CN105813125A - Method used for voice service used of user equipment, use equipment and device - Google Patents

Abstract

The invention discloses a method used for voice service used of user equipment, the use equipment and a device. The UE comprises a first transceiver resource corresponding to primary component carriers PCC of a first network and aggregated with support carriers (CA), and a second transceiver resource corresponding to secondary component carriers SCC of the first network. The first network can be used for the data business of the UE. The method comprises the steps of: obtaining the state information of the SCC, wherein the state information indicates whether the SCC is in an activated state; and according to the state information, controlling the second transceiver resource to monitor a second network, wherein the second network can be used for performing the voice business. By adopting the method used for voice service used of user equipment, the use equipment and the device, the power consumption is lowered.

Description

For the method for speech business of subscriber equipment, subscriber equipment and device

Technical field

The present invention relates to communication technical field, and more particularly, to a kind of method of speech business for subscriber equipment, subscriber equipment and device.

Background technology

Universal along with the development of network and mobile phone, subscriber equipment (such as mobile terminal) is to be developed to double-card dual-standby or multi-card multi-standby from single deck tape-recorder list.Wherein, as the term suggests, double-card dual-standby that is two client identification module (SubscriberIdentityModule, referred to as " SIM ") card is simultaneously standby.Sensu lato double-card dual-standby can include double card bilateral (DualSIMDualActive, referred to as " DSDA ") and double-card dual-standby (DualSIMDualStandy, referred to as " DSDS ") two ways.For DSDA, two standby modes all have independent radio frequency (RadioFrequency, referred to as " RF ") resource, can enliven simultaneously；For DSDS, one RF resource of two standby mode time division multiplexes.

At present, Long Term Evolution (LongTermEvolution, referred to as " LTE ") the many employings of system are fallen back to the mode of 2G/3G and are realized the speech business of mobile terminal.The transceiver resources that the scheme of the conventional speech business realizing mobile terminal adopts is more, and its corresponding power consumption is also higher.

Summary of the invention

The present invention provides a kind of method of speech business for subscriber equipment, subscriber equipment and device, it is possible to reduce power consumption.

First aspect, it is provided that a kind of user equipment (UE).This UE includes: with corresponding for main carrier PCC first transceiver resources of the first network supporting carrier aggregation CA, with auxiliary corresponding for carrier wave SCC second transceiver resources of this first network and processor；

This first transceiver resources is used for monitoring this first network, and this first network can be used the data service carrying out this UE；

This processor is used for, and obtains the status information of this SCC, and this status information represents whether this SCC is active, and controls this second transceiver resources according to this status information and monitors the second network, and this second network can be used the speech business carrying out this UE；

This second transceiver resources for monitoring this second network under the control of this processor.

In embodiments of the present invention, first network can be Long Term Evolution LTE network, second network can be Code Division Multiple Access (CDMA) network, UE controls transceiver resources corresponding for SCC according to the status information of SCC and monitors the second network, it is no longer necessary to the transceiver resources that the second network is corresponding such that it is able to reduce power consumption.Or owing to lesser amount of transceiver resources can be adopted, it is possible to reduce UE cost.

In conjunction with first aspect, in the first possible implementation of first aspect, this processor specifically for, when this SCC is active, in Preset Time, controls this second transceiver resources monitor this second network.

During SCC configuration or activating, UE can realize speech business according to SRLTE pattern, adopt the first corresponding for main carrier PCC transceiver resources to realize the standby of LTE network, adopt the second corresponding for SCC transceiver resources to realize the standby of cdma network in Preset Time.

In conjunction with the above-mentioned possible implementation of first aspect or first aspect, the second in first aspect is likely in implementation, this first transceiver resources is additionally operable to, send the space interface signaling monitoring the second network to the base station of this first network, this space interface signaling includes the cycle information monitoring this second network, at least one monitored this second network time length information, monitor this second network initial time information, monitor this second Network termination time information and monitor in the information of this second transceiver resources that this second network adopts.

In conjunction with the above-mentioned possible implementation of first aspect or first aspect, in the third possible implementation of first aspect, this processor specifically for, after the response message receiving this space interface signaling that this base station sends, in Preset Time, control this second transceiver resources monitor this second network.

After the first transceiver resources sends, to the base station of first network, the space interface signaling monitoring cdma network, if base station is agreed to, then SCC business of not dispatching in the time period of the second network is monitored, at UE, in base station, in order to UE adopts the second transceiver resources to realize the business of the second network.

So, it is to avoid matching problem occur in UE and base station.Therefore, the embodiment of the present invention monitors the second network by UE with base station negotiation mechanism, it is possible to improve QoS.

In implementation any of the above-described kind possible in conjunction with first aspect or first aspect, this processor specifically for,

When this SCC is in unactivated state, controls this second transceiver resources and monitor this second network in real time.

During SCC is not configured or activates, UE can realize speech business according to SVLTE pattern, adopts the first corresponding for main carrier PCC transceiver resources to realize the standby of first network, controls the second corresponding for SCC transceiver resources and realizes the standby of the second network.

In implementation any of the above-described kind possible in conjunction with first aspect or first aspect, this first network and this second network are based on the network of different wireless communication agreement.

Second aspect, provide the device of a kind of speech business for user equipment (UE), this UE include with corresponding for main carrier PCC first transceiver resources of the first network supporting carrier aggregation CA and with auxiliary corresponding for carrier wave SCC second transceiver resources of this first network, this first network can be used the data service carrying out this UE, and this device includes:

Acquisition module, for obtaining the status information of this SCC, this status information represents whether this SCC is active；

Monitoring module, this status information for obtaining according to this acquisition module controls this second transceiver resources and monitors the second network, and this second network can be used and carries out this speech business.

In embodiments of the present invention, UE obtains the status information of auxiliary carrier wave SCC by acquisition module, the transceiver resources corresponding for status information control SCC monitoring the SCC that module obtains according to this acquisition module monitors the second network, it is no longer necessary to the transceiver resources that the second network is corresponding such that it is able to reduce power consumption.Or owing to lesser amount of transceiver resources can be adopted, it is possible to reduce UE cost.

In conjunction with second aspect, in the first possible implementation of second aspect, this monitoring module specifically for,

When this SCC is active, in Preset Time, controls this second transceiver resources monitor this second network.

During SCC configuration or activating, UE can realize speech business according to SRLTE pattern, adopt the first corresponding for main carrier PCC transceiver resources to realize the standby of first network, in Preset Time, control the second corresponding for SCC transceiver resources realize the standby of the second network.

In conjunction with the above-mentioned possible implementation of second aspect or second aspect, the second in second aspect is likely in implementation, sending module, for sending the space interface signaling monitoring this second network to the base station of this first network, this space interface signaling is for monitoring this second network to this base station requests, this space interface signaling includes the cycle information monitoring this second network, monitor this second network time length information, monitor this second network initial time information, monitor this second Network termination time information and at least one in the information monitoring this second transceiver resources that this second network adopts.

In conjunction with the above-mentioned possible implementation of second aspect or second aspect, be likely in implementation at the third of second aspect, this monitoring module specifically for,

After the response message receiving this space interface signaling that this base station sends, in Preset Time, control this second transceiver resources monitor this second network.

After sending module sends, to base station, the space interface signaling monitoring the second network, after base station is agreed to, SCC business of not dispatching in the time period of the second network is monitored, at UE, in base station, in order to UE controls transceiver resources corresponding for SCC and realizes the business of the second network.

So, it is to avoid matching problem occur in UE and base station.Therefore, the embodiment of the present invention monitors the second network by UE with base station negotiation mechanism, it is possible to improve QoS.

In implementation any of the above-described kind possible in conjunction with second aspect or second aspect, this monitoring module specifically for,

When this SCC is in unactivated state, controls this second transceiver resources and monitor this second network in real time.

During SCC is not configured or activates, UE can realize speech business according to SVLTE pattern, adopts the first corresponding for main carrier PCC transceiver resources to realize the standby of first network, controls the second corresponding for SCC transceiver resources and realizes the standby of the second network.

In implementation any of the above-described kind possible in conjunction with second aspect or second aspect, this first network and this second network are based on the network of different wireless communication agreement.

The third aspect, a kind of method that the invention discloses speech business for user equipment (UE), this UE include with corresponding for main carrier PCC first transceiver resources of the first network supporting carrier aggregation CA and with auxiliary corresponding for carrier wave SCC second transceiver resources of this first network, this first network can be used the data service carrying out this UE, and the method includes:

Obtaining the status information of this SCC, this status information represents whether this SCC is active；

Controlling this second transceiver resources according to this status information and monitor the second network, this second network can be used and carries out this speech business.

In embodiments of the present invention, control transceiver resources corresponding for SCC according to the status information of SCC and monitor the second network, it is no longer necessary to the transceiver resources that the second network is corresponding such that it is able to reduce power consumption.Or owing to lesser amount of transceiver resources can be adopted, it is possible to reduce UE cost.

In conjunction with the third aspect, in the implementation that the third aspect is possible, control this second transceiver resources according to this status information and monitor the second network, including:

When this SCC is active, in Preset Time, controls this second transceiver resources monitor this second network.

During SCC configuration or activating, UE can realize speech business according to SRLTE pattern, adopt the first corresponding for main carrier PCC transceiver resources to realize the standby of first network, in Preset Time, control the second corresponding for SCC transceiver resources realize the standby of the second network.

In conjunction with the above-mentioned possible implementation of the third aspect or the third aspect, the second in the third aspect is likely in implementation, controls before this second transceiver resources monitors this second network in Preset Time, and the method also includes:

The space interface signaling monitoring the second network is sent to the base station of this first network, this space interface signaling is for monitoring this second network to this base station requests, and this space interface signaling includes the cycle information monitoring this second network, at least one monitored this second network time length information, monitor this second network initial time information, monitor this second Network termination time information and monitor in the information of this second transceiver resources that this second network adopts.

In conjunction with the above-mentioned possible implementation of the third aspect or the third aspect, in the third possible implementation of the third aspect, in Preset Time, control this second transceiver resources monitor this second network, including:

After the response message receiving this space interface signaling that this base station sends, in Preset Time, control this second transceiver resources monitor this second network.

After UE sends, to the base station of first network, the space interface signaling monitoring the second network, after base station is agreed to, SCC business of not dispatching in the time period of the second network is monitored, at UE, in base station, in order to UE controls the second corresponding for SCC transceiver resources and realizes the business of the second network.

So, it is to avoid matching problem occur in UE and base station.Therefore, the embodiment of the present invention monitors the second network by UE with base station negotiation mechanism, it is possible to improve QoS.

In conjunction with the above-mentioned possible implementation of the third aspect or the third aspect, in the 4th kind of possible implementation of the third aspect, control this second transceiver resources according to this status information and monitor the second network, including:

When this SCC is in unactivated state, controls this second transceiver resources and monitor this second network in real time.

During SCC is not configured or activates, UE can realize speech business according to SVLTE pattern, adopts the first corresponding for main carrier PCC transceiver resources to realize the standby of first network, controls the second corresponding for SCC transceiver resources and realizes the standby of the second network.

In implementation any of the above-described kind possible in conjunction with the third aspect or the third aspect, this first network and this second network are based on the network of different wireless communication agreement.

Fourth aspect, it is provided that a kind of method of speech business for user equipment (UE), including:

Sending space interface signaling to the base station of first network, this space interface signaling includes the temporal information monitoring the second network, and this first network can be used the data service carrying out this UE；

Monitoring this second network according to this temporal information, this second network can be used and carries out this speech business.

In embodiments of the present invention, UE sends space interface signaling to base station, and the temporal information of the second network is monitored in application, for instance this temporal information includes the interval Gap information monitoring the second network, makes base station coordinate by space interface signaling and monitors the second network, it is possible to improves QoS.

Alternatively, in embodiments of the present invention, first network and the second network are based on the network of different wireless communication agreement.Such as, first network can be LTE network, and the second network can be cdma network.

In conjunction with fourth aspect, in the first possible implementation of fourth aspect, monitor this first network according to this temporal information, including:

Receiving the response message of this base station of this first network, this response message is the confirmation message that this second network is agreed to monitor in this base station；

This second network is monitored according to this response message.

When receiving the response message of base station, reach an agreement in UE and base station, UE monitors the second network according to this response message in the time Gap of application, such as cdma network, now the first network of UE is not dispatched in base station in this Gap, for instance LTE network, corresponding service, also not statistical channel Quality Feedback such that it is able to improve error code, MCS recovers the problem such as slow after Modulation and Coding Scheme MCS falls zero and returns first network.

In conjunction with the above-mentioned possible implementation of fourth aspect or fourth aspect, in the third possible implementation of fourth aspect, this temporal information includes the cycle information monitoring this second network, at least one monitored this second network time length information, monitor this second network initial time information, monitor this second Network termination time information and monitor in the information of this second transceiver resources that this second network adopts.

Alternatively, in the implementation that some are possible, the method also includes:

Base station to the second network sends this space interface signaling, and this space interface signaling includes the temporal information monitoring the second network.

5th aspect, it is provided that the device of a kind of speech business for user equipment (UE), for the method performing the arbitrarily possible implementation of the above-mentioned third aspect or the third aspect.Specifically, this device includes module or the unit of the method in the arbitrarily possible implementation for performing the third aspect or the third aspect.

6th aspect, it is provided that the device of a kind of speech business for user equipment (UE), for the method performing the arbitrarily possible implementation of above-mentioned fourth aspect or fourth aspect.Specifically, this device includes module or the unit of the method in the arbitrarily possible implementation for performing fourth aspect or fourth aspect.

7th aspect, it is provided that the device of a kind of speech business for user equipment (UE).This device includes processor, memorizer and communication interface.Processor is connected with memorizer and communication interface.Memorizer is used for storing instruction, and processor is used for performing this instruction, and communication interface is for communicating with other network elements under the control of a processor.This processor reads the instruction of this memorizer storage, performs the method that the arbitrarily possible implementation of the above-mentioned third aspect or the third aspect provides.

Eighth aspect, it is provided that the device of a kind of speech business for user equipment (UE).This device includes processor, memorizer and communication interface.Processor is connected with memorizer and communication interface.Memorizer is used for storing instruction, and processor is used for performing this instruction, and communication interface is for communicating with other network elements under the control of a processor.This processor reads the instruction of this memorizer storage, performs the method that the arbitrarily possible implementation of above-mentioned fourth aspect or fourth aspect provides.

9th aspect, provide a kind of computer-readable medium, for storing computer program, this computer program includes the instruction that the method in the arbitrarily possible implementation of the arbitrarily possible implementation for performing the above-mentioned third aspect or the third aspect or fourth aspect or fourth aspect is corresponding.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of the embodiment of the present invention, the accompanying drawing used required in the embodiment of the present invention will be briefly described below, apparently, drawings described below is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the schematic diagram of a kind of application scenarios of the embodiment of the present invention.

Fig. 2 is the structured flowchart of the subscriber equipment of the embodiment of the present invention.

Fig. 3 illustrates the method flow diagram of the speech business for subscriber equipment of the embodiment of the present invention.

Fig. 4 illustrates the method flow diagram of the speech business for subscriber equipment of the embodiment of the present invention.

Fig. 5 illustrates the schematic block diagram of the subscriber equipment of the embodiment of the present invention.

Fig. 6 illustrates the schematic block diagram of the device of the speech business for subscriber equipment of one embodiment of the invention.

Fig. 7 illustrates the schematic block diagram of the device of the speech business for subscriber equipment of another embodiment of the present invention.

Fig. 8 illustrates the structure chart of the user equipment (ue) device of further embodiment of this invention.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.

nullIt should be understood that，Technical scheme，Can apply to the various communication systems based on various wireless communication protocols，Such as: global system for mobile telecommunications (GlobalSystemofMobilecommunication，Referred to as " GSM ")、WCDMA (WidebandCodeDivisionMultipleAccess，Referred to as " W-CDMA ")、TD SDMA (TimeDivision-SynchronousCodeDivisionMultipleAccess，Referred to as " TD-SCDMA ")、CDMA (CodeDivisionMultipleAccess，Referred to as " CDMA ")、Long Term Evolution (LongTermEvolution，Referred to as " LTE ")、LTE FDD (FrequencyDivisionDuplexing，Referred to as " FDD ") pattern、LTE time division duplex (TimeDivisionDuplexing，Referred to as " TDD ")、UMTS (UniversalMobileTelecommunicationsSystem，Referred to as " UMTS ") or global interconnection inserting of microwave (WorldwideInteroperabilityforMicrowaveAccess，Referred to as " WiMax ") etc..

nullWill also be understood that，In embodiments of the present invention，Subscriber equipment (UserEquipment，Referred to as " UE ") terminal (Terminal) can be referred to as、Wireless terminal、Mobile platform (MobileStation，Referred to as " MS ") or mobile terminal (MobileTerminal) etc.，This subscriber equipment can through wireless access network (RadioAccessNetwork，Referred to as " RAN ") communicate with one or more core net，Such as，Subscriber equipment can be mobile phone (or being called " honeycomb " phone) or the computer etc. with mobile terminal，Such as，Subscriber equipment can also is that portable、Pocket、Hand-held、Built-in computer or vehicle-mounted mobile device，They are with wireless access network switched voice and/or data.

In embodiments of the present invention, base station can be the base station (BaseTransceiverStation in GSM or CDMA, referred to as " BTS "), can also be the base station (NodeB, referred to as " NB ") in WCDMA, it is also possible to be the evolved base station (EvolutionalNodeB in LTE, referred to as " eNB or e-NodeB "), the present invention does not limit, but for convenience of description, following embodiment will illustrate for eNB.

For LTE communication system, OFDM (OrthogonalFrequencyDivisionMultiplexing, it is called for short " OFDM ") technology and multiple-input and multiple-output (Multiple-InputMultiple-Output, it being called for short " MIMO ") technology is two key technologies of LTE communication system, adopts the basic network framework that OFDM technology carries out signal transmission by multiple transmitting antennas and multiple reception antenna can include subscriber equipment and base station.

Fig. 1 illustrates the schematic architectural diagram of a kind of application scenarios of the embodiment of the present invention.As it is shown in figure 1, the basic network framework of LTE communication system can include base station (eNodeB) 20 and at least one wireless terminal, for instance UE10, UE11, UE12, UE13, UE14, UE15, UE16 and UE17.As it is shown in figure 1, eNodeB20 is for providing communication service core network access at least one wireless terminal in UE10 to UE17.Any one wireless terminal and eNodeB20 in UE10 to UE17 can include at least one antenna, describe for multiple antennas in Fig. 1.

Under this application scenarios, the schematic block diagram of the subscriber equipment of the embodiment of the present invention is as shown in Figure 2.This UE can be any one UE in Fig. 1, illustrates for UE10 here.Fig. 2 illustrates that the structural representation of UE10, typical UE include RF part and baseband processor.This RF part includes RF sendaisle and RF receives passage.Wherein RF sendaisle is for the passage by sending signal after the transmission signal modulation of baseband processor in antenna opening；This RF receives passage for issuing, after signal of eating dishes without rice or wine is received demodulation, the passage that the baseband processor of rear end processes for communication protocol.This RF part includes antenna, radio-frequency front-end (RadioFrequencyFrontEnd, referred to as " RFFE ") and RF IC (RadioFrequencyIntegratedCircuit, being called for short RFIC is " RFIC ").

This RFFE includes duplexer, and this duplexer is all coupled to antenna for RF transmission channel and RF are received passage (such as the direction of arrow) so that antenna can send, receives or receive and dispatch simultaneously.Power amplifier (PowerAmplifier, referred to as " PA ") main in transmitting path to sending signal power enlarging function, in order to can send out from antenna.RFIC is RFFE modem module below, the low frequency signal of baseband processor is become higher frequency RF signals (i.e. up-conversion by modulation exactly in transmitting path, its function is exactly realized by the upconverter in such as figure), demodulation receives passage at RF exactly and higher frequency RF signals is demodulated into baseband signal (i.e. down coversion, its function is exactly realized by the low-converter in such as figure), up/down converter i.e. frequency mixer, by higher frequency RF signals and local oscillation signal mixing are generated baseband signal, or baseband signal is generated higher frequency RF signals with local oscillation signal mixing.Low frequency signal may also pass through low-noise amplifier (LowNoiseAmplifier, referred to as " LNA ") and does to received signal and amplify before being demodulated in receiving path, dashed lines shown in part.Baseband signal is mainly processed by baseband processor, can process the various types of communication agreements such as 2/3/4G.

Alternatively, UE10 may also include memorizer and processor (not shown), and memorizer is used for storing radio communication drive software.Processor can include baseband processor and other processors.This radio communication drive software can be used for driving baseband processor for baseband signal is processed.It addition, after processor reads this software from described memorizer, any one of all kinds of wireless communication protocol or algorithm or multiple can be performed under the driving of described software.

In the embodiment of the present invention, UE can include two set transceiver resources, main carrier (PrimaryComponentCarrier, referred to as " PCC ") corresponding transceiver resources and transceiver resources corresponding to auxiliary carrier wave (SecondaryComponentCarrier, referred to as " SCC ").So-called transceiver resources can be understood as RF part (can be such as RFIC, or also include corresponding RFFE alternatively) of UE.For example, it is also possible to think that Fig. 2 illustrates a set of transceiver resources of UE.Therefore a set of transceiver resources alternative includes RFIC and RFFE, it is possible to selectivity includes respective antenna.

The UE of the embodiment of the present invention supports third generation partner program (3rdGenerationPartnershipProject, referred to as the carrier aggregation (CarrierAggregation introduced in " 3GGP " agreement release-10 version, referred to as " CA ") characteristic, it obtains bigger bandwidth by same frequency band, alien frequencies with different member carrier polymerizations, increase user's peak rate exponentially, 40MHz-100MHz bandwidth can be polymerized, it is provided that the 300Mbps-750Mbps peak rate even greater than 1Gbps.

The method for the speech business of user equipment (UE) of the embodiment of the present invention can realize within a processor, for instance, it is possible to realized as wireless communication protocol with combination of hardware by software.

Fig. 3 illustrates the indicative flowchart of the method 300 of the speech business for user equipment (UE) according to embodiments of the present invention.This UE include with corresponding for main carrier PCC first transceiver resources of the first cordless communication network (abbreviation first network) supporting carrier aggregation CA and with auxiliary corresponding for carrier wave SCC second transceiver resources of this first network, this first network can be used the data service carrying out this UE, such as, first network is LTE network.As it is shown on figure 3, the method 300 includes:

S310, obtains the status information of this SCC, and this status information represents whether this SCC is active；

This status information can come from the schedule information that first network issues.Such as UE receives schedule information and obtains the instruction information closed or activate SCC from this schedule information, thus the status information obtaining this SCC is un-activation or activation.Or, UE can decide in its sole discretion close or activate SCC receive user based on user interface (UI) triggering close or activate CA function, with realizes close or activation SCC.The status information of this SCC can be saved in described baseband processor or a memorizer or depositor after SCC is closed or activates.

S320, adopts this second transceiver resources to monitor the second cordless communication network (being called for short the second network) according to this status information, and this second network can be used and carries out this speech business.

Specifically, UE includes two set transceiver resources, the second transceiver resources that first corresponding for the PCC transceiver resources of first network (such as, LTE network) is corresponding with the SCC of first network.UE obtains the status information of SCC, and this status information represents whether SCC is active (or whether being configured), then adopts transceiver resources corresponding for this SCC to monitor the second network (such as, cdma network) according to this status information.UE controls second corresponding for SCC transceiver resources of (or employing) according to the status information of SCC and monitors the second network, to realize the second network standby (or voice calling service).In other words, UE can be connected to the second network by the radio frequency unit (i.e. transceiver resources) being connected with SCC, is used for monitoring the second network, thus the business realized in the second network or function (such as speech business).Meanwhile, UE can utilize the first corresponding for PCC transceiver resources to realize the standby of first network, for instance, in the communication process of cdma network, the first corresponding for PCC transceiver resources still can carry the data service of LTE network.

In embodiments of the present invention, data service typically refers to the up-downgoing function of business datum, is also packet switch (PacketSwitch, referred to as " PS ") territory business.Speech business is usually operator's speech business, such as circuit switching (CircuitSwitch, referred to as " CS ") territory business.

In the embodiment of the present invention, UE monitors the second network and can be understood as UE and be connected to the second network, standby at the second network and process relevant business, such as monitors the beep-page message (paging) of cdma network or carries out voice calling service.The monitoring of first network is similar.Therefore monitor network can include resident on that network with etc. to be received, send or receive and dispatch the signal of this network.

In the embodiment of the present invention, first network can be LTE network.Such as, when not adopting transceiver resources corresponding for LTESCC to monitor cdma network, this transceiver resources is also used as realizing other business, such as realizes the data service etc. of LTE network, this is not construed as limiting.

Should be understood that if UE supports multiple SCC, then base station is when configuration or activation SCC, and UE can adopt the radio frequency unit corresponding for any one SCC in multiple SCC to monitor the second network, and this is not construed as limiting.

Should also be understood that " the second network is for carrying out the speech business of UE " in the embodiment of the present invention, and non-limiting second network is only used for carrying out speech business, the second network can also be used for carrying out other business.

Should also be understood that for convenience, hereafter will with first network for LTE network, the second network is cdma network is that example is described, but the embodiment of the present invention is not constituted and limit.

The method that should also be understood that the speech business for UE of the embodiment of the present invention, it is possible to be applied to various terminal, for instance mobile phone, any one UE under such as Fig. 1 scene, is not construed as limiting this again.

The method of the speech business for UE of the embodiment of the present invention, monitors the second network according to the transceiver resources that the status information of auxiliary carrier wave controls auxiliary carrier wave corresponding, it is no longer necessary to the transceiver resources that the second network is corresponding such that it is able to reduce power consumption.Or owing to lesser amount of transceiver resources can be adopted, it is possible to reduce UE cost.

In embodiments of the present invention, UE can at injection frequency LTE (SingleRadioLTE, referred to as " SRLTE ") switch between pattern and LTE and voice synchronous support (SimultaneousVoiceandLTE, referred to as " SVLTE ") two kinds of mode of operations of pattern.SRLTE pattern be LTE network and cdma network share a set of transceiver resources, LTE business and cdma service can not be concurrent, the namely DSDS business of a quasi-representative；SVLTE pattern is LTE network and cdma network uses a set of transceiver resources, LTE business and the cdma service can be concurrent respectively, the namely DSDA business of a quasi-representative.Both scenes will be described respectively below.

Such as, alternatively, as an embodiment, control this second transceiver resources according to this status information and monitor the second network, including:

When this SCC is active, in Preset Time, controls this second transceiver resources monitor this second network.

In other words, when this SCC is active, timing adopts this second transceiver resources to monitor this second network.

Specifically, during SCC is active or configures, the network that second transceiver resources connects is switched to the second network from first network by UE in Preset Time, namely adopts the second transceiver resources to be connected to the second network, it is achieved standby under the second network.It is to say, UE is by disconnecting the SCC transceiver resources being connected with first network, the transceiver resources of SCC is connected to the second network, thus monitoring the second network.

Such as, when the SCC of LTE is active, UE timing utilizes transceiver resources (such as the second transceiver resources) corresponding for SCC to monitor cdma network.That is, when SCC is active, UE realizes speech business according to SRLTE mode of operation, specifically namely: when two set transceiver resources all work in LTE network in order to realize carrier aggregation, need exchange-column shift to cdma network with the beep-page message monitored under cdma network or the speech business realizing cdma network for the second corresponding for SCC transceiver resources.Now, UE utilizes the first corresponding for main carrier PCC transceiver resources to realize the standby of LTE network, utilizes the second corresponding for SCC transceiver resources to realize the standby of cdma network.When the speech business adopting transceiver resources corresponding for SCC to realize cdma network, transceiver resources corresponding for PCC still can carry LTE data service.Therefore, when supporting carrier aggregation, UE adopts transceiver resources corresponding for SCC to monitor cdma network, it is not necessary to a set of transceiver resources of extra increase processes cdma service, thus reducing cost, reduces power consumption.

Again such as, alternatively, as an embodiment, control this second transceiver resources according to this status information and monitor the second network, including:

When this SCC is in unactivated state, controls described second transceiver resources and monitor this second network in real time.

In other words, when this SCC is in unactivated state, has been used up this second transceiver resources and monitor this second network.Second transceiver resources connects the second network all the time, and namely this second transceiver resources resides at this second network always.

Specifically, in SCC un-activation or when not being configured, second transceiver resources of UE resides at the second network schemer all the time, UE can directly utilize this second transceiver resources and be connected to the second network, carry out the monitoring of the second network, the business of the second network can be realized, switch over without the network that the second transceiver resources is connected.

Such as, when the SCC of LTE network is in the state not activating or not being configured, UE has been used up transceiver resources corresponding for SCC and monitors cdma network.Transceiver resources corresponding for such as SCC is the second transceiver resources.It is to say, when SCC is in unactivated state, UE realizes the speech business of cdma network according to SVLTE mode of operation, specifically namely: the first transceiver resources works under LTE network, the second transceiver resources resides at cdma network all the time.UE has been used up the second transceiver resources and monitors cdma network, for realizing the business (such as speech business) of cdma network, it is no longer necessary to switch to cdma network from LTE network.

Alternatively, above-mentioned first network and the second network are based on the network of different wireless communication agreement.

Based on the specific descriptions of the scheme under above two scene, UE can according to the configuring condition of SCC, and self adaptation carries out the switching between above two scene, it is not necessary to the extra transceiver resources increasing a set of CDMA such that it is able to reduce power consumption.

Therefore, the method of the speech business for user equipment (UE) of the embodiment of the present invention, by obtaining the status information of auxiliary carrier wave, status information according to auxiliary carrier wave adopts the transceiver resources that auxiliary carrier wave is corresponding to monitor the second network, it is no longer necessary to the transceiver resources that the second network is corresponding such that it is able to reduce power consumption.Or owing to lesser amount of transceiver resources can be adopted, it is possible to reduce UE cost.

Alternatively, as an embodiment, in above-mentioned SRLTE pattern, as shown in Figure 4, controlling before this second transceiver resources monitors this second network in Preset Time, the method 300 can also include:

S330, send the space interface signaling monitoring the second network to the base station of this first network, this space interface signaling includes the cycle information monitoring this second network, at least one monitored this second network time length information, monitor this second network initial time information, monitor this second Network termination time information and monitor in the information of this second transceiver resources that this second network adopts.

Specifically, UE can send space interface signaling to the base station of first network, and this space interface signaling can include interval (Gap) information monitoring the second network.Namely UE actively monitors the temporal information (such as time Gap information) of the second network to base station application.Such as, UE, before monitoring cdma network, can send space interface signaling, in advance in order to apply for monitoring the time period (such as, this time period is called SCC_CDMA_GAP) of cdma network to base station.For example, it is possible to base station report monitor this CDMA cycle information, monitor this CDMA time span information, monitor this CDMA initial time information, monitor this CDMA end time information and monitor this CDMA adopt transceiver resources corresponding for SCC information at least one.In other words, this space interface signaling at least may determine that UE monitors the time period of cdma network.When terminal supports multiple auxiliary carrier wave SCC, it is also possible to carry the identification information of this auxiliary carrier wave member of the auxiliary carrier wave SCC to use in this SCC_CDMA_GAP, namely monitor the information of this CDMA transceiver resources corresponding for SCC adopted.Specifically, if UE adopts the radio frequency unit corresponding for any one SCC in multiple SCC to monitor cdma network, the mark of SCC used can be carried in above-mentioned space interface signaling, for instance in SCC_CDMA_GAP, carry this SCC mark.

It should be understood that, the time period information monitoring cdma network that the UE of the embodiment of the present invention is reported by space interface signaling is not limited to foregoing, can also be other information being reasonably conducive to monitoring cdma network, or the relevant information of other networks can also be included, this is not construed as limiting.

Alternatively, as an embodiment, as shown in Figure 4, in S330 situation, in Preset Time, control this second transceiver resources monitor this second network, including:

S321, after the response message receiving this space interface signaling that this base station sends, controls this second transceiver resources in Preset Time and monitors this second network.

Specifically, after UE monitors the temporal information of the second network to base station application, if base station is agreed to, base station can send response message to UE, this response message represents that base station agrees to that UE monitors the second network within the time period of application, and UE carries out the monitoring of the second network according to this response message.Further, base station adopts the second transceiver resources to monitor in the time period of the second network at UE, will not dispatch SCC business.So, by the negotiation mechanism of base station Yu UE, it is possible to improve QoS, for instance avoid the problems such as decoding error.

Such as, UE consults with base station by sending the form of space interface signaling to base station, and signals base monitors the time period of cdma network.After base station is agreed to, base station does not dispatch SCC business within the time period.After obtaining base station agreement, UE disconnects the connection of the second transceiver resources and LTE network within the above-mentioned time period, is switched to by frequency to monitor the beep-page message of this cdma network in cdma network, thus realizing phonetic function.Alternatively, if base station disagrees, UE still can regularly monitor cdma network voluntarily.

In embodiments of the present invention, UE is consulted with base station by space interface signaling.When reaching an agreement, UE monitors the second network in the time period of agreement, and, related service will not be dispatched in this time period in base station, also not statistical channel Quality Feedback.So, it is to avoid matching problem occur in UE and base station.Such as, decoding error, Modulation and Coding Scheme (ModulationandCodingScheme, referred to as " MCS ") fall zero and UE return first network (such as LTE network) MCS afterwards and recover the problem such as slow.Therefore, the embodiment of the present invention adopts the UE mechanism consulted with base station, it is possible to improve QoS.

Therefore, the method of the speech business for UE of the embodiment of the present invention, by obtaining the status information of auxiliary carrier wave, monitors the second network according to the transceiver resources that the status information of auxiliary carrier wave controls auxiliary carrier wave corresponding, it is no longer necessary to the transceiver resources that the second network is corresponding such that it is able to reduce power consumption.Or owing to lesser amount of transceiver resources can be adopted, it is possible to reduce UE cost.Further, the second network is monitored by UE with base station negotiation mechanism, it is possible to improve QoS.

Should be understood that the size of the sequence number of above-mentioned each process is not meant to the priority of execution sequence, the execution sequence of each process should be determined with its function and internal logic, and the implementation process of the embodiment of the present invention should not constituted any restriction.

Alternatively, as an embodiment, the embodiment of the present invention additionally provides a kind of method of speech business for subscriber equipment, and the method includes:

Sending space interface signaling to the base station of first network, this space interface signaling includes the temporal information monitoring the second network, and this first network can be used the data service carrying out this UE；

Monitoring this second network according to this temporal information, this second network can be used and carries out this speech business.

In embodiments of the present invention, UE sends space interface signaling to base station, and namely to base station, actively the temporal information of the second network is monitored in application, for instance this temporal information includes the interval Gap information monitoring the second network, make base station coordinate by space interface signaling and monitor the second network, it is possible to improve QoS.

Specifically, in some scenarios, UE actively can monitor the temporal information (such as Gap information) of the second network to base station application, and do not rely on the status information of the SCC of first network, the second network is monitored according to this temporal information, such as the second network is cdma network, to realize the phonetic function of cdma network.

Here, alternatively, this space interface signaling can also include the application information of other networks, for instance LTE network, to realize the function of other networks, this is not construed as limiting.Such as, this space interface signaling also is used as other network to base site and initiates request, for instance LTE network.

It should be noted that when UE sends space interface signaling to base station, cdma network and LTE network all may know that the existence of this space interface signaling, and UE can also pass through this space interface signaling and send the message of each automatic network to base station, to realize the demand of each automatic network.

Alternatively, as an embodiment, monitor this first network according to this temporal information, including:

Receiving the response message of this base station of this first network, this response message is the confirmation message that this second network is agreed to monitor in this base station；

This second network is monitored according to this response message.

When receiving the response message of base station, reach an agreement in UE and base station, UE monitors the second network according to this response message in the time Gap applied for, such as cdma network, now the corresponding carriers business of the first network of UE is not dispatched in base station in this Gap, also not statistical channel Quality Feedback such that it is able to improve error code, MCS recovers the problem such as slow after Modulation and Coding Scheme MCS falls zero and returns first network.

Alternatively, this temporal information can include the cycle information monitoring this first network, at least one monitored this first network time span information, monitor this first network initial time information, monitor this first network end time information and monitor in the information of this second transceiver resources that this first network adopts, and this is not construed as limiting.

Alternatively, in the implementation that some are possible, the method can also include:

Base station to the second network sends this space interface signaling, and this space interface signaling includes the temporal information monitoring the second network.

Foregoing describe the method 300 of the speech business for subscriber equipment according to embodiments of the present invention, subscriber equipment according to embodiments of the present invention is described below, this subscriber equipment can perform the method 300 of the above-mentioned speech business for subscriber equipment, for sake of simplicity, repeat no more here.

Fig. 5 illustrates the schematic block diagram of subscriber equipment according to embodiments of the present invention, as shown in Figure 5, this user equipment (UE) 500 includes: with corresponding for main carrier PCC first transceiver resources 510 of the first network supporting carrier aggregation CA, with auxiliary corresponding for carrier wave SCC second transceiver resources 520 of this first network and processor 530；

This first transceiver resources 510 is used for monitoring first network, and this first network can be used the data service carrying out this UE；

This processor 530 is used for, obtain the status information of this SCC, this status information represents whether this SCC is active, and controls this second transceiver resources 520 according to this status information and monitors the second network, and this second network can be used the speech business carrying out this UE；

This second transceiver resources 520 for monitoring this second network under the control of this processor 530.

The subscriber equipment of the embodiment of the present invention, monitors the second network according to the transceiver resources that the status information of auxiliary carrier wave controls auxiliary carrier wave corresponding, it is no longer necessary to the transceiver resources that the second network is corresponding such that it is able to reduce power consumption.Or owing to lesser amount of transceiver resources can be adopted, it is possible to reduce UE cost.

Alternatively, as an embodiment, processor 530 specifically for, when this SCC is active, in Preset Time, controls this second transceiver resources 520 monitor this second network.

Alternatively, as an embodiment, this first transceiver resources 510 is additionally operable to, send the space interface signaling monitoring the second network to the base station of this first network, this space interface signaling includes monitoring the cycle information of this second network, monitoring this second network time length information, monitor this second network initial time information, monitor this second Network termination time information or monitor at least one in the information of this second transceiver resources that this second network adopts.

Here, send the space interface signaling monitoring the second network to base station, it is possible to including: if UE is in first network, then the first transceiver resources of first network can be utilized to send space interface signaling；If UE is when just start original state, center frequency point can be adopted to send space interface signaling to base station.UE can adopt rational transceiver resources or frequency to send space interface signaling according to specific circumstances, and this is not construed as limiting.

Alternatively, as an embodiment, this processor 530 specifically for, receive this base station send this space interface signaling response message after, in Preset Time, control this second transceiver resources 520 monitor this second network.

Here, UE consults with base station, and when reaching an agreement, base station is monitored in the time period of CDMA at UE and do not dispatched related service, thus avoiding the UE matching problem occurred with base station, improves QoS.

Therefore, the subscriber equipment of the embodiment of the present invention, by obtaining the status information of auxiliary carrier wave, monitors the second network according to the transceiver resources that the status information of auxiliary carrier wave controls auxiliary carrier wave corresponding, it is no longer necessary to the transceiver resources that the second network is corresponding such that it is able to reduce power consumption.Or owing to lesser amount of transceiver resources can be adopted, it is possible to reduce UE cost.Further, the second network is monitored by UE with base station negotiation mechanism, it is possible to improve QoS.

Alternatively, as an embodiment, this processor 530 specifically for, when this SCC is in unactivated state, controls this second transceiver resources 520 and monitor this second network in real time.

Alternatively, in the embodiment that some are possible, this first network and this second network are based on the network of different wireless communication agreement.

Therefore, the subscriber equipment of the embodiment of the present invention, by obtaining the status information of auxiliary carrier wave, monitors the second network according to the transceiver resources that the status information of auxiliary carrier wave controls auxiliary carrier wave corresponding, it is no longer necessary to the transceiver resources that the second network is corresponding such that it is able to reduce power consumption.Or owing to lesser amount of transceiver resources can be adopted, it is possible to reduce UE cost.

Should be understood that this UE500 can be corresponding with the UE shown in Fig. 2, simply Fig. 2 illustrate only a set of transceiver resources.Such as, the first transceiver resources 510 can be understood as the RFFE part in earlier figures 2 and RFIC part, or can also include antenna；Second transceiver resources 520 is as the same.

Describe UE from the angle of entity apparatus above, describe UE from the angle of functional module below.

Fig. 6 illustrates the device 600 of the speech business for user equipment (UE) according to embodiments of the present invention.This UE include with corresponding for main carrier PCC first transceiver resources of the first network supporting carrier aggregation CA and with auxiliary corresponding for carrier wave SCC second transceiver resources of first network, this first network can be used the data service carrying out this UE, as shown in Figure 6, this device 600 includes:

Acquisition module 610, for obtaining the status information of this SCC, this status information represents whether this SCC is active；

Monitoring module 620, this status information for obtaining according to this acquisition module 610 controls this second transceiver resources and monitors the second network, and this second network can be used and carries out this speech business.

The device of the speech business for UE of the embodiment of the present invention, monitors the second network according to the transceiver resources that the status information of auxiliary carrier wave controls auxiliary carrier wave corresponding, it is no longer necessary to the transceiver resources that the second network is corresponding such that it is able to reduce power consumption.Or owing to lesser amount of transceiver resources can be adopted, it is possible to reduce UE cost.

Alternatively, as an embodiment, this monitoring module 620 specifically for,

When this SCC is active, in Preset Time, controls this second transceiver resources monitor this second network.

Alternatively, as an embodiment, as it is shown in fig. 7, this device 600 can also include:

Sending module 630, for sending the space interface signaling monitoring this second network to the base station of this first network, this space interface signaling is for monitoring this second network to this base station requests, and this space interface signaling includes monitoring the cycle information of this second network, monitoring this second network time length information, monitor this second network initial time information, monitor this second Network termination time information or monitor at least one in the information of this second transceiver resources that this second network adopts.

Alternatively, as an embodiment, this monitoring module 620 specifically for,

After the response message receiving this space interface signaling that this base station sends, in Preset Time, control this second transceiver resources monitor this second network.

Therefore, the device of the speech business for user equipment (UE) of the embodiment of the present invention, by obtaining the status information of auxiliary carrier wave, the transceiver resources that status information according to auxiliary carrier wave controls auxiliary carrier wave corresponding monitors the second network, it is no longer necessary to the transceiver resources that the second network is corresponding such that it is able to reduce power consumption.Or owing to lesser amount of transceiver resources can be adopted, it is possible to reduce UE cost.Further, the second network is monitored by UE with base station negotiation mechanism, it is possible to improve QoS.

Alternatively, as an embodiment, this monitoring module 620 specifically for,

When this SCC is in unactivated state, controls this second transceiver resources and monitor this second network in real time.

Alternatively, in the embodiment that some are possible, this first network and this second network are based on the network of different wireless communication agreement.

Therefore, the device of the speech business for UE of the embodiment of the present invention, by obtaining the status information of auxiliary carrier wave, monitors the second network according to the transceiver resources that the status information of auxiliary carrier wave controls auxiliary carrier wave corresponding, it is no longer necessary to the transceiver resources that the second network is corresponding such that it is able to reduce power consumption.Or owing to lesser amount of transceiver resources can be adopted, it is possible to reduce UE cost.

Fig. 8 illustrates the structure of the user equipment (ue) device that another embodiment of the present invention provides, this user equipment (ue) device can include in the baseband processor that Fig. 2 is corresponding, including at least one processor 802 (such as CPU), at least one network interface 805 or other communication interfaces, memorizer 806, with at least one communication bus 803, for the connection communication realizing between these devices.Processor 802 is for performing the executable module of storage in memorizer 806, for instance computer program.Memorizer 806 is likely to comprise high-speed random access memory (RAM:RandomAccessMemory), it is also possible to also include non-labile memorizer (non-volatilememory), for instance at least one disk memory.The communication connection between at least one other network element is realized by least one network interface 805 (can be wired or wireless).

In some embodiments, memorizer 806 stores program 8061, and processor 802 performs program 8061, for the method performing the speech business for subscriber equipment of aforementioned each embodiment of the present invention.

Should be understood that the terms "and/or", be only a kind of incidence relation describing affiliated partner, can there are three kinds of relations in expression, for instance, A and/or B, it is possible to represent: individualism A, there is A and B, individualism B these three situation simultaneously.It addition, character "/" herein, typically represent forward-backward correlation to as if the relation of a kind of "or".

It should be understood that, in various embodiments of the present invention, the size of the sequence number of above-mentioned each process is not meant to the priority of execution sequence, and the execution sequence of each process should be determined with its function and internal logic, and the implementation process of the embodiment of the present invention should not constituted any restriction.

Those of ordinary skill in the art are it is to be appreciated that the unit of each example that describes in conjunction with the embodiments described herein and algorithm steps, it is possible to being implemented in combination in of electronic hardware or computer software and electronic hardware.These functions perform with hardware or software mode actually, depend on application-specific and the design constraint of technical scheme.Professional and technical personnel specifically can should be used for using different methods to realize described function to each, but this realization is it is not considered that beyond the scope of this invention.

Those skilled in the art is it can be understood that arrive, for convenience and simplicity of description, and the specific works process of the system of foregoing description, device and unit, it is possible to reference to the corresponding process in preceding method embodiment, do not repeat them here.

In several embodiments provided herein, it should be understood that disclosed system, apparatus and method, it is possible to realize by another way.Such as, device embodiment described above is merely schematic, such as, the division of described unit, being only a kind of logic function to divide, actual can have other dividing mode when realizing, for instance multiple unit or assembly can in conjunction with or be desirably integrated into another system, or some features can ignore, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be through INDIRECT COUPLING or the communication connection of some interfaces, device or unit, it is possible to be electrical, machinery or other form.

The described unit illustrated as separating component can be or may not be physically separate, and the parts shown as unit can be or may not be physical location, namely may be located at a place, or can also be distributed on multiple NE.Some or all of unit therein can be selected according to the actual needs to realize the purpose of the present embodiment scheme.

It addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, it is also possible to be that unit is individually physically present, it is also possible to two or more unit are integrated in a unit.

If described function is using the form realization of SFU software functional unit and as independent production marketing or use, it is possible to be stored in a computer read/write memory medium.Based on such understanding, part or the part of this technical scheme that prior art is contributed by technical scheme substantially in other words can embody with the form of software product, this computer software product is stored in a storage medium, including some instructions with so that a computer equipment (can be personal computer, server, or the network equipment etc.) perform all or part of step of method described in each embodiment of the present invention.And aforesaid storage medium includes: USB flash disk, portable hard drive, read only memory (ROM, Read-OnlyMemory), the various media that can store program code such as random access memory (RAM, RandomAccessMemory), magnetic disc or CD.

The above; being only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, any those familiar with the art is in the technical scope that the invention discloses; change can be readily occurred in or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with described scope of the claims.

Claims (12)

1. a user equipment (UE), it is characterised in that including: with corresponding for main carrier PCC first transceiver resources of the first network supporting carrier aggregation CA, with auxiliary corresponding for carrier wave SCC second transceiver resources of described first network and processor；

Described first transceiver resources is used for monitoring described first network, and described first network can be used the data service carrying out described UE；

Described processor is used for, obtain the status information of described SCC, described status information represents whether described SCC is active, and controls described second transceiver resources according to described status information and monitors the second network, and described second network can be used the speech business carrying out described UE；

Described second transceiver resources for monitoring described second network under the control of described processor.

2. UE according to claim 1, it is characterised in that described processor specifically for, when described SCC is active, control in Preset Time described second transceiver resources monitor described second network.

3. UE according to claim 2, it is characterized in that, described first transceiver resources is additionally operable to, send the space interface signaling monitoring described second network to the base station of described first network, described space interface signaling includes the cycle information monitoring described second network, at least one monitored described second network time length information, monitor described second network initial time information, monitor described second Network termination time information and monitor in the information of described second transceiver resources that described second network adopts.

4. UE according to claim 3, it is characterised in that described processor specifically for, receive described base station send described space interface signaling response message after, control in Preset Time described second transceiver resources monitor described second network.

5. UE according to any one of claim 1 to 4, it is characterised in that described processor specifically for, when described SCC is in unactivated state, controls described second transceiver resources and monitor described second network in real time.

6. UE according to any one of claim 1 to 5, it is characterised in that described first network and described second network are based on the network of different wireless communication agreement.

7. the method for the speech business of user equipment (UE), it is characterized in that, described UE include with corresponding for main carrier PCC first transceiver resources of the first network supporting carrier aggregation CA and with auxiliary corresponding for carrier wave SCC second transceiver resources of described first network, described first network can be used the data service carrying out described UE, and described method includes:

Obtaining the status information of described SCC, described status information represents whether described SCC is active；

Controlling described second transceiver resources according to described status information and monitor the second network, described second network can be used and carries out institute's voice traffic.

8. method according to claim 7, it is characterised in that described according to described status information control described second transceiver resources monitor the second network, including:

When described SCC is active, in Preset Time, controls described second transceiver resources monitor described second network.

9. method according to claim 8, it is characterised in that controlling described second transceiver resources in Preset Time monitor before described second network described, described method also includes:

Send the space interface signaling monitoring described second network to the base station of described first network, described space interface signaling includes the cycle information monitoring described second network, at least one monitored described second network time length information, monitor described second network initial time information, monitor described second Network termination time information and monitor in the information of described second transceiver resources that described second network adopts.

10. method according to claim 9, it is characterised in that described control in Preset Time described second transceiver resources monitor described second network, including:

After the response message receiving the described space interface signaling that described base station sends, in Preset Time, control described second transceiver resources monitor described second network.

11. the method according to any one of claim 7 to 10, it is characterised in that described according to described status information control described second transceiver resources monitor the second network, including:

When described SCC is in unactivated state, controls described second transceiver resources and monitor described second network in real time.

12. the method according to any one of claim 7 to 11, it is characterised in that described first network and described second network are based on the network of different wireless communication agreement.