CN108631922A - A kind of data transmission method for uplink, data receiver method and device - Google Patents
A kind of data transmission method for uplink, data receiver method and device Download PDFInfo
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- CN108631922A CN108631922A CN201710184479.2A CN201710184479A CN108631922A CN 108631922 A CN108631922 A CN 108631922A CN 201710184479 A CN201710184479 A CN 201710184479A CN 108631922 A CN108631922 A CN 108631922A
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- 238000000034 method Methods 0.000 title claims abstract description 59
- 230000005540 biological transmission Effects 0.000 title claims abstract description 41
- 230000001360 synchronised effect Effects 0.000 claims abstract description 45
- 238000004891 communication Methods 0.000 claims description 114
- 108010076504 Protein Sorting Signals Proteins 0.000 claims description 107
- 238000013507 mapping Methods 0.000 claims description 10
- 230000011664 signaling Effects 0.000 claims description 6
- 230000002708 enhancing effect Effects 0.000 description 21
- 238000010586 diagram Methods 0.000 description 16
- 238000005516 engineering process Methods 0.000 description 2
- 238000004904 shortening Methods 0.000 description 1
Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0048—Allocation of pilot signals, i.e. of signals known to the receiver
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/0001—Systems modifying transmission characteristics according to link quality, e.g. power backoff
- H04L1/0023—Systems modifying transmission characteristics according to link quality, e.g. power backoff characterised by the signalling
- H04L1/0027—Scheduling of signalling, e.g. occurrence thereof
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
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Abstract
Disclosed herein is a kind of data transmission method for uplink, data receiver method and devices.The data transmission method for uplink includes:Increase the Secondary resource for sending the data on the basis of first resource for transmission data;The data include following one:Master synchronous signal, secondary synchronization signal data, Master Information Block data, 1 data of system information block.The technical solution of this paper can shorten system information and obtain the time.
Description
Technical field
The present invention relates to wireless communication technology field more particularly to a kind of data transmission method for uplink, data receiver methods
And device.
Background technology
In order to meet the needs of honeycomb Internet of Things, in third generation partner program (3rd Generation
Partnership Project, abbreviation 3GPP) tissue publication Rel-13 protocol versions in, be named as the machine type of enhancing
Communicate (Enhancement for Machine Type Communication, referred to as eMTC) and narrowband Internet of Things
The new access system of (NarrowBand-Cellular Internet of Things, referred to as NB-IoT) is supported.
EMTC the and NB-IoT systems are enhanced in Rel-14 protocol versions;Wherein, the enhancing of eMTC systems includes:Support higher number
According to rate, multicast transmission, the positioning of enhancing, the mobility of enhancing and the VoLTE (Voice over LTE) of enhancing are supported;Its
In, the enhancing of NB-IoT systems includes:It supports positioning, supports multicast transmission, the delay of reduction and power consumption and the Non- of enhancing
Anchor Carrier (non-anchor carrier wave) are operated.In the Rel-15 stages, for further enhancing for the eMTC and NB-IoT systems
It will be expected.
In eMTC and NB-IoT systems, in order to realize call set-up time short enough, need to keep as far as possible
The acquisition time of short system information, especially under the enhancing covering scene for needing largely to repeat.Wherein, system information obtains
The time is taken to rely upon at least the time for obtaining primary synchronization signal, secondary synchronization signal, Master Information Block and system information block 1.It is at present
Only, on how to being further reduced the acquisition time of system information still without solution.
Invention content
Technical problem to be solved by the invention is to provide a kind of data transmission method for uplink, data receiver method and device, energy
Enough shorten the acquisition time of system information.
The embodiment of the present invention provides a kind of data transmission method for uplink, including:
Increase the Secondary resource for sending the data on the basis of first resource for transmission data;The number
According to including following one:Master synchronous signal, secondary synchronization signal data, Master Information Block data, 1 data of system information block;
The data are sent on the first resource and Secondary resource.
The embodiment of the present invention provides a kind of data receiver method, including:
Determine the first resource and Secondary resource for receiving data;The data include following one:Master synchronous signal,
Secondary synchronization signal data, Master Information Block data, 1 data of system information block;
The data are received on the first resource and Secondary resource.
The embodiment of the present invention provides a kind of data sending device, including:
Resource determination module, for increasing for sending the data on the basis of first resource for transmission data
Secondary resource;The data include following one:Master synchronous signal secondary synchronization signal data, Master Information Block data, is
System 1 data of block of information;
Data transmission blocks, for sending the data on the first resource and Secondary resource.
The embodiment of the present invention provides a kind of data sink, including:
Resource determination module, for determining the first resource and Secondary resource that receive data;The data include it is following it
One:Master synchronous signal, secondary synchronization signal data, Master Information Block data, 1 data of system information block;
Data reception module, for receiving the data on the first resource and Secondary resource.
Compared with prior art, a kind of data transmission method for uplink provided by the invention, data receiver method and device, by
For increasing the Secondary resource for transmission data on the basis of the first resource of transmission data and being provided in first resource and second
Transmission data on source, increase primary synchronization signal, 1 data of secondary synchronization signal, Master Information Block or system information block transmission density,
So as to shorten the acquisition time of system information.
Description of the drawings
Fig. 1 is a kind of data transmission method for uplink flow chart of the embodiment of the present invention 1;
Fig. 2 is a kind of data receiver method flow chart of the embodiment of the present invention 2;
Fig. 3 is a kind of data sending device schematic diagram of the embodiment of the present invention 3;
Fig. 4 is a kind of data sink schematic diagram of the embodiment of the present invention 4;
Fig. 5 is to send showing for Master Information Block in example 1 of the present invention under NB-IoT systems on first resource and Secondary resource
It is intended to one;
Fig. 6 is to send showing for Master Information Block in example 2 of the present invention under NB-IoT systems on first resource and Secondary resource
It is intended to two;
Fig. 7 is the signal for sending Master Information Block in example 3 of the present invention under eMTC systems on first resource and Secondary resource
Figure one;
Fig. 8 is the signal for sending Master Information Block in example 4 of the present invention under eMTC systems on first resource and Secondary resource
Figure two;
Fig. 9 is to send system information block 1 in example 5 of the present invention under NB-IoT systems on first resource and Secondary resource
Schematic diagram;
Figure 10 is to send system information block 1 in example 6 of the present invention under eMTC systems on first resource and Secondary resource
Schematic diagram;
Figure 11 is to send system information on the Secondary resource of a non-anchor carrier wave under NB-IoT systems in example 7 of the present invention
The schematic diagram of block 1;
Figure 12 is to send primary synchronization signal in example 8 of the present invention under NB-IoT systems on first resource and Secondary resource
Schematic diagram;
Figure 13 is to send secondary synchronization signal in example 9 of the present invention under NB-IoT systems on first resource and Secondary resource
Schematic diagram.
Specific implementation mode
To make the objectives, technical solutions, and advantages of the present invention clearer, below in conjunction with attached drawing to the present invention
Embodiment be described in detail.It should be noted that in the absence of conflict, in the embodiment and embodiment in the application
Feature mutually can arbitrarily combine.
In following embodiment of the present invention, sending device includes:Base station (including macro base station, small base station and micro-base station etc.), in
After equipment, access point, remote radio-frequency heads, node B (Node B) etc..Receiving device includes:Terminal device, trunking, access
Point etc..
Embodiment 1
As shown in Figure 1, an embodiment of the present invention provides a kind of data transmission method for uplink, including:
Step S110 increases the second money for sending the data on the basis of first resource for transmission data
Source;The data include following one:Master synchronous signal, secondary synchronization signal data, Master Information Block data, system information block
1 data;
Step S120 sends the data on the first resource and Secondary resource.
The method can also include following features:
In one embodiment, increase for sending the data on the basis of first resource for transmission data
Secondary resource, including:
The candidate resource of Secondary resource is determined based on the first resource;
The Secondary resource is determined according to the candidate resource of the Secondary resource;
In one embodiment, the candidate resource according to the Secondary resource determines the Secondary resource, including:
Any one in the following ways determines the Secondary resource:
The Secondary resource is the candidate resource of the Secondary resource;
The Secondary resource is the fixed subset of the candidate resource of the Secondary resource;
The Secondary resource is the subset of the candidate resource of the Secondary resource, wherein the subset is according to described second
The candidate resource and cell ID of resource determine.
Wherein, the cell ID is the mark for the cell for sending the data.
In one embodiment, when the data are master synchronous signal, the master synchronous signal passes through
The instruction of system information block 1 is sent on the first resource and the Secondary resource;Or
Supplemented by the data when synchronization signal data, the secondary synchronization signal data pass through primary synchronization signal or system
The instruction of block of information 1 is sent on the first resource and the Secondary resource;Or
When the data are Master Information Block data, the Master Information Block data pass through primary synchronization signal, secondary synchronization signal
Or the instruction of system information block 1 is sent on the first resource and the Secondary resource;Or
When the data are 1 data of system information block, 1 data of the system information block pass through primary synchronization signal, auxiliary same
Step signal, Master Information Block or the instruction of system information block 1 are sent on the first resource and the Secondary resource.
In one embodiment, described to include by primary synchronization signal instruction:It is carried by primary synchronization signal sequence
Symbol indicates;It is described to include by secondary synchronization signal instruction:The symbol instruction carried by secondary synchronization signal sequence.
In one embodiment, when the data are 1 data of Master Information Block data or system information block, described the
Before sending the data in one resource and Secondary resource, the method further includes:By the data in first resource and second
Independent resource mapping is carried out in resource;Or the data are subjected to federated resource mapping on first resource and Secondary resource.
Such as with 1 data instance of system information block of the first FDD system, 1 data of system information block
Period is 256 radio frames, and it is 16 times to retransmit the number of transmissions, repeats to transmit corresponding continuous 16 radio frames each time;Imagine and uses
In send system information block 1 first resource be anchor carrier wave each even number radio frames subframe 4 and for sending system
The Secondary resource of block of information 1 is the subframe 4 for the odd number radio frames that the wireless frame number pair 4 of anchor carrier wave rems equal to 1.Specific to
The primary of system information block 1 repeats to transmit, and the first resource for sending system information block 1 is that continuous 16 of anchor carrier wave are wireless
The subframe 4 of 8 even number radio frames in frame and the Secondary resource for sending system information block 1 are continuous 16 of anchor carrier wave
The subframe 4 of 4 odd number radio frames in radio frames.
In this case, if resource impact of the system information block 1 on first resource and Secondary resource independently carries out,
The tune that then system information block 1 can be carried according to first resource (subframes 4 of 8 even number radio frames in i.e. continuous 16 radio frames)
Symbolic number processed carries out channel coding/modulation operations and the available resource list that the modulation symbol of output is mapped to first resource
Member;The modulation symbol number that can be carried according to Secondary resource (subframes 4 of 4 odd number radio frames in i.e. continuous 16 radio frames) into
Row channel coding/modulation operations and the available resource unit that the modulation symbol of output is mapped to Secondary resource.
If resource impact joint of the system information block 1 on first resource and Secondary resource carries out, system information block 1
According to first resource (subframes 4 of 8 even number radio frames in i.e. continuous 16 radio frames) and Secondary resource (i.e. continuous 16 nothings
The subframe 4 of 4 odd number radio frames in line frame) the modulation symbol number that can carry in total carry out channel coding/modulation operations and
The available resource unit that the modulation symbol of output is first mapped to first resource re-maps the available resource of Secondary resource
Unit.
(1) data are master synchronous signal
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are master synchronous signal, when the communication system where the first resource is that the first frequency division is double
Work (Frequency Division Duplexing, abbreviation FDD) system, and the first resource is anchor carrier wave (anchor
When the subframe 5 of each radio frames Carrier), the candidate resource of the Secondary resource is at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、4、6、7、8、9.
Wherein, the anchor carrier wave is for sending the carrier wave where the first resource of primary synchronization signal.
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are master synchronous signal, when the communication system where the first resource is that the second frequency division is double
Work (FDD system, and last 1 OFDM symbol of time slot 0 for the subframe 0 that the first resource is each radio frames and each
When last 1 OFDM symbol of the time slot 0 of the subframe 5 of a radio frames, the candidate resource of the Secondary resource is:Each is wireless
At least one of the specified OFDM symbol set that the subframe 5 of frame is included OFDM symbol;
Wherein, the specified OFDM symbol set includes:Except last 2 OFDM symbols of preceding 3 OFDM symbols and time slot 0
Other all OFDM symbols in addition
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are master synchronous signal, when the communication system where the first resource is time division duplex
(Time Division Duplexing, abbreviation TDD) system, and the time slot for the subframe 1 that the first resource is each radio frames
When 0 the 3rd OFDM symbol and the 3rd OFDM symbol of 6 time slot 0 of subframe of each radio frames, the Secondary resource candidate money
Source is at least one of:
1st OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
1st OFDM symbol of the time slot 0 of the subframe 6 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 6 of each radio frames.
In one embodiment, when the data are master synchronous signal, the master that is sent on the Secondary resource
Synchronizing signal is different from the sequence that the primary synchronization signal sent on first resource uses;
In one embodiment, the primary synchronization signal sent on Secondary resource is sent out on the first resource
The sequence that the primary synchronization signal sent uses is different, including following one:
Primary synchronization signal sequence on Secondary resource is:The scrambled behaviour of primary synchronization signal sequence on first resource
Sequence after work;
Primary synchronization signal sequence on first resource is:The basic sequence of primary synchronization signal is added according to the first scrambler
Sequence after disturbing;Primary synchronization signal sequence on Secondary resource is:The basic sequence of primary synchronization signal according to the second scrambler into
Sequence after row scrambling;
Primary synchronization signal sequence on Secondary resource is:Primary synchronization signal sequence on first resource is with element group
Granularity rearrange after sequence.
For example, it is envisioned that the primary synchronization signal sequence on first resource includes 121 elements;Master on first resource is same
It is divided into one group per continuous 11 elements in step signal sequence, common property gives birth to 11 element groups;Again by above-mentioned 11 element groups
Arrangement;Finally, the primary synchronization signal sequence on Secondary resource is after 11 element groups after above-mentioned rearrange are sequentially connected and connect
The sequence of generation.
(2) synchronization signal data supplemented by the data
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is that the first frequency division is double
Work FDD system, and when the subframe 9 for each even number radio frames that the first resource is anchor carrier wave, the time of the Secondary resource
It is at least one of to select resource:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe 9 of one non-anchor carrier wave each odd number radio frames;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、4、5、6、7、8.
Wherein, the anchor carrier wave is for sending the carrier wave where the first resource of secondary synchronization signal.
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is that the second frequency division is double
Work FDD system, and the second-to-last OFDM symbol of time slot 0 for the subframe 0 that the first resource is each radio frames and each
When the second-to-last OFDM symbol of the time slot 0 of the subframe 5 of a radio frames, the candidate resource of the Secondary resource is:Each nothing
At least one of the specified OFDM symbol set that the subframe 5 of line frame is included OFDM symbol;
Wherein, the specified OFDM symbol set includes:Except last 2 OFDM symbols of preceding 3 OFDM symbols and time slot 0
Other all OFDM symbols in addition.
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is time division duplex
TDD system, and last 1 OFDM symbol and each nothing of the time slot 1 for the subframe 0 that the first resource is each radio frames
When last 1 OFDM symbol of the time slot 1 of the subframe 5 of line frame, the candidate resource of the Secondary resource is at least one of:
1st OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
1st OFDM symbol of the time slot 0 of the subframe 6 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 6 of each radio frames.
In one embodiment, it is sent on the Secondary resource when synchronization signal data supplemented by the data
Secondary synchronization signal is different from the sequence that the secondary synchronization signal sent on the first resource uses;
In one embodiment, the secondary synchronization signal sent on the Secondary resource is sent out on the first resource
The sequence that the secondary synchronization signal sent uses is different, including at least one of:
Secondary synchronization signal sequence on Secondary resource is:The scrambled behaviour of secondary synchronization signal sequence on first resource
Sequence after work;
Secondary synchronization signal sequence on first resource is:The basic sequence of secondary synchronization signal is added according to the first scrambler
Sequence after disturbing;Secondary synchronization signal sequence on Secondary resource is:The basic sequence of secondary synchronization signal according to the second scrambler into
Sequence after row scrambling;
Secondary synchronization signal sequence on Secondary resource is:Secondary synchronization signal sequence on first resource is with element group
Granularity rearrange after sequence.
It should be noted that for the first FDD system, the secondary synchronization signal sequence on first resource is carrying
The secondary synchronization signal sequence in a subframe in first resource, the secondary synchronization signal sequence on Secondary resource is to be carried on
The secondary synchronization signal sequence in a subframe in two resources;Similar, for the second FDD system and time division duplex
TDD system, the secondary synchronization signal sequence on first resource are the auxiliary synchronous letters being carried in first resource in an OFDM symbol
Number sequence, the secondary synchronization signal sequence on Secondary resource is the secondary synchronization signal being carried in Secondary resource in an OFDM symbol
Sequence.
(3) data are Master Information Block data
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are Master Information Block data, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 0 for each radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource
For at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:1、2、3、4、5、6、7、8、9.
Wherein, the anchor carrier wave is for sending the carrier wave where the first resource of Master Information Block.
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are Master Information Block data, when the communication system where the first resource is the second frequency division duplex
FDD system, and the first resource be each radio frames subframe 0 and subframe 9 when, the candidate resource of the Secondary resource is
At least one of:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are Master Information Block data, when the communication system where the first resource is Time Division Duplex TDD
System, and when subframe 0 and subframe 5 that the first resource is each radio frames, the candidate resource of the Secondary resource be with
It is at least one lower:
The subframe 1 of each radio frames;
The subframe 6 of each radio frames;
The subframe x of each radio frames;
Wherein, the x is one of following value:4、9.
(4) data are 1 data of system information block
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 4 for each even number radio frames that the first resource is anchor carrier wave, the candidate of the Secondary resource
Resource is at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each odd number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each odd number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、5、6、7、8、9.
Wherein, the anchor carrier wave is for sending the carrier wave where the first resource of system information block 1.
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 4 for each odd number radio frames that the first resource is anchor carrier wave, the candidate of the Secondary resource
Resource is at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each even number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each even number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、5、6、7、8、9.
Wherein, the anchor carrier wave is for sending the carrier wave where the first resource of system information block 1.
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the second frequency division duplex
FDD system, and the first resource be each radio frames subframe 4 and subframe 9 when, the candidate resource of the Secondary resource is
At least one of:
The subframe 0 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the second frequency division duplex
FDD system, and the first resource be each radio frames subframe 0 and subframe 9 when, the candidate resource of the Secondary resource is
At least one of:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is Time Division Duplex TDD system
System, and when subframe 0 and subframe 5 that the first resource is each radio frames, the candidate resource of the Secondary resource is following
At least one:
The subframe 1 of each radio frames;
The subframe 6 of each radio frames;
The subframe x of each radio frames, wherein the x is one of following value:4、9.
In one embodiment, the first frequency division duplex (Frequency Division Duplexing, abbreviation FDD) system
System includes:Narrowband Internet of Things (NarrowBand-Cellular Internet of Things, referred to as NB-IoT) frequency division is double
The evolution system of work FDD system, narrowband Internet of Things NB-IoT FDD systems;
Second FDD system includes:Machine type communication (the Enhancement for Machine Type of enhancing
Communication, referred to as eMTC) FDD system, enhancing machine type communication eMTC Frequency Division Duplex FDD system
The evolution system of system;
In one embodiment, time division duplex (Time Division Duplexing, abbreviation TDD) system includes:Increase
Strong machine type communication (Enhancement for Machine Type Communication, the referred to as eMTC) time-division is double
Work TDD system, enhancing machine type communication eMTC TDD systems evolution system;
The method of above-described embodiment is used for transmission data by increasing on the basis of the first resource for transmission data
Secondary resource and the transmission data on first resource and Secondary resource, increase primary synchronization signal, secondary synchronization signal, main information
The transmission density of 1 data of block or system information block reaches the required data receipt time of intended recipient performance to reduce,
The final acquisition time for shortening system information.
Embodiment 2
As shown in Fig. 2, an embodiment of the present invention provides a kind of data receiver methods, including:
Step S210 determines the first resource and Secondary resource for receiving data;The data include following one:Main synchronization
Signal data, secondary synchronization signal data, Master Information Block data, 1 data of system information block;
Step S220 receives the data on the first resource and Secondary resource.
In one embodiment, described to receive the data on the first resource and Secondary resource, including:
It first attempts to receive the data on first resource, if without successfully decoded, reattempt in first resource and
The data are received in two resources;
In one embodiment, before the determining first resource and Secondary resource for receiving data, further include:
The data are received on first resource and Secondary resource according to indication signaling determination.
In one embodiment, the determining first resource and Secondary resource for receiving data, including:
The candidate resource of Secondary resource is determined based on the first resource;
The Secondary resource is determined according to the candidate resource of the Secondary resource.
In one embodiment, the candidate resource according to the Secondary resource determines the Secondary resource, including:
Any one in the following ways determines the Secondary resource:
The Secondary resource is the candidate resource of the Secondary resource;
The Secondary resource is the fixed subset of the candidate resource of the Secondary resource;
The Secondary resource is the subset of the candidate resource of the Secondary resource, wherein the subset is according to described second
The candidate resource and cell ID of resource determine.
Wherein, the cell ID is the mark for the cell for sending the data.
In one embodiment, when the data are master synchronous signal, the master synchronous signal passes through
The instruction of system information block 1 is sent on the first resource and the Secondary resource;Or
Supplemented by the data when synchronization signal data, the secondary synchronization signal data pass through primary synchronization signal or system
The instruction of block of information 1 is sent on the first resource and the Secondary resource;Or
When the data are Master Information Block data, the Master Information Block data pass through primary synchronization signal, secondary synchronization signal
Or the instruction of system information block 1 is sent on the first resource and the Secondary resource;Or
When the data are 1 data of system information block, 1 data of the system information block pass through primary synchronization signal, auxiliary same
Step signal, Master Information Block or the instruction of system information block 1 are sent on the first resource and the Secondary resource.
In one embodiment, described to include by primary synchronization signal instruction:It is carried by primary synchronization signal sequence
Symbol indicates;It is described to include by secondary synchronization signal instruction:The symbol instruction carried by secondary synchronization signal sequence.
In one embodiment, the data carry out independent resource mapping on first resource and Secondary resource;Or
The data carry out federated resource mapping on first resource and Secondary resource.
(1) data are master synchronous signal
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are master synchronous signal, when the communication system where the first resource is that the first frequency division is double
Work (Frequency Division Duplexing, abbreviation FDD) system, and the first resource is anchor carrier wave (anchor
When the subframe 5 of each radio frames Carrier), the candidate resource of the Secondary resource is at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:0、1、2、3、4、
6、7、8、9。
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are master synchronous signal, when the communication system where the first resource is that the second frequency division is double
Work (FDD system, and last 1 OFDM symbol of time slot 0 for the subframe 0 that the first resource is each radio frames and each
When last 1 OFDM symbol of the time slot 0 of the subframe 5 of a radio frames, the candidate resource of the Secondary resource is:Each is wireless
At least one of the specified OFDM symbol set that the subframe 5 of frame is included OFDM symbol;
Wherein, the specified OFDM symbol set includes:Except last 2 OFDM symbols of preceding 3 OFDM symbols and time slot 0
Other all OFDM symbols in addition
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are master synchronous signal, when the communication system where the first resource is time division duplex
(Time Division Duplexing, abbreviation TDD) system, and the first resource be each radio frames subframe 1 when
When the 3rd OFDM symbol of the time slot 0 of the 3rd OFDM symbol of gap 0 and the subframe 6 of each radio frames, the Secondary resource
Candidate resource be at least one of:
1st OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
1st OFDM symbol of the time slot 0 of the subframe 6 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 6 of each radio frames.
In one embodiment, when the data are master synchronous signal, the master that is sent on the Secondary resource
Synchronizing signal is different from the sequence that the primary synchronization signal sent on the first resource uses;
In one embodiment, the primary synchronization signal sent on Secondary resource is sent out on the first resource
The sequence that the primary synchronization signal sent uses is different, including following one:
Primary synchronization signal sequence on Secondary resource is:The scrambled behaviour of primary synchronization signal sequence on first resource
Sequence after work;
Primary synchronization signal sequence on first resource is:The basic sequence of primary synchronization signal is added according to the first scrambler
Sequence after disturbing;Primary synchronization signal sequence on Secondary resource is:The basic sequence of primary synchronization signal according to the second scrambler into
Sequence after row scrambling;
Primary synchronization signal sequence on Secondary resource is:Primary synchronization signal sequence on first resource is with element group
Granularity rearrange after sequence.
(2) synchronization signal data supplemented by the data
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is that the first frequency division is double
Work FDD system, and when the subframe 9 for each even number radio frames that the first resource is anchor carrier wave, the time of the Secondary resource
It is at least one of to select resource:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe 9 of one non-anchor carrier wave each odd number radio frames;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:0、1、2、3、4、
5、6、7、8。
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is that the second frequency division is double
Work FDD system, and the second-to-last OFDM symbol of time slot 0 for the subframe 0 that the first resource is each radio frames and each
When the second-to-last OFDM symbol of the time slot 0 of the subframe 5 of a radio frames, the candidate resource of the Secondary resource is:Each nothing
At least one of the specified OFDM symbol set that the subframe 5 of line frame is included OFDM symbol;
Wherein, the specified OFDM symbol set includes:Except last 2 OFDM symbols of preceding 3 OFDM symbols and time slot 0
Other all OFDM symbols in addition.
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is time division duplex
TDD system, and last 1 OFDM symbol and each nothing of the time slot 1 for the subframe 0 that the first resource is each radio frames
When last 1 OFDM symbol of the time slot 1 of the subframe 5 of line frame, the candidate resource of the Secondary resource is at least one of:
1st OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
1st OFDM symbol of the time slot 0 of the subframe 6 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 6 of each radio frames.
In one embodiment, it is sent on the Secondary resource when synchronization signal data supplemented by the data
Secondary synchronization signal is different from the sequence that the secondary synchronization signal sent on the first resource uses;
In one embodiment, the secondary synchronization signal sent on the Secondary resource is sent out on the first resource
The sequence that the secondary synchronization signal sent uses is different, including at least one of:
Secondary synchronization signal sequence on Secondary resource is:The scrambled behaviour of secondary synchronization signal sequence on first resource
Sequence after work;
Secondary synchronization signal sequence on first resource is:The basic sequence of secondary synchronization signal is added according to the first scrambler
Sequence after disturbing;Secondary synchronization signal sequence on Secondary resource is:The basic sequence of secondary synchronization signal according to the second scrambler into
Sequence after row scrambling;
Secondary synchronization signal sequence on Secondary resource is:Secondary synchronization signal sequence on first resource is with element group
Granularity rearrange after sequence.
(3) data are Master Information Block data
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are Master Information Block data, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 0 for each radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource
For at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:1、2、3、4、5、
6、7、8、9。
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are Master Information Block data, when the communication system where the first resource is the second frequency division duplex
FDD system, and the first resource be each radio frames subframe 0 and subframe 9 when, the candidate resource of the Secondary resource is
At least one of:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames, wherein the x is one of following value:1、2、3、6、7、8.
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are Master Information Block data, when the communication system where the first resource is Time Division Duplex TDD
System, and when subframe 0 and subframe 5 that the first resource is each radio frames, the candidate resource of the Secondary resource be with
It is at least one lower:
The subframe 1 of each radio frames;
The subframe 6 of each radio frames;
The subframe x of each radio frames;Wherein, the x is one of following value:4、9.
(4) data are 1 data of system information block
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 4 for each even number radio frames that the first resource is anchor carrier wave, the candidate of the Secondary resource
Resource is at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each odd number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each odd number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:0、1、2、3、5、
6、7、8、9。
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 4 for each odd number radio frames that the first resource is anchor carrier wave, the candidate of the Secondary resource
Resource is at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each even number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each even number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:0、1、2、3、5、
6、7、8、9。
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the second frequency division duplex
FDD system, and the first resource be each radio frames subframe 4 and subframe 9 when, the candidate resource of the Secondary resource is
At least one of:
The subframe 0 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames, wherein the x is one of following value:1、2、3、6、7、8.
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the second frequency division duplex
FDD system, and the first resource be each radio frames subframe 0 and subframe 9 when, the candidate resource of the Secondary resource is
At least one of:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames, wherein the x is one of following value:1、2、3、6、7、8.
In one embodiment, the candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is Time Division Duplex TDD system
System, and when subframe 0 and subframe 5 that the first resource is each radio frames, the candidate resource of the Secondary resource is following
At least one:
The subframe 1 of each radio frames;
The subframe 6 of each radio frames;
The subframe x of each radio frames, wherein the x is one of following value:4、9.
In one embodiment, the first frequency division duplex (Frequency Division Duplexing, abbreviation FDD) system
System includes:Narrowband Internet of Things (NarrowBand-Cellular Internet of Things, referred to as NB-IoT) frequency division is double
The evolution system of work FDD system, narrowband Internet of Things NB-IoT FDD systems;
Second FDD system includes:Machine type communication (the Enhancement for Machine Type of enhancing
Communication, referred to as eMTC) FDD system, enhancing machine type communication eMTC Frequency Division Duplex FDD system
The evolution system of system;
In one embodiment, time division duplex (Time Division Duplexing, abbreviation TDD) system includes:Increase
Strong machine type communication (Enhancement for Machine Type Communication, the referred to as eMTC) time-division is double
Work TDD system, enhancing machine type communication eMTC TDD systems evolution system.
The method of above-described embodiment, receiving device increase master by receiving data on first resource and Secondary resource
The reception density of synchronizing signal, 1 data of secondary synchronization signal, Master Information Block or system information block reaches target and connects to reduce
The required data receipt time of performance is received, the acquisition time of system information is finally shortened.
Embodiment 3
As shown in figure 3, an embodiment of the present invention provides a kind of data sending devices, including:
Resource determination module 301, it is described for sending for increasing on the basis of the first resource for transmission data
The Secondary resource of data;The data include following one:Master synchronous signal, secondary synchronization signal data, main information block number
According to, 1 data of system information block;
Data transmission blocks 302, for sending the data on the first resource and Secondary resource.
Described device can also include following features:
In one embodiment, resource determination module, in the following ways in the first money for transmission data
Increase the Secondary resource for sending the data on the basis of source:The candidate money of Secondary resource is determined based on the first resource
Source;The Secondary resource is determined according to the candidate resource of the Secondary resource.
In one embodiment, resource determination module, in the following ways according to the candidate of the Secondary resource
Resource determines the Secondary resource:
Any one in the following ways determines the Secondary resource:
The Secondary resource is the candidate resource of the Secondary resource;
The Secondary resource is the fixed subset of the candidate resource of the Secondary resource;
The Secondary resource is the subset of the candidate resource of the Secondary resource, wherein the subset is according to described second
The candidate resource and cell ID of resource determine.
In one embodiment, when the data are master synchronous signal, the master synchronous signal passes through
The instruction of system information block 1 is sent on the first resource and the Secondary resource;Or
Supplemented by the data when synchronization signal data, the secondary synchronization signal data pass through primary synchronization signal or system
The instruction of block of information 1 is sent on the first resource and the Secondary resource;Or
When the data are Master Information Block data, the Master Information Block data pass through primary synchronization signal, secondary synchronization signal
Or the instruction of system information block 1 is sent on the first resource and the Secondary resource;Or
When the data are 1 data of system information block, 1 data of the system information block pass through primary synchronization signal, auxiliary same
Step signal, Master Information Block or the instruction of system information block 1 are sent on the first resource and the Secondary resource.
In one embodiment, described to include by primary synchronization signal instruction:It is carried by primary synchronization signal sequence
Symbol indicates;It is described to include by secondary synchronization signal instruction:The symbol instruction carried by secondary synchronization signal sequence.
In one embodiment, resource determination module is additionally operable to when the data be that Master Information Block data or system are believed
When ceasing 1 data of block, the data are subjected to independent resource mapping on first resource and Secondary resource;Or the data are existed
Federated resource mapping is carried out on first resource and Secondary resource.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are master synchronous signal, when the communication system where the first resource is that the first frequency division is double
Work FDD system, and when the subframe 5 for each radio frames that the first resource is anchor carrier wave, the candidate money of the Secondary resource
Source is at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:0、1、2、3、4、
6、7、8、9。
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are master synchronous signal, when the communication system where the first resource is that the second frequency division is double
Work FDD system, and the first resource is last 1 OFDM symbol of the time slot 0 of the subframe 0 of each radio frames and each
When last 1 OFDM symbol of the time slot 0 of the subframe 5 of radio frames, the candidate resource of the Secondary resource is:Each radio frames
At least one of the specified OFDM symbol set that is included of subframe 5 OFDM symbol;
Wherein, the specified OFDM symbol set includes:Except last 2 OFDM symbols of preceding 3 OFDM symbols and time slot 0
Other all OFDM symbols in addition.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are master synchronous signal, when the communication system where the first resource is time division duplex
TDD system, and the 3rd OFDM symbol of the time slot 0 for the subframe 1 that the first resource is each radio frames is wireless with each
When the 3rd OFDM symbol of the time slot 0 of the subframe 6 of frame, the candidate resource of the Secondary resource is at least one of:
1st OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
1st OFDM symbol of the time slot 0 of the subframe 6 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 6 of each radio frames.
In one embodiment, it when the data are master synchronous signal, is sent on the Secondary resource
Primary synchronization signal is different from the sequence that the primary synchronization signal sent on the first resource uses.
In one embodiment, the primary synchronization signal sent on Secondary resource is sent out on the first resource
The sequence that the primary synchronization signal sent uses is different, including following one:
Primary synchronization signal sequence on Secondary resource is:The scrambled behaviour of primary synchronization signal sequence on first resource
Sequence after work;Or
Primary synchronization signal sequence on first resource is:The basic sequence of primary synchronization signal is added according to the first scrambler
Sequence after disturbing;Primary synchronization signal sequence on Secondary resource is:The basic sequence of primary synchronization signal according to the second scrambler into
Sequence after row scrambling;Or
Primary synchronization signal sequence on Secondary resource is:Primary synchronization signal sequence on first resource is with element group
Granularity rearrange after sequence.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is that the first frequency division is double
Work FDD system, and when the subframe 9 for each even number radio frames that the first resource is anchor carrier wave, the time of the Secondary resource
It is at least one of to select resource:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe 9 of one non-anchor carrier wave each odd number radio frames;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:0、1、2、3、4、
5、6、7、8。
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is that the second frequency division is double
Work FDD system, and the second-to-last OFDM symbol of time slot 0 for the subframe 0 that the first resource is each radio frames and each
When the second-to-last OFDM symbol of the time slot 0 of the subframe 5 of a radio frames, the candidate resource of the Secondary resource is:Each nothing
At least one of the specified OFDM symbol set that the subframe 5 of line frame is included OFDM symbol;
Wherein, the specified OFDM symbol set includes:Except last 2 OFDM symbols of preceding 3 OFDM symbols and time slot 0
Other all OFDM symbols in addition.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is time division duplex
TDD system, and last 1 OFDM symbol and each nothing of the time slot 1 for the subframe 0 that the first resource is each radio frames
When last 1 OFDM symbol of the time slot 1 of the subframe 5 of line frame, the candidate resource of the Secondary resource is at least one of:
1st OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
1st OFDM symbol of the time slot 0 of the subframe 6 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 6 of each radio frames.
In one embodiment, it is sent on the Secondary resource when synchronization signal data supplemented by the data
Secondary synchronization signal is different from the sequence that the secondary synchronization signal sent on the first resource uses.
In one embodiment, the secondary synchronization signal sent on the Secondary resource is sent out on the first resource
The sequence that the secondary synchronization signal sent uses is different, including at least one of:
Secondary synchronization signal sequence on Secondary resource is:The scrambled behaviour of secondary synchronization signal sequence on first resource
Sequence after work;Or
Secondary synchronization signal sequence on first resource is:The basic sequence of secondary synchronization signal is added according to the first scrambler
Sequence after disturbing;Secondary synchronization signal sequence on Secondary resource is:The basic sequence of secondary synchronization signal according to the second scrambler into
Sequence after row scrambling;Or
Secondary synchronization signal sequence on Secondary resource is:Secondary synchronization signal sequence on first resource is with element group
Granularity rearrange after sequence.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are Master Information Block data, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 0 for each radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource
For at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:1、2、3、4、5、
6、7、8、9。
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are Master Information Block data, when the communication system where the first resource is the second frequency division duplex
FDD system, and the first resource be each radio frames subframe 0 and subframe 9 when, the candidate resource of the Secondary resource is
At least one of:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames, wherein the x is one of following value:1、2、3、6、7、8.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are Master Information Block data, when the communication system where the first resource is Time Division Duplex TDD
System, and when subframe 0 and subframe 5 that the first resource is each radio frames, the candidate resource of the Secondary resource be with
It is at least one lower:
The subframe 1 of each radio frames;
The subframe 6 of each radio frames;
The subframe x of each radio frames;Wherein, the x is one of following value:4、9.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are system information block 1, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 4 for each even number radio frames that the first resource is anchor carrier wave, the candidate of the Secondary resource
Resource is at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each odd number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each odd number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:0、1、2、3、5、
6、7、8、9。
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are system information block 1, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 4 for each odd number radio frames that the first resource is anchor carrier wave, the candidate of the Secondary resource
Resource is at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each even number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each even number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:0、1、2、3、5、
6、7、8、9。
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are system information block 1, when the communication system where the first resource is the second frequency division duplex
FDD system, and the first resource be each radio frames subframe 4 and subframe 9 when, the candidate resource of the Secondary resource is
At least one of:
The subframe 0 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames, wherein the x is one of following value:1、2、3、6、7、8.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are system information block 1, when the communication system where the first resource is the second frequency division duplex
FDD system, and the first resource be each radio frames subframe 0 and subframe 9 when, the candidate resource of the Secondary resource is
At least one of:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames, wherein the x is one of following value:1、2、3、6、7、8.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are system information block 1, when the communication system where the first resource is Time Division Duplex TDD system
System, and when subframe 0 and subframe 5 that the first resource is each radio frames, the candidate resource of the Secondary resource is following
At least one:
The subframe 1 of each radio frames;
The subframe 6 of each radio frames;
The subframe x of each radio frames, wherein the x is one of following value:4、9.
In one embodiment, the first frequency division duplex (Frequency Division Duplexing, abbreviation FDD) system
System includes:Narrowband Internet of Things (NarrowBand-Cellular Internet of Things, referred to as NB-IoT) frequency division is double
The evolution system of work FDD system, narrowband Internet of Things NB-IoT FDD systems;
Second FDD system includes:Machine type communication (the Enhancement for Machine Type of enhancing
Communication, referred to as eMTC) FDD system, enhancing machine type communication eMTC Frequency Division Duplex FDD system
The evolution system of system;
In one embodiment, time division duplex (Time Division Duplexing, abbreviation TDD) system includes:Increase
Strong machine type communication (Enhancement for Machine Type Communication, the referred to as eMTC) time-division is double
Work TDD system, enhancing machine type communication eMTC TDD systems evolution system;
Embodiment 4
As shown in figure 4, an embodiment of the present invention provides a kind of data sinks, including:
Resource determination module 401, for determining the first resource and Secondary resource that receive data;The data include following
One of:Master synchronous signal, secondary synchronization signal data, Master Information Block data, 1 data of system information block;
Data reception module 402, for receiving the data on the first resource and Secondary resource.
Described device can also include following features:
In one embodiment, data reception module, for being provided in the following ways in the first resource and second
The data are received on source:It first attempts to receive the data on first resource, if without successfully decoded, reattempt first
The data are received in resource and Secondary resource;
In one embodiment, resource determination module is additionally operable to be determined in first resource and second according to indication signaling
The data are received in resource.
In one embodiment, resource determination module, for determining the first resource for receiving data in the following ways
And Secondary resource:The candidate resource of Secondary resource is determined based on the first resource;According to the candidate resource of the Secondary resource
Determine the Secondary resource.
In one embodiment, resource determination module, in the following ways according to the candidate of the Secondary resource
Resource determines the Secondary resource:
Any one in the following ways determines the Secondary resource:
The Secondary resource is the candidate resource of the Secondary resource;
The Secondary resource is the fixed subset of the candidate resource of the Secondary resource;
The Secondary resource is the subset of the candidate resource of the Secondary resource, wherein the subset is according to described second
The candidate resource and cell ID of resource determine.
In one embodiment, when the data are master synchronous signal, the master synchronous signal passes through
The instruction of system information block 1 is sent on the first resource and the Secondary resource;Or
Supplemented by the data when synchronization signal data, the secondary synchronization signal data pass through primary synchronization signal or system
The instruction of block of information 1 is sent on the first resource and the Secondary resource;Or
When the data are Master Information Block data, the Master Information Block data pass through primary synchronization signal, secondary synchronization signal
Or the instruction of system information block 1 is sent on the first resource and the Secondary resource;Or
When the data are 1 data of system information block, 1 data of the system information block pass through primary synchronization signal, auxiliary same
Step signal, Master Information Block or the instruction of system information block 1 are sent on the first resource and the Secondary resource.
In one embodiment, include by primary synchronization signal instruction:The symbol carried by primary synchronization signal sequence
Instruction;It is described to include by secondary synchronization signal instruction:The symbol instruction carried by secondary synchronization signal sequence.
In one embodiment, the data carry out independent resource mapping on first resource and Secondary resource;Or
The data carry out federated resource mapping on first resource and Secondary resource.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are master synchronous signal, when the communication system where the first resource is that the first frequency division is double
Work FDD system, and when the subframe 5 for each radio frames that the first resource is anchor carrier wave, the candidate money of the Secondary resource
Source is at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:0、1、2、3、4、
6、7、8、9。
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are master synchronous signal, when the communication system where the first resource is that the second frequency division is double
Work FDD system, and the first resource is last 1 OFDM symbol of the time slot 0 of the subframe 0 of each radio frames and each
When last 1 OFDM symbol of the time slot 0 of the subframe 5 of radio frames, the candidate resource of the Secondary resource is:Each radio frames
At least one of the specified OFDM symbol set that is included of subframe 5 OFDM symbol;
Wherein, the specified OFDM symbol set includes:Except last 2 OFDM symbols of preceding 3 OFDM symbols and time slot 0
Other all OFDM symbols in addition.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are master synchronous signal, when the communication system where the first resource is time division duplex
TDD system, and the 3rd OFDM symbol of the time slot 0 for the subframe 1 that the first resource is each radio frames is wireless with each
When the 3rd OFDM symbol of the time slot 0 of the subframe 6 of frame, the candidate resource of the Secondary resource is at least one of:
1st OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
1st OFDM symbol of the time slot 0 of the subframe 6 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 6 of each radio frames.
In one embodiment, it when the data are master synchronous signal, is sent on the Secondary resource
Primary synchronization signal is different from the sequence that the primary synchronization signal sent on the first resource uses.
In one embodiment, the primary synchronization signal sent on Secondary resource is sent out on the first resource
The sequence that the primary synchronization signal sent uses is different, including following one:
Primary synchronization signal sequence on Secondary resource is:The scrambled behaviour of primary synchronization signal sequence on first resource
Sequence after work;Or
Primary synchronization signal sequence on first resource is:The basic sequence of primary synchronization signal is added according to the first scrambler
Sequence after disturbing;Primary synchronization signal sequence on Secondary resource is:The basic sequence of primary synchronization signal according to the second scrambler into
Sequence after row scrambling;Or
Primary synchronization signal sequence on Secondary resource is:Primary synchronization signal sequence on first resource is with element group
Granularity rearrange after sequence.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is that the first frequency division is double
Work FDD system, and when the subframe 9 for each even number radio frames that the first resource is anchor carrier wave, the time of the Secondary resource
It is at least one of to select resource:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe 9 of one non-anchor carrier wave each odd number radio frames;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:0、1、2、3、4、
5、6、7、8。
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is that the second frequency division is double
Work FDD system, and the second-to-last OFDM symbol of time slot 0 for the subframe 0 that the first resource is each radio frames and each
When the second-to-last OFDM symbol of the time slot 0 of the subframe 5 of a radio frames, the candidate resource of the Secondary resource is:Each nothing
At least one of the specified OFDM symbol set that the subframe 5 of line frame is included OFDM symbol;
Wherein, the specified OFDM symbol set includes:Except last 2 OFDM symbols of preceding 3 OFDM symbols and time slot 0
Other all OFDM symbols in addition.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is time division duplex
TDD system, and last 1 OFDM symbol and each nothing of the time slot 1 for the subframe 0 that the first resource is each radio frames
When last 1 OFDM symbol of the time slot 1 of the subframe 5 of line frame, the candidate resource of the Secondary resource is at least one of:
1st OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
1st OFDM symbol of the time slot 0 of the subframe 6 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 6 of each radio frames.
In one embodiment, it is sent on the Secondary resource when synchronization signal data supplemented by the data
Secondary synchronization signal is different from the sequence that the secondary synchronization signal sent on the first resource uses.
In one embodiment, the secondary synchronization signal sent on the Secondary resource is sent out on the first resource
The sequence that the secondary synchronization signal sent uses is different, including at least one of:
Secondary synchronization signal sequence on Secondary resource is:The scrambled behaviour of secondary synchronization signal sequence on first resource
Sequence after work;Or
Secondary synchronization signal sequence on first resource is:The basic sequence of secondary synchronization signal is added according to the first scrambler
Sequence after disturbing;Secondary synchronization signal sequence on Secondary resource is:The basic sequence of secondary synchronization signal according to the second scrambler into
Sequence after row scrambling;Or
Secondary synchronization signal sequence on Secondary resource is:Secondary synchronization signal sequence on first resource is with element group
Granularity rearrange after sequence.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are Master Information Block data, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 0 for each radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource
For at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:1、2、3、4、5、
6、7、8、9。
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are Master Information Block data, when the communication system where the first resource is the second frequency division duplex
FDD system, and the first resource be each radio frames subframe 0 and subframe 9 when, the candidate resource of the Secondary resource is
At least one of:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames, wherein the x is one of following value:1、2、3、6、7、8.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are Master Information Block data, when the communication system where the first resource is Time Division Duplex TDD
System, and when subframe 0 and subframe 5 that the first resource is each radio frames, the candidate resource of the Secondary resource be with
It is at least one lower:
The subframe 1 of each radio frames;
The subframe 6 of each radio frames;
The subframe x of each radio frames;Wherein, the x is one of following value:4、9.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are system information block 1, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 4 for each even number radio frames that the first resource is anchor carrier wave, the candidate of the Secondary resource
Resource is at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each odd number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each odd number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:0、1、2、3、5、
6、7、8、9。
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are system information block 1, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 4 for each odd number radio frames that the first resource is anchor carrier wave, the candidate of the Secondary resource
Resource is at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each even number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave, wherein the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each even number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave, wherein the y is one of following value:0、1、2、3、5、
6、7、8、9。
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are system information block 1, when the communication system where the first resource is the second frequency division duplex
FDD system, and the first resource be each radio frames subframe 4 and subframe 9 when, the candidate resource of the Secondary resource is
At least one of:
The subframe 0 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames, wherein the x is one of following value:1、2、3、6、7、8.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are system information block 1, when the communication system where the first resource is the second frequency division duplex
FDD system, and the first resource be each radio frames subframe 0 and subframe 9 when, the candidate resource of the Secondary resource is
At least one of:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames, wherein the x is one of following value:1、2、3、6、7、8.
In one embodiment, resource determination module, for determining based on the first resource in the following ways
The candidate resource of two resources:
When the data are system information block 1, when the communication system where the first resource is Time Division Duplex TDD system
System, and when subframe 0 and subframe 5 that the first resource is each radio frames, the candidate resource of the Secondary resource is following
At least one:
The subframe 1 of each radio frames;
The subframe 6 of each radio frames;
The subframe x of each radio frames, wherein the x is one of following value:4、9.
In one embodiment, the first frequency division duplex (Frequency Division Duplexing, abbreviation FDD) system
System includes:Narrowband Internet of Things (NarrowBand-Cellular Internet of Things, referred to as NB-IoT) frequency division is double
The evolution system of work FDD system, narrowband Internet of Things NB-IoT FDD systems;
Second FDD system includes:Machine type communication (the Enhancement for Machine Type of enhancing
Communication, referred to as eMTC) FDD system, enhancing machine type communication eMTC Frequency Division Duplex FDD system
The evolution system of system;
In one embodiment, time division duplex (Time Division Duplexing, abbreviation TDD) system includes:Increase
Strong machine type communication (Enhancement for Machine Type Communication, the referred to as eMTC) time-division is double
Work TDD system, enhancing machine type communication eMTC TDD systems evolution system.
Example 1
Fig. 5 is the schematic diagram one that NB-IoT systems send Master Information Block on first resource and Secondary resource.
As shown in figure 5, the period of a Master Information Block includes 64 radio frames.First resource for sending Master Information Block
It is the subframe 0 of each radio frames of anchor carrier wave.Secondary resource for sending Master Information Block is each odd number of anchor carrier wave
The subframe 9 of radio frames.
As a kind of selection, indicate that Master Information Block is only sent still on first resource in the first money by secondary synchronization signal
It is sent on source and Secondary resource;If the symbol of secondary synchronization signal sequence carrying is 1, indicate Master Information Block only on first resource
It sends, if the symbol of secondary synchronization signal sequence carrying is not 1 (being, for example, -1), indicates Master Information Block in first resource and second
It is sent in resource.
Example 2
Fig. 6 is the schematic diagram two that NB-IoT systems send Master Information Block on first resource and Secondary resource.
As shown in fig. 6, the period of a Master Information Block includes 64 radio frames.
First resource for sending Master Information Block is the subframe 0 of each radio frames of anchor carrier wave.For sending main letter
The Secondary resource for ceasing block depends on cell ID.When cell ID value is even number, the second money for sending Master Information Block
Source is the subframe 4 of each odd number radio frames of anchor carrier wave (in such as Fig. 6 shown in (a));When cell ID value is odd number, use
It is the subframe 4 of each even number radio frames of anchor carrier wave in the Secondary resource of transmission Master Information Block (in such as Fig. 6 shown in (b)).
As a kind of selection, indicate that Master Information Block is only sent still on first resource in the first money by secondary synchronization signal
It is sent on source and Secondary resource;If the symbol of secondary synchronization signal sequence carrying is 1, indicate Master Information Block only on first resource
It sends, if the symbol of secondary synchronization signal sequence carrying is not 1 (being, for example, -1), indicates Master Information Block in first resource and second
It is sent in resource.
Wherein, cell ID is determined according to secondary synchronization signal sequence.
Example 3
Fig. 7 is the schematic diagram one that eMTC systems send Master Information Block on first resource and Secondary resource.
As shown in fig. 7, the period of a Master Information Block includes 4 radio frames.First resource for sending Master Information Block
It is the subframe 0 and subframe 9 of each radio frames.Secondary resource for sending Master Information Block is the subframe 5 of each radio frames.
As a kind of selection, indicate that Master Information Block is only sent still on first resource in the first money by secondary synchronization signal
It is sent on source and Secondary resource;If the symbol of secondary synchronization signal sequence carrying is 1, indicate Master Information Block only on first resource
It sends, if the symbol of secondary synchronization signal sequence carrying is not 1 (being, for example, -1), indicates Master Information Block in first resource and second
It is sent in resource.
Example 4
Fig. 8 is the schematic diagram two that eMTC systems send Master Information Block on first resource and Secondary resource.
As shown in figure 8, the period of a Master Information Block includes 4 radio frames.First resource for sending Master Information Block
It is the subframe 0 and subframe 9 of each radio frames.Secondary resource for sending Master Information Block depends on cell ID.Work as cell
When to identify value be even number, the Secondary resource for sending Master Information Block is each radio frames subframe 5 (in Fig. 8 (a) institute
Show);When cell ID value be odd number when, the Secondary resource for sending Master Information Block be the subframe 4 of each radio frames (such as
In Fig. 8 shown in (b)).
As a kind of selection, indicate that Master Information Block is only sent still on first resource in the first money by secondary synchronization signal
It is sent on source and Secondary resource;If the symbol of secondary synchronization signal sequence carrying is 1, indicate Master Information Block only on first resource
It sends, if the symbol of secondary synchronization signal sequence carrying is not 1 (being, for example, -1), indicates Master Information Block in first resource and second
It is sent in resource.
Wherein, cell ID is determined according to secondary synchronization signal sequence.
Example 5
Fig. 9 is the schematic diagram that NB-IoT systems send system information block 1 on first resource and Secondary resource.
As shown in figure 9,1 period of system information block includes 256 radio frames.
When first resource of the cell ID value for even number and for sending system information block 1 is each idol of anchor carrier wave
When the subframe 4 of number radio frames, the Secondary resource for sending system information block 1 depends on cell ID.Specifically, when cell mark
When knowledge value pair 4 is remmed equal to 0, the Secondary resource for sending system information block 1 is that the wireless frame number pair 4 of anchor carrier wave is asked
The subframe 4 of odd number radio frames of the remainder equal to 1 (in such as Fig. 9 shown in (a));When cell ID value pair 4 rems equal to 2,
Secondary resource for sending system information block 1 is the odd number radio frames that the wireless frame number pair 4 of anchor carrier wave rems equal to 3
Subframe 4 (in such as Fig. 9 shown in (b)).
When cell ID value be odd number and first resource for sending system information block 1 be anchor carrier wave each is strange
When the subframe 4 of number radio frames, the Secondary resource for sending system information block 1 depends on cell ID.Specifically, when cell mark
When knowledge value pair 4 is remmed equal to 1, the Secondary resource for sending system information block 1 is that the wireless frame number pair 4 of anchor carrier wave is asked
The subframe 4 of even number radio frames of the remainder equal to 0 (in such as Fig. 9 shown in (c));When cell ID value pair 4 rems equal to 3,
Secondary resource for sending system information block 1 is the even number radio frames that the wireless frame number pair 4 of anchor carrier wave rems equal to 2
Subframe 4 (in such as Fig. 9 shown in (d)).
Wherein, cell ID is determined according to secondary synchronization signal sequence.
As a kind of selection, indicate that system information block 1 is only sent still on first resource first by Master Information Block
It is sent on resource and Secondary resource.Optionally, system information block 1 is used to indicate only to send on first resource or provide first
The repetition of the Master Information Block signaling sent on source and Secondary resource and the transport block size and system information block 1 of system information block 1
The number of transmissions combined coding indicates, (imagining 4 overhead bits) as shown in table 1 below.
About below table 1, it is also necessary to which explanation is:
Cell ID value is even number and the first resource for sending system information block 1 is each even number of anchor carrier wave
The case where subframe 4 of radio frames is configured to 16 corresponding to iterative transfer times and cell ID value are odd number and are used to send out
It is that the subframe 4 of each odd number radio frames of anchor carrier wave also corresponds to iterative transfer times to send the first resource of system information block 1
(transmission within the scope of continuous 16 radio frames in 1 period of system information block is considered as primary repetition to the case where being configured to 16
Transmission).In the case where iterative transfer times are configured to 16, system information block 1 only on first resource send or first
It is sent on resource and Secondary resource.In the case where the iterative transfer times of system information block 1 are configured to 4 or 8, system information block
1 acquiescence is only sent on first resource.
Table 1
Example 6
Figure 10 is the schematic diagram that eMTC systems send system information block 1 on first resource and Secondary resource.
As shown in Figure 10, the period of a system information block 1 includes 8 radio frames.When cell ID value be even number and
When first resource for sending system information block 1 is the subframe 4 and subframe 9 of each radio frames, for sending system information
The Secondary resource of block 1 is the subframe 5 of each even number radio frames (in such as Figure 10 shown in (a));When cell ID value is odd number
And for when to send the first resource of system information block 1 be the subframe 0 and subframe 9 of each radio frames, for sending system letter
The Secondary resource of breath block 1 is the subframe 5 of each odd number radio frames (in such as Figure 10 shown in (b)).
Wherein, cell ID is determined according to secondary synchronization signal sequence.
As a kind of selection, indicate that system information block 1 is only sent still on first resource first by Master Information Block
It is sent on resource and Secondary resource.Optionally, system information block 1 is used to indicate only to send on first resource or provide first
The repetition of the Master Information Block signaling sent on source and Secondary resource and the transport block size and system information block 1 of system information block 1
The number of transmissions combined coding indicates, (imagining 5 overhead bits) as shown in table 2 below.
About below table 2, it is also necessary to which explanation is:
Cell ID value is even number and the first resource for sending system information block 1 is the subframe of each radio frames
4 and the case where being configured to 16 corresponding to iterative transfer times of subframe 9 and cell ID value be odd number and for sending system
The first resource of block of information 1 is the subframe 0 of each radio frames and subframe 9 also corresponds to the feelings that iterative transfer times are configured to 16
Condition.In the case where iterative transfer times are configured to 16, system information block 1 can send on first resource or in the first money
It is sent on source and Secondary resource.In the case where the iterative transfer times of system information block 1 are configured to 4 or 8, system information block 1
Acquiescence can only be sent on first resource.
Table 2
Example 7
Figure 11 is the schematic diagram that NB-IoT systems send system information block 1 on the Secondary resource of a non-anchor carrier wave.
As shown in figure 11, the period of a system information block 1 includes 256 radio frames.
When first resource of the cell ID value for even number and for sending system information block 1 is each idol of anchor carrier wave
When the subframe 4 of number radio frames, the Secondary resource for sending system information block 1 is that each odd number of a non-anchor carrier wave is wireless
The subframe 5 of frame (in such as Figure 11 shown in (a));When cell ID value is odd number and is used to send the first of system information block 1
When resource is the subframe 4 of each odd number radio frames of anchor carrier wave, the Secondary resource for sending system information block 1 is one non-
The subframe 5 of each even number radio frames of anchor carrier wave (in such as Figure 11 shown in (b)).
Wherein, cell ID is determined according to secondary synchronization signal sequence.
As a kind of selection, indicate that system information block 1 is only sent on first resource or the by system information block 1
It is sent on one resource and Secondary resource.If system information block 1 is sent on first resource and Secondary resource, Secondary resource institute
The frequency interval of non-anchor carrier wave and the anchor carrier wave where first resource fix, or pass through the instruction of system information block 1 second
The frequency location of non-anchor carrier wave where resource.When the non-anchor carrier wave where Secondary resource and the anchor carrier wave where first resource
It, can be according to the frequency location of the non-anchor carrier wave of frequency location indirect gain of anchor carrier wave when frequency interval is fixed.
Example 8
Figure 12 is the schematic diagram that NB-IoT systems send primary synchronization signal on first resource and Secondary resource.
As shown in figure 12, the period of a primary synchronization signal includes 1 radio frames.First for sending primary synchronization signal
Resource is the subframe 5 of each radio frames of anchor carrier wave;Secondary resource for sending primary synchronization signal is each of anchor carrier wave
The subframe 6 of a radio frames.
The sequence that the primary synchronization signal on first resource uses is determined according to following formula (1-1):
U=5, l=3 ..., 13,
Wherein, l indicates OFDM symbol index;
It is as shown in table 3 below for S (l) values of different OFDM symbols index.
S(3) | S(4) | S(5) | S(6) | S(7) | S(8) | S(9) | S(10) | S(11) | S(12) | S(13) |
1 | 1 | 1 | 1 | -1 | -1 | 1 | 1 | 1 | -1 | 1 |
Table 3
It should be noted that formula (1-1) has successively provided each for sending primary synchronization signal in a subframe
The primary synchronization signal sequence blocked in OFDM symbol;From the angle of subframe, primary synchronization signal sequence d can be expressed as following public affairs
Formula (1-2):
In this case, if sequence reps (p, 11) of the sequence p after 11 repetitions is considered as primary synchronization signal
Basic sequence, then primary synchronization signal sequence d can be considered as the basic sequence of primary synchronization signal according to following scrambler (referring to public affairs
Formula (1-3)) carry out the sequence after Scrambling Operation:
[rep(S(3),11),rep(S(4),11),…,rep(S(13),11)]。 (1-3)
The sequence that the primary synchronization signal on Secondary resource uses is determined according to following formula (1-4):
U=5, l=3 ..., 13,
Wherein, l indicates OFDM symbol index;
It is as shown in table 4 below for S (l) values of different OFDM symbols index.
S(3) | S(4) | S(5) | S(6) | S(7) | S(8) | S(9) | S(10) | S(11) | S(12) | S(13) |
-1 | -1 | 1 | 1 | 1 | -1 | -1 | -1 | 1 | 1 | -1 |
Table 4
It should be noted that formula (1-4) has successively provided each for sending primary synchronization signal in a subframe
The primary synchronization signal sequence blocked in OFDM symbol;From the angle of subframe, primary synchronization signal sequence d can be expressed as following public affairs
Formula (1-5):
In this case, if sequence reps (p, 11) of the sequence p after 11 repetitions is considered as primary synchronization signal
Basic sequence, then primary synchronization signal sequence d can be considered as the basic sequence of primary synchronization signal according to following scrambler (referring to public affairs
Formula (1-6)) carry out the sequence after Scrambling Operation:
[rep(S(3),11),rep(S(4),11),…,rep(S(13),11)]。 (1-6)
Finally, the primary synchronization signal sequence on Secondary resource and the primary synchronization signal sequence pair on first resource should be same
The basic sequence of one primary synchronization signal, but corresponding different scrambler sequence (the primary synchronization signal sequence pair on first resource
The scrambler sequence answered depends on table 3, and the corresponding scrambler sequence of primary synchronization signal sequence on Secondary resource depends on table 4), from
And cause the primary synchronization signal on first resource different from the sequence that the primary synchronization signal on Secondary resource uses.
Example 9
Figure 13 is the schematic diagram that NB-IoT systems send secondary synchronization signal on first resource and Secondary resource.
As shown in figure 13, the period of a secondary synchronization signal includes 8 radio frames.First for sending secondary synchronization signal
Resource is the subframe 9 of each even number radio frames of anchor carrier wave;Secondary resource for sending secondary synchronization signal is anchor carrier wave
The subframe 9 of each odd number radio frames.
As a kind of selection, indicate that secondary synchronization signal is only sent still on first resource first by primary synchronization signal
It is sent on resource and Secondary resource;If the symbol of primary synchronization signal sequence carrying is 1, indicate secondary synchronization signal only in the first money
It is sent on source, if the symbol of primary synchronization signal sequence carrying is not 1 (being, for example, -1), indicates secondary synchronization signal in first resource
It is sent on Secondary resource.
The sequence that the secondary synchronization signal on first resource uses is determined according to following formula (2-1):
Wherein, binary sequence bq(m) as shown in table 5 below.
Table 5
In this case, from the angle of subframe, if sequence p (n) to be considered as to the basic sequence of secondary synchronization signal,
The sequence d (n) of secondary synchronization signal can be considered as the basic sequence of primary synchronization signal according to scrambler sequenceIt is scrambled
Sequence after operation.
The sequence that the secondary synchronization signal on Secondary resource uses is determined according to following formula (2-2):
Wherein, binary sequence bq(m) as shown in upper table 5.
In this case, from the angle of subframe, if sequence p (n) to be considered as to the basic sequence of secondary synchronization signal,
The sequence d (n) of secondary synchronization signal can be considered as the basic sequence of primary synchronization signal according to scrambler sequenceIt is scrambled
Sequence after operation.
Finally, the secondary synchronization signal sequence on Secondary resource and the secondary synchronization signal sequence pair on first resource should be same
The basic sequence of one secondary synchronization signal, but corresponding different scrambler sequence (the secondary synchronization signal sequence on first resource
Scrambler sequence corresponding with the secondary synchronization signal sequence on Secondary resource depends on different θfDefinition), so as to cause the
Secondary synchronization signal in one resource is different from the sequence that the secondary synchronization signal on Secondary resource uses.
It should be noted that the invention may also have other embodiments, without departing substantially from spirit of that invention and its essence
In the case of, those skilled in the art can make various corresponding change and deformations according to the present invention, but these are corresponding
Change and distortion should all belong to the protection domain of appended claims of the invention.
Claims (55)
1. a kind of data transmission method for uplink, including:
Increase the Secondary resource for sending the data on the basis of first resource for transmission data;The data packet
Include following one:Master synchronous signal, secondary synchronization signal data, Master Information Block data, 1 data of system information block;
The data are sent on the first resource and Secondary resource.
2. the method as described in claim 1, it is characterised in that:
Increase the Secondary resource for sending the data on the basis of first resource for transmission data, including:
The candidate resource of Secondary resource is determined based on the first resource;
The Secondary resource is determined according to the candidate resource of the Secondary resource.
3. method as claimed in claim 2, it is characterised in that:
The candidate resource according to the Secondary resource determines the Secondary resource, including:
Any one in the following ways determines the Secondary resource:
The Secondary resource is the candidate resource of the Secondary resource;
The Secondary resource is the fixed subset of the candidate resource of the Secondary resource;
The Secondary resource is the subset of the candidate resource of the Secondary resource, wherein the subset is according to the Secondary resource
Candidate resource and cell ID determine.
4. the method as described in claim 1, it is characterised in that:
When the data are master synchronous signal, the master synchronous signal is indicated by system information block 1 described
It is sent on first resource and the Secondary resource;Or
Supplemented by the data when synchronization signal data, the secondary synchronization signal data pass through primary synchronization signal or system information
The instruction of block 1 is sent on the first resource and the Secondary resource;Or
The data be Master Information Block data when, the Master Information Block data by primary synchronization signal, secondary synchronization signal or
The instruction of system information block 1 is sent on the first resource and the Secondary resource;Or
When the data are 1 data of system information block, 1 data of the system information block pass through primary synchronization signal, auxiliary synchronous letter
Number, Master Information Block or system information block 1 instruction sent on the first resource and the Secondary resource.
5. method as claimed in claim 4, it is characterised in that:
It is described to include by primary synchronization signal instruction:The symbol instruction carried by primary synchronization signal sequence;
It is described to include by secondary synchronization signal instruction:The symbol instruction carried by secondary synchronization signal sequence.
6. the method as described in claim 1, it is characterised in that:
When the data are 1 data of Master Information Block data or system information block, sent out on the first resource and Secondary resource
Before sending the data, the method further includes:
The data are subjected to independent resource mapping on first resource and Secondary resource;Or
The data are subjected to federated resource mapping on first resource and Secondary resource.
7. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are master synchronous signal, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 5 for each radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource
For at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、4、6、7、8、9.
8. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are master synchronous signal, when the communication system where the first resource is the second frequency division duplex
FDD system, and last 1 OFDM symbol and each nothing of the time slot 0 for the subframe 0 that the first resource is each radio frames
When last 1 OFDM symbol of the time slot 0 of the subframe 5 of line frame, the candidate resource of the Secondary resource is:Each radio frames
At least one of the specified OFDM symbol set that subframe 5 is included OFDM symbol;
Wherein, the specified OFDM symbol set includes:In addition to preceding 3 OFDM symbols and last 2 OFDM symbols of time slot 0
Other all OFDM symbols.
9. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are master synchronous signal, when the communication system where the first resource is Time Division Duplex TDD system
System, and the 3rd OFDM symbol of the time slot 0 for the subframe 1 that the first resource is each radio frames and each radio frames
When the 3rd OFDM symbol of the time slot 0 of subframe 6, the candidate resource of the Secondary resource is at least one of:
1st OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
1st OFDM symbol of the time slot 0 of the subframe 6 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 6 of each radio frames.
10. the method as described in claim 1, it is characterised in that:
When the data are master synchronous signal, the primary synchronization signal that is sent on the Secondary resource with described first
The sequence that the primary synchronization signal sent in resource uses is different.
11. method as claimed in claim 10, it is characterised in that:
What the primary synchronization signal sent on Secondary resource was used with the primary synchronization signal sent on the first resource
Sequence is different, including following one:
Primary synchronization signal sequence on Secondary resource is:After the scrambled operation of primary synchronization signal sequence on first resource
Sequence;
Primary synchronization signal sequence on first resource is:After the basic sequence of primary synchronization signal is scrambled according to the first scrambler
Sequence;Primary synchronization signal sequence on Secondary resource is:The basic sequence of primary synchronization signal is added according to the second scrambler
Sequence after disturbing;
Primary synchronization signal sequence on Secondary resource is:Primary synchronization signal sequence on first resource is using element group as granularity
Sequence after rearranging.
12. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is the first frequency division duplex
FDD system, and when the subframe 9 for each even number radio frames that the first resource is anchor carrier wave, the candidate of the Secondary resource
Resource is at least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe 9 of one non-anchor carrier wave each odd number radio frames;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、4、5、6、7、8.
13. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is the second frequency division duplex
FDD system, and the first resource is the second-to-last OFDM symbol of the time slot 0 of the subframe 0 of each radio frames and each
When the second-to-last OFDM symbol of the time slot 0 of the subframe 5 of radio frames, the candidate resource of the Secondary resource is:Each is wireless
At least one of the specified OFDM symbol set that the subframe 5 of frame is included OFDM symbol;
Wherein, the specified OFDM symbol set includes:In addition to preceding 3 OFDM symbols and last 2 OFDM symbols of time slot 0
Other all OFDM symbols.
14. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
Supplemented by the data when synchronization signal data, when the communication system where the first resource is Time Division Duplex TDD system
System, and last 1 OFDM symbol and each radio frames of the time slot 1 for the subframe 0 that the first resource is each radio frames
Subframe 5 time slot 1 last 1 OFDM symbol when, the candidate resource of the Secondary resource is at least one of:
1st OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 1 of each radio frames;
1st OFDM symbol of the time slot 0 of the subframe 6 of each radio frames;
2nd OFDM symbol of the time slot 0 of the subframe 6 of each radio frames.
15. the method as described in claim 1, it is characterised in that:
Supplemented by the data when synchronization signal data, the secondary synchronization signal that is sent on the Secondary resource with described first
The sequence that the secondary synchronization signal sent in resource uses is different.
16. method as claimed in claim 15, it is characterised in that:
What the secondary synchronization signal sent on the Secondary resource was used with the secondary synchronization signal sent on the first resource
Sequence is different, including at least one of:
Secondary synchronization signal sequence on Secondary resource is:After the scrambled operation of secondary synchronization signal sequence on first resource
Sequence;
Secondary synchronization signal sequence on first resource is:After the basic sequence of secondary synchronization signal is scrambled according to the first scrambler
Sequence;Secondary synchronization signal sequence on Secondary resource is:The basic sequence of secondary synchronization signal is added according to the second scrambler
Sequence after disturbing;
Secondary synchronization signal sequence on Secondary resource is:Secondary synchronization signal sequence on first resource is using element group as granularity
Sequence after rearranging.
17. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are Master Information Block data, when the communication system where the first resource is the first Frequency Division Duplex FDD
System, the and when subframe 0 for each radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource be with
It is at least one lower:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:1、2、3、4、5、6、7、8、9.
18. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are Master Information Block data, when the communication system where the first resource is the second Frequency Division Duplex FDD
System, and when subframe 0 and subframe 9 that the first resource is each radio frames, the candidate resource of the Secondary resource be with
It is at least one lower:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
19. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are Master Information Block data, when the communication system where the first resource is TDD system,
And when subframe 0 and subframe 5 that the first resource is each radio frames, the candidate resource of the Secondary resource be it is following at least
One of:
The subframe 1 of each radio frames;
The subframe 6 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:4、9.
20. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the first Frequency Division Duplex FDD system
System, and when the subframe 4 for each even number radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource is
At least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each odd number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each odd number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、5、6、7、8、9.
21. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the first Frequency Division Duplex FDD system
System, and when the subframe 4 for each odd number radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource is
At least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each even number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each even number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、5、6、7、8、9.
22. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the second Frequency Division Duplex FDD system
System, and when subframe 4 and subframe 9 that the first resource is each radio frames, the candidate resource of the Secondary resource is following
At least one:
The subframe 0 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
23. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the second Frequency Division Duplex FDD system
System, and when subframe 0 and subframe 9 that the first resource is each radio frames, the candidate resource of the Secondary resource is following
At least one:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
24. method as claimed in claim 2, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is TDD system,
And when subframe 0 and subframe 5 that the first resource is each radio frames, the candidate resource of the Secondary resource be it is following at least
One of:
The subframe 1 of each radio frames;
The subframe 6 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:4、9.
25. a kind of data receiver method, including:
Determine the first resource and Secondary resource for receiving data;The data include following one:It is master synchronous signal, auxiliary same
Walk signal data, Master Information Block data, 1 data of system information block;
The data are received on the first resource and Secondary resource.
26. method as claimed in claim 25, it is characterised in that:
It is described to receive the data on the first resource and Secondary resource, including:
It first attempts to receive the data on first resource, if without successfully decoded, reattempts and provided in first resource and second
The data are received on source.
27. method as claimed in claim 25, it is characterised in that:
Before the determining first resource and Secondary resource for receiving data, further include:
The data are received on first resource and Secondary resource according to indication signaling determination.
28. method as claimed in claim 25, it is characterised in that:
The determining first resource and Secondary resource for receiving data, including:
The candidate resource of Secondary resource is determined based on the first resource;
The Secondary resource is determined according to the candidate resource of the Secondary resource.
29. method as claimed in claim 28, it is characterised in that:
The candidate resource according to the Secondary resource determines the Secondary resource, including:
Any one in the following ways determines the Secondary resource:
The Secondary resource is the candidate resource of the Secondary resource;
The Secondary resource is the fixed subset of the candidate resource of the Secondary resource;
The Secondary resource is the subset of the candidate resource of the Secondary resource, wherein the subset is according to the Secondary resource
Candidate resource and cell ID determine.
30. method as claimed in claim 28, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are Master Information Block data, when the communication system where the first resource is the first Frequency Division Duplex FDD
System, the and when subframe 0 for each radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource be with
It is at least one lower:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:1、2、3、4、5、6、7、8、9.
31. method as claimed in claim 28, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are Master Information Block data, when the communication system where the first resource is the second Frequency Division Duplex FDD
System, and when subframe 0 and subframe 9 that the first resource is each radio frames, the candidate resource of the Secondary resource be with
It is at least one lower:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
32. method as claimed in claim 28, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the first Frequency Division Duplex FDD system
System, and when the subframe 4 for each even number radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource is
At least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each odd number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each odd number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、5、6、7、8、9.
33. method as claimed in claim 28, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the first Frequency Division Duplex FDD system
System, and when the subframe 4 for each odd number radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource is
At least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each even number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each even number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、5、6、7、8、9.
34. method as claimed in claim 28, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the second Frequency Division Duplex FDD system
System, and when subframe 4 and subframe 9 that the first resource is each radio frames, the candidate resource of the Secondary resource is following
At least one:
The subframe 0 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
35. method as claimed in claim 28, it is characterised in that:
The candidate resource that Secondary resource is determined based on the first resource, including:
When the data are system information block 1, when the communication system where the first resource is the second Frequency Division Duplex FDD system
System, and when subframe 0 and subframe 9 that the first resource is each radio frames, the candidate resource of the Secondary resource is following
At least one:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
36. a kind of data sending device, including:
Resource determination module, for increasing by for sending the data on the basis of first resource for transmission data
Two resources;The data include following one:Master synchronous signal, secondary synchronization signal data, Master Information Block data, system letter
Cease 1 data of block;
Data transmission blocks, for sending the data on the first resource and Secondary resource.
37. data sending device as claimed in claim 36, it is characterised in that:
Resource determination module, for increasing in the following ways for sending on the basis of the first resource for transmission data
The Secondary resource of the data:
The candidate resource of Secondary resource is determined based on the first resource;
The Secondary resource is determined according to the candidate resource of the Secondary resource.
38. data sending device as claimed in claim 37, it is characterised in that:
Resource determination module, for determining the Secondary resource according to the candidate resource of the Secondary resource in the following ways:
Any one in the following ways determines the Secondary resource:
The Secondary resource is the candidate resource of the Secondary resource;
The Secondary resource is the fixed subset of the candidate resource of the Secondary resource;
The Secondary resource is the subset of the candidate resource of the Secondary resource, wherein the subset is according to the Secondary resource
Candidate resource and cell ID determine.
39. data sending device as claimed in claim 37, it is characterised in that:
Resource determination module, the candidate resource for determining Secondary resource based on the first resource in the following ways:
When the data are Master Information Block data, when the communication system where the first resource is the first Frequency Division Duplex FDD
System, the and when subframe 0 for each radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource be with
It is at least one lower:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:1、2、3、4、5、6、7、8、9.
40. data sending device as claimed in claim 2, it is characterised in that:
Resource determination module, the candidate resource for determining Secondary resource based on the first resource in the following ways:
When the data are Master Information Block data, when the communication system where the first resource is the second Frequency Division Duplex FDD
System, and when subframe 0 and subframe 9 that the first resource is each radio frames, the candidate resource of the Secondary resource be with
It is at least one lower:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
41. data sending device as claimed in claim 2, it is characterised in that:
Resource determination module, the candidate resource for determining Secondary resource based on the first resource in the following ways:
When the data are system information block 1, when the communication system where the first resource is the first Frequency Division Duplex FDD system
System, and when the subframe 4 for each even number radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource is
At least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each odd number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each odd number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、5、6、7、8、9.
42. data sending device as claimed in claim 2, it is characterised in that:
Resource determination module, the candidate resource for determining Secondary resource based on the first resource in the following ways:
When the data are system information block 1, when the communication system where the first resource is the first Frequency Division Duplex FDD system
System, and when the subframe 4 for each odd number radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource is
At least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each even number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each even number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、5、6、7、8、9.
43. data sending device as claimed in claim 2, it is characterised in that:
Resource determination module, the candidate resource for determining Secondary resource based on the first resource in the following ways:
When the data are system information block 1, when the communication system where the first resource is the second Frequency Division Duplex FDD system
System, and when subframe 4 and subframe 9 that the first resource is each radio frames, the candidate resource of the Secondary resource is following
At least one:
The subframe 0 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
44. data sending device as claimed in claim 2, it is characterised in that:
Resource determination module, the candidate resource for determining Secondary resource based on the first resource in the following ways:
When the data are system information block 1, when the communication system where the first resource is the second Frequency Division Duplex FDD system
System, and when subframe 0 and subframe 9 that the first resource is each radio frames, the candidate resource of the Secondary resource is following
At least one:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
45. a kind of data sink, including:
Resource determination module, for determining the first resource and Secondary resource that receive data;The data include following one:It is main
Synchronization signal data, secondary synchronization signal data, Master Information Block data, 1 data of system information block;
Data reception module, for receiving the data on the first resource and Secondary resource.
46. data sink as claimed in claim 45, it is characterised in that:
Data reception module, for receiving the data on the first resource and Secondary resource in the following ways:
It first attempts to receive the data on first resource, if without successfully decoded, reattempts and provided in first resource and second
The data are received on source.
47. data sink as claimed in claim 45, it is characterised in that:
Resource determination module is additionally operable to receive the data on first resource and Secondary resource according to indication signaling determination.
48. data sink as claimed in claim 45, it is characterised in that:
Resource determination module, for determining the first resource and Secondary resource that receive data in the following ways:
The candidate resource of Secondary resource is determined based on the first resource;
The Secondary resource is determined according to the candidate resource of the Secondary resource.
49. data sink as claimed in claim 48, it is characterised in that:
Resource determination module, for determining the Secondary resource according to the candidate resource of the Secondary resource in the following ways:
Any one in the following ways determines the Secondary resource:
The Secondary resource is the candidate resource of the Secondary resource;
The Secondary resource is the fixed subset of the candidate resource of the Secondary resource;
The Secondary resource is the subset of the candidate resource of the Secondary resource, wherein the subset is according to the Secondary resource
Candidate resource and cell ID determine.
50. data sink as claimed in claim 48, it is characterised in that:
Resource determination module, the candidate resource for determining Secondary resource based on the first resource in the following ways:
When the data are Master Information Block data, when the communication system where the first resource is the first Frequency Division Duplex FDD
System, the and when subframe 0 for each radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource be with
It is at least one lower:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:1、2、3、4、5、6、7、8、9.
51. data sink as claimed in claim 48, it is characterised in that:
Resource determination module, the candidate resource for determining Secondary resource based on the first resource in the following ways:
When the data are Master Information Block data, when the communication system where the first resource is the second Frequency Division Duplex FDD
System, and when subframe 0 and subframe 9 that the first resource is each radio frames, the candidate resource of the Secondary resource be with
It is at least one lower:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
52. data sink as claimed in claim 48, it is characterised in that:
Resource determination module, the candidate resource for determining Secondary resource based on the first resource in the following ways:
When the data are system information block 1, when the communication system where the first resource is the first Frequency Division Duplex FDD system
System, and when the subframe 4 for each even number radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource is
At least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each odd number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each odd number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、5、6、7、8、9.
53. data sink as claimed in claim 48, it is characterised in that:
Resource determination module, the candidate resource for determining Secondary resource based on the first resource in the following ways:
When the data are system information block 1, when the communication system where the first resource is the first Frequency Division Duplex FDD system
System, and when the subframe 4 for each odd number radio frames that the first resource is anchor carrier wave, the candidate resource of the Secondary resource is
At least one of:
The subframe 9 of each odd number radio frames of the anchor carrier wave;
The subframe 4 of each even number radio frames of the anchor carrier wave;
The subframe x of each radio frames of the anchor carrier wave,
Wherein, the x is one of following value:1、2、3、6、7、8;
The subframe 4 of each even number radio frames of one non-anchor carrier wave;
The subframe y of each radio frames of one non-anchor carrier wave,
Wherein, the y is one of following value:0、1、2、3、5、6、7、8、9.
54. data sink as claimed in claim 48, it is characterised in that:
Resource determination module, the candidate resource for determining Secondary resource based on the first resource in the following ways:
When the data are system information block 1, when the communication system where the first resource is the second Frequency Division Duplex FDD system
System, and when subframe 4 and subframe 9 that the first resource is each radio frames, the candidate resource of the Secondary resource is following
At least one:
The subframe 0 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
55. data sink as claimed in claim 48, it is characterised in that:
Resource determination module, the candidate resource for determining Secondary resource based on the first resource in the following ways:
When the data are system information block 1, when the communication system where the first resource is the second Frequency Division Duplex FDD system
System, and when subframe 0 and subframe 9 that the first resource is each radio frames, the candidate resource of the Secondary resource is following
At least one:
The subframe 4 of each radio frames;
The subframe 5 of each radio frames;
The subframe x of each radio frames,
Wherein, the x is one of following value:1、2、3、6、7、8.
Priority Applications (2)
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CN201710184479.2A CN108631922A (en) | 2017-03-24 | 2017-03-24 | A kind of data transmission method for uplink, data receiver method and device |
PCT/CN2018/080209 WO2018171718A1 (en) | 2017-03-24 | 2018-03-23 | Data sending method, data receiving method, device and storage medium |
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CN201710184479.2A CN108631922A (en) | 2017-03-24 | 2017-03-24 | A kind of data transmission method for uplink, data receiver method and device |
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