal to or higher than this present level and this radio communication device, distribute this radio frequency resource shared for this packet switched channels activity.
7. the method for coordinating business operation as claimed in claim 6, it is characterized in that, this occupancy of this circuit-switched service represents the ratio of this number of collisions listened in conflict within the time in the past cycle between the quantity of paging channel and circuit-switched channel activity and packet switched channels activity.
8. the method for coordinating business operation as claimed in claim 2, it is characterised in that the step of this radio frequency resource shared of this distribution comprises further:
When entering this calling better model, distribute this radio frequency resource shared and select to select with storage list community with the normal cells performing to associate this second Subscriber Identity Module;And
When entering this data better model, distribute this radio frequency resource shared and select with this storage list community performing to associate this second Subscriber Identity Module.
9. the method for coordinating business operation as claimed in claim 2, it is characterised in that the step of this radio frequency resource shared of this distribution comprises further:
When entering this calling better model, distribute this radio frequency resource shared to perform to associate common frequency measurement and the inter-frequency measurement of the neighbor cell of this second Subscriber Identity Module;And
When entering this data better model, distribute this radio frequency resource shared to perform to associate this common frequency measurement of this neighbor cell of this second Subscriber Identity Module.
10. the method for coordinating business operation as claimed in claim 2, it is characterised in that the step of this radio frequency resource shared of this distribution comprises further:
When entering this calling better model, distribute this radio frequency resource shared to monitor multiple neighbor cells quantity;And
When entering this data better model, distribute this radio frequency resource shared with the neighbor cell few under this calling better model of monitoring rate.
11. as claimed in claim 1 for the method coordinating business operation, it is characterised in that comprise further:
Reselect in the plurality of coodination modes;And
This radio frequency resource shared is redistributed to respond the newly selected coodination modes for this packet switching service and this circuit-switched service.
12. as claimed in claim 11 for the method coordinating business operation, comprises offer man machine interface further to facilitate user to select one in the plurality of coodination modes.
13. as claimed in claim 11 for the method coordinating business operation, it is characterized in that, this step reselecting in the plurality of coodination modes one comprises that the change according to packet switched data handling capacity reselects in the plurality of coodination modes further.
14. 1 kinds of radio communication devices being used for coordinating business operation, this business packet contains circuit-switched service and packet switching service, and this radio communication device being used for coordinating business operation comprises:
First processor logical block, for performing this packet switching service of first user identification card;
Second processor logical block, for performing idle pulley task to receive this circuit-switched service of the second Subscriber Identity Module;And
3rd processor logical block, for according in the multiple coodination modes come into, the radio frequency resource shared with the distribution of this circuit-switched service for this packet switching service.
15. as claimed in claim 14 for coordinating the radio communication device of business operation, it is characterised in that the plurality of coodination modes comprises only data pattern, data better model and at least two called in better model.
16. as claimed in claim 15 for coordinating the radio communication device of business operation, it is characterized in that, conflicting and time this radio communication device comes into this only data pattern when packet switched channels activity and circuit-switched channel are moving phase, the 3rd processor logical block distributes this radio frequency resource shared further to this packet switched channels activity associating this first user identification card.
17. as claimed in claim 15 for coordinating the radio communication device of business operation, it is characterized in that, when packet switched channels activity conflicts with circuit-switched channel activity, when quality measurements comes into this data better model less than present level and this radio communication device, the 3rd processor logical block distributes this radio frequency resource shared for this packet switched channels activity further;And when this packet switched channels activity conflicts with this circuit-switched channel activity, when this quality measurements comes into this data better model equal to or higher than this present level and this radio communication device, the 3rd processor logical block distributes this radio frequency resource shared for this circuit-switched channel activity further.
18. as claimed in claim 17 for coordinating the radio communication device of business operation, it is characterised in that this quality measurements is packet switched data handling capacity.
19. as claimed in claim 15 for coordinating the radio communication device of business operation, it is characterized in that, when packet switched channels activity conflicts with circuit-switched channel activity, when the occupancy of this circuit-switched service comes into this calling better model less than present level and this radio communication device, the 3rd processor logical block distributes this radio frequency resource shared for this circuit-switched channel activity further;And when this packet switched channels activity conflicts with this circuit-switched channel activity, when this occupancy of this circuit-switched service comes into this calling better model equal to or higher than this present level and this radio communication device, the 3rd processor logical block distributes this radio frequency resource shared for this packet switched channels activity further.
20. as claimed in claim 19 for coordinating the radio communication device of business operation, it is characterized in that, this occupancy of this circuit-switched service represents the ratio of this number of collisions listened in conflict within the time in the past cycle between the quantity of paging channel and circuit-switched channel activity and packet switched channels activity.
21. as claimed in claim 15 for coordinating the radio communication device of business operation, it is characterized in that, when entering this calling better model, the 3rd processor logical block is distributed this radio frequency resource shared further and is selected to select with storage list community with the normal cells performing to associate this second Subscriber Identity Module;And when entering this data better model, the 3rd processor logical block is distributed this radio frequency resource shared further and is selected with this storage list community performing to associate this second Subscriber Identity Module.
22. as claimed in claim 15 for coordinating the radio communication device of business operation, it is characterized in that, when entering this calling better model, the 3rd processor logical block distributes this radio frequency resource shared further to perform to associate common frequency measurement and the inter-frequency measurement of the neighbor cell of this second Subscriber Identity Module;And when entering this data better model, the 3rd processor logical block distributes this radio frequency resource shared further to perform to associate this common frequency measurement of this neighbor cell of this second Subscriber Identity Module.
23. as claimed in claim 15 for coordinating the radio communication device of business operation, it is characterised in that when entering this calling better model, and this radio communication device distributes this radio frequency resource shared further to monitor multiple neighbor cells quantity;And when entering this data better model, this radio communication device distributes this radio frequency resource shared further with the neighbor cell few under this calling better model of monitoring rate.
24. as claimed in claim 14 for coordinating the radio communication device of business operation, it is characterised in that comprises further:
Fourth processor logical block, for reselecting in the plurality of coodination modes;And
5th processor logical block, for redistributing this radio frequency resource shared to respond the newly selected coodination modes for this packet switching service and this circuit-switched service.
25., as claimed in claim 24 for coordinating the radio communication device of business operation, comprise further:
Man machine interface, for facilitating user to select one in the plurality of coodination modes.
26. as claimed in claim 24 for coordinating the radio communication device of business operation, it is characterised in that according to the change of packet switched data handling capacity, this fourth processor logical block reselects one in the plurality of coodination modes further.
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