CN108029157A - A kind of communication means, terminal and the network equipment - Google Patents

Abstract

A kind of communication means, terminal and the network equipment, terminal sends configured information to the network equipment in the method, the configured information is used to notify the network equipment to dispatch the terminal according to the configured information and send upstream data using the sending mode of configured information instruction, and the sending mode includes stopping sending mode, continuously transmits pattern or by one kind in pattern sending mode；The network equipment is scheduled UE according to the configured information, and scheduling of the terminal based on the network equipment sends upstream data, and then realizes that the UE of single-emission and double-receiving pattern can be applicable in dual link network.

Description

A kind of communication means, terminal and the network equipment

It was submitted this application claims on 04 01st, 2016, application No. is the priority of the patent application of PCT/CN2016/078322, entitled " a kind of communication means, terminal and the network equipment ", entire contents are hereby incorporated by reference in the application.

Technical field

The present invention relates to field of communication technology more particularly to a kind of communication means, terminal and the network equipment.

Background technique

Long term evolution (Long Term Evolution, LTE) is a kind of new generation broadband wireless communication technology of mainstream.Unified packet domain (Packet Switch is used in the network architecture of LTE, PS) framework, no longer support traditional common mobile communcations system (Universal Mobile Telecommunications System, UMTS circuit domain (Circuit Switch, CS) voice solution).To make the performance indicator of the voice service in LTE network reach the level of CS business, mainly there are the voice solution based on circuit domain dropping (Circuit Switched Fallback, CSFB) and the voice solution based on double standby terminal at present.

In voice solution based on CSFB, terminal resides in LTE network, when needing to carry out voice service, land radio access web (the UMTS Terrestrial Radio Access Network of UMTS is switched to from LTE, UTRAN circuit domain) accesses again, and answers voice service by the business start flow of circuit domain.At this time, if UMTS Terrestrial radio access network (the Evolved UMTS Terrestrial Radio Access Network of the evolution in LTE network, E-UTRAN the data service in domain is being grouped in), the data service of the packet domain can also be switched to UTRAN, if UTRAN does not support the data service of the packet domain, the data service of the packet domain will be suspended, and influence the efficiency of transmission of block domain data service.

It in voice solution based on double standby, supports that the terminal of double standby can be standby in LTE network and UMTS network simultaneously, and signal can be received from LTE and UMTS network simultaneously and send signal.The terminal of double standby is supported to can choose the voice service for carrying out circuit domain at UMTS, and LTE network is only used for the data service of packet domain.Such scheme terminal does not need to realize isosystem measurement, and technology realizes letter It is single, but the terminal of double standby is supported to need using two chips or a multimode chip, the cost is relatively high and causes the power consumption of terminal also relatively high.

For save the cost, single-emission and double-receiving chip can be used in terminal, data can be sent in one network in the same time using the terminal of single-emission and double-receiving chip, receive data in two networks in the same time.But currently, single-emission and double-receiving chip can't be applied in dual link network, the dual link network, which refers to, to carry out data service by LTE network and carries out voice service by UMTS network.

Summary of the invention

The embodiment of the present invention provides a kind of communication means, terminal and the network equipment, to apply single-emission and double-receiving chip in dual link network.

First aspect, a kind of communication means is provided, the timing that the network equipment sends data service upstream data to terminal in the lte networks in the communication means is scheduled, and is realized and is sent voice service upstream data in UMTS network in the terminal same time or send data service upstream data in LTE network.This method can be used under type such as and realize: terminal sends instruction information to the network equipment, for the instruction information for notifying sending mode transmission upstream data of the network equipment according to terminal described in the instruction message scheduling using the instruction information instruction, the sending mode includes stopping sending mode, continuously transmitting mode or by one of pattern sending mode.The network equipment receives the instruction information, it is scheduled based on the instruction information, terminal sends upstream data based on the scheduling of the network equipment, realize that the interval of voice service upstream data and data service upstream data is sent, it can realize the upstream data that UMTS network and LTE network are sent using the terminal of single-emission and double-receiving chip, no setting is required multiple chips.

In a kind of possible design, the terminal is if necessary to initiate data service in LTE network, the terminal is used to indicate the terminal to network equipment transmission and initiates data service in LTE network in advance, and the sending mode is to indicate information by the first of pattern sending mode.The network equipment receives the first instruction information, the time of request is established in wireless heterogeneous networks (RRC) connection that the schedulable time for sending random access response (RAR) or dispatch terminal send the data service, and scheduling information is sent to terminal, terminal can be transmitted in data service upstream data and send data service upstream data in time window, wherein, it is the non-transmittable time window of voice service upstream data that time window, which can be transmitted, in data service.

Optionally, before the terminal sends instruction information to the network equipment, if the terminal sends voice service upstream data using the sending mode in addition to by pattern sending mode in a umts network, then the first request message can be transmitted to the network equipment in the terminal, is configured the sending mode of the terminal to by pattern sending mode with request.

In alternatively possible design, the terminal is if necessary to initiate voice service in UMTS network, the terminal is used to indicate the terminal to network equipment transmission and initiates voice service in UMTS network in advance, and the sending mode is the second indication information for stopping sending mode.The network equipment receives the second indication information, is scheduled terminal to provide sufficient ascending resource for terminal and establish voice service RRC connection based on the second indication information.The network equipment can be off scheduling data traffic upstream data to the scheduling of terminal, so that terminal can send the upstream data of voice service using whole ascending resources, establish voice service RRC connection as early as possible.The network equipment is also possible to network equipment instruction terminal to the scheduling of terminal and sends resource transmission data service ascending resource using the vacant uplink in UMTS network.

In another possible design, if the terminal carries out voice service in UMTS network, the terminal is used to indicate the terminal to network equipment transmission and carries out voice service in UMTS network, and the sending mode is to indicate information by the third of pattern sending mode.The network equipment receives the third and indicates information, and dispatch terminal uses and sends data service upstream data by pattern sending mode, realizes that the interval of voice service upstream data and data service upstream data is sent.

In another possible design, the terminal terminates to carry out voice service in UMTS network, the terminal, which is used to indicate the terminal to network equipment transmission, to be terminated to carry out voice service in UMTS network, and the sending mode is the 4th instruction information of the mode that continuously transmits.The network equipment receives the 4th instruction information, and continuously transmits data service upstream data based on the 4th instruction message scheduling terminal, realizes the high efficiency of transmission of data service upstream data.

In another possible design, if the sending mode is by pattern sending mode, then before the terminal sends upstream data based on the scheduling of the network equipment, the terminal sends the second request message to the network equipment, is configured the sending mode of the terminal to by pattern sending mode with request.

Optionally, terminal described in the embodiment of the present invention can receive the sending mode information that the network equipment is sent, and the sending mode information includes the configuration information for configuring the sending mode of the terminal, lead to Cross sending mode used by the sending mode information.For example, it is the configuration information that dedicated channel DCH enhances 10ms uplink sending mode that the sending mode information, which may include for configuring the sending mode of the terminal,.

Second aspect provides a kind of terminal, which has the function of realizing that terminal in above method design, the function can also execute corresponding software realization by hardware realization by hardware.The hardware or software include one or more modules corresponding with above-mentioned function.The module can be software and/or hardware.

In a kind of possible design, the terminal includes transmission unit and receiving unit.Wherein, transmission unit, for sending instruction information to the network equipment, for the instruction information for notifying sending mode transmission upstream data of the network equipment according to terminal described in the instruction message scheduling using the instruction information instruction, the sending mode includes stopping sending mode, continuously transmitting mode or by one of pattern sending mode.Processing unit sends upstream data for the scheduling based on the network equipment.

In alternatively possible design, the terminal includes transmitter and processor.The transmitter is configured as that above-mentioned terminal is supported to send to the network equipment for notifying the network equipment to send upstream data using the sending mode that the instruction information indicates according to terminal described in the instruction message scheduling.The processor is configured to the scheduling based on the network equipment is supported to send upstream data.The terminal can also include memory, and the memory saves the necessary program instruction of terminal and data for coupling with processor.

The third aspect provides a kind of network equipment, which has the function of realizing the network equipment in above method design, and the function can also execute corresponding software realization by hardware realization by hardware.The hardware or software include one or more modules corresponding with above-mentioned function.The module can be software and/or hardware.

In a kind of possible design, the network equipment includes receiving unit, processing unit and transmission unit.Wherein, receiving unit, for receiving the instruction information of terminal.Processing unit, for sending upstream data using the sending mode of the instruction information instruction based on terminal described in the received instruction message scheduling of the receiving unit, the sending mode includes stopping sending mode, continuously transmitting mode or by one of pattern sending mode.

Optionally, the terminal may also include transmission unit, single for sending the processing to the terminal The scheduling information of member.

In alternatively possible design, the network equipment includes processor and communication unit, the processor is configured to the network equipment is supported to execute corresponding function in the above method.Stop sending mode the processor is configured to being used according to the instruction message scheduling terminal that terminal is sent, continuously transmit mode or send data service upstream data by one of pattern sending mode.The communication unit is configured as supporting the communication between terminal.The network equipment can also include memory, and the memory saves the necessary program instruction of the network equipment and data for coupling with processor.

The network equipment described in the embodiment of the present invention can be in LTE network wireless access network to provide the device of wireless communication function, such as the node B (evolved NodeB, referred to as: eNB or eNodeB) of evolution for terminal.

Fourth aspect, the embodiment of the invention provides a kind of computer storage mediums, and for being stored as computer software instructions used in above-mentioned terminal, it includes for executing program involved in above-mentioned aspect terminal.

5th aspect, the embodiment of the invention provides a kind of computer storage mediums, and for being stored as computer software instructions used in the above-mentioned network equipment, it includes for executing program involved in the above-mentioned aspect network equipment.

Communication means, terminal and the network equipment provided in an embodiment of the present invention, it is scheduled by the transmission timing to data service upstream data, realize that the interval of voice service upstream data and data service upstream data is sent, it can realize the upstream data that UMTS network and LTE network are sent using the terminal of single-emission and double-receiving chip, no setting is required multiple chips.

Detailed description of the invention

Fig. 1 is the communication construction of communication means provided in an embodiment of the present invention application；

Fig. 2 is the implementation flow chart that UE provided in an embodiment of the present invention has carried out that data service is initiated in voice service in the lte networks in advance in a umts network；

Fig. 3 is the schematic diagram provided in an embodiment of the present invention that voice service upstream data is sent by pattern；

Fig. 4 is the schematic diagram provided in an embodiment of the present invention that voice service upstream data and data service upstream data are sent by pattern；

Fig. 5 is the implementation flow chart that UE provided in an embodiment of the present invention has carried out that voice service is initiated in data service in UMTS network in advance in the lte networks；

Fig. 6 is that UE provided in an embodiment of the present invention has carried out data service in the lte networks and carried out the implementation flow chart of voice service in UMTS network；

Fig. 7 is that UE provided in an embodiment of the present invention has carried out data service in the lte networks and terminated the implementation flow chart of voice service in UMTS network；

Fig. 8 is another implementation flow chart that UE provided in an embodiment of the present invention has carried out that data service is initiated in voice service in the lte networks in advance in a umts network；

Fig. 9 is another implementation flow chart that UE provided in an embodiment of the present invention has carried out that voice service is initiated in data service in UMTS network in advance in the lte networks；

Figure 10 is a kind of structural schematic diagram of terminal provided in an embodiment of the present invention；

Figure 11 is another structural schematic diagram of terminal provided in an embodiment of the present invention；

Figure 12 is a kind of structural schematic diagram of the network equipment provided in an embodiment of the present invention；

Figure 13 is another structural schematic diagram of the network equipment provided in an embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention is described in detail.

With the development of communication technology, communication system has been evolved to communication construction as shown in Figure 1.As shown in Figure 1, in the communication system, terminal passes through land radio access web (UMTS Terrestrial Radio Access Network, UTRAN) with UMTS network in mobile services switching centre (Mobile Service Switch Center, MSC it) is communicated, UMTS Terrestrial radio access network (the Evolved UMTS Terrestrial Radio Access Network that terminal passes through evolution, E-UTRAN) with LTE network in mobility management entity (Mobility Management Entity, ) and gateway (Serv MME Ing Gateway, S-GW) it is communicated.It is configured with SGs interface between the MME in MSC and LTE network in UMTS network, it is continuous that voice service of the terminal between UMTS network and LTE network can be realized by the SGs interface.

It should be noted that, terminal involved by the embodiment of the present invention may include the various handheld devices with wireless communication function, mobile unit, wearable device, calculate equipment or be connected to other processing equipments of radio modem, and various forms of user equipment (User Equipment, UE), mobile station (Mobile station, MS), terminal device (Terminal Equipment) etc..Below the embodiment of the present invention for convenience of description, it is illustrated by taking UE as an example.

At present, LTE network can provide higher data traffic transmission efficiency for UE, but the performance indicator of the voice service in LTE network also a bit deficient in, therefore the speech service quality to guarantee UE in access LTE network, the voice service for the UE being linked into LTE network can be switched in UMTS network by the SGs interface, voice service is carried out by UMTS network.

It is the efficiency of transmission of the data service of guarantee UE in the embodiment of the present invention, when the voice service of UE can be switched to UMTS network, keeps the service condition of UE in the lte networks, when UE needs to carry out data service, carries out data service yet by LTE network.

A kind of communication means carrying out data service by LTE network and voice service is carried out by UMTS network is provided in the embodiment of the present invention, the timing that the network equipment sends data service upstream data to UE in the lte networks in the communication means is scheduled, and is realized and is sent voice service upstream data in UMTS network in the UE same time or send data service upstream data in LTE network.UE is that have to receive the downlink data of two heterogeneous networks in the same time at present, i.e., receives voice service downlink data in UMTS network and receive the downlink data of data service in LTE network.Therefore communication means provided in an embodiment of the present invention is combined, it can be realized a kind of communication means of single-emission and double-receiving mode, i.e. single-emission and double-receiving chip can be used in UE, no setting is required multiple chips, can reduce the power consumption of UE.

UE sends instruction information to the network equipment in the embodiment of the present invention, for the instruction information for notifying sending mode transmission upstream data of the network equipment according to UE described in the instruction message scheduling using the instruction information instruction, the sending mode includes stopping sending mode, continuously transmitting mode or by one of pattern sending mode.The network equipment is based on the instruction information and is scheduled, and UE sends upstream data based on the scheduling of the network equipment.

Specifically, the network equipment is scheduled based on the instruction information, can be realized using the following two kinds mode:

Sending mode information is sent to UE according to the instruction information by mode one, the network equipment, to indicate that UE sends upstream data using the sending mode that above-mentioned sending mode information is configured.

Optionally, sending mode information includes the configuration information of sending mode.

Such as, in a umts network, if indicating, the sending mode of information instruction is by pattern sending mode, it is dedicated channel (Dedicated Channel that then sending mode information, which may include for configuring the sending mode of UE, DCH) the configuration information of the uplink sending mode of the 10ms only of enhancement mode, to realize that UE sends upstream data using by pattern sending mode in a umts network.

Such as, in the lte networks, if indicating, the sending mode of information instruction is by pattern sending mode, it is discontinuous reception (Discontinuous Reception that then sending mode information, which may include for configuring the sending mode of UE, DRX) the configuration information of mode, to realize that UE sends upstream data using by pattern sending mode in the lte networks.Optionally, above-mentioned sending mode information can also include: channel state information (Channel State Information, CSI), scheduling request (Scheduling Request, SR), the detection configuration informations such as the sending cycle of reference signal (Sounding Reference Signal, SRS).

Optionally, above-mentioned sending mode information may also include mode activation instruction, and mode activation instruction is used to indicate starting sending mode.It should be noted that above-mentioned configuration information relevant to sending mode can be sent to UE in advance when in sending mode information including mode activation instruction.For example, when UE indicates to stop sending mode UE will can be sent in advance by the configuration parameter of pattern sending mode.In such cases, if UE instruction is using upstream data is sent by pattern sending mode, the network equipment sends activation and is indicated to UE, to indicate that UE starting sends upstream data by pattern sending mode.

Mode two, the network equipment send uplink authorization (UL grant) to UE according to the sending mode of the instruction information instruction, send upstream data to dispatch UE.

It will be illustrated respectively for the various sending modes of instruction information instruction below the embodiment of the present invention.

Fig. 2 show UE provided in an embodiment of the present invention and has carried out the implementation flow chart that data service is initiated in voice service in the lte networks in advance in a umts network.

S101:UE, which is switched in UMTS network, carries out voice service.

The UE accessed in LTE network in the embodiment of the present invention receives the hair of the MSC in UMTS network In the case where the voice service page message sent, the process that UE voice service is switched to UMTS network in such as CSFB implementation process can be used, details are not described herein.

When UE carries out voice service by UMTS network in the embodiment of the present invention, DCH enhancing technology can be used, voice service upstream data is sent by pattern sending mode, it is described refer to by pattern sending mode send upstream data in the transmittable time window of transmission timing, such as shown in Fig. 3, wherein 10ms is that time window can be transmitted in the upstream data of voice service in the subframe of 20ms in transmission timing, the subframe of another 10ms is the non-transmittable time window of upstream data of voice service, that is the upstream data that voice service is sent in time window 10ms can be transmitted in the upstream data of voice service by UE.

S102:UE receives the data service paging message that MME is sent in LTE network.UE of the embodiment of the present invention receives the data service paging message that MME is sent in LTE network, shows that the UE initiates data service in the lte networks in advance.

S103:UE sends the first instruction information to the network equipment, which is used to indicate the network equipment and uses by pattern sending mode transmission data service upstream data.

The network equipment can be base station, which can be the node B (evolved NodeB, referred to as: eNB or eNodeB) of evolution.

Specifically, the first instruction information can pass through arbitrary access front signal (Random Access Preamble, RAP it) sends, the network equipment being made to get by the instruction information, UE is currently employed to send voice service upstream data by pattern sending mode, and UE sends the specific transmission pattern (time window can be transmitted in voice service upstream data) of voice service upstream data, and then can determine that UE sends the transmission pattern of data service upstream data.

The configurable targeting signal (Preamble) for being exclusively used in instruction and sending pattern of the network equipment in the embodiment of the present invention, the Preamble for being used to indicate transmission pattern can indicate to send the specific subframe of upstream data, such as indicate that UE sends voice service upstream data in subframe 1 by preamble 1.The Preamble for being used to indicate transmission pattern can also indicate that the subframe range for sending upstream data.Such as indicate that UE sends voice service upstream data in subframe 1 to subframe 3 by preamble 1.

Optionally, UE can send the first instruction information to the network equipment, to determine that UE needs in the network equipment when establishing voice service radio bearer (Radio Bear, RB) in the embodiment of the present invention When initiating data service in LTE network, the scheduling of data service transmission timing is carried out in time.

Wherein, S102 and S103 execution sequence in no particular order.

Optionally, if the UE sends voice service upstream data using the sending mode in addition to by pattern sending mode in a umts network in the embodiment of the present invention, then before S103, the first request message can be transmitted to the network equipment in the UE, and first request message is for requesting the sending mode by the UE to be configured to by pattern sending mode.

Specifically, the UE can be by the inclusion of the configuration information of sending mode, determining that UE sends sending mode used by voice service upstream data in a umts network is other sending modes by pattern sending mode, or in addition to by pattern sending mode.

In the embodiment of the present invention, the UE can pass through such as RRC connection setup complete message, request message is established in RRC connection, or one of message such as reconfiguration information, first request message is sent to the network equipment, to request the sending mode that UE is sent to voice service upstream data to be in a umts network configured to by pattern sending mode.

Optionally, the network equipment described in the embodiment of the present invention can be radio network controller (Radio Network Controller, RNC), the first request message can be transmitted to RNC in the UE, and the sending mode that UE is sent voice service upstream data by request RNC in a umts network is configured to the uplink transmission mode of the 10ms only in DCH enhancing characteristic.

S104: the network equipment indicates that information is scheduled UE according to first.

The network equipment indicates that the UE of information instruction sends the transmission pattern of voice service upstream data according to first in the embodiment of the present invention, the UE timing for sending data service upstream data can be scheduled, UE can be transmitted in data service upstream data and send data service upstream data in time window, wherein, it is the non-transmittable time window of voice service upstream data that time window, which can be transmitted, in data service.

In a kind of possible implementation, the network equipment can directly dispatch UE and send the time that request is established in RRC connection in the embodiment of the present invention, the scheduling information for sending the time location information that request is established in data service RRC connection including UE is sent to UE, to guarantee that transmission data service upstream data in time window can be transmitted in data service upstream data in UE.

In alternatively possible implementation, the network equipment can send random access response for the network equipment (Random Access Response, RAR the time) is scheduled, the scheduling information for the time location information that RAR can be received including UE is sent to UE, guaranteeing that UE establishes request message according to existing sequential relationship (such as receiving the after RAR the 6th subframe) RRC connection is the subframe in the transmittable time window of data service upstream data, and data service upstream data is sent in time window to realize that UE can be transmitted in data service upstream data.

Scheduling of the S105:UE based on the network equipment sends upstream data using by pattern sending mode, establishes data service RRC connection, carry out data service.

The schematic diagram that UE sends upstream data by pattern sending mode in the embodiment of the present invention is as shown in Figure 4, in Fig. 4, the non-transmittable time window of time window corresponding data business can be transmitted in voice service upstream data, and the non-transmittable time window of data service, which corresponds to voice service upstream data, can be transmitted time window.UE can be transmitted in voice service upstream data and send voice service upstream data in time window, can be transmitted in data service upstream data and sends data service upstream data in time window.

Communication means provided in an embodiment of the present invention, on the basis of the UE of access LTE network carries out voice service in being switched to UMTS network, if initiating data service in the lte networks, then UE sends UE in a umts network using by the first instruction information for specifically sending pattern used by pattern sending mode transmission voice service upstream data and UE transmission voice service upstream data to the network equipment, so that using the network equipment that can use the non-sent time window of voice service as the transmission of the transmittable time window progress data service of data service according to first instruction message scheduling UE, realize that the interval of voice service upstream data and data service upstream data is sent, realize that the same time sends the upstream data in a network, save the power consumption of UE.

Fig. 5 show UE provided in an embodiment of the present invention and has carried out the implementation flow chart that voice service is initiated in data service in UMTS network in advance in the lte networks, as shown in Figure 5, comprising:

S201:UE carries out data service in the lte networks.

S202:UE receives the voice service page message that the MSC in UMTS network is sent.

UE receives the voice service page message of the transmission of the MSC in UMTS network in the embodiment of the present invention, shows that the UE initiates voice service in UMTS network in advance.

S203:UE sends second indication information to the network equipment, and the second indication information is used to indicate institute It states the network equipment and dispatches the UE using the upstream data for stopping sending mode transmission data service according to the second indication information.

Wherein, the network equipment can be base station, which can be eNB.

In the embodiment of the present invention, the second indication information can be sent by RRC information.The second indication information may be used to the network equipment and get the temporal information that UE begins setting up voice service RRC connection, and then network equipment scheduling UE may make to send data service upstream data timing, when UE establishes voice service RRC connection, to there is sufficient ascending resource.

S204: the network equipment is based on the second indication information and is scheduled to UE.

Sufficient ascending resource can be provided for UE for realization in the embodiment of the present invention establishes voice service RRC connection, in a kind of possible implementation, the network equipment can stop scheduling data traffic upstream data, so that UE is not in the case where setting timing receives the network equipment scheduling data traffic upstream data, determine that the network equipment has stopped scheduling data traffic upstream data, the upstream data that voice service is sent using whole ascending resources, establishes voice service RRC connection as early as possible.In alternatively possible implementation, the network equipment indicates that UE sends resource using the vacant uplink in UMTS network and sends data service ascending resource.

S205:UE sends upstream data based on the scheduling of the network equipment, and establishes voice service RRC connection.

The above-mentioned UE of the embodiment of the present invention has carried out data service in the lte networks and has needed in the case where UMTS network initiates voice service, the scheduling mode for sending data service using sending mode is such as stopped can provide sufficient ascending resource creation voice service RRC connection for UE.

It should be noted that Fig. 2 and method flow shown in fig. 5 are illustrated so that UE is exhaled process as an example in the embodiment of the present invention, it is similar for the implementation process of UE caller, the difference is that without receiving paging message, therefore details are not described herein.

Fig. 6 show UE provided in an embodiment of the present invention and has carried out data service in the lte networks and carried out the implementation flow chart of voice service in UMTS network, as shown in Figure 6, comprising:

S301:UE carries out data service in the lte networks.

S302:UE carries out voice service in a umts network, sends language using by pattern sending mode Sound business upstream data sends voice service upstream data for example, by using the uplink sending mode based on the 10ms only in DCH enhancing characteristic.

S303:UE sends third to the network equipment and indicates that information, the third instruction information are used to indicate the network equipment and send data service upstream data by pattern sending mode.

For example, UE, which can send the third to the network equipment by RRC information, indicates information, wherein the network equipment can be base station, which can be eNB.

After UE establishes voice service radio bearer RB in the embodiment of the present invention, voice service can be carried out in a umts network.When UE carries out voice service in a umts network, the upstream data that voice service is sent by pattern sending mode can be used, the UE can be sent to the network equipment at this time is used to indicate the third instruction information that the network equipment is sent data service upstream data by pattern sending mode, so that the network equipment, which can dispatch UE, sends data service upstream data by pattern sending mode.

Optionally, UE can start to enhance characteristic using DCH in radio bearer establishment process to the network device requests of UMTS, after the completion of the connection of RRC in this way, UE can be used in UMTS and send upstream data in the way of pattern, the UE can be sent to the network equipment at this time is used to indicate the third instruction information that the network equipment is sent data service upstream data by pattern sending mode, so that the network equipment, which can dispatch UE, sends data service upstream data by pattern sending mode.

S304: the network equipment is based on third instruction information and is scheduled to UE.

S305:UE sends upstream data based on the scheduling of the network equipment.

UE carries out data service in the lte networks in the embodiment of the present invention, and in a umts network in the case where progress voice service, the network equipment is dispatched UE and is used by pattern sending mode transmission voice service upstream data and data service upstream data, it realizes that the interval of voice service upstream data and data service upstream data is sent, that is, realizes and send the upstream data in two networks in the same time using the UE of single-emission and double-receiving chip.

When specific implementation, when network equipment scheduling UE is used and is sent upstream data by pattern sending mode, if the UE sends voice service upstream data using the sending mode in addition to by pattern sending mode in a umts network, then UE needs to stop the transmission of the data in LTE network, after voice service, then data service is established in the lte networks；Or UE request switches the data service of LTE To UMTS network.Therefore, in the embodiment of the present invention when network equipment scheduling UE is used and sent upstream data by pattern sending mode, before UE sends upstream data based on the scheduling of the network equipment, the UE sends the second request message to the network equipment, it configures the sending mode of the UE to request to realize the transmitted in parallel of voice service upstream data and data service upstream data by pattern sending mode.

Optionally, in the embodiment of the present invention, if in UMTS network the network equipment (such as, NodeB) with LTE network in the network equipment (such as, eNB) co-sited, then UMTS network and LTE network can complete the sending mode information sharing (including specifically sending pattern) in two networks by sharing mode, coordinate uplink transmission in two networks without UE, Lai Shixian uplink sends shared concurrent to achieve the purpose that.

Fig. 7 show UE provided in an embodiment of the present invention and has carried out data service in the lte networks and terminated the implementation flow chart of voice service in UMTS network, as shown in fig. 7, comprises:

S401:UE carries out data service in the lte networks.

S402:UE terminates to carry out voice service in a umts network.

S403:UE sends the 4th instruction information to the network equipment, and the 4th instruction information is used to indicate the network equipment and sends data service upstream data using the mode that continuously transmits.

The network equipment can be base station, which can be eNB.

The 4th instruction information can be sent in the embodiment of the present invention by RRC information.The 4th instruction information, which is used to indicate UE described in the network equipment, to be terminated to carry out voice service in a umts network, voice service RRC Connection Release i.e. in UMTS network, the upstream data of voice service no longer occupies ascending resource, therefore UE can send data service upstream data using whole ascending resources.

S404: the network equipment is based on the 4th instruction information and is scheduled to UE, which can be the instruction UE and send data service upstream data using the mode that continuously transmits.

Scheduling of the S405:UE based on the network equipment, continuously transmits data service upstream data.

UE carries out data service in the lte networks in the embodiment of the present invention, and terminate in the case where carrying out voice service in a umts network, network equipment scheduling UE sends data service upstream data using the mode that continuously transmits, and realizes the high efficiency of transmission of data service upstream data.

It is understood that upstream data involved in the embodiment of the present invention includes the uplink feedback that uplink business data also includes downlink data.

In the embodiment of the present invention, before UE sends instruction information to the network equipment, it can request pause voice service, to save ascending resource, UE is enabled to establish voice service or data service using more ascending resources.

Fig. 8 show UE in the embodiment of the present invention and has carried out another implementation flow chart that data service is initiated in voice service in the lte networks in advance in a umts network.In fig. 8, for the convenience of description, being RNC with the network equipment in UMTS network, the network equipment in LTE network describes for being eNB, not limits.

S501 and S502 is identical as S101 in Fig. 2 and S102 respectively in Fig. 8, and details are not described herein, is only illustrated below with regard to difference.

S503:UE sends third request message to RNC, and the third request message is for requesting RNC to suspend (suspend) voice service.

In the embodiment of the present invention, when UE carries out uplink business data transmission using single-emission and double-receiving mode, if UE requests RNC to suspend voice service, the ascending resource for sending upstream data in a umts network can then be saved, saved ascending resource, it can be used for the transmission of upstream data in LTE network, therefore UE is aloowed to complete random access channel (Random Access Channel in the lte networks using more ascending resources, RACH access), and complete data service wireless heterogeneous networks (Radio Resource Control, RRC) connection.

S504:RNC suspends the voice service of UE according to the third request message.

S505:UE establishes data service RRC connection in the lte networks, carries out data service.

Specifically, UE can send instruction information to eNB during UE carries out data service, instruction eNB scheduling UE, which is used, sends data service upstream data by pattern sending mode.ENB dispatches UE and uses by pattern sending mode transmission data service upstream data.In the embodiment of the present invention, eNB scheduling UE uses the specific implementation process for sending data service upstream data by pattern sending mode to see above-described embodiment associated description, and details are not described herein.

S506:UE sends the 4th request message to RNC, and the 4th request message restores for requesting Voice service.

4th request message described in the embodiment of the present invention, which can carry, is used to indicate RNC scheduling UE using the instruction information for sending voice service upstream data by pattern sending mode.UE can be according to the transmittable time window for sending data service upstream data in the lte networks in the embodiment of the present invention, determine that the transmittable time window for sending voice service upstream data in a umts network, UE send the non-transmittable time window that the transmittable time window of voice service upstream data sends data service upstream data for UE in the lte networks in a umts network.The UE sends the request message of the transmittable time window for sending voice service upstream data in a umts network comprising the determination to RNC, request sends voice service upstream data using by pattern sending mode, and according to corresponding the transmissions pattern transmission voice service upstream data of the transmittable time window.RNC, which dispatches UE and uses, sends voice service upstream data by pattern sending mode, and dispatches UE according to corresponding the transmissions pattern transmission voice service upstream data of the transmittable time window.In the embodiment of the present invention, RNC scheduling UE uses the specific implementation process for sending voice service upstream data by pattern sending mode to see above-described embodiment associated description, and details are not described herein.

S507:UE sends voice service upstream data in a umts network, and sends data service upstream data in the lte networks, realizes the transmitted in parallel of voice service upstream data and data service upstream data.

In the embodiment of the present invention, UE has carried out voice service in a umts network and has initiated in data service application scenarios in the lte networks in advance, before UE sends instruction information to the network equipment, request pause voice service, ascending resource can be saved, enable UE to complete the access of RACH in LTE using more ascending resources, and completes RRC connection.

Fig. 9 is shown in the embodiment of the present invention, and UE has carried out another implementation flow chart that voice service is initiated in data service in UMTS network in advance in the lte networks.In Fig. 9, for the convenience of description, being RNC with the network equipment in UMTS network, the network equipment in LTE network describes for being eNB, not limits.

In Fig. 9, S601 and S602 is identical with S201 in Fig. 5 and S202 respectively, and details are not described herein, is only illustrated below with regard to difference.

S603:UE sends the 5th request message to eNB, and the 5th request message is for requesting eNB Pause carries out data service.

In the embodiment of the present invention, when UE carries out uplink business data transmission using single-emission and double-receiving mode, if UE requests eNB to suspend data service, the ascending resource for sending upstream data in the lte networks can then be saved, saved ascending resource, it can be used for the transmission of upstream data in UMTS network, therefore UE aloowed to send the upstream data of voice service using more ascending resources, establish voice service RRC connection as early as possible.

S604:eNB suspends the data service of UE according to the 5th request message.

In the embodiment of the present invention after the data service of eNB pause UE, the configuration information for sending the sending time window of data service upstream data in the lte networks comprising UE can be sent to UE, so that UE can send in a umts network voice service upstream data using the non-transmittable time window for sending data service upstream data in LTE network.

S605:UE establishes voice service RRC connection in a umts network, carries out voice service.

Specifically, UE can send instruction information to RNC during UE carries out voice service, instruction RNC scheduling UE, which is used, sends voice service upstream data by pattern sending mode.

UE can be according to the transmittable time window for sending data service upstream data in the lte networks in the embodiment of the present invention, determine that the transmittable time window for sending voice service upstream data in a umts network, UE send the non-transmittable time window that the transmittable time window of voice service upstream data sends data service upstream data for UE in the lte networks in a umts network.The UE sends the request message of the transmittable time window for sending voice service upstream data in a umts network comprising the determination to RNC, request sends voice service upstream data using by pattern sending mode, and according to corresponding the transmissions pattern transmission voice service upstream data of the transmittable time window.RNC, which dispatches UE and uses, sends voice service upstream data by pattern sending mode, and dispatches UE according to corresponding the transmissions pattern transmission voice service upstream data of the transmittable time window.In the embodiment of the present invention, RNC scheduling UE uses the specific implementation process for sending voice service upstream data by pattern sending mode to see above-described embodiment associated description, and details are not described herein.

S606:UE sends the 6th request message to eNB, and the 6th request message restores data service for requesting.

6th request message described in the embodiment of the present invention, which can carry, is used to indicate eNB scheduling UE using the instruction information for sending data service upstream data by pattern sending mode.ENB dispatches UE and uses by pattern sending mode transmission data service upstream data in the embodiment of the present invention, and dispatches sending time window used in the data service upstream data for including in the configuration information that UE is sent using eNB in S604 to UE and send data service upstream data.In the embodiment of the present invention, eNB scheduling UE uses the specific implementation process for sending data service upstream data by pattern sending mode to see above-described embodiment associated description, and details are not described herein.

S607:UE sends voice service upstream data in a umts network, and sends data service upstream data in the lte networks, realizes the transmitted in parallel of voice service upstream data and data service upstream data.

In the embodiment of the present invention, UE in the lte networks carry out data service in advance UMTS network initiate voice service application scenarios in, before UE sends instruction information to the network equipment, request pause data service, ascending resource can be saved, enable UE to complete the access of RACH in a umts network using more ascending resources, and completes RRC connection.

It should be noted that, term " first " involved in the specification and claims and attached drawing of the embodiment of the present invention, " second " etc. are to be used to distinguish similar objects, without being used to describe a particular order or precedence order, such as above-mentioned the first instruction information being related in the embodiment of the present invention, second indication information, third instruction information and the 4th instruction information are only for facilitating description and distinguish different instruction information, do not constitute the restriction to instruction information.It should be understood that the data used in this way are interchangeable under appropriate circumstances, so that the embodiment of the present invention described herein can be performed in other sequences than those illustrated or described herein.

Explanation is needed further exist for, the network equipment involved by the embodiment of the present invention is a kind of is deployed in LTE network wireless access network to provide the device of wireless communication function for UE.The network equipment can be base station (base station, BS), which may include various forms of macro base stations, micro-base station, relay station, access point etc..In the system using different wireless access technologys, the title for having the network equipment of base station functions may be different, such as in the lte networks, referred to as node B (the evolved NodeB of evolution, referred to as: eNB or eNodeB), it in third generation 3G network, referred to as saves Point B (Node B) etc..

The communication means provided based on the above embodiment, the embodiment of the present invention also provide a kind of terminal 100.Figure 10 is a kind of structural schematic diagram of terminal 100 provided in an embodiment of the present invention.As shown in Figure 10, terminal 100 includes transmission unit 101 and processing unit 102.

Transmission unit 101, for sending instruction information to the network equipment, for the instruction information for notifying sending mode transmission upstream data of the network equipment according to terminal described in the instruction message scheduling using the instruction information instruction, the sending mode includes stopping sending mode, continuously transmitting mode or by one of pattern sending mode.

Processing unit 102 sends upstream data for the scheduling based on the network equipment.

Optionally, for the terminal 100 if necessary to initiate data service in LTE network, the sending mode is by pattern sending mode.The processing unit 102 receives the scheduling information that the network equipment is sent, and sends upstream data based on the scheduling information.The scheduling information includes that the time location information of the 100 receiving random access response RAR of terminal or the terminal 100 send the time location information that request is established for the radio resource control RRC connection of the data service.

Wherein, the transmission unit 101, it is also used to: before sending instruction information to the network equipment, if the terminal 100 sends voice service upstream data using the sending mode in addition to by pattern sending mode in a umts network, the first request message is then sent to the network equipment, first request message is for requesting the sending mode by the terminal to be configured to by pattern sending mode.

Optionally, for the terminal 100 if necessary to initiate voice service in UMTS network, the sending mode is to stop sending mode.The vacant uplink transmission resource transmission data service upstream data being scheduling to indicate in the utilization of terminal 100 UMTS network for being scheduling to stop scheduling data traffic upstream data or the network equipment of the network equipment.

Optionally, if the terminal 100 carries out voice service in UMTS network, the sending mode is by pattern sending mode.The network equipment is scheduling to indicate that the terminal 100 sends data service upstream data by pattern sending mode.

Optionally, the terminal 100 terminates to carry out voice service in UMTS network, and the sending mode is to continuously transmit mode.The network equipment is scheduling to indicate that the terminal 100 continuously transmits data industry Business upstream data.

In the embodiment of the present invention, if the sending mode is by pattern sending mode, then before the processing unit 102 sends upstream data based on the scheduling of the network equipment, the transmission unit 101 sends the second request message to the network equipment, and the request message is for requesting the sending mode by the terminal to be configured to by pattern sending mode.

Optionally, the processing unit 102, is also used to: receiving the sending mode information that the network equipment is sent, it is the configuration information that dedicated channel DCH enhances 10ms uplink sending mode that the sending mode information, which includes for configuring the sending mode of the terminal,.

Figure 11 is another structural schematic diagram of terminal 100 provided in an embodiment of the present invention.As shown in figure 11, terminal 100 includes transmitter 1001 and processor 1002.The transmitter 1001 is configured as that above-mentioned terminal is supported to send to the network equipment for notifying the network equipment to send upstream data using the sending mode that the instruction information indicates according to terminal described in the instruction message scheduling.The processor 1002 is configured as supporting the scheduling based on the network equipment to send upstream data.The terminal 100 can also include memory 1003, and the memory 1003 saves the necessary program instruction of terminal and data for coupling with processor 1002.

The embodiment of the invention provides a kind of computer storage mediums, and for being stored as computer software instructions used in above-mentioned terminal 100, it includes for executing program involved in above-mentioned aspect terminal 100.

It is understood that terminal 100 described in the embodiment of the present invention can be used for realizing that the institute of terminal involved in above method embodiment is functional, specific implementation process is referred to the associated description of above method embodiment, and details are not described herein again.

The communication means provided based on the above embodiment, the embodiment of the present invention also provide a kind of network equipment 200.Figure 12 show a kind of structural schematic diagram of the network equipment 200 provided in an embodiment of the present invention.As shown in figure 12, the network equipment 200 includes receiving unit 201 and processing unit 202.

Receiving unit 201, for receiving the instruction information of terminal.

Processing unit 202, for sending upstream data using the sending mode of the instruction information instruction based on terminal described in the received instruction message scheduling of the receiving unit 201, the sending mode includes stopping sending mode, continuously transmitting mode or by one of pattern sending mode.

The network equipment 200 further includes transmission unit 203, the transmission unit 203, for sending the scheduling information of the processing unit 202 to the terminal.

Optionally, the instruction information is used to indicate the terminal and needs to initiate data service in LTE network, and the sending mode is by pattern sending mode, the processing unit 202 is specifically used in the following way based on terminal described in the instruction message scheduling and sends upstream data by pattern sending mode:

Scheduling sends the time of random access response RAR.Or dispatch terminal sends the time of the radio resource control RRC connection foundation request of the data service.

Optionally, the instruction information is used to indicate the terminal and needs to initiate voice service in UMTS network, and the sending mode is to stop sending mode, the processing unit 202 is specifically used in the following way based on terminal described in the instruction message scheduling and sends upstream data by pattern sending mode:

Stop scheduling data traffic upstream data.Or the instruction terminal sends resource using the vacant uplink in UMTS network and sends data service upstream data.

Optionally, the instruction information is used to indicate the terminal and carries out voice service in UMTS network, and the sending mode is by pattern sending mode, the processing unit 202 is specifically used in the following way based on terminal described in the instruction message scheduling and sends upstream data by pattern sending mode:

It dispatches the terminal and sends data service upstream data by pattern sending mode.

Optionally, the instruction information, which is used to indicate the terminal, to be terminated to carry out voice service in UMTS network, and the sending mode is to continuously transmit mode, the processing unit 202 is specifically used in the following way based on terminal described in the instruction message scheduling and sends upstream data by pattern sending mode:

It dispatches the terminal and continuously transmits data service upstream data.

Figure 13 is another structural schematic diagram of the network equipment 200 provided in an embodiment of the present invention.As shown in figure 13, the network equipment 200 includes processor 2001 and communication unit 2002.

The processor 2001 is configured as that the network equipment 200 is supported to execute corresponding function in the above method.The instruction message scheduling terminal that the processor 2001 is configured as sending according to terminal, which uses, to be stopped sending mode, continuously transmit mode or sends data service upstream data by one of pattern sending mode.The communication unit 2002 is configured as supporting the communication between terminal.The network equipment 200 can also include memory 2003, and the memory 2003 saves network for coupling with processor 2001 The necessary program instruction of equipment and data.

The embodiment of the invention provides a kind of computer storage mediums, and for being stored as computer software instructions used in the above-mentioned network equipment 200, it includes for executing program involved in the above-mentioned aspect network equipment 200.

It is understood that the network equipment 200 described in the embodiment of the present invention can be used for realizing that the institute of the network equipment 200 involved in above method embodiment is functional, specific implementation process is referred to the associated description of above method embodiment, and details are not described herein again.

The network equipment 200 described in the embodiment of the present invention is a kind of is deployed in wireless access network to provide the device of wireless communication function for terminal.The network equipment 200 can be base station, and base station may include various forms of macro base stations, micro-base station, relay station, access point etc..In the system using different wireless access technologys, the title of base station may be different, such as in the lte networks, referred to as node B (the evolved NodeB of evolution, referred to as: eNB or eNodeB), in third generation 3G network, referred to as node B (Node B) etc..

Optionally, the network equipment 200 described in the embodiment of the present invention can be eNB.

It should be noted that, the above-mentioned processor being related to can be a general central processor (CPU) in the embodiment of the present invention, microprocessor, application-specific integrated circuit (application-specific integrated circuit, ASIC), or it is one or more for controlling the integrated circuit of the present invention program program execution.The one or more memories for including in computer system, it can be read-only memory (read-only memory, ROM) or the other kinds of static storage device of static information and instruction can be stored, random access memory (random access memory, RAM) or the other kinds of dynamic memory of information and instruction can be stored, is also possible to magnetic disk storage.These memories are connected by bus with processor.

The device of any transceiver one kind can be used in communication unit, receiver and transmitter, so as to other equipment or communication, such as Ethernet, wireless access network (RAN), WLAN (WLAN) etc..

Memory, such as RAM preserve operating system and execute the program of the present invention program.Operating system is for controlling the operation of other programs, the program of management system resource.

Those of ordinary skill in the art will appreciate that implementing the method for the above embodiments Being can be by program come instruction processing unit completion, the program can store in computer readable storage medium, the storage medium is non-transitory (English: non-transitory) medium, such as random access memory, read-only memory, flash memory, hard disk, solid state hard disk, tape (English: magnetic tape), floppy disk (English: floppy disk), CD (English: optical disc) and any combination thereof.

The present invention is described referring to the method and apparatus respective flow chart and block diagram of the embodiment of the present invention.It should be understood that the combination of each process in flow chart and block diagram and the process in box and flow chart and block diagram and box can be realized by computer program instructions.These computer program instructions be can provide to the processor of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to generate a machine, so that generating by the instruction that computer or the processor of other programmable data processing devices execute for realizing the device for the function of specifying in one or more flows of the flowchart and one or more blocks of the block diagram.

It is described above; it is merely preferred embodiments of the present invention, but scope of protection of the present invention is not limited thereto, anyone skilled in the art is in the technical scope disclosed by the present invention; any changes or substitutions that can be easily thought of, should be covered by the protection scope of the present invention.Therefore, protection scope of the present invention should be subject to the protection scope in claims.

Claims (26)

1. A kind of communication means characterized by comprising

   Terminal sends instruction information to the network equipment, for the instruction information for notifying sending mode transmission upstream data of the network equipment according to terminal described in the instruction message scheduling using the instruction information instruction, the sending mode includes stopping sending mode, continuously transmitting mode or by one of pattern sending mode；

   The terminal sends upstream data based on the scheduling of the network equipment.
2. The method as described in claim 1, which is characterized in that the terminal is if necessary to initiate data service in long term evolution LTE network；

   The sending mode is by pattern sending mode；

   The terminal sends upstream data based on the scheduling of the network equipment, comprising:

   The terminal receives the scheduling information that the network equipment is sent, and sends upstream data based on the scheduling information；

   The scheduling information includes that the time location information of the terminal receiving random access response RAR or the terminal send the time location information that request is established for the radio resource control RRC connection of the data service.
3. The method as described in claim 1, which is characterized in that the terminal is if necessary to initiate voice service in Universal Mobile Telecommunications System UMTS network；

   The sending mode is to stop sending mode；

   It is described to be scheduling to stop scheduling data traffic upstream data or described be scheduling to indicate that the terminal sends resource using the vacant uplink in UMTS network and sends data service upstream data.
4. The method as described in claim 1, which is characterized in that if the terminal carries out voice service in UMTS network；

   The sending mode is by pattern sending mode；

   It is described to be scheduling to indicate that the terminal sends data service upstream data by pattern sending mode.
5. Method according to claim 2, which is characterized in that sent in the terminal to the network equipment Before indicating information, the method also includes:

   If the terminal sends voice service upstream data using the sending mode in addition to by pattern sending mode in Universal Mobile Telecommunications System UMTS network, then the terminal sends the first request message to the network equipment, and first request message is for requesting the sending mode by the terminal to be configured to by pattern sending mode.
6. The method as described in claim 1, which is characterized in that if the sending mode be by pattern sending mode, before the terminal sends upstream data based on the scheduling of the network equipment, the method also includes:

   The terminal sends the second request message to the network equipment, and the request message is for requesting the sending mode by the terminal to be configured to by pattern sending mode.
7. Such as method described in claim 5 or 6, which is characterized in that the method also includes:

   The terminal receives the sending mode information that the network equipment is sent, and it is the configuration information that dedicated channel DCH enhances 10ms uplink sending mode that the sending mode information, which includes for configuring the sending mode of the terminal,.
8. The method as described in claim 1, which is characterized in that the terminal terminates to carry out voice service in UMTS network；

   The sending mode is to continuously transmit mode；

   It is described to be scheduling to indicate that the terminal continuously transmits data service upstream data.
9. A kind of communication means characterized by comprising

   The instruction information of network equipment reception terminal；

   The network equipment sends upstream data using the sending mode of the instruction information instruction based on terminal described in the instruction message scheduling, and scheduling information is sent to the terminal, the sending mode includes stopping sending mode, continuously transmitting mode or by one of pattern sending mode.
10. Method as claimed in claim 9, which is characterized in that the instruction information is used to indicate the terminal and needs to initiate data service in long term evolution LTE network, and the sending mode is by pattern sending mode；

    The network equipment is based on terminal described in the instruction message scheduling and uses by the transmission of pattern sending mode Upstream data, comprising:

    The network equipment scheduling sends the time of random access response RAR；Or

    The time of request is established in the radio resource control RRC connection that the network equipment dispatch terminal sends the data service；

    The method also includes:

    The network equipment sends scheduling information to the terminal.
11. Method as claimed in claim 9, which is characterized in that the instruction information is used to indicate the terminal and needs to initiate voice service in Universal Mobile Telecommunications System UMTS network, and the sending mode is to stop sending mode；

    The network equipment is based on terminal described in the instruction message scheduling and sends upstream data using sending mode is stopped, comprising:

    The network equipment stops scheduling data traffic upstream data；Or

    The network equipment indicates that the terminal sends resource using the vacant uplink in UMTS network and sends data service upstream data.
12. Method as claimed in claim 9, which is characterized in that the instruction information is used to indicate the terminal and carries out voice service in UMTS network, and the sending mode is by pattern sending mode；

    The network equipment is based on terminal described in the instruction message scheduling and uses by pattern sending mode transmission upstream data, comprising:

    The network equipment dispatches the terminal and sends data service upstream data by pattern sending mode.
13. Method as claimed in claim 9, which is characterized in that the instruction information, which is used to indicate the terminal, to be terminated to carry out voice service in UMTS network, and the sending mode is to continuously transmit mode；

    The network equipment is based on terminal described in the instruction message scheduling and sends upstream data using the mode that continuously transmits, comprising:

    The network equipment dispatches the terminal and continuously transmits data service upstream data.
14. A kind of terminal characterized by comprising

    Transmission unit, for sending instruction information, the sending mode that the instruction information is used to notify the network equipment according to terminal described in the instruction message scheduling using the instruction information instruction to the network equipment Upstream data is sent, the sending mode includes stopping sending mode, continuously transmitting mode or by one of pattern sending mode；

    Processing unit sends upstream data for the scheduling based on the network equipment.
15. Terminal as claimed in claim 14, which is characterized in that the terminal is if necessary to initiate data service in long term evolution LTE network；

    The sending mode is by pattern sending mode；

    The processing unit sends upstream data specifically for the scheduling as follows based on the network equipment:

    The scheduling information that the network equipment is sent is received, upstream data is sent based on the scheduling information；

    The scheduling information includes that the time location information of the terminal receiving random access response RAR or the terminal send the time location information that request is established for the radio resource control RRC connection of the data service.
16. Terminal as claimed in claim 14, which is characterized in that the terminal is if necessary to initiate voice service in Universal Mobile Telecommunications System UMTS network；

    The sending mode is to stop sending mode；

    It is described to be scheduling to stop scheduling data traffic upstream data or described be scheduling to indicate that the terminal sends resource using the vacant uplink in UMTS network and sends data service upstream data.
17. Terminal as claimed in claim 14, which is characterized in that if the terminal carries out voice service in UMTS network；

    The sending mode is by pattern sending mode；

    It is described to be scheduling to indicate that the terminal sends data service upstream data by pattern sending mode.
18. Terminal as claimed in claim 15, which is characterized in that the transmission unit is also used to:

    Before the transmission unit sends instruction information to the network equipment, if the terminal sends voice service upstream data using the sending mode in addition to by pattern sending mode in Universal Mobile Telecommunications System UMTS network, the first request message is then sent to the network equipment, first request message is for requesting the sending mode by the terminal to be configured to by pattern sending mode.
19. Terminal as claimed in claim 14, which is characterized in that the transmission unit is also used to:

    If the sending mode is by pattern sending mode, then before the processing unit sends upstream data based on the scheduling of the network equipment, the second request message is sent to the network equipment, the request message is for requesting the sending mode by the terminal to be configured to by pattern sending mode.
20. Terminal as described in claim 18 or 19, which is characterized in that the processing unit is also used to:

    The sending mode information that the network equipment is sent is received, it is the configuration information that dedicated channel DCH enhances 10ms uplink sending mode that the sending mode information, which includes for configuring the sending mode of the terminal,.
21. Terminal as claimed in claim 14, which is characterized in that the terminal terminates to carry out voice service in UMTS network；

    The sending mode is to continuously transmit mode；

    It is described to be scheduling to indicate that the terminal continuously transmits data service upstream data.
22. A kind of network equipment characterized by comprising

    Receiving unit, for receiving the instruction information of terminal；

    Processing unit, for sending upstream data using the sending mode of the instruction information instruction based on terminal described in the received instruction message scheduling of the receiving unit, the sending mode includes stopping sending mode, continuously transmitting mode or by one of pattern sending mode.
23. The network equipment as claimed in claim 22, which is characterized in that the instruction information is used to indicate the terminal and needs to initiate data service in long term evolution LTE network, and the sending mode is by pattern sending mode；

    The processing unit is specifically used in the following way based on terminal described in the instruction message scheduling and sends upstream data by pattern sending mode:

    Scheduling sends the time of random access response RAR；Or

    The time of request is established in the radio resource control RRC connection that dispatch terminal sends the data service；

    The network equipment further includes transmission unit；

    The transmission unit, for sending the scheduling information of the processing unit to the terminal.
24. The network equipment as claimed in claim 22, which is characterized in that the instruction information is used to indicate the terminal and needs to initiate voice service, and the transmission in Universal Mobile Telecommunications System UMTS network Mode is to stop sending mode；

    The processing unit is specifically used in the following way based on terminal described in the instruction message scheduling and sends upstream data by pattern sending mode:

    Stop scheduling data traffic upstream data；Or

    Indicate that the terminal sends resource using the vacant uplink in UMTS network and sends data service upstream data.
25. The network equipment as claimed in claim 22, which is characterized in that the instruction information is used to indicate the terminal and carries out voice service in UMTS network, and the sending mode is by pattern sending mode；

    The processing unit is specifically used in the following way based on terminal described in the instruction message scheduling and sends upstream data by pattern sending mode:

    It dispatches the terminal and sends data service upstream data by pattern sending mode.
26. The network equipment as claimed in claim 22, which is characterized in that the instruction information, which is used to indicate the terminal, to be terminated to carry out voice service in UMTS network, and the sending mode is to continuously transmit mode；

    The processing unit is specifically used in the following way based on terminal described in the instruction message scheduling and sends upstream data by pattern sending mode:

    It dispatches the terminal and continuously transmits data service upstream data.