CN103313334A - Wireless communication method and base station controller - Google Patents

Abstract

The invention provides a wireless communication method and a base station controller. The wireless communication method comprises the following steps of receiving a data service request transmitted through a first network by a terminal, wherein a CS (circuit switch) domain and a PS (packet switch) domain of the terminal are attached to the first network; judging whether a data service is required to be switched to a second network or not, wherein the data transmission rate of the second network is higher than that of the first network; and when the data service is required to be switched to the second network, transmitting a switch control instruction to the terminal, and controlling the terminal to switch the PS domain from the first network to the second network. According to the wireless communication method and the base station controller, the voice service call quality can be ensured, and meanwhile, a high-speed data service is supported.

Description

Wireless communications method and base station controller

Technical field

The present invention relates to wireless communication technology field, relate in particular to a kind of wireless communications method and base station controller.

Background technology

Along with development of Communication Technique, 3G(3rd-generation, the 3G (Third Generation) Moblie technology), LTE(Long Term Evolution, Long Term Evolution), WLAN(Wireless Local Area Networks, WLAN (wireless local area network)) etc. high speed transfer of data communication network obtaining more and more widely application.The characteristics of these networks are that data service at a high speed can be provided, and simultaneously, have some also to support CS(Circuit Switch, circuit switching) territory speech business (as 3G network).At present, in mobile communications network, speech business realizes based on circuit-switched technology that generally the software and hardware set that these technology of realization are relevant is called circuit commutative field; Data service is generally based on PS(Packet Switch, packet switching) the technology realization, the software and hardware set that these technology are relevant is called packet-switched domain.

Develop in these high-speed communicating network processes, owing to be subjected to various conditionalities, can not at short notice existing network all be upgraded to new high-speed communicating network, therefore, the high-speed communicating network that these are emerging and existing network will long-term common the existence.In this long-term co-existence stage, high-speed communicating network is because limited coverage area, therefore, many times network communication quality can not satisfy professional requirement, particularly for the relatively more responsive speech business of network communication quality, when network communication quality reduces, various situations such as occur easily that speech quality is poor, broken string, signal are weak, these situations all can be experienced the user cause very big influence.Therefore, the quality that how improves speech business in this stage is the major issue that the communications field need solve.

Be example with the 2G network upgrade to 3G network, the following method of available technology adopting solves the problems referred to above: for current 2G/3G dual-mode terminal, CS territory and PS territory preferentially are attached to 3G network, after the network communication quality of 3G network drops to certain threshold value, CS territory and PS territory all switch to the 2G network, when the network communication quality of 3G network satisfies certain threshold value, 3G network is switched back in CS territory and PS territory again, because the 2G network is the network of a maturation, its voice signal covers and is better than 3G network, therefore when CS territory and PS territory switch to the 2G network, can solve of poor quality or do not have a problem of signal in the 3G network speech business to a certain extent.But in the process of 2G and 3G network selection, because CS territory and PS switch simultaneously, terminal has no idea to call, and simultaneously, switches between 2G and 3G in the communication process, also causes call drop and voice quality to descend easily, and the user who has influenced speech business experiences.

Summary of the invention

In view of this, the invention provides a kind of wireless communications method and base station controller, can when guaranteeing speech business speech quality, support high-speed data service.

For addressing the above problem, the invention provides a kind of wireless communications method, comprising:

Receive CS territory and PS territory and all be attached to the terminal of first network by the data service request of described first network transmission;

Judge whether and described data service need be switched to second network, wherein, the message transmission rate of described second network is greater than the message transmission rate of described first network;

When judging described data service need be switched to described second network time, send the switching controls instruction to described terminal, control described terminal the PS territory is switched to described second network from described first network.

Preferably, the described step that described data service need be switched to second network that judges whether comprises:

Send the control command that reports that is used for the described terminal to report second network of network measurement report of control to described terminal;

The second network of network measurement report according to described terminal to report judges whether and described data service need be switched to second network.

Preferably, the described step that described data service need be switched to second network that judges whether comprises:

The second network of network measurement report of information on load, data traffic attributes and/or described terminal to report according to self judges whether and described data service need be switched to second network.

Preferably, the described step that described data service need be switched to second network that judges whether comprises:

Detect whether the terminal of initiating described data service request is the multimode double-standby terminal;

When the terminal that detects the described data service request of initiation is the multimode double-standby terminal, judges whether and described data service need be switched to second network;

When the terminal that detects the described data service request of initiation is not the multimode double-standby terminal, carry out the processing of data service at described first network.

Preferably, whether be the step of multimode double-standby terminal comprise in described detection if initiating the terminal of described data service request:

Obtain the terminal attribute parameter of described terminal to report;

Whether according to described terminal attribute parameter, detecting described terminal is the multimode double-standby terminal.

The present invention also provides a kind of base station controller, is arranged in first network, comprising:

Receiver module is used for receiving CS territory and PS territory and all is attached to the terminal of first network by the data service request of described first network transmission;

Judge module is used for judging whether and described data service need be switched to second network that wherein, the message transmission rate of described second network is greater than the message transmission rate of described first network;

The switching controls module is used for sending switching controls to described terminal and instructing when judging described data service need be switched to described second network time, controls described terminal the PS territory is switched to described second network from described first network.

Preferably, described judge module comprises:

Report control module, be used for sending the control command that reports that is used for the described terminal to report second network of network measurement report of control to described terminal;

First processing module is used for the second network of network measurement report according to described terminal to report, judges whether and described data service need be switched to second network.

Preferably, described judge module comprises:

Second processing module is used for the second network of network measurement report according to information on load, data traffic attributes and/or the described terminal to report of self, judges whether and described data service need be switched to second network.

Preferably, described judge module comprises:

Whether detection module is the multimode double-standby terminal for detection of the terminal of initiating described data service request;

First Executive Module is used for judging whether and described data service need being switched to second network when the terminal that detects the described data service request of initiation is the multimode double-standby terminal;

Second Executive Module is used for carrying out the processing of data service at described first network when the terminal that detects the described data service request of initiation is not the multimode double-standby terminal.

Preferably, described detection module is further used for obtaining the terminal attribute parameter of described terminal to report, and whether according to described terminal attribute parameter, detecting described terminal is the multimode double-standby terminal.

The present invention has following beneficial effect:

Signal is comparatively stable when being positioned at, the base station controller of first network of wide coverage receives the CS territory and the PS territory all is attached to the data service request that the terminal of first network is initiated, and current satisfying the demand when data service switched to second network that high-speed data service can be provided, control terminal switches to the processing that second network carries out data service with the PS territory from first network, thereby can when guaranteeing speech business speech quality, support high data service.

Description of drawings

Fig. 1 is a flow process schematic diagram of the wireless communications method of the embodiment of the invention;

Fig. 2 is another schematic flow sheet of the wireless communications method of the embodiment of the invention;

Fig. 3 is the another schematic flow sheet of the wireless communications method of the embodiment of the invention;

Fig. 4 is a structural representation of the base station controller of the embodiment of the invention;

Fig. 5 is a flow process schematic diagram again of the wireless communications method of the embodiment of the invention;

Fig. 6 is a structural representation of the terminal of the embodiment of the invention;

Fig. 7 is the schematic flow sheet of the exchange method of the terminal of the embodiment of the invention and base station controller.

Embodiment

Below in conjunction with drawings and Examples, the specific embodiment of the present invention is described in further detail.

Be illustrated in figure 1 as a flow process schematic diagram of the wireless communications method of the embodiment of the invention, this wireless communications method may further comprise the steps:

Step 101 receives CS territory and PS territory and all is attached to the terminal of first network by the data service request of described first network transmission;

Step 102 judges whether and described data service need be switched to second network that wherein, the message transmission rate of described second network is greater than the message transmission rate of described first network; When judging described data service need be switched to described second network time, execution in step 103, otherwise, execution in step 104;

Step 103 sends the switching controls instruction to described terminal, controls described terminal the PS territory is switched to described second network from described first network;

Step 104 is carried out the processing of data service at described first network.

In above-described embodiment, when judging when not needing that data service switched to second network, in the present embodiment, can carry out the processing of data service at first network, perhaps also can not carry out the processing of data service, continue to judge whether data service to be switched to second network, until judge data service need be switched to second network till, then the PS territory is switched to the processing that second network carries out data service from first network.

The method that provides by above-described embodiment, can be comparatively stable at signal, the speech business of the first network processes terminal of wide coverage, thereby can guarantee speech business speech quality, when terminal is initiated the data service request, data service can be switched to second network that high-speed data service can be provided, thereby can support high-speed data service.

Because the network measure of terminal to report report can reflect the second network of network situation, thereby, in the above-mentioned steps 102, can be by send the control command that reports that is used for the described terminal to report second network of network measurement report of control to described terminal; The second network of network measurement report according to described terminal to report judges whether and described data service need be switched to second network.

Concrete, but can represent for the second network time spent at the second network of network measurement report, obtain described data service to be switched to the judged result of second network, when the second network of network measurement report represents that second network is unavailable, do not needed described data service is switched to the judged result of second network.

In the above-mentioned steps 102, when judging whether described data service to be switched to second network, it is also conceivable that the influence of other factors, for example, the influence of a plurality of factors is perhaps taken all factors into consideration in the influence of factors such as the information on load of base station controller self (as bandwidth, QoS etc.), data traffic attributes (as type of service etc.).

That is to say, the step that described data service need be switched to second network that judges whether in the above-mentioned steps 102 can be: the second network of network measurement report of information on load, data traffic attributes and/or described terminal to report according to self judges whether and described data service need be switched to second network.

In the present embodiment, just the PS territory can be switched to second network when having only terminal to be multimode double-standby terminal (can be attached to two kinds of terminals in the network simultaneously), thereby the above-mentioned step that described data service need be switched to second network that judges whether needs to comprise whether the terminal that detects the described data service request of initiation is the step of multimode double-standby terminal before.

Be illustrated in figure 2 as another schematic flow sheet of the wireless communications method of the embodiment of the invention, this wireless communications method may further comprise the steps:

Step 201 receives CS territory and PS territory and all is attached to the terminal of first network by the data service request of described first network transmission;

Step 202 detects whether the terminal of initiating described data service request is the multimode double-standby terminal, when the terminal that detects the described data service request of initiation is the multimode double-standby terminal, and execution in step 203, otherwise, execution in step 205;

Concrete, can be by the terminal attribute parameter (for example Classmark parameter) according to described terminal to report, whether detect described terminal is the multimode double-standby terminal.

Step 203 judges whether and described data service need be switched to second network that wherein, the message transmission rate of described second network is greater than the message transmission rate of described first network; When judging described data service need be switched to described second network time, execution in step 204, otherwise, execution in step 205;

Step 204 sends the switching controls instruction to described terminal, controls described terminal the PS territory is switched to described second network from described first network;

Step 205 is carried out the processing of data service at described first network.

Be that 2G network, described second network are that 3G network is example with described first network in following examples, wireless communications method to the embodiment of the invention describes, but, first network and second network are not limited to this, described first network can also be for being respectively 2G network and 4G network, perhaps, can also be for being respectively 3G network and 3.75G network, and other situations.

Be illustrated in figure 3 as the another schematic flow sheet of the wireless communications method of the embodiment of the invention, this wireless communications method may further comprise the steps:

Step 301 receives CS territory and PS territory and all is attached to the terminal of 2G network by the data service request of described 2G network transmission;

Step 302 detects whether the terminal of initiating described data service request is double-mode and double-standby terminal, when the terminal that detects the described data service request of initiation is double-mode and double-standby terminal, and execution in step 303, otherwise, execution in step 306;

Whether concrete, as can to report by according to described endpoint registration time terminal attribute parameter (for example Classmark parameter), detecting described terminal is double-mode and double-standby terminal.

Step 303 sends the control command that reports that is used for the described terminal to report second network of network measurement report of control to described terminal;

Step 304, the 3G network measurement report of load condition, data traffic attributes and described terminal to report according to self judges whether and described data service need be switched to 3G network; When judging described data service need be switched to described 3G network the time, execution in step 305, otherwise, execution in step 306;

Step 305 sends the switching controls instruction to described terminal, controls described terminal the PS territory is switched to described 3G network from described 2G network;

Step 306 is carried out the processing of data service at described 2G network.

Be to be that double-mode and double-standby terminal is that example describes can initiate the terminal that network switches in above-described embodiment, in addition, described terminal can be the multimode double-standby terminal, for example double-mode and double-standby terminal (can be supported two types network, and can be attached to simultaneously in two kinds of networks), three mould double-standby terminals (can support three types network, and can be attached to simultaneously wherein in two kinds of networks) etc.

The present invention also provides a kind of base station controller, is illustrated in figure 4 as a structural representation of the base station controller of the embodiment of the invention, and this base station controller is arranged in first network, comprising:

Receiver module 401 is used for receiving CS territory and PS territory and all is attached to the terminal of described first network by the data service request of described first network transmission;

Judge module 402 is used for judging whether and described data service need be switched to second network that wherein, the message transmission rate of described second network is greater than the message transmission rate of described first network;

Switching controls module 403 is used for sending switching controls to described terminal and instructing when judging described data service need be switched to described second network time, controls described terminal the PS territory is switched to described second network from described first network.

The base station controller that provides by above-described embodiment, can be comparatively stable at signal, the speech business of the first network processes terminal of wide coverage, thereby can guarantee speech business speech quality, when terminal is initiated the data service request, data service can be switched to second network that high-speed data service can be provided, thereby can support high-speed data service.

Because the network measure of terminal to report report can reflect the second network of network situation, thereby above-mentioned judge module 402 can be by sending the control command that reports that is used for the described terminal to report second network of network measurement report of control to described terminal; The second network of network measurement report according to described terminal to report judges whether and described data service need be switched to second network.

That is to say that described judge module 402 can comprise following functional module:

Report control module, be used for sending the control command that reports that is used for the described terminal to report second network of network measurement report of control to described terminal;

First processing module is used for the second network of network measurement report according to described terminal to report, judges whether and described data service need be switched to second network.

Above-mentioned judge module 402 is when judging whether described data service to be switched to second network, it is also conceivable that the influence of other factors, for example, the influence of a plurality of factors is perhaps taken all factors into consideration in the influence of factors such as the information on load of base station controller self, data traffic attributes.

That is to say that described judge module 402 can also comprise following functional module:

Second processing module is used for the second network of network measurement report according to information on load, data traffic attributes and/or the described terminal to report of self, judges whether and described data service need be switched to second network.

In the present embodiment, just the PS territory can be switched to second network when having only terminal to be the multimode double-standby terminal, thereby, above-mentioned judge module 402 also needed to detect whether the terminal of initiating described data service request is the multimode double-standby terminal before judging whether described data service need to be switched to second network.

That is to say that described judge module 402 can also comprise following functional module:

Whether detection module is the multimode double-standby terminal for detection of the terminal of initiating described data service request;

First Executive Module is used for judging whether and described data service need being switched to second network when the terminal that detects the described data service request of initiation is the multimode double-standby terminal;

Second Executive Module is used for carrying out the processing of data service at described first network when the terminal that detects the described data service request of initiation is not the multimode double-standby terminal.

Described detection module can detect in the following manner whether the terminal of initiating described data service request is double-mode and double-standby terminal:

For instance, when the double-mode and double-standby terminal of the embodiment of the invention is attached to the 2G network, can carry special terminal attribute parameter (as Classmark) and identify itself as a double-mode and double-standby terminal in adhering to message, base station controller judges according to the terminal attribute parameter that terminal sends whether terminal is double-mode and double-standby terminal.In addition, described double-mode and double-standby terminal also can carry special terminal attribute parameter and identify itself as a double-mode and double-standby terminal when send the data service request in the data service request.

In the embodiment of the invention, terminal is after start, if detect the signal of first network and second network, wherein, the message transmission rate of second network is greater than the message transmission rate of described first network, then CS territory and PS territory all are attached to first network, when terminal by the first network initiated data service request and data service need be switched to second network time, the PS territory is switched to the processing that second network carries out data service from first network, thereby can when guaranteeing speech business speech quality, support high data service.

Be that 2G network, described second network are that 3G network is example with described first network in following examples, wireless communications method to the embodiment of the invention describes, but, first network and second network are not limited to this, described first network can also be for being respectively 2G network and 4G network, perhaps, can also be for being respectively 3G network and 3.75G network, other situations.

In addition, terminal in the embodiment of the invention can be the multimode double-standby terminal, for example double-mode and double-standby terminal (can be supported two types network, and can be attached to simultaneously in two kinds of networks), three mould double-standby terminals (can be supported three types network, and can be attached to simultaneously wherein in two kinds of networks) etc., can be that double-mode and double-standby terminal is that example describes with described terminal all in following examples.

Be illustrated in figure 5 as a flow process schematic diagram again of the wireless communications method of the embodiment of the invention, this wireless communications method may further comprise the steps:

Step 501 after the double-mode and double-standby terminal start, all is attached to the 2G network with CS territory and PS territory;

So-called double-mode and double-standby terminal refers to support simultaneously the mobile communication terminal of 2G network and 3G network, the 2G network of indication includes but not limited in the embodiment of the invention: GSM network, CDMA1X network etc., 3G network includes but not limited to: TD-SCDMA network, WCDMA network, CDMA2000 network etc.

Step 502, double-mode and double-standby terminal switch to processing that 3G network carry out data service with the PS territory from the 2G network by 2G network initiated data service request and data service need be switched to 3G network the time.

The described network measure report that whether needs data service to be switched to the 3G network that 3G network can obtain by self by double-mode and double-standby terminal is judged, also the 3G network measurement report that can be reported according to double-mode and double-standby terminal by the base station controller in the 2G network, self traffic load information (as bandwidth, QoS etc.) and/or data traffic attributes (as type of service etc.) judge whether and data service need be switched to 3G network.

When not needing that data service switched to 3G network, in the present embodiment, can carry out the processing of data service at the 2G network, perhaps do not carry out the processing of data service, continue to judge whether and data service need be switched to 3G network, until judge data service need be switched to 3G network till, then the PS territory is switched to the processing that 3G network carries out data service from the 2G network.

The wireless communications method that provides by above-described embodiment, because after start, double-mode and double-standby terminal CS territory and PS territory all are attached to the 2G network, can be in the speech business of 2G network processes, 2G network stabilization and covering are wide, thereby can guarantee the speech quality of speech business, when double-mode and double-standby terminal is initiated the data service request and data service need be switched to 3G network, the PS territory can be switched to the processing that 3G network carries out data service from the 2G network, thereby data service at a high speed can be provided.

When double-mode and double-standby terminal after 3G network is finished data service, can adopt following several processing mode to carry out the switching of network:

First kind of mode:

When data service finished, described double-mode and double-standby terminal can be selected 3G network is continued to reside in the PS territory, when described 3G network is unavailable, again the 2G network was switched back from 3G network in the PS territory.

Under this kind processing mode, the PS territory of double-mode and double-standby terminal needn't be switched back and forth, when treating to carry out data service, can directly initiate data service by 3G network next time.

Whether described 3G network is available can be judged by double-mode and double-standby terminal self, also can be judged by the base station controller in the 2G network.

The second way:

When data service finished, described double-mode and double-standby terminal can directly switch back the 2G network with the PS territory from 3G network.

The third mode:

When data service begins, start a timer, when timer expiry, described double-mode and double-standby terminal switches back the 2G network with the PS territory from 3G network.

Double-mode and double-standby terminal in above-described embodiment can be supported 2G network and 3G network simultaneously, thereby the 3G communication module that need have for the 2G communication module of communicating by letter with the 2G network equipment simultaneously and be used for communicating by letter with the 3G network side apparatus, after the double-mode and double-standby terminal start, 2G communication module and 3G communication module can be opened simultaneously, but, because after the double-mode and double-standby terminal start, be not attached to 3G network, thereby, the unlatching of 3G communication module does not have meaning, and can strengthen the power consumption of double-mode and double-standby terminal.

Thereby, in the embodiment of the invention, after the described double-mode and double-standby terminal start, can only control the 2G communication module and open, finish the operation that CS territory and PS territory are attached to the 2G network, control 3G communication module is closed, to reduce the power consumption of double-mode and double-standby terminal.

In addition, initiate data service when described double-mode and double-standby terminal, the PS territory is switched to 3G network from the 2G network before, described double-mode and double-standby terminal also needs to control described 3G communication module to be opened, to communicate by letter with the 3G network side apparatus.

When data service is finished, after 3G network switched back the 2G network, can also control described 3G communication module again and close by described double-mode and double-standby terminal with the PS territory for described double-mode and double-standby terminal, to reduce the power consumption of double-mode and double-standby terminal.

In above-described embodiment, double-mode and double-standby terminal can only be opened the 2G communication module after start, do not open the 3G communication module, only when initiating data service, opens the 3G communication module, thus the power consumption of the minimizing double-mode and double-standby terminal that can only may lack.

Corresponding to above-mentioned wireless communications method, the embodiment of the invention also provides a kind of double-mode and double-standby terminal, is illustrated in figure 6 as a structural representation of the double-mode and double-standby terminal of the embodiment of the invention, and this double-mode and double-standby terminal comprises:

2G communication module 601 is used for communicating by letter with the 2G network equipment;

3G communication module 602 is used for communicating by letter with the 3G network side apparatus;

Attachable module 603 is used for after start CS territory and PS territory all being attached to the 2G network;

First handover module 604 is used for by 2G network initiated data service request, and data service need be switched to 3G network the time, the PS territory is switched to the processing that 3G network carries out data service from the 2G network.

When double-mode and double-standby terminal after 3G network is finished data service, the PS territory can be continued to reside in 3G network, when 3G network is unavailable, again the 2G network is switched back from 3G network in the PS territory, perhaps, directly the 2G network is switched back from 3G network in the PS territory, or, when data service begins to handle, a timer wherein, when timer expiry, again the 2G network is switched back from 3G network in the PS territory.

Based on above description, the double-mode and double-standby terminal of the embodiment of the invention can also comprise following functional module:

Second handover module is used for when described data service finishes 3G network being continued to reside in the PS territory, when 3G network is unavailable, the 2G network is switched back from 3G network in the PS territory; Perhaps,

The 3rd handover module is used for when described data service end or timer expiry the 2G network being switched back from 3G network in the PS territory, and wherein, described timer is the timer of described data service startup when beginning to handle.

Double-mode and double-standby terminal in above-described embodiment is owing to only be attached to the 2G network after start, do not need to communicate by letter with 3G network, thereby can after start, only control the 2G communication module and open, control 3G communication module is closed, to reduce the power consumption of double-mode and double-standby terminal, when but double-mode and double-standby terminal is initiated data service request and 3G network time spent, open in control 3G communication module, so that the PS territory is switched to 3G network from the 2G network.

In addition, after data service is finished, when the 2G network is switched back from 3G network in the PS territory, can also control described 3G communication module again and close, to reduce the power consumption of double-mode and double-standby terminal.

Based on above description, the double-mode and double-standby terminal of the embodiment of the invention can also comprise following functional module:

First control module is used for after start, only controls described 2G communication module and opens, and controls described 3G communication module and closes;

Second control module is used for by 2G network initiated data service request the time, controls described 3G communication module and opens;

The 3rd control module when being used for that the PS territory switched back the 2G network from 3G network, being controlled described 3G communication module and is closed.

The embodiment of the invention also comprises a kind of wireless communication system, comprising: the double-mode and double-standby terminal in above-described embodiment and base station controller.

Be illustrated in figure 7 as the schematic flow sheet of the exchange method of the terminal of the embodiment of the invention and base station controller, may further comprise the steps:

Step 701 behind the starting up of terminal, all is attached to the 2G network with CS territory and PS territory;

Step 702, terminal is by 2G network initiated data service request;

Step 703, the base station controller of 2G network judge whether the terminal of initiating the data service request is the multimode double-standby terminal;

When step 704, base station controller are judged the terminal of initiating the data service request and be the multimode double-standby terminal, judge whether and data service need be switched to 3G network;

Step 705, base station controller are judged in the time of data service need being switched to 3G network, initiate PS territory switching flow, namely send the switching controls instruction to described double-mode and double-standby terminal, and the PS territory of controlling described double-mode and double-standby terminal switches to 3G network from the 2G network.

The above only is preferred implementation of the present invention; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (10)

1. a wireless communications method is characterized in that, comprising:

Receive CS territory and PS territory and all be attached to the terminal of first network by the data service request of described first network transmission;

Judge whether and described data service need be switched to second network, wherein, the message transmission rate of described second network is greater than the message transmission rate of described first network;

When judging described data service need be switched to described second network time, send the switching controls instruction to described terminal, control described terminal the PS territory is switched to described second network from described first network.

2. wireless communications method as claimed in claim 1 is characterized in that, the described step that described data service need be switched to second network that judges whether comprises:

Send the control command that reports that is used for the described terminal to report second network of network measurement report of control to described terminal;

The second network of network measurement report according to described terminal to report judges whether and described data service need be switched to second network.

3. wireless communications method as claimed in claim 1 is characterized in that, the described step that described data service need be switched to second network that judges whether comprises:

The second network of network measurement report of information on load, data traffic attributes and/or described terminal to report according to self judges whether and described data service need be switched to second network.

4. wireless communications method as claimed in claim 1 is characterized in that, the described step that described data service need be switched to second network that judges whether comprises:

Detect whether the terminal of initiating described data service request is the multimode double-standby terminal;

When the terminal that detects the described data service request of initiation is the multimode double-standby terminal, judges whether and described data service need be switched to second network;

When the terminal that detects the described data service request of initiation is not the multimode double-standby terminal, carry out the processing of data service at described first network.

5. wireless communications method as claimed in claim 4 is characterized in that, whether the terminal that described data service request is initiated in described detection is that the step of multimode double-standby terminal comprises:

Obtain the terminal attribute parameter of described terminal to report;

Whether according to described terminal attribute parameter, detecting described terminal is the multimode double-standby terminal.

6. a base station controller is arranged in first network, it is characterized in that, comprising:

Receiver module is used for receiving CS territory and PS territory and all is attached to the terminal of first network by the data service request of described first network transmission;

Judge module is used for judging whether and described data service need be switched to second network that wherein, the message transmission rate of described second network is greater than the message transmission rate of described first network;

The switching controls module is used for sending switching controls to described terminal and instructing when judging described data service need be switched to described second network time, controls described terminal the PS territory is switched to described second network from described first network.

7. base station controller as claimed in claim 6 is characterized in that, described judge module comprises:

Report control module, be used for sending the control command that reports that is used for the described terminal to report second network of network measurement report of control to described terminal;

First processing module is used for the second network of network measurement report according to described terminal to report, judges whether and described data service need be switched to second network.

8. base station controller as claimed in claim 6 is characterized in that, described judge module comprises:

Second processing module is used for the second network of network measurement report according to information on load, data traffic attributes and/or the described terminal to report of self, judges whether and described data service need be switched to second network.

9. base station controller as claimed in claim 6 is characterized in that, described judge module comprises:

Whether detection module is the multimode double-standby terminal for detection of the terminal of initiating described data service request;

First Executive Module is used for judging whether and described data service need being switched to second network when the terminal that detects the described data service request of initiation is the multimode double-standby terminal;

Second Executive Module is used for carrying out the processing of data service at described first network when the terminal that detects the described data service request of initiation is not the multimode double-standby terminal.

10. base station controller as claimed in claim 9 is characterized in that, described detection module is further used for obtaining the terminal attribute parameter of described terminal to report, and whether according to described terminal attribute parameter, detecting described terminal is the multimode double-standby terminal.

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