CN105637955A - Data transmission method and device - Google Patents

Abstract

Provided in the embodiments of the present invention are a data transmission method and device, wherein the UE comprises: a receiving unit used for receiving M times of a first data sent by a network device over a first channel, M being a positive integer less than or equal to N times of retransmission of the first data, N being an integer greater than or equal to 2; a parsing unit used for parsing the M times of first data received by the receiving unit to acquire parsing results of the first data; and a processing unit used for, when the parsing results of the first data instruct the UE to process second data sent by a network device to the UE over a second channel, processing said second data. The parsing results are acquired on the basis of parsing the first data received M times, thus ensuring correct acquisition of the parsing results of the first data and correct acquisition of the second data, preventing loss of the second data.

Description

Data transmission method and equipment Technical field

The present embodiments relate to communication technical field, more particularly to a kind of data transmission method and equipment.

Background technology

In UMTS (English：Universal Mobile Telecommunications System, referred to as：UMTS in), network is typically with Transmission Time Interval (English when sending data：Transmission Time Interval, referred to as：TTI) it is transmitted for unit, usual network can be sent with higher power as far as possible when sending packet, it is ensured that UE can be received by the packet in once sending.For user equipment (English：User Equipment, referred to as：UE) before some second channels that the network equipment is sent are received, the usual UE can also receive the first channel of network equipment transmission, determine the need for receiving the data of corresponding second channel in first channel according to the information carried after a predetermined period.For example：UE first has to parsing Page Indication Channel (English：Page Indicator Channel, referred to as：PICH), (English is indicated further according to the paging in PICH：Page Indicator, referred to as：PI) determine the need for being provided at pre-determined intervals reception auxiliary Common Control Physical Channel (English after PICH has been received：Secondary Common Control Physical Channel, referred to as：S-CCPCH) or high-speed physical downlink shared control channel (English：High Speed Physical Downlink Shared Control Channel, referred to as：HS-SCCH content).Or, UE is firstly the need of parsing HS-SCCH, the High-Speed Physical Downlink Shared Channel Radio Network Temporary Identifier carried further according to HS-SCCH channels (English：High-Speed Downlink Shared Channel RNTI, referred to as：H-RNTI) determine the need for starting to be provided at pre-determined intervals reception high-speed physical downlink shared channel (HS-PDSCH) (English after receiving the HS-SCCH：High Speed Physical Downlink Shared Channel, referred to as：HS-PDSCH).

However, the network equipment in the state of relatively low transmit power in order to strengthen covering, identical content can be repeated to send n times (N by the way of repeating to send>=2), it is ensured that it can be properly received data in the UE covered in poor region.When by the way of repeating to send, if UE carries out the reception of the data of the first channel and second channel still according to the above-mentioned scheduled time or processing mode, may result in UE can not correctly get data, cause the loss of data.

The content of the invention

The embodiment of the present invention provides a kind of data transmission method and equipment, the loss for avoiding data.

In a first aspect, the embodiment of the present invention provides a kind of UE, including：Receiving unit, for receiving the first data that the M network equipment is sent by the first channel, the M is the positive integer less than or equal to the first Data duplication the number of transmissions N, and the N is the integer more than or equal to 2；Resolution unit, first data for parsing M times that the receiving unit is received obtain the analysis result of first data；Processing unit, for when the analysis result of first data indicates that the UE handles the second data that the network equipment is sent by second channel to the UE, handling second data.

In the first possible implementation of first aspect, when the analysis result that the receiving unit is additionally operable to first data obtained when the resolution unit indicates that the UE receives second data, receive K second data, the K is the positive integer less than or equal to the second Data duplication number of times H, and the H is the integer more than or equal to 2.

With reference to the first possible implementation of first aspect, in second of possible implementation of first aspect, the receiving unit receives K second data and specifically included：The receiving unit, for when starting to receive first data for the first time, interval receives the time described in n times needed for the first data and the time of preset time sum, or, interval receives the time and the time of preset time sum needed for N-1 first data, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.

In the third possible implementation of first aspect, the resolution unit is additionally operable to, and when the analysis result of first data indicates that the UE parses second data, parses received second data of K times；The receiving unit is additionally operable to before the second data described in the processing unit processes, receives K second data, and the K is the positive integer less than or equal to the second Data duplication transmission times H, and the H is the integer more than or equal to 2.

With reference to the third possible implementation of first aspect, in the 4th kind of possible implementation of first aspect, the receiving unit receives K second data and specifically included：The receiving unit is used to, when first time starts to receive first data, be spaced preset time, or, interval receives time once needed for first data and the time of preset time sum, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.

With reference to the first any one into the 4th kind of possible implementation of first aspect, in the 5th kind of possible implementation of first aspect, the receiving unit is additionally operable to receiving the M network equipment Before the first data sent by the first channel, the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H that the network equipment is sent are received.

With reference to the first any one into the 5th kind of possible implementation of first aspect or first aspect, in the 6th kind of possible implementation of first aspect, also include acquiring unit, first channel is PICH, wherein, the receiving unit is additionally operable to before the first data that the M network equipment is sent by the first channel are received, and receives getting parms for the paging occasion that the network equipment is sent；The acquiring unit, for getting parms for the paging occasion that is received according to the receiving unit, obtains the paging occasion；The first data that the M network equipment of the receiving unit reception is sent by the first channel are specifically included：The receiving unit, for when the paging occasion obtained when the acquiring unit is reached, starting to receive first data that the M network equipment is sent by first channel.

Second aspect, the embodiment of the present invention provides a kind of network equipment, including：Transmitting element, for sending the data of n times first to UE by the first channel；Determining unit, for determining whether the network equipment needs to send the second data to UE；The transmitting element is additionally operable to, when the determining unit determines that the network equipment needs to send the second data to UE, sends H second data to the UE by second channel, the N and the H are respectively the integer more than or equal to 2.

In the first possible implementation of second aspect, the transmitting element is used to specifically include to H the second data of UE transmissions by second channel：The transmitting element is used for when starting to send first data for the first time to the UE by first channel, it is spaced preset time, or, interval sends time once needed for first data and the time of preset time sum, or, interval sends the time described in n times needed for the first data and the time of preset time sum, or, the time of time and preset time sum needed for N-1 first data of interval transmission, begin through the second channel and send H second data to the UE；Wherein, the preset time is the time needed for the UE parses first data.

With reference to the first possible implementation of second aspect or second aspect, in second of possible implementation of second aspect, the transmitting element is additionally operable to before the data of n times first are sent to UE by the first channel, and the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H is sent to the UE.

With reference to second of possible implementation of the first possible implementation or second aspect of second aspect or second aspect, in the third possible implementation of second aspect, first channel is PICH, and the transmitting element is additionally operable to count to UE transmissions n times first according to by the first channel According to before, getting parms for paging occasion is sent to the UE.

The third aspect, the embodiment of the present invention provides a kind of UE, including：Receiver, for receiving the first data that the M network equipment is sent by the first channel, the M is the positive integer less than or equal to the first Data duplication the number of transmissions N, and the N is the integer more than or equal to 2；Processor, first data for parsing M times that the receiver is received obtain the analysis result of first data；And when the analysis result of first data indicates that the UE handles the second data that the network equipment is sent by second channel to the UE, handle second data.

In the first possible implementation of the third aspect, the receiver is additionally operable to, when the analysis result of first data indicates that the UE receives second data, receive K second data, the K is the positive integer less than or equal to the second Data duplication number of times H, and the H is the integer more than or equal to 2.

With reference to the first possible implementation of the third aspect, in second of possible implementation of the third aspect, the receiver, which receives K second data, to be included：The receiver is used for when starting to receive first data for the first time, interval receives the time described in n times needed for the first data and the time of preset time sum, or, interval receives the time and the time of preset time sum needed for N-1 first data, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.

In the third possible implementation of the third aspect, the processor handles second data and specifically included：The processor, for when the analysis result of first data indicates that the UE parses second data, parsing received second data of K times；The receiver is additionally operable to before processor processing second data, receives K second data, and the K is the positive integer less than or equal to the second Data duplication transmission times H, and the H is the integer more than or equal to 2.

With reference to the third possible implementation of the third aspect, in the 4th kind of possible implementation of the third aspect, the receiver receives K second data and specifically included：The receiver is used to, when first time starts to receive first data, be spaced preset time, or, interval receives time once needed for first data and the time of preset time sum, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.

With reference to the first any one into the 4th kind of possible implementation of the third aspect, in the 5th kind of possible implementation of the third aspect, the receiver is additionally operable to receive the M network equipment logical Before the first data for crossing the transmission of the first channel, the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H that the network equipment is sent are received.

With reference to the first any one into the 5th kind of possible implementation of the third aspect or the third aspect, in the 6th kind of possible implementation of the third aspect, first channel is PICH, the receiver is additionally operable to before the first data that the M network equipment is sent by the first channel are received, and receives getting parms for the paging occasion that the network equipment is sent；The processor, is additionally operable to be got parms according to the paging occasion that the receiver is received, obtains the paging occasion；The first data that the M network equipment of the receiver reception is sent by the first channel are specifically included：The receiver, for when the paging occasion obtained when the processor is reached, starting to receive first data that the M network equipment is sent by first channel.

Fourth aspect, the embodiment of the present invention provides a kind of network equipment, including：Emitter, for sending the data of n times first to UE by the first channel；Processor, for determining whether the network equipment needs to send the second data to UE；The emitter is additionally operable to, when the processor determines that the network equipment needs to send the second data to UE, sends H second data to the UE by second channel, the N and the H are respectively the integer more than or equal to 2.

In the first possible implementation of fourth aspect, the emitter sends H the second data to the UE by second channel and specifically included：The emitter is used for when starting to send first data for the first time to the UE by first channel, it is spaced preset time, or, interval sends time once needed for first data and the time of preset time sum, or, interval sends the time described in n times needed for the first data and the time of preset time sum, or, the time of time and preset time sum needed for N-1 first data of interval transmission, begin through the second channel and send H second data to the UE；Wherein, the preset time is the time needed for the UE parses first data.

With reference to the first possible implementation of fourth aspect or fourth aspect, in second of possible implementation of fourth aspect, the emitter is additionally operable to before the data of n times first are sent to UE by the first channel, and the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H is sent to the UE.

With reference to second of possible implementation of the first possible implementation or fourth aspect of fourth aspect or fourth aspect, in the third possible implementation of fourth aspect, first channel is PICH, and the emitter is additionally operable to sending the data of n times first to the UE according to by the first channel Before, getting parms for paging occasion is sent to the UE.

5th aspect, the embodiment of the present invention provides a kind of data transmission method, including：User equipment receives the first data that the M network equipment is sent by the first channel, and the M is the positive integer less than or equal to the first Data duplication the number of transmissions N, and the N is the integer more than or equal to 2；The UE parses received first data of M times, obtains the analysis result of first data；When the analysis result of first data indicates that the UE handles the second data that the network equipment is sent by second channel to the UE, the UE handles second data.

In the first possible implementation of the 5th aspect, when the analysis result of first data indicates that the UE handles the second data that the network equipment is sent by second channel to the UE, the UE handles second data, including：When the analysis result of first data indicates that the UE receives second data, the UE receives K second data, and the K is the positive integer less than or equal to the second Data duplication number of times H, and the H is the integer more than or equal to 2.

With reference to the first possible implementation of the 5th aspect, in second of possible implementation of the 5th aspect, the UE receives K second data, including：The UE is when starting to receive first data for the first time, interval receives the time described in n times needed for the first data and the time of preset time sum, or, interval receives the time and the time of preset time sum needed for N-1 first data, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.

In the third possible implementation of the 5th aspect, when the analysis result of first data indicates that the UE handles the second data that the network equipment is sent by second channel to the UE, the UE handles second data, including：When the analysis result of first data indicates that the UE parses second data, the UE parses received second data of K times；The UE is handled before second data, in addition to：The UE receives K second data, and the K is the positive integer less than or equal to the second Data duplication transmission times H, and the H is the integer more than or equal to 2.

With reference to the third possible implementation of the 5th aspect, in the 4th kind of possible implementation of the 5th aspect, the UE receives K second data, including：The UE is spaced preset time when first time starts to receive first data, or, interval receives time once needed for first data and the time of preset time sum, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.

With reference to the first any one into the 4th kind of possible implementation of the 5th aspect, in the 5th kind of possible implementation of the 5th aspect, the UE is received before the first data that the M network equipment is sent by the first channel, in addition to：The UE receives the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H that the network equipment is sent.

With reference to the 5th aspect or the first any one into the 5th kind of possible implementation of the 5th aspect, in the 6th kind of possible implementation of the 5th aspect, first channel is PICH, the UE is received before the first data that the M network equipment is sent by the first channel, in addition to：The UE receives getting parms for the paging occasion that the network equipment is sent；And getting parms according to the paging occasion, obtain the paging occasion；The UE receives the first data that the M network equipment is sent by the first channel, including：When the paging occasion is reached, the UE starts to receive first data that the M network equipment is sent by first channel.

6th aspect, the embodiment of the present invention provides a kind of data transmission method, including：The network equipment sends the data of n times first by the first channel to UE, and when the network equipment needs to send the second data to UE, sends H second data to the UE by second channel, the N and the H are respectively the integer more than or equal to 2.

In the first possible implementation of the 6th aspect, the network equipment sends H the second data by second channel to the UE, including：The network equipment to the UE by first channel when starting to send first data for the first time, it is spaced preset time, or, interval sends time once needed for first data and the time of preset time sum, or, interval sends the time described in n times needed for the first data and the time of preset time sum, or, the time of time and preset time sum needed for N-1 first data of interval transmission, begin through the second channel and send H second data to the UE；Wherein, the preset time is the time needed for the UE parses first data.

With reference to the 6th aspect or the first possible implementation of the 6th aspect, in second of possible implementation of the 6th aspect, before the network equipment sends the data of n times first by the first channel to UE, in addition to：The network equipment sends the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H to the UE.

With reference to second of possible implementation of the first possible implementation or the 6th aspect of the 6th aspect or the 6th aspect, in the third possible implementation of the 6th aspect, first channel is PICH, the network equipment to the UE by the first channel according to before sending the data of n times first Also include：The network equipment sends getting parms for paging occasion to the UE.

The embodiment of the present invention provides a kind of data transmission method and equipment, the first data that the M network equipment is sent by the first channel are received by UE, and according to first data of M times received, obtain the analysis result of first data, and when the analysis result of first data indicates that the UE handles the second data, the UE handles the second data that the network equipment is sent by second channel, by the analysis result is to parse what is obtained according to the first data of M times received, it thereby may be ensured that the correct analysis result for obtaining the first data, and ensure the correct acquisition of the second data, avoid the loss of the second data.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, the required accompanying drawing used in embodiment or description of the prior art will be briefly described below, apparently, drawings in the following description are some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of UE embodiments one of the present invention；

Fig. 2 is the structural representation of inventive network apparatus embodiments one；

Fig. 3 is the structural representation of UE embodiments two of the present invention；

Fig. 4 is the structural representation of inventive network apparatus embodiments two；

Fig. 5 is the flow chart of data transmission method embodiment one of the present invention；

Fig. 6 is the first schematic diagram that the network equipment provided in an embodiment of the present invention sends the first data by the first channel；

Fig. 7 is second of schematic diagram that the network equipment provided in an embodiment of the present invention sends the first data by the first channel；

Fig. 8 is the flow chart of data transmission method embodiment two of the present invention；

Fig. 9 is the flow chart of data transmission method embodiment three of the present invention；

Figure 10 is the first schematic diagram of the timing relationship of the first channel provided in an embodiment of the present invention and second channel；

Figure 11 is second of schematic diagram of the timing relationship of the first channel provided in an embodiment of the present invention and second channel；

Figure 12 is the flow chart of data transmission method example IV of the present invention；

Figure 13 is the third schematic diagram of the timing relationship of the first channel provided in an embodiment of the present invention and second channel；

Figure 14 is the 4th kind of schematic diagram of the timing relationship of the first channel provided in an embodiment of the present invention and second channel.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is a part of embodiment of the invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made belongs to the scope of protection of the invention.

Technical scheme, can apply to various wireless communication systems, for example：Global mobile communication (English：Global System for Mobile Communications, referred to as：GSM) system, GPRS (English：General Packet Radio Service, referred to as：GPRS) system, CDMA (English：Code Division Multiple Access, referred to as：CDMA) system, CDMA2000 systems, WCDMA (English：Wideband Code Division Multiple Access, referred to as：WCDMA) system, Long Term Evolution (English：Long Term Evolution, referred to as：LTE) system or World Interoperability for Microwave Access, WiMax (English：World Interoperability for Microwave Access, referred to as：WiMAX) system etc..

The network equipment, can be the base station controller (English in gsm system, gprs system or cdma system：Base Station Controller, referred to as：BSC), it can also be the radio network controller (English in CDMA2000 systems or WCDMA system：Radio Network Controller, referred to as：RNC) or base station (NodeB), it can also be the evolved base station (English in LTE system：Evolved NodeB, referred to as：ENB or eNodeB), it can also be the base station (English of the access service network in WiMAX network：Access Service Network Base Station, referred to as：ASN BS) etc. network element.

Fig. 1 is the structural representation of UE embodiments one of the present invention, as shown in figure 1, the UE of the present embodiment can include：Receiving unit 11, resolution unit 12 and processing unit 13；Wherein, receiving unit 11, for receiving the first data that the M network equipment is sent by the first channel, the M is the positive integer less than or equal to the first Data duplication the number of transmissions N, and the N is the integer more than or equal to 2；Parsing Unit 12, first data for parsing M times that receiving unit 11 is received obtain the analysis result of first data；Processing unit 13, for when the analysis result of first data indicates that the UE handles the second data that the network equipment is sent by second channel to the UE, handling second data.

Alternatively, when the analysis result that receiving unit 11 is additionally operable to first data obtained when resolution unit 12 indicates that the UE receives second data, K second data are received, the K is the positive integer less than or equal to the second Data duplication number of times H, and the H is the integer more than or equal to 2.

Alternatively, receiving unit 11 receives K second data and specifically included：Receiving unit 11, for when starting to receive first data for the first time, interval receives the time described in n times needed for the first data and the time of preset time sum, or, interval receives the time and the time of preset time sum needed for N-1 first data, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.

Alternatively, resolution unit 12 is additionally operable to, and when the analysis result of first data indicates that the UE parses second data, parses received second data of K times；Receiving unit 11 is additionally operable to before processing unit 13 handles second data, receives K second data, and the K is the positive integer less than or equal to the second Data duplication transmission times H, and the H is the integer more than or equal to 2.

Alternatively, receiving unit 11 receives K second data and specifically included：Receiving unit 11 is used to, when first time starts to receive first data, be spaced preset time, or, interval receives time once needed for first data and the time of preset time sum, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.

Alternatively, receiving unit 11 is additionally operable to before the first data that the M network equipment is sent by the first channel are received, and receives the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H that the network equipment is sent.

Alternatively, the UE of the present embodiment can also include acquiring unit 14, and first channel is PICH, wherein, receiving unit 11 is additionally operable to before the first data that the M network equipment is sent by the first channel are received, and receives getting parms for the paging occasion that the network equipment is sent；Acquiring unit 14, for getting parms for the paging occasion that is received according to receiving unit 11, obtains the paging occasion；The first data that the M network equipment of reception of receiving unit 11 is sent by the first channel are specifically included：Receiving unit 11, for when the paging occasion obtained when acquiring unit 14 is reached, starting to receive M First data that the secondary network equipment is sent by first channel.

In hardware realization, above receiving unit 11 can be receiver or transceiver.Above resolution unit 12, processing unit 13 and acquiring unit 14 can in the form of hardware be embedded in or independently of in UE processor, can also be stored in a software form in UE memory, in order to which processor calls the corresponding operation of execution above unit.The processor can be central processing unit (English：Central Processing Unit, referred to as：CPU), microprocessor, single-chip microcomputer etc..

The UE of the present embodiment, can be used for performing the technical scheme in following each method embodiments of the invention performed by UE, its implementing principle and technical effect is similar, and here is omitted.

Fig. 2 is the structural representation of inventive network apparatus embodiments one, as shown in Fig. 2 the network equipment of the present embodiment can include：Transmitting element 21 and determining unit 22；Wherein, transmitting element 21, for sending the data of n times first to UE by the first channel；Determining unit 22, for determining whether the network equipment needs to send the second data to UE；Transmitting element 21 is additionally operable to, when determining unit 22 determines that the network equipment needs to send the second data to UE, sends H second data to the UE by second channel, the N and the H are respectively the integer more than or equal to 2.

Alternatively, transmitting element 21 is used to specifically include to H the second data of UE transmissions by second channel：Transmitting element 21 is used for when starting to send first data for the first time to the UE by first channel, it is spaced preset time, or, interval sends time once needed for first data and the time of preset time sum, or, interval sends the time described in n times needed for the first data and the time of preset time sum, or, the time of time and preset time sum needed for N-1 first data of interval transmission, begin through the second channel and send H second data to the UE；Wherein, the preset time is the time needed for the UE parses first data.

Alternatively, transmitting element 21 is additionally operable to before the data of n times first are sent to UE by the first channel, and the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H is sent to the UE.

Alternatively, first channel is PICH, and transmitting element 21 is additionally operable to, according to before sending the data of n times first to the UE by the first channel, getting parms for paging occasion be sent to the UE.

In hardware realization, above transmitting element 21 can be emitter or transceiver.Unit 22 determined above can in the form of hardware be embedded in or independently of in the processor of the network equipment, can also be stored in a software form in the memory of the network equipment, in order to which processor calls the corresponding operation of execution above unit.The processor can be CPU, microprocessor, single-chip microcomputer etc..

The network equipment of the present embodiment, can be used for performing the technical scheme in following each method embodiments of the invention performed by the network equipment, its implementing principle and technical effect is similar, and here is omitted.

Fig. 3 is the structural representation of UE embodiments two of the present invention, as shown in figure 3, the UE of the present embodiment can include：Receiver 31 and processor 32, certainly, UE can also include the universal components such as antenna, baseband process component, middle radio frequency processing part, input/output unit, UE can also include memory, no longer any limitation herein of the embodiment of the present invention, the memory is used to store batch processing code, and receiver 31 and processor 32 can call the program code stored in memory to perform operations described below.Wherein, receiver 31, for receiving the first data that the M network equipment is sent by the first channel, the M is the positive integer less than or equal to the first Data duplication the number of transmissions N, and the N is the integer more than or equal to 2；Processor 32, first data for parsing M times that receiver 31 is received obtain the analysis result of first data；And when the analysis result of first data indicates that the UE handles the second data that the network equipment is sent by second channel to the UE, handle second data.

Alternatively, receiver 31 is additionally operable to, and when the analysis result of first data indicates that the UE receives second data, receives K second data, the K is the positive integer less than or equal to the second Data duplication number of times H, and the H is the integer more than or equal to 2.

Alternatively, receiver 31 receives K second data and included：Receiver 31 is used for when starting to receive first data for the first time, interval receives the time described in n times needed for the first data and the time of preset time sum, or, interval receives the time and the time of preset time sum needed for N-1 first data, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.

Alternatively, processor 32 handles second data and specifically included：Processor 32, for when the analysis result of first data indicates that the UE parses second data, parsing received second data of K times；Receiver 31 is additionally operable to before processor 32 handles second data, receives K second data, and the K is the positive integer less than or equal to the second Data duplication transmission times H, and the H is the integer more than or equal to 2.

Alternatively, receiver 31 receives K second data and specifically included：Receiver 31 is used to, when first time starts to receive first data, be spaced preset time, or, interval receives time once needed for first data and the time of preset time sum, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.

Alternatively, receiver 31 is additionally operable to before the first data that the M network equipment is sent by the first channel are received, and receives the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H that the network equipment is sent.

Alternatively, first channel is PICH, and receiver 31 is additionally operable to before the first data that the M network equipment is sent by the first channel are received, and receives getting parms for the paging occasion that the network equipment is sent；Processor 32, is additionally operable to be got parms according to the paging occasion that receiver 31 is received, obtains the paging occasion；The first data that the M network equipment of reception of receiver 31 is sent by the first channel are specifically included：Receiver 31, for when the paging occasion obtained when processor 32 is reached, starting to receive first data that the M network equipment is sent by first channel.

The UE of the present embodiment, can be used for performing the technical scheme in following each method embodiments of the invention performed by UE, its implementing principle and technical effect is similar, and here is omitted.

Fig. 4 is the structural representation of inventive network apparatus embodiments two, as shown in figure 4, the network equipment of the present embodiment can include：Emitter 41 and processor 42；Certainly, the network equipment can also include the universal components such as antenna, baseband process component, middle radio frequency processing part, input/output unit, the network equipment can also include memory, no longer any limitation herein of the embodiment of the present invention, the memory is used to store batch processing code, and emitter 41 and processor 42 can call the program code stored in memory to perform operations described below.Emitter 41, for sending the data of n times first to UE by the first channel；Processor 42, for determining whether the network equipment needs to send the second data to UE；Emitter 41 is additionally operable to, when processor 42 determines that the network equipment needs to send the second data to UE, sends H second data to the UE by second channel, the N and the H are respectively the integer more than or equal to 2.

Alternatively, emitter 41 sends H the second data to the UE by second channel and specifically included：Emitter 41 is used for when starting to send first data for the first time to the UE by first channel, it is spaced preset time, or, interval sends time once needed for first data and the time of preset time sum, or, interval sends the time described in n times needed for the first data and the time of preset time sum, or, the time of time and preset time sum needed for N-1 first data of interval transmission, begin through the second channel and send H second data to the UE；Wherein, the preset time is the time needed for the UE parses first data.

Alternatively, emitter 41 is additionally operable to before the data of n times first are sent to UE by the first channel, and the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions are sent to the UE H。

Alternatively, first channel is PICH, and emitter 41 is additionally operable to, according to before sending the data of n times first to the UE by the first channel, getting parms for paging occasion be sent to the UE.

The network equipment of the present embodiment, can be used for performing the technical scheme in following each method embodiments of the invention performed by the network equipment, its implementing principle and technical effect is similar, and here is omitted.

Fig. 5 is the flow chart of data transmission method embodiment one of the present invention, as shown in Figure 5.

S101, UE receive the first data that the M network equipment is sent by the first channel, and M is the positive integer less than or equal to the first Data duplication the number of transmissions N, and N is the integer more than or equal to 2.

S102, the UE parse received first data of M times, obtain the analysis result of first data.

S103, when the analysis result of the first data indicates that the UE handles the second data that the network equipment is sent by second channel, the UE handles second data.

In the present embodiment, the network equipment can be BSC, RNC, NodeB, eNB, ASN BS etc., first channel is different from the second channel, and first channel and the second channel can be any channel, such as physical channel or control channel, such as respectively PICH, S-CCPCH, HS-SCCH, HS-PDSCH in any two kinds.

In the present embodiment, the network equipment is in order to strengthen covering, by the way of repeating to send, and identical content is repeated to send multiple, to ensure that the UE in overlay area can be properly received.Due to a variety of causes, the signal quality of such as distinct coverage region is different, and the number of times that UE receives data can be less than or equal to the number of times that the network equipment sends the data.For example, the network equipment can be by the first channel to the UE transmission data of n times first, the first data are the data by the first transmission herein, and correspondingly, UE can also receive the first data (M that the M network equipment is sent by the first channel<=N), wherein M is the positive integer less than or equal to the first Data duplication the number of transmissions N, and N is the integer more than or equal to 2.

Because the overlay area of the network equipment residing for each UE is different, some UE, which are in, covers preferable region (for example signal quality is more than or equal to first threshold), and some UE are in and cover poor region (such as signal quality is less than first threshold), the number of times that the first data are received in the UE covered in poor region can be less than in the UE covered in preferable region the number of times for receiving the first data, so the number of times M that the different UE of each overlay area receive first data is different.M value by the UE parse completely the first data institute according to the first data number on the basis of determine, for example：If the network equipment sends 6 the first data by the first channel to UE, if UE is according to 3 times first of reception numbers According to can just parse the first data, then the M is the integer more than or equal to 3, also, less than or equal to 6.Better simply, all UE receive the data of n times first.Wherein, the network equipment can as shown in Figure 6 and Figure 7, in first data sender's formula shown in Fig. 6 by way of the first channel sends the first data, and the network equipment continuously transmits the data of n times first by the first channel to UE, correspondingly, UE can continuously receive M the first data.In the sending method of the first data shown in Fig. 7, the network equipment by the first channel to UE sent first data when, between start to send the first data next time at regular intervals, correspondingly, UE can receive the first data next time at regular intervals when having received first data.The time interval for repeating to send the first data in Fig. 7 every time can be different, can also be identical, are not limited herein.

Wherein, the UE parses received first data of M times, obtains the analysis result of first data, can include：UE is parsed after can together merging to the first data of M times received, it is hereby achieved that the analysis result of correct first data.Or, first data that the UE is received to first time are parsed, after parsing is less than result, the first data that first time is received are parsed after merging with the first data that second receives, still parse less than after result, will for the first time, second ..., the first data of the M time reception parsed after merging, up to the analysis result of correct first data can be obtained.

No matter the analysis result of first data is obtained using above-mentioned any mode, after UE is the analysis result for obtaining received first data of M times, determine whether to handle the second data further according to the analysis result, when the analysis result of the first data indicates that UE handles second data, UE handles second data；When the analysis result of the first data indicates that UE does not handle second data, UE does not handle second data, and the second data are the data transmitted by second channel herein.Specifically, UE can determine whether to receive the second data according to the analysis result, i.e. when the analysis result of first data indicates that the UE receives second data, the UE receives K second data, K is the positive integer less than or equal to the second Data duplication number of times H, when the analysis result of first data indicates that the UE does not receive second data, the UE does not receive second data；Or, UE can determine whether to parse the second data according to the analysis result, i.e. when the analysis result of first data indicates that the UE parses second data, the UE parses received second data of K times, when the analysis result of first data indicates that the UE does not parse second data, the UE can abandon second data of reception.Because the analysis result is obtained according to multiple first data, the correct analysis result for obtaining the first data is thereby may be ensured that, and ensure that the correct of the second data is obtained Take, it is to avoid the loss of the second data.

In the prior art, UE is to have received immediately to parse first data after the first data every time, determine whether that interval preset time is handled the second data further according to the analysis result of the first data, when UE, which is in, covers poor region, UE may be unable to properly receive or parse the first received data, it can will receive or the instruction of the second data of parsing is lost, so that UE can not correctly obtain the second data in interval preset time, cause the loss of the second data.

And the present embodiment, the first data that the M network equipment is sent by the first channel are received by UE, and according to first data of M times received, obtain the analysis result of first data, and when the analysis result of first data indicates that the UE handles the second data, the UE handles the second data that the network equipment is sent by second channel, by the analysis result is to parse what is obtained according to the first data of M times received, it thereby may be ensured that the correct analysis result for obtaining the first data, and ensure the correct acquisition of the second data, avoid the loss of the second data.

In embodiments of the present invention, described parsing refer to be demodulated the data received, decode or the physical layer such as correlation one or more process, and get the process of the data content.For example：For PICH channels, the corresponding PI values of the UE are obtained with after parsing, for HS-SCCH channels, the H-RNTI that HS-SCCH is included is obtained with after parsing, what whether the data that UE is carried according to the follow-up HS-PDSCH channels of H-RNTI acquisitions sent for the UE.

In embodiments of the present invention, described data can refer to what UE physical layers were received, without signal that is physical layer process or handling by physical layer part or refer to physical layer and handled and complete the data cell submitted to high level.

Fig. 8 is the flow chart of data transmission method embodiment two of the present invention, as shown in Figure 8.

S201, the network equipment send first Data duplication the first data of times N time by the first channel to UE, and the N is the integer more than or equal to 2.

S202, the network equipment send H second data of the second Data duplication number of times, the H is the integer more than or equal to 2 by second channel when needing to send the second data to UE to the UE.

In the present embodiment, the network equipment can repeat identical content to send multiple, to ensure that the UE in overlay area can be properly received to strengthen covering by the way of repeating to send.The network equipment can be by the first channel to the UE transmission data of n times first, and when the network equipment needs to send the second data to UE, H the second data are sent to UE by second channel；It should be noted that S202 is performed after can having been performed in S201, and S202 can also be performed in S201 implementation procedure, and the embodiment of the present invention is not limited this.Wherein, the mode of the first data of network equipment transmission can as shown in Figure 6 and Figure 7, in first data sender's formula shown in Fig. 6, and the network equipment continuously transmits the data of n times first by the first channel to UE；In the sending method of the first data shown in Fig. 7, the network equipment by the first channel to UE sent first data when, start to send the first data next time at regular intervals.The time interval for repeating to send the first data in Fig. 7 every time can be different, can also be identical, are not limited herein.It should be noted that the mode that the network equipment sends the second data can be similar with sending the mode of the first data, here is omitted.Wherein H and N can be with identical, can also be different.

Correspondingly, UE receives the first data that the M network equipment is sent by the first channel, and parsing receives M (M<=N) first data, obtain the analysis result of first data, and when the analysis result of first data indicates the second data that the UE processing network equipment is sent by second channel, handle second data.The process of implementing may refer to the related record in the inventive method embodiment one, and here is omitted.Because the analysis result is obtained according to multiple first data, the correct analysis result for obtaining the first data is thereby may be ensured that, and ensure the correct acquisition of the second data, it is to avoid the loss of the second data.In embodiments of the present invention, described parsing refer to be demodulated the data received, decode or the physical layer such as correlation one or more process, and get the process of the data content.

The present embodiment, the network equipment sends the data of n times first by the first channel to UE, and when needing to send the second data to UE, H the second data are sent to the UE by second channel, so that UE receives the first data (M that the M network equipment is sent by the first channel<=N), and parse received first data of M times, obtain the analysis result of first data, and when the analysis result of first data indicates that the UE handles the second data that the network equipment is sent by second channel, second data are handled, by the analysis result is to parse what is obtained according to the first data of M times received, it is ensured that the correct parsing of the first data, it thereby may be ensured that the correct acquisition of the second data, it is to avoid the loss of the second data.

Fig. 9 is the flow chart of data transmission method embodiment three of the present invention, as shown in Figure 9.

S301, the network equipment send the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H to UE, wherein, the integer of N and H respectively more than or equal to 2.

In the present embodiment, the network equipment can send the iterative transfer times of each data to UE, for example The network equipment can send the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H to UE.It is referred to as the first data by the data of the first transmission, the data transmitted by second channel are referred to as the second data and are, N and H can be with identical, can also be different.If the iterative transfer times of the first channel are identical with the iterative transfer times of second channel, the network equipment only needs to send a value, is not required to distinguish the first channel and second channel；The network equipment can also send out two identical values for first channel and second channel respectively.

S302, the network equipment send the data of n times first by the first channel to the UE.

S303, the UE receive the first data that the M network equipment is sent by the first channel, and wherein M is positive integer and M<=N.

Wherein, the network equipment sends the mode of the data of n times first to UE, can may refer to the related record in the inventive method embodiment one or two in detail, here is omitted as shown in Figure 6 and Figure 7.

S304, the UE parse received first data of M times, obtain the analysis result of first data.

In the present embodiment, the S304 process that implements may refer to related record in the inventive method embodiment one, and here is omitted.

S305, when the network equipment need to the UE send the second data when, the network equipment to the UE by first channel when starting to send first data for the first time, and the interval very first time begins through the second channel and sends H second data to the UE.

S306, when the analysis result of first data indicates that the UE receives second data, the UE is when starting to receive first data for the first time, and the interval very first time starts to receive K second data.

In the first feasible implementation of the present embodiment, the above-mentioned very first time is the time and the time of preset time sum needed for the transmission data of n times first, when the network equipment needs to send the second data to the UE, the network equipment to UE by the first channel when starting to send the first data for the first time, and the time of time and preset time sum needed for the interval transmission data of n times first begin through second channel and sends H the second data to UE.Correspondingly, when the analysis result of the first data indicates that the UE receives the second data, UE is needed until the network equipment has sent the second data, i.e. network has been sent can just start to receive the second data after the data of n times first, the time needed for the first data is received every time due to UE it was determined that therefore, UE can be when starting to receive the first data for the first time, the time of time and preset time sum needed for the interval reception data of n times first start to receive the second data, and receive K the second data, wherein, K is the positive integer less than or equal to H.Said process can be so that as shown in fig. 6, Figure 10 illustrate only the timing relationship of the first channel and second channel under the sending method shown in Fig. 6, also similar under the sending method shown in Fig. 7, here is omitted.It is less than or equal to H for K, may refer to the related record that M in the inventive method embodiment one is less than or equal to N, here is omitted.The preset time refers to that UE can correctly parse the time for the first data that (or processing) is received.For example, when the first channel is PICH, and second channel is S-CCPCH, the preset time is τ_PICH, UE passes through τ_PICHTime, the PI information in the first data, τ can be obtained_PICHPICH can have been sent for the network equipment in the prior art and has started to send S-CCPCH time interval.If the first channel is PICH, second channel is HS-SCCH, then preset time can be a subframe, i.e. 2ms, such as UE can obtain the PI information in the first data by 2ms.

In second of feasible implementation of the present embodiment, the above-mentioned very first time can be the time and the time of preset time sum needed for N-1 first data of transmission.When the network equipment needs to send the second data to UE, the network equipment to the UE by first channel when starting to send first data for the first time, and the time of time and preset time sum needed for N-1 the first data of interval transmission begin through the second channel and sends H second data to the UE.Correspondingly, when the analysis result of the first data indicates that the UE receives the second data, time needed for receiving the first data every time due to UE can determine, therefore, UE can be when starting to receive the first data for the first time, the time of time and preset time sum needed for N-1 the first data of interval reception start to receive the second data, and receive K the second data.As shown in figure 11, Figure 11 illustrate only the timing relationship of the first channel and second channel under the sending method shown in Fig. 6, and also similar under the sending method shown in Fig. 7, here is omitted.The preset time refers to that UE can correctly parse the time for the first data that (or processing) is received.For example：When the first channel is HS-SCCH, and second channel is HS-PDSCH, the preset time is τ_HS-PDSCH, be 3 time slots the time required to the network equipment sends first data by HS-SCCH, i.e., 7680 chips, it is 3 time slots, i.e., 7680 chips, τ that the network equipment sends the second data required time by HS-PDSCH_HS-PDSCHFor 2 time slots, i.e. τ_HS-PDSCHFor 5120 chips, UE can obtain the H-RNTI in the first data by the preset time, it is also possible to obtain follow-up HS-PDSCH decoded information is included in HS-SCCH.

Further, after UE has received K the second data, the analysis result that this K times the second data obtain the second data can also be parsed, detailed process may refer to the correlation that M the first data of UE parsings are obtained in the analysis result of the first data in the inventive method embodiment one and record, and here is omitted.

When the analysis result of the first data indicates that the UE does not receive the second data, UE does not receive the second data.

In embodiments of the present invention, described parsing refer to be demodulated the data received, decode or the physical layer such as correlation one or more process, and get the process of the data content.

The present embodiment, first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H is sent to UE by the network equipment, then the network equipment sends the data of n times first by the first channel to UE, and when starting to send first data for the first time to the UE, interval sends the time of the data of n times first required time and preset time sum, or, the time of N-1 the first data required time and preset time sum is sent, H second data are sent to the UE by the second channel；UE receives M first data, received first data of M times of parsing, obtain the analysis result of first data, when the analysis result of first data indicates that the UE receives second data, the UE is when starting to receive first data for the first time, and interval receives the time of the data of n times first required time and preset time sum, or, the time of N-1 the first data required time and preset time sum is received, starts to receive K second data.By the analysis result is to parse what is obtained according to the first data of M times received, it thereby may be ensured that the correct parsing of the first data, and started to receive the second data in the predetermined time according to the instructions of the first data, it is ensured that the correct acquisition of the second data, it is to avoid the loss of the second data；The timing relationship of the first channel and second channel when repeating to send is realized simultaneously.

Figure 12 is the flow chart of data transmission method example IV of the present invention, and as shown in figure 12, the method for the present embodiment can include：

S401, the network equipment send the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H to UE, wherein, the integer of N and H respectively more than or equal to 2.

S402, the network equipment send the data of n times first by the first channel to the UE.

S403, the UE receive the first data that the M network equipment is sent by the first channel, and wherein M is positive integer and M<=N.

S404, the UE parse received first data of M times, obtain the analysis result of first data.

In the present embodiment, S401-S404 implement process and the S301-S304 in the inventive method embodiment three implement that process is similar, here is omitted.It should be noted that S404 is performed before S407, S404 and S405, S406 execution sequence are not limited at this.

S405, when the network equipment need to the UE send the second data when, the network equipment to the UE by first channel when starting to send first data for the first time, and the interval very first time begins through the second channel and sends H second data to the UE.

S406, the UE are when having received first data first time, and the interval very first time starts to receive K second data.

In the first feasible implementation of the present embodiment, the above-mentioned very first time for the data of transmission primaries first time (such as one TTI time or the time of a subframe) and the time of preset time sum, when the network equipment needs to send the second data to the UE, the network equipment to UE by the first channel when starting to send the first data for the first time, and the time of time and preset time sum needed for first data of interval transmission begin through second channel and sends H the second data to UE.Correspondingly, UE can be when starting to receive the first data for the first time, and the time of time and preset time sum needed for first data of interval reception start to receive the second data, and receive K the second data, wherein, K is the positive integer less than or equal to H.Said process can be as shown in figure 13, and Figure 13 illustrate only the timing relationship of the first channel and second channel under the sending method shown in Fig. 6, and also similar under the sending method shown in Fig. 7, here is omitted.The preset time refers to that UE can correctly parse the time for the first data that (or processing) is received.For example, when the first channel is PICH, and second channel is S-CCPCH, the preset time is τ_PICH, UE passes through τ_PICHTime, the PI information in the first data, τ can be obtained_PICHPICH can have been sent for the network equipment in the prior art and has started to send S-CCPCH time interval.When the first channel is PICH, and second channel is HS-SCCH, the preset time can be a subframe, and such as 2ms, such as UE can obtain the PI information in the first data by 2ms.

In second of feasible implementation of the present embodiment, the above-mentioned very first time is preset time, as shown in figure 14, when the network equipment needs to send the second data to the UE, the network equipment to UE by the first channel when starting to send the first data for the first time, and interval preset time begins through second channel and sends H the second data to UE.Correspondingly, UE can be when starting to receive the first data for the first time, and interval preset time starts to receive the second data, and receives K the second data.Said process can be as shown in figure 14, and Figure 14 illustrate only the timing relationship of the first channel and second channel under the sending method shown in Fig. 6, and also similar under the sending method shown in Fig. 7, here is omitted.The preset time refers to that UE can correctly parse the time for the first data that (or processing) is received.For example：When the first channel is HS-SCCH, and second channel is HS-PDSCH, the preset time is τ_HS-PDSCH, Be 3 time slots the time required to the network equipment sends first data by HS-SCCH, i.e., 7680 chips, it is 3 time slots, i.e., 7680 chips, τ that the network equipment sends the second data required time by HS-PDSCH_HS-PDSCHFor 2 time slots, i.e. τ_HS-PDSCHFor 5120 chips, UE can obtain the H-RNTI in the first data by the preset time, it is also possible to obtain the follow-up HS-PDSCH included in HS-SCCH decoded information.

It should be noted that S406 is performed during S403 is performed, that is, there is a situation where that the second data and the first data are received simultaneously.

S407, when the analysis result of first data indicates that the UE parses second data, the UE parses received second data of K times.

Alternatively, the analysis result of first data can also indicate that the UE receives second data, because UE just has received that the second data when not obtaining the analysis result of the first data, therefore the reception indicates that can be equal to parsing indicates, i.e. UE carries out dissection process to the second data having been received by.

Alternatively, when the analysis result of the first data indicates that the UE does not parse the second data, UE abandons the second data received.Alternatively, the analysis result of the first data can also indicate that UE does not receive the second data, because UE has received that the data of part second, and now UE can abandon the data of reception.

In embodiments of the present invention, described parsing refer to be demodulated the data received, decode or the physical layer such as correlation one or more process, and get the process of the data content.

The present embodiment, first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H is sent to UE by the network equipment, then the network equipment sends the data of n times first by the first channel to UE, when starting to send first data for the first time to the UE, interval sends the time of the first data required time and preset time sum, or, preset time begins through the second channel and sends H second data to the UE；UE receives M first data, received first data of M times of parsing, obtain the analysis result of first data, meanwhile, when first time starts to receive the first data, interval receives the time of the first data required time and preset time sum, or, preset time starts to receive K second data, and when the analysis result of first data indicates that the UE parses second data, the UE parses received second data of K times.By the analysis result is obtained by parsing received first data of M time, the correctness that the first data are parsed is thereby may be ensured that, according to the analysis result, it is ensured that the correct acquisition of the second data, it is to avoid the loss of the second data；The first channel and the second letter when repeating to send are realized simultaneously The timing relationship in road.

The present embodiment, the scene of the first channel and second channel can also be received simultaneously, in this approach, the network equipment can send the first data and the second data for the UE simultaneously comprising UE.UE is according to the analysis results of the first data, it is determined that the follow-up processing to second channel.Alternatively, UE can also only receive second channel, and the first channel is not received.I.e.：Network does not send the first channel, only sends the second data by second channel.

On the basis of above method embodiment of the present invention, alternatively, first channel is PICH, and the network equipment is according to the first Data duplication the number of transmissions N, before sending the data of n times first to the UE by the first channel, in addition to：The network equipment sends getting parms for paging occasion to the UE.The UE is received after the getting parms of the paging occasion that the network equipment is sent, can getting parms according to the paging occasion, obtain the paging occasion；And when the paging occasion is reached, the UE starts to receive first data that the M network equipment is sent by first channel.Alternatively, the network equipment can send getting parms for paging occasion while the first Data duplication times N and the second Data duplication number of times H is sent to UE to UE.

One of ordinary skill in the art will appreciate that：Realizing all or part of step of above method embodiment can be completed by the related hardware of programmed instruction, and foregoing program can be stored in a computer read/write memory medium, and the program upon execution, performs the step of including above method embodiment；And foregoing storage medium includes：ROM, RAM, magnetic disc or CD etc. are various can be with the medium of store program codes.

Finally it should be noted that：Various embodiments above is merely illustrative of the technical solution of the present invention, rather than its limitations；Although the present invention is described in detail with reference to foregoing embodiments, it will be understood by those within the art that：It can still modify to the technical scheme described in foregoing embodiments, or carry out equivalent substitution to which part or all technical characteristic；And these modifications or replacement, the essence of appropriate technical solution is departed from the scope of various embodiments of the present invention technical scheme.

Claims (33)

1. A kind of user equipment (UE), it is characterised in that including：

   Receiving unit, for receiving the first data that the M network equipment is sent by the first channel, the M is the positive integer less than or equal to the first Data duplication the number of transmissions N, and the N is the integer more than or equal to 2；

   Resolution unit, first data for parsing M times that the receiving unit is received obtain the analysis result of first data；

   Processing unit, for when the analysis result of first data indicates that the UE handles the second data that the network equipment is sent by second channel to the UE, handling second data.
2. UE according to claim 1, it is characterized in that, when the analysis result that the receiving unit is additionally operable to first data obtained when the resolution unit indicates that the UE receives second data, receive K second data, the K is the positive integer less than or equal to the second Data duplication number of times H, and the H is the integer more than or equal to 2.
3. UE according to claim 2, it is characterised in that the receiving unit receives K second data and specifically included：The receiving unit, for when starting to receive first data for the first time, interval receives the time described in n times needed for the first data and the time of preset time sum, or, interval receives the time and the time of preset time sum needed for N-1 first data, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.
4. UE according to claim 1, it is characterised in that the resolution unit is additionally operable to, when the analysis result of first data indicates that the UE parses second data, parses received second data of K times；

   The receiving unit is additionally operable to before the second data described in the processing unit processes, receives K second data, and the K is the positive integer less than or equal to the second Data duplication transmission times H, and the H is the integer more than or equal to 2.
5. UE according to claim 4, it is characterised in that the receiving unit receives K second data and specifically included：The receiving unit is used to, when first time starts to receive first data, be spaced preset time, or, interval receives time once needed for first data and the time of preset time sum, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.
6. UE according to claim 2-5 any one, it is characterized in that, the receiving unit is additionally operable to before the first data that the M network equipment is sent by the first channel are received, and receives the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H that the network equipment is sent.
7. UE according to claim 1-6 any one, it is characterised in that also including acquiring unit, first channel is Page Indication Channel (PICH), wherein,

   The receiving unit is additionally operable to before the first data that the M network equipment is sent by the first channel are received, and receives getting parms for the paging occasion that the network equipment is sent；

   The acquiring unit, for getting parms for the paging occasion that is received according to the receiving unit, obtains the paging occasion；

   The first data that the M network equipment of the receiving unit reception is sent by the first channel are specifically included：The receiving unit, for when the paging occasion obtained when the acquiring unit is reached, starting to receive first data that the M network equipment is sent by first channel.
8. A kind of network equipment, it is characterised in that including：

   Transmitting element, for sending the data of n times first to user equipment (UE) by the first channel；

   Determining unit, for determining whether the network equipment needs to send the second data to UE；

   The transmitting element is additionally operable to, when the determining unit determines that the network equipment needs to send the second data to UE, sends H second data to the UE by second channel, the N and the H are respectively the integer more than or equal to 2.
9. The network equipment according to claim 8, it is characterised in that the transmitting element is used to specifically include to H the second data of UE transmissions by second channel：The transmitting element is used for when starting to send first data for the first time to the UE by first channel, it is spaced preset time, or, interval sends time once needed for first data and the time of preset time sum, or, interval sends the time described in n times needed for the first data and the time of preset time sum, or, the time of time and preset time sum needed for N-1 first data of interval transmission, begin through the second channel and send H second data to the UE；

   Wherein, the preset time is the time needed for the UE parses first data.
10. The network equipment according to claim 8 or claim 9, it is characterized in that, the transmitting element is additionally operable to before the data of n times first are sent to user equipment (UE) by the first channel, and the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H is sent to the UE.
11. The network equipment according to claim 8-10 any one, it is characterized in that, first channel is Page Indication Channel (PICH), the transmitting element is additionally operable to, according to before sending the data of n times first to the UE by the first channel, getting parms for paging occasion be sent to the UE.
12. A kind of user equipment (UE), it is characterised in that including：

    Receiver, for receiving the first data that the M network equipment is sent by the first channel, the M is the positive integer less than or equal to the first Data duplication the number of transmissions N, and the N is the integer more than or equal to 2；

    Processor, first data for parsing M times that the receiver is received obtain the analysis result of first data；And when the analysis result of first data indicates that the UE handles the second data that the network equipment is sent by second channel to the UE, handle second data.
13. UE according to claim 12, it is characterized in that, the receiver is additionally operable to, when the analysis result of first data indicates that the UE receives second data, receive K second data, the K is the positive integer less than or equal to the second Data duplication number of times H, and the H is the integer more than or equal to 2.
14. UE according to claim 13, it is characterised in that the receiver, which receives K second data, to be included：The receiver is used for when starting to receive first data for the first time, interval receives the time described in n times needed for the first data and the time of preset time sum, or, interval receives the time and the time of preset time sum needed for N-1 first data, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.
15. UE according to claim 12, it is characterised in that the processor handles second data and specifically included：The processor, for when the analysis result of first data indicates that the UE parses second data, parsing received second data of K times；

    The receiver is additionally operable to before processor processing second data, receives K second data, and the K is the positive integer less than or equal to the second Data duplication transmission times H, and the H is the integer more than or equal to 2.
16. UE according to claim 15, it is characterised in that the receiver receives K second data and specifically included：The receiver is used to, when first time starts to receive first data, be spaced preset time, or, interval receives time once needed for first data and the time of preset time sum, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.
17. UE according to claim 13-16 any one, it is characterized in that, the receiver is additionally operable to before the first data that the M network equipment is sent by the first channel are received, and receives the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H that the network equipment is sent.
18. UE according to claim 12-17 any one, it is characterized in that, first channel is Page Indication Channel (PICH), the receiver is additionally operable to before the first data that the M network equipment is sent by the first channel are received, and receives getting parms for the paging occasion that the network equipment is sent；

    The processor, is additionally operable to be got parms according to the paging occasion that the receiver is received, obtains the paging occasion；

    The first data that the M network equipment of the receiver reception is sent by the first channel are specifically included：The receiver, for when the paging occasion obtained when the processor is reached, starting to receive first data that the M network equipment is sent by first channel.
19. A kind of network equipment, it is characterised in that including：

    Emitter, for sending the data of n times first to user equipment (UE) by the first channel；

    Processor, for determining whether the network equipment needs to send the second data to UE；

    The emitter is additionally operable to, when the processor determines that the network equipment needs to send the second data to UE, sends H second data to the UE by second channel, the N and the H are respectively the integer more than or equal to 2.
20. The network equipment according to claim 19, it is characterised in that the emitter sends H the second data to the UE by second channel and specifically included：The emitter is used for when starting to send first data for the first time to the UE by first channel, it is spaced preset time, or, interval sends time once needed for first data and the time of preset time sum, or, interval sends the time described in n times needed for the first data and the time of preset time sum, or, the time of time and preset time sum needed for N-1 first data of interval transmission, begin through the second channel and send H second data to the UE；

    Wherein, the preset time is the time needed for the UE parses first data.
21. The network equipment according to claim 19 or 20, it is characterized in that, the emitter is additionally operable to before the data of n times first are sent to user equipment (UE) by the first channel, and the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H is sent to the UE.
22. The network equipment according to claim 19-21 any one, it is characterized in that, first channel is Page Indication Channel (PICH), the emitter is additionally operable to, according to before sending the data of n times first to the UE by the first channel, getting parms for paging occasion be sent to the UE.
23. A kind of data transmission method, it is characterised in that including：

    User equipment (UE) receives the first data that the M network equipment is sent by the first channel, and the M is the positive integer less than or equal to the first Data duplication the number of transmissions N, and the N is the integer more than or equal to 2；

    The UE parses received first data of M times, obtains the analysis result of first data；

    When the analysis result of first data indicates that the UE handles the second data that the network equipment is sent by second channel to the UE, the UE handles second data.
24. Method according to claim 23, it is characterised in that when the analysis result of first data indicates that the UE handles the second data that the network equipment is sent by second channel to the UE, the UE handles second data, including：

    When the analysis result of first data indicates that the UE receives second data, the UE receives K second data, and the K is the positive integer less than or equal to the second Data duplication number of times H, and the H is the integer more than or equal to 2.
25. Method according to claim 24, it is characterised in that the UE receives K second data, including：

    The UE is when starting to receive first data for the first time, interval receives the time described in n times needed for the first data and the time of preset time sum, or, interval receives the time and the time of preset time sum needed for N-1 first data, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.
26. Method according to claim 23, it is characterised in that when the analysis result of first data indicates that the UE handles the second data that the network equipment is sent by second channel to the UE, the UE handles second data, including：

    When the analysis result of first data indicates that the UE parses second data, the UE parses received second data of K times；

    The UE is handled before second data, in addition to：

    The UE receives K second data, and the K is less than or equal to the second data weight Multiple transmission times H positive integer, the H is the integer more than or equal to 2.
27. Method according to claim 26, it is characterised in that the UE receives K second data, including：

    The UE is spaced preset time when first time starts to receive first data, or, interval receives time once needed for first data and the time of preset time sum, starts to receive K second data；Wherein, the preset time is the time needed for the UE parses first data.
28. Method according to claim 24-27 any one, it is characterised in that the user equipment (UE) is received before the first data that the M network equipment is sent by the first channel, in addition to：

    The UE receives the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H that the network equipment is sent.
29. Method according to claim 23-28 any one, it is characterised in that first channel is Page Indication Channel (PICH), the UE is received before the first data that the M network equipment is sent by the first channel, in addition to：The UE receives getting parms for the paging occasion that the network equipment is sent；And getting parms according to the paging occasion, obtain the paging occasion；

    The UE receives the first data that the M network equipment is sent by the first channel, including：When the paging occasion is reached, the UE starts to receive first data that the M network equipment is sent by first channel.
30. A kind of data transmission method, it is characterised in that including：

    The network equipment sends the data of n times first by the first channel to user equipment (UE), and when the network equipment needs to send the second data to UE, H second data are sent to the UE by second channel, the N and the H are respectively the integer more than or equal to 2.
31. Method according to claim 30, it is characterised in that the network equipment sends H the second data by second channel to the UE, including：

    The network equipment to the UE by first channel when starting to send first data for the first time, it is spaced preset time, or, interval sends time once needed for first data and the time of preset time sum, or, interval sends the time described in n times needed for the first data and the time of preset time sum, or, the time of time and preset time sum needed for N-1 first data of interval transmission, begin through the second channel and send H second data to the UE；

    Wherein, the preset time is the time needed for the UE parses first data.
32. Method according to claim 30 or 31, it is characterised in that before the network equipment sends the data of n times first by the first channel to user equipment (UE), in addition to：

    The network equipment sends the first Data duplication the number of transmissions N and the second Data duplication the number of transmissions H to the UE.
33. Method according to claim 30-32 any one, it is characterised in that first channel be Page Indication Channel (PICH), the network equipment according to by the first channel to the UE transmission data of n times first before, in addition to：

    The network equipment sends getting parms for paging occasion to the UE.