CN109152019A - The method and apparatus of resource impact - Google Patents
The method and apparatus of resource impact Download PDFInfo
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- CN109152019A CN109152019A CN201710459150.2A CN201710459150A CN109152019A CN 109152019 A CN109152019 A CN 109152019A CN 201710459150 A CN201710459150 A CN 201710459150A CN 109152019 A CN109152019 A CN 109152019A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
- H04B1/69—Spread spectrum techniques
- H04B1/713—Spread spectrum techniques using frequency hopping
- H04B1/7136—Arrangements for generation of hop frequencies, e.g. using a bank of frequency sources, using continuous tuning or using a transform
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/0453—Resources in frequency domain, e.g. a carrier in FDMA
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/12—Wireless traffic scheduling
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/12—Wireless traffic scheduling
- H04W72/1263—Mapping of traffic onto schedule, e.g. scheduled allocation or multiplexing of flows
- H04W72/1268—Mapping of traffic onto schedule, e.g. scheduled allocation or multiplexing of flows of uplink data flows
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Abstract
This application provides a kind of method and apparatus of resource impact, this method comprises: terminal device receives the resource allocation information that the network equipment is sent, the resource allocation information is used to indicate the parameter information of N number of frequency hopping portions of bandwidth to the terminal device, N >=2, the bandwidth length of any one frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth are less than or equal to the bandwidth length frequency hopping portions of bandwidth frequency hopping portions of bandwidth of the activated state portions of bandwidth active-BP of the terminal device;The terminal device is according to the resource allocation information and uplink scheduling information, determine that the ascending physical signal transfer resource of network equipment distribution passes through the bandwidth length for the active-BP for making the bandwidth length of any one frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth be less than or equal to terminal device, when so that terminal device carrying out frequency hopping according to the parameter information of any one frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth, the activated state portions of bandwidth active-BP of terminal device will not be all jumped out.
Description
Technical field
This application involves the communications fields, and more particularly, to the method and apparatus of the resource impact in the communications field.
Background technique
In long term evolution (Long Term Evolution, LTE) system, user equipment (User Equipment, UE)
The transmission that ascending physical signal shares channel (Physical Uplink Shared Channel, PUSCH) is become using discrete fourier
Change OFDM (Discrete Fourier Transform-Spread OFDM, DFT-S-OFDM) waveform of extension.
In order to enable using power PAR (the Peak to Average Power of DFT-s-OFDM waveform PUSCH
Ratio, PAPR) it is relatively low, the power amplifier using UE of efficiency bigger as far as possible improves uplink and covers, and PUSCH transmission would generally use
Continuous Physical Resource Block (Physical Resource Block, PRB) resource, PRB resource continuous for one section
PUSCH transmission, in order to improve the diversity gain of PUSCH, the PUSCH transmission in LTE system supports frequency hopping and interframe frequency hopping in frame.
In LTE system, the bandwidth length of the bandwidth of operation part (Bandwidth Part, BP) of UE is equal to system bandwidth
Bandwidth length, when the network equipment according to system bandwidth be UE configure frequency hopping bandwidth when, UE according to network equipments configuration frequency hopping
When bandwidth carries out frequency hopping, the range of the work BP of UE will not be jumped out.
However, in NR system, due to UE work BP bandwidth length likely to be less than system bandwidth bandwidth length,
When UE carries out frequency hopping according to the system bandwidth of network equipments configuration, it is possible to jump out the range of the work BP of UE.
Summary of the invention
This application provides a kind of method and apparatus of resource impact, it can support that solving UE jumps out asking for work BP range
Topic.
In a first aspect, a kind of method of resource impact is provided, this method comprises: the network equipment generates resource distribution letter
Breath, the resource allocation information are used to indicate the parameter information of N number of frequency hopping portions of bandwidth, N >=2, N number of frequency hopping to the terminal device
The bandwidth length of any one frequency hopping portions of bandwidth in portions of bandwidth is less than or equal to the activated state bandwidth portion of the terminal device
Divide the bandwidth length of active-BP;The network equipment sends resource allocation information to terminal device.
Optionally, this method further include: the network equipment receives terminal device transmission on ascending physical signal transfer resource
Upstream data.
Therefore, by making the bandwidth length of any one frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth be less than or wait
In the bandwidth length of the activated state portions of bandwidth active-BP of the terminal device, so that terminal device is according to N number of frequency hopping bandwidth
When the parameter information of any one frequency hopping portions of bandwidth in part carries out frequency hopping, the activated state band of terminal device will not be all jumped out
Wide portion active-BP.
Optionally, which is used to indicate the parameter information of a frequency hopping portions of bandwidth to the terminal device
(that is, N=1), the bandwidth length of a frequency hopping portions of bandwidth are less than or equal to the activated state portions of bandwidth of the terminal device
The bandwidth length of active-BP.
Therefore, by for one frequency hopping portions of bandwidth of terminal equipment configuration, and the bandwidth length of the frequency hopping portions of bandwidth
Less than or equal to the bandwidth length of the activated state portions of bandwidth active-BP of the terminal device, it can equally make terminal device
When carrying out frequency hopping according to the parameter information of 1 frequency hopping portions of bandwidth, the activated state portions of bandwidth of terminal device will not be all jumped out
active-BP。
With reference to first aspect, in the first implementation of first aspect, the bandwidth overall length of N number of frequency hopping portions of bandwidth
Degree is equal to the bandwidth length of the active-BP of the terminal device, any two frequency hopping bandwidth portion in N number of frequency hopping portions of bandwidth
Divide and is not overlapped on frequency domain.
Therefore, by enabling the network equipment to be that N number of frequency hopping frequency hopping portions of bandwidth of terminal device distribution covers all
The bandwidth length of the active-BP of terminal device enables terminal device to be jumped according to N number of frequency hopping frequency hopping portions of bandwidth
Frequently, it avoids leading to end because the bandwidth total length of N number of frequency hopping portions of bandwidth is less than the bandwidth total length of N number of frequency hopping portions of bandwidth
A part of bandwidth in the active-BP of end equipment occurs jumping out asking for band of operation when carrying out frequency hopping according to system bandwidth
Topic.
With reference to first aspect and its above-mentioned implementation, in the 4th kind of implementation of first aspect, this method is also wrapped
It includes:
The network equipment sends uplink scheduling information to the terminal device, which is used to indicate the uplink
The resource indexing information of VRB resource, the resource indexing information include the resource index value of uplink VRB resource.
With reference to first aspect and its above-mentioned implementation, in the 5th kind of implementation of first aspect, N number of frequency hopping band
The parameter information of each frequency hopping portions of bandwidth in wide portion includes at least following information:
The frequency hopping of the bandwidth length information of frequency hopping portions of bandwidth, the location information of frequency hopping portions of bandwidth and frequency hopping portions of bandwidth
The frequency hopping Rule Information of Rule Information, the frequency hopping portions of bandwidth includes at least frequency-hopping mode information, frequency hopping PRB offset information and jump
Frequency sub-band information.
With reference to first aspect and its above-mentioned implementation, in the 6th kind of implementation of first aspect, the network equipment
Resource allocation information is sent to terminal device, comprising: the network equipment sends the resource to the terminal device by RRC signaling and matches
Confidence breath;Or the network equipment sends M frequency hopping portions of bandwidth to terminal device by system broadcast message or multicast message
Parameter information, M >=2, so that parameter information and the terminal device of the terminal device according to the M frequency hopping portions of bandwidth
The bandwidth length P of active-BP determines the parameter information of corresponding N number of frequency hopping portions of bandwidth, wherein M, N are positive integer, and
M≥N。
Second aspect provides a kind of method of resource impact, sends this method comprises: terminal device receives the network equipment
Resource allocation information, which is used to indicate the parameter information of N number of frequency hopping portions of bandwidth, N to the terminal device
>=2, the bandwidth length of any one frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth is less than or equal to the terminal device
The bandwidth length frequency hopping portions of bandwidth frequency hopping portions of bandwidth of activated state portions of bandwidth active-BP;The terminal device is according to the money
Source configuration information and uplink scheduling information determine the ascending physical signal transfer resource of network equipment distribution.
Optionally, this method further include: the terminal device is sent on the ascending physical signal transfer resource to the network equipment
Upstream data.
Therefore, by making the bandwidth length of any one frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth be less than or wait
In the bandwidth length of the activated state portions of bandwidth active-BP of the terminal device, so that terminal device is according to N number of frequency hopping bandwidth
When the parameter information of any one frequency hopping portions of bandwidth in part carries out frequency hopping, the activated state band of terminal device will not be all jumped out
Wide portion active-BP.
Optionally, which is used to indicate the parameter information of a frequency hopping portions of bandwidth to the terminal device
(that is, N=1), the bandwidth length of a frequency hopping portions of bandwidth are less than or equal to the activated state portions of bandwidth of the terminal device
The bandwidth length of active-BP.
Therefore, by for one frequency hopping portions of bandwidth of terminal equipment configuration, and the bandwidth length of the frequency hopping portions of bandwidth
Less than or equal to the bandwidth length of the activated state portions of bandwidth active-BP of the terminal device, it can equally make terminal device
When carrying out frequency hopping according to the parameter information of 1 frequency hopping portions of bandwidth, the activated state portions of bandwidth of terminal device will not be all jumped out
active-BP。
In conjunction with second aspect, in the first implementation of second aspect, the bandwidth overall length of N number of frequency hopping portions of bandwidth
Degree is equal to the bandwidth length of the active-BP, and any two frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth is on frequency domain
It is not overlapped.
Therefore, by enabling the network equipment to be that N number of frequency hopping frequency hopping portions of bandwidth of terminal device distribution covers all
The bandwidth length of the active-BP of terminal device enables terminal device to be jumped according to N number of frequency hopping frequency hopping portions of bandwidth
Frequently, it avoids leading to end because the bandwidth total length of N number of frequency hopping portions of bandwidth is less than the bandwidth total length of N number of frequency hopping portions of bandwidth
A part of bandwidth in the active-BP of end equipment occurs jumping out asking for band of operation when carrying out frequency hopping according to system bandwidth
Topic.
In conjunction with second aspect, in second of implementation of second aspect, which believes according to the resource distribution
Breath and uplink scheduling information determine the ascending physical signal transfer resource of network equipment distribution, comprising: the terminal device determines on first
Row VRB resource belongs to the first frequency hopping portions of bandwidth, which is any one in N number of frequency hopping portions of bandwidth
A frequency hopping portions of bandwidth, it is the terminal device point which, which is the network equipment by the uplink scheduling information,
The resource matched;The terminal device reflects the first uplink VRB resource according to the parameter information of the first frequency hopping portions of bandwidth
It penetrates, determines that the first uplink PRB resource, the second uplink PRB resource, the first uplink PRB resource and the second uplink PRB resource are
The first uplink VRB resource corresponding mapping resource in the first frequency hopping portions of bandwidth, the first uplink PRB resource belong to this
First time unit in first frequency hopping portions of bandwidth, the second uplink PRB resource belong in the first frequency hopping portions of bandwidth
Second time quantum, there are integer PRB moneys on frequency domain between the first uplink PRB resource and the second uplink PRB resource
The offset in source.
Therefore, the terminal device different for the bandwidth length of active-BP, by making in same frequency hopping portions of bandwidth
The virtual transmission resource for belonging to different terminal equipment is mapped according to the parameter information of identical frequency hopping portions of bandwidth, and then is solved
Certainly the different terminal device of the bandwidth length of active-BP is according to generation resource contention after respective active-BP frequency hopping
Problem.
In conjunction with second aspect, in the third implementation of second aspect, which at most belongs to this
First frequency hopping portions of bandwidth and the second frequency hopping portions of bandwidth, the second frequency hopping portions of bandwidth be N number of frequency hopping portions of bandwidth in
The adjacent frequency hopping portions of bandwidth of the first frequency hopping portions of bandwidth, the first uplink VRB resource are one section of continuous VRB resource.
Therefore, by making uplink VRB resource at most be pertaining only to two adjacent frequency hopping portions of bandwidth, so that uplink VRB
Resource is corresponding in each of two adjacent frequency hopping portions of bandwidth frequency hopping portions of bandwidth after carrying out frequency hopping mapping
Mapping resource is two sections of continuous PRB resources.
In conjunction with second aspect, in the 4th kind of implementation of second aspect, this method further include: the terminal device receives
The uplink scheduling information that the network equipment is sent, the uplink scheduling information are used to indicate the resource index of uplink VRB resource
Information, the resource indexing information include the resource index value of uplink VRB resource.
Each jump in conjunction with second aspect, in the 5th kind of implementation of second aspect, in N number of frequency hopping portions of bandwidth
The parameter information of frequency band wide portion includes at least following information: the bandwidth length information of frequency hopping portions of bandwidth, frequency hopping portions of bandwidth
Location information and frequency hopping portions of bandwidth frequency hopping Rule Information, the frequency hopping Rule Information of the frequency hopping portions of bandwidth, which includes at least, jumps
Frequency pattern information, frequency hopping PRB offset information and frequency hopping sub-band information.
In conjunction with second aspect, in the 6th kind of implementation of second aspect, which receives network equipment hair
The resource allocation information sent, comprising: the terminal device receives the network equipment by RRC signaling and sends the resource allocation information;
Or the terminal device receives the ginseng of M frequency hopping portions of bandwidth of network equipment transmission by system broadcast message or multicast message
Number information, M >=2;The terminal device according to the parameter information of the M frequency hopping portions of bandwidth and the bandwidth length of the active-BP,
Determine the parameter information of corresponding N number of frequency hopping portions of bandwidth, wherein M, N are positive integer, and M >=N.
The third aspect provides a kind of method of resource impact, this method comprises: the network equipment generates resource distribution letter
Breath, the resource allocation information are used to indicate the parameter information of N number of map bandwidth part, N >=2, N number of mapping to the terminal device
The bandwidth length of any one map bandwidth part in portions of bandwidth is less than or equal to the activated state bandwidth portion of the terminal device
Divide the bandwidth length map bandwidth part mapping portions of bandwidth of active-BP;The network equipment sends resource distribution to terminal device
Information.
Optionally, this method further include: under the network equipment is sent on downlink physical transfer resource to the terminal device
Row data.
Therefore, the method for the resource impact of the application, by making any one map bandwidth in N number of map bandwidth part
Partial bandwidth length is less than or equal to the bandwidth length of the activated state portions of bandwidth active-BP of the terminal device, so that eventually
End equipment carries out distributed resource according to the parameter information of any one map bandwidth part in N number of map bandwidth part and reflects
When penetrating, all without departing from the activated state portions of bandwidth active-BP of terminal device.
Optionally, which is used to indicate the parameter information of a map bandwidth part to the terminal device
(that is, N=1), the bandwidth length of a map bandwidth part are less than or equal to the activated state portions of bandwidth of the terminal device
The bandwidth length of active-BP.
Therefore, by for one map bandwidth part of terminal equipment configuration, and the bandwidth length of the map bandwidth part
Less than or equal to the bandwidth length of the activated state portions of bandwidth active-BP of the terminal device, it can equally make terminal device
When carrying out distributed resource mapping according to the parameter information of 1 map bandwidth part, all without departing from the activation of terminal device
State portions of bandwidth active-BP.
In conjunction with the third aspect, in the first implementation of the third aspect, the bandwidth overall length of N number of map bandwidth part
Degree is equal to the bandwidth length of the active-BP, and any two map bandwidth part in N number of map bandwidth part is on frequency domain
It is not overlapped.
Therefore, by enabling the network equipment to be that N number of map bandwidth part of terminal device distribution covers all terminal
The bandwidth length of the active-BP of equipment enables terminal device to carry out distributed resource according to N number of map bandwidth part
Mapping avoids causing because the bandwidth total length of N number of map bandwidth part is less than the bandwidth total length of N number of map bandwidth part
A part of bandwidth in the active-BP of terminal device occurs exceeding work when carrying out distributed resource mapping according to system bandwidth
The problem of bandwidth range.
Optionally, the bandwidth total length of any one map bandwidth part in N number of map bandwidth part, which is greater than, is somebody's turn to do
The bandwidth length of active-BP.
When the bandwidth length of any one map bandwidth part in N number of map bandwidth part is greater than the active-BP
Bandwidth length when or N number of map bandwidth part bandwidth total length be greater than the active-BP bandwidth length when, lead to
The mapped mode configuration of the at most two map bandwidth parts of user active-BP will be exceeded by crossing in N number of map bandwidth part
For centralized mapping, when so that terminal device carrying out distributed resource mapping, all without departing from the activated state bandwidth of terminal device
Part active-BP.
In conjunction with the third aspect and its above-mentioned implementation, in the 4th kind of implementation of the third aspect, this method is also wrapped
It includes:
The network equipment sends down dispatch information to the terminal device, which is used to indicate at least under this
The resource indexing information and mapping parameters information of row VRB resource, the resource indexing information include the resource rope of downlink VRB resource
Draw value, the friendship of VRB resource in one map bandwidth part of configuration information joint instructions of the mapping parameters and map bandwidth part
Matrix is knitted, the PRB resource after the available mapping of interleaver matrix is passed through.
In conjunction with the third aspect and its above-mentioned implementation, in the 5th kind of implementation of the third aspect, N number of mapping band
The parameter information of each map bandwidth part in wide portion includes at least following information: the bandwidth length letter of map bandwidth part
The mapped mode of breath, the location information of map bandwidth part and map bandwidth part, the mapped mode packet of the map bandwidth part
Include one in centralized mapping or distributed mapping.
In conjunction with the third aspect and its above-mentioned implementation, in the 6th kind of implementation of the third aspect, the network equipment
Resource allocation information is sent to terminal device, comprising: the network equipment sends the resource to the terminal device by RRC signaling and matches
Confidence breath;Or the network equipment sends M map bandwidth part to terminal device by system broadcast message or multicast message
Parameter information, M >=2, so that parameter information and the terminal device of the terminal device according to the M map bandwidth part
The bandwidth length of active-BP determines the parameter information of corresponding N number of map bandwidth part, wherein M, N are positive integer, and M
≥N。
Fourth aspect provides a kind of method of resource impact, sends this method comprises: terminal device receives the network equipment
Resource allocation information, which is used to indicate the parameter information of N number of map bandwidth part, N to the terminal device
>=2, the bandwidth length of any one map bandwidth part in N number of map bandwidth part is less than or equal to the terminal device
The bandwidth length map bandwidth part mapping portions of bandwidth of activated state portions of bandwidth active-BP;The terminal device is according to the money
Source configuration information and down dispatch information determine the downlink physical transfer resource of network equipment distribution.
Optionally, this method further include: the terminal device receives network equipment hair on the downlink physical transfer resource
The downlink data sent.
Therefore, the method for the resource impact of the application, by making any one map bandwidth in N number of map bandwidth part
Partial bandwidth length is less than or equal to the bandwidth length of the activated state portions of bandwidth active-BP of the terminal device, so that eventually
End equipment carries out distributed resource according to the parameter information of any one map bandwidth part in N number of map bandwidth part and reflects
When penetrating, all without departing from the activated state portions of bandwidth active-BP of terminal device.
Optionally, which is used to indicate the parameter information of a map bandwidth part to the terminal device
(that is, N=1), the bandwidth length of a map bandwidth part are less than or equal to the activated state portions of bandwidth of the terminal device
The bandwidth length of active-BP.
Therefore, by for one map bandwidth part of terminal equipment configuration, and the bandwidth length of the map bandwidth part
Less than or equal to the bandwidth length of the activated state portions of bandwidth active-BP of the terminal device, it can equally make terminal device
When carrying out distributed resource mapping according to the parameter information of 1 map bandwidth part, all without departing from the activation of terminal device
State portions of bandwidth active-BP.
In conjunction with fourth aspect, in the first implementation of fourth aspect, the bandwidth overall length of N number of map bandwidth part
Degree is equal to the bandwidth length of the active-BP, and any two map bandwidth part in N number of map bandwidth part is on frequency domain
It is not overlapped.
Therefore, by enabling the network equipment to be that N number of map bandwidth part of terminal device distribution covers all terminal
The bandwidth length of the active-BP of equipment enables terminal device to carry out distributed resource according to N number of map bandwidth part
Mapping avoids causing because the bandwidth total length of N number of map bandwidth part is less than the bandwidth total length of N number of map bandwidth part
A part of bandwidth in the active-BP of terminal device occurs exceeding work when carrying out distributed resource mapping according to system bandwidth
The problem of bandwidth range.
Optionally, the bandwidth total length of any one map bandwidth part in N number of map bandwidth part, which is greater than, is somebody's turn to do
The bandwidth length of active-BP.
When the bandwidth length of any one map bandwidth part in N number of map bandwidth part is greater than the active-BP
Bandwidth length when or N number of map bandwidth part bandwidth total length be greater than the active-BP bandwidth length when, lead to
The mapped mode configuration of the at most two map bandwidth parts of user active-BP will be exceeded by crossing in N number of map bandwidth part
For centralized mapping, when so that terminal device carrying out distributed resource mapping, all without departing from the activated state bandwidth of terminal device
Part active-BP.
In conjunction with fourth aspect, in second of implementation of fourth aspect, which believes according to the resource distribution
Breath and down dispatch information determine the downlink physical transfer resource of network equipment distribution, comprising: the terminal device determines under first
Row VRB resource belongs to the first map bandwidth part, which is any one in N number of map bandwidth part
A map bandwidth part, it is the terminal device point which, which is the network equipment by the down dispatch information,
The resource matched;The terminal device is by the first downlink VRB resource according to the parameter information and downlink of the first map bandwidth part
The mapping parameters of scheduling information instruction are mapped, and determine interleaver matrix, so that it is determined that the first downlink PRB resource, this is under first
Row PRB resource is the first downlink VRB resource corresponding mapping resource, first downlink in the first map bandwidth part
PRB resource belongs to the first map bandwidth part.
Therefore, the terminal device different for the bandwidth length of active-BP, by making in same mapping portions of bandwidth
The virtual transmission resource for belonging to different terminal equipment carries out distributed resource according to the parameter information of identical map bandwidth part
Mapping, and then the different terminal device of bandwidth length for solving active-BP carries out distributed money according to respective active-BP
The problem of resource contention occurs after the mapping of source.
In conjunction with fourth aspect, in the third implementation of fourth aspect, it is N number of which belongs to this
Multiple adjacent map bandwidth parts in map bandwidth part, the first downlink VRB resource are one section of continuous VRB resource.
In conjunction with fourth aspect, in the 4th kind of implementation of fourth aspect, this method further include: the terminal device receives
The down dispatch information that the network equipment is sent, the down dispatch information are used to indicate the resource of at least downlink VRB resource
Index information and mapping parameters information, the resource indexing information include the resource index value of downlink VRB resource, the mapping parameters
The configuration information of information and map bandwidth part joint determines the intertexture square for belonging to VRB to the PRB of the map bandwidth part
Battle array.
In conjunction with fourth aspect, in the 5th kind of implementation of fourth aspect, each of N number of map bandwidth part is reflected
The parameter information for penetrating portions of bandwidth includes at least following information: the bandwidth length information of map bandwidth part, map bandwidth part
Location information and map bandwidth part mapped mode, the mapped mode of the map bandwidth part include centralized mapping and point
Cloth mapping.
In conjunction with fourth aspect, in the 6th kind of implementation of fourth aspect, which receives network equipment hair
The resource allocation information sent, comprising: the terminal device is believed by the resource distribution that RRC signaling receives network equipment transmission
Breath;Or the terminal device receives M map bandwidth part of network equipment transmission by system broadcast message or multicast message
Parameter information, M >=2;The terminal device is according to the parameter information of the M map bandwidth part and the bandwidth of the active-BP
Length determines the parameter information of corresponding N number of map bandwidth part, wherein M, N are positive integer, and M >=N.
5th aspect provides a kind of device of resource impact, including for executing above-mentioned first aspect and first party
The unit of each step of the method for resource impact in each implementation in face.
6th aspect provides a kind of device of resource impact, including for executing above-mentioned second aspect and second party
The unit of each step of the method for resource impact in each implementation in face.
7th aspect provides a kind of device of resource impact, including for executing the above-mentioned third aspect and third party
The unit of each step of the method for resource impact in each implementation in face.
Eighth aspect provides a kind of device of resource impact, including for executing above-mentioned fourth aspect and four directions
The unit of each step of the method for resource impact in each implementation in face.
9th aspect provides a kind of equipment of resource impact, including memory and processor, and the memory is for storing
Computer program, the processor from memory for calling and running the computer program, so that terminal device execution is above-mentioned
The method of any resource impact in first aspect and its various implementations.
Tenth aspect provides a kind of equipment of resource impact, including memory and processor, and the memory is for storing
Computer program, the processor from memory for calling and running the computer program, so that network equipment execution is above-mentioned
The method of any resource impact in second aspect and its various implementations.
Tenth on the one hand, provides a kind of equipment of resource impact, including memory and processor, the memory is for depositing
Computer program is stored up, the processor from memory for calling and running the computer program, so that terminal device executes
The method for stating any resource impact in the third aspect and its various implementations.
12nd aspect provides a kind of equipment of resource impact, including memory and processor, and the memory is for depositing
Computer program is stored up, the processor from memory for calling and running the computer program, so that the network equipment executes
The method for stating any resource impact in fourth aspect and its various implementations.
13rd aspect, provides a kind of computer program product, which includes: computer program generation
Code, when the computer program code is run by the processing unit of the network equipment, communication unit or processor, transceiver, so that
Execution above-mentioned first aspect face and the side of the resource impact in embodiments thereof either into fourth aspect of terminal device
Method.
Fourteenth aspect provides a kind of computer readable storage medium, which has journey
Sequence, the program make terminal device execute money of the above-mentioned first aspect either into fourth aspect in face and embodiments thereof
The method of source mapping.
15th aspect, provides a kind of chip system, including memory and processor, which calculates for storing
Machine program, the memory from memory for calling and running the computer program, so that being equipped with the logical of the chip system
Letter equipment executes above-mentioned first aspect method of face and the resource impact in embodiments thereof either into fourth aspect.Meter
Calculation machine readable storage medium storing program for executing, the computer-readable recording medium storage have program, which makes terminal device execute above-mentioned the
The method of one side and its any resource impact in various implementations.
Detailed description of the invention
Fig. 1 is the schematic architectural diagram according to the communication system of the application.
Fig. 2 is the schematic interaction figure according to the method for the resource impact of the application.
Fig. 3 is the principle schematic diagram mapped according to the ascending frequency-hopping of the application.
Fig. 4 is another schematic interaction figure according to the method for the resource impact of the application.
Fig. 5 is the principle schematic diagram mapped according to the downlink distributed resource of the application.
Fig. 6 is the schematic block diagram according to the device of the resource impact of the application.
Fig. 7 is another schematic block diagram according to the device of the resource impact of the application.
Fig. 8 is another schematic block diagram according to the device of the resource impact of the application.
Fig. 9 is another schematic block diagram according to the device of the resource impact of the application.
Figure 10 is the schematic diagram according to the device of the resource impact of the application.
Figure 11 is another schematic diagram according to the device of the resource impact of the application.
Figure 12 is another schematic diagram according to the device of the resource impact of the application.
Figure 13 is another schematic diagram according to the device of the resource impact of the application.
Specific embodiment
Below in conjunction with attached drawing, the technical solution in the application is described.
The term " component " that uses in the present specification, " module ", " system " etc. for indicate computer-related entity,
Hardware, firmware, the combination of hardware and software, software or software in execution.For example, component can be but not limited to, handling
Process, processor, object, executable file, execution thread, program and/or the computer run on device.By diagram, counting
Calculating the application run in equipment and calculating equipment can be component.One or more components can reside in process and/or execution
In thread, component can be located on a computer and/or be distributed between 2 or more computers.In addition, these components can
It is executed from the various computer-readable mediums for being stored with various data structures above.Component can be for example according to one or more
A data grouping (such as from two components interacted with local system, distributed system and/or internetwork another component
Data, such as the internet by signal and other system interactions) signal communicated by locally and/or remotely process.
It should be understood that the technical solution of the application can be applied to various communication systems, and such as: global system for mobile telecommunications
(Global System of Mobile communication, GSM) system, CDMA (Code Division
Multiple Access, CDMA) system, wideband code division multiple access (Wideband Code Division Multiple
Access, WCDMA) it system, General Packet Radio Service (General Packet Radio Service, GPRS), drills for a long time
Into (Long Term Evolution, LTE) system, advanced long term evolution (Advanced long term evolution,
LTE-A) system, Universal Mobile Communication System (Universal Mobile Telecommunication System, UMTS) or
Next generation communication system etc..
Wherein, next generation mobile communication system will not only support traditional communication, will also support for example, machine to machine
(Machine to Machine, M2M) communication or inter-vehicular communication (Vehicle to Vehicle, V2V) communication, wherein M2M
Communication can also be called machine type communication (Machine Type Communication, MTC).
The application combination terminal device describes each embodiment.Terminal device is referred to as user equipment (User
Equipment, UE) user equipment, access terminal, subscriber unit, subscriber station, movement station, mobile station, remote station, remote terminal,
Mobile device, user terminal, terminal, wireless telecom equipment, user agent or user apparatus.Terminal device can be wireless local area
Website (STAION, ST) in net (Wireless Local Area Networks, WLAN) can be cellular phone, wireless
Phone, session initiation protocol (Session Initiation Protocol, SIP) phone, wireless local loop (Wireless
Local Loop, WLL) it stands, personal digital assistant (Personal Digital Assistant, PDA) equipment, there is channel radio
It is the handheld device of telecommunication function, the other processing equipments for calculating equipment or being connected to wireless-modulated encoder, mobile unit, wearable
Equipment and next generation communication system, for example, the 5th generation communication (fifth-generation, 5G) network in terminal device or
Terminal device in public land mobile network (Public Land Mobile Network, PLMN) network of person's future evolution
Deng.
In addition, the application combination network equipment describes each embodiment.The network equipment, which can be, to be used for and mobile device
The equipment of communication, the network equipment can be the access point (ACCESS POINT, AP) in WLAN, the base station in GSM or CDMA
(Base Transceiver Station, BTS) is also possible to the base station (NodeB, NB) in WCDMA, can also be in LTE
Evolved base station (Evolutional Node B, eNB or eNodeB) perhaps relay station or access point or mobile unit,
The network equipment etc. in the PLMN network of wearable device and the network equipment or the following evolution in future 5G network.
In addition, in embodiments of the present invention, the network equipment provides service for cell, terminal device is used by the cell
Transfer resource (for example, frequency domain resource, in other words, frequency spectrum resource) it is communicated with the network equipment, which can be network and sets
Standby (such as base station) corresponding cell, cell may belong to macro base station, it is corresponding also to may belong to cell (small cell)
Base station, cell here may include: urban cells (Metro cell), Microcell (Micro cell), picocell (Pico
Cell), Femto cell (Femto cell) etc., these cells have the characteristics that coverage area is small, transmission power is low, are applicable in
In the data transport service of offer high-speed.
In addition, can there are multiple cells to work on carrier wave in LTE system with frequency simultaneously, under certain special screnes,
It is considered that the carrier wave in LTE system is equal with the concept of cell.Such as it polymerize (CA, Carrier in carrier wave
Aggregation) under scene, when configuring secondary carrier for UE, the carrier index of secondary carrier can be carried simultaneously and is worked auxiliary at this
The cell ID (Cell Indentify, Cell ID) of the secondary cell of carrier wave, in such a case, it is possible to think carrier wave with it is small
The concept in area is equivalent, for example one cell of one carrier wave of UE access and access is equivalent.
Method and apparatus provided by the present application can be applied to terminal device or the network equipment, the terminal device or network
Equipment includes hardware layer, operates in operating system layer on hardware layer, and operates in the application layer on operating system layer.It should
Hardware layer includes central processing unit (Central Processing Unit, CPU), memory management unit (Memory
Management Unit, MMU) and the hardware such as memory (also referred to as main memory).It is logical that the operating system can be any one or more
Cross process (Process) realize business processing computer operating system, for example, (SuSE) Linux OS, Unix operating system,
Android operation system, iOS operating system or windows operating system etc..The application layer includes browser, address list, text
The application such as processing software, instant communication software.Also, in this application, the specific knot of the executing subject of the method for resource impact
Structure, the application are simultaneously not particularly limited, as long as can have the journey of the code of the method for the resource impact of the application by log
Sequence is communicated in the method for the resource impact according to the application, for example, the execution of the method for the resource impact of the application
Main body can be terminal device or the network equipment, alternatively, being that caller and can execute journey in terminal device or the network equipment
The functional module of sequence.
In addition, the various aspects or feature of the application may be implemented into method, apparatus or use standard program and/or engineering
The product of technology.Term " product " used herein is covered can be from any computer-readable device, carrier or medium access
Computer program.For example, computer-readable medium may include, but be not limited to: magnetic memory device (for example, hard disk, floppy disk or
Tape etc.), CD (for example, compact disk (Compact Disc, CD), digital versatile disc (Digital Versatile Disc,
DVD) etc.), smart card and flush memory device are (for example, Erarable Programmable Read only Memory (Erasable Programmable
Read-Only Memory, EPROM), card, stick or Keyed actuator etc.).In addition, various storage media described herein can generation
Table be used for store information one or more equipment and/or other machine readable medias.Term " machine readable media " may include
But it is not limited to, wireless channel and the various other media that can be stored, include and/or carry instruction and/or data.
Fig. 1 is the schematic diagram for being applicable in the communication system of the method and apparatus of transmission uplink control signal of the application.Such as Fig. 1
Shown, which includes the network equipment 102, the network equipment 102 may include mutiple antennas for example, antenna 104,106,
108,110,112 and 114.In addition, the network equipment 102 can additionally include transmitter chain and receiver chain, the common skill in this field
Art personnel be appreciated that they may each comprise to signal send and receive relevant multiple components (such as processor, modulator,
Multiplexer, encoder, demultiplexer or antenna etc.).
The network equipment 102 can be communicated with multiple terminal devices (such as terminal device 116 and terminal device 122).However,
It is appreciated that the network equipment 102 can be with any number of terminal equipment in communication similar to terminal device 116 or 122.Terminal
Equipment 116 and 122 can be, such as cellular phone, smart phone, portable computer, handheld communication devices, hand-held calculate are set
Standby, satellite radio, global positioning system, PDA and/or any other for what is communicated on wireless communication system 100
It is suitble to equipment.
As shown in Figure 1, terminal device 116 is communicated with antenna 112 and 114, wherein antenna 112 and 114 passes through forward link
118 send information to terminal device 116, and receive information from terminal device 116 by reverse link 120.In addition, terminal device
122 communicate with antenna 104 and 106, and wherein antenna 104 and 106 sends information to terminal device 122 by forward link 124, and
Information is received from terminal device 122 by reverse link 126.
For example, in frequency division duplex (Frequency Division Duplex, referred to as " FDD ") system, for example, forward direction
Link 118 is available with different frequency bands used in reverse link 120, and forward link 124 is available to be made with reverse link 126
Different frequency bands.
For another example in time division duplex (Time Division Duplex, referred to as " TDD ") system and full duplex (Full
Duplex) in system, common frequency band, forward link 124 and reverse link 126 is can be used in forward link 118 and reverse link 120
Common frequency band can be used.
The each antenna (or the antenna sets being made of mutiple antennas) and/or region for being designed to communication are known as network
The sector of equipment 102.For example, antenna sets can be designed as to lead to the terminal device in the sector of 102 overlay area of the network equipment
Letter.During the network equipment 102 is communicated with terminal device 116 and 122 respectively by forward link 118 and 124, net
The transmitting antenna of network equipment 102 can improve the signal-to-noise ratio of forward link 118 and 124 using beam forming.In addition, being set with network
The standby terminal device all to it individual antenna is compared by way of sending signal, utilizes beam forming in the network equipment 102
When into associated coverage, the terminal device 116 and 122 of random dispersion sends signal, mobile device in neighboring community can be by
To less interference.
In given time, the network equipment 102, terminal device 116 or terminal device 122 can be radio communication transmitter
And/or radio communication receiver.When sending out data, radio communication transmitter can encode data for passing
It is defeated.Specifically, radio communication transmitter, which can obtain, (such as generates, receives from other communication devices or in memory save
Deng) to be sent to by channel radio communication receiver certain amount data bit.This data bit may include
In the transmission block (or multiple transmission blocks) of data, transmission block be can be segmented to generate multiple code blocks.
In addition, the communication system 100 can be PLMN network or D2D network or M2M network or other networks, figure
1 is the rough schematic view of citing, can also include other network equipments in network, not drawn in Fig. 1.
It should be noted that the method for the resource impact of the application include the resource impact in uplink method and
The method of resource impact in downlink transfer, is illustrated one by one below.
Firstly, being illustrated to the method for the resource impact in uplink.
Fig. 2 shows the schematic flow charts according to the method for resource impact in the uplink of the application.In Fig. 2
Terminal device can be the terminal device in the terminal device 116,122 in Fig. 1;The network equipment can set for the network in Fig. 1
Standby 102.Certainly, in real system, the quantity of the network equipment and terminal device can be not limited to the present embodiment or other implementations
The citing of example, repeats no more below.As shown in Fig. 2, this method comprises:
S210, the network equipment generate resource allocation information, which is used to indicate N number of jump to the terminal device
The parameter information of frequency band wide portion (Hopping bandwidth part, HBP), N >=2, any one HBP in N number of HBP
Bandwidth length be less than or equal to the terminal device activated state portions of bandwidth active-BP bandwidth length;
S220, the network equipment send the resource allocation information to terminal device;
S230, terminal device receive the resource allocation information that the network equipment is sent, which was used for the end
End equipment indicates the parameter information of N number of HBP, N >=2, the bandwidth length of any one HBP in N number of HBP is less than or equal to should
The bandwidth length HBP of the activated state portions of bandwidth active-BP of terminal device;
Specifically, the network equipment sends resource allocation information to terminal device, which is used for terminal
Equipment indicates the parameter information of N number of HBP, N >=2 indicate the activated state portions of bandwidth of the terminal device to terminal device
The parameter information of HBP and each HBP that the bandwidth length of active-BP is included, any one HBP in N number of HBP
Bandwidth length be respectively less than or the activated state portions of bandwidth active-BP equal to the terminal device bandwidth length.
Optionally, which can be also used for indicating the parameter information of a HBP (that is, N to the terminal device
=1), the bandwidth length of a HBP is long less than or equal to the bandwidth of the activated state portions of bandwidth active-BP of the terminal device
Degree.
Specifically, by for one HBP of terminal equipment configuration, and the bandwidth length of the HBP is less than or equal to the end
The bandwidth length of the activated state portions of bandwidth active-BP of end equipment, can equally make terminal device according to 1 HBP's
When parameter information carries out frequency hopping, the activated state portions of bandwidth active-BP of terminal device will not be all jumped out.
In step S220, terminal device receives the resource allocation information that the network equipment is sent, and passes through the resource distribution
Information, terminal device can determine the number for the HBP that its activated state portions of bandwidth active-BP includes and the ginseng of each HBP
Number information.In uplink, which indicates to carry out in corresponding HBP according to the parameter information of the HBP to terminal device
Frequency hopping.
Optionally, the bandwidth total length of N number of HBP is equal to the bandwidth length of the active-BP of the terminal device, this is N number of
Any two HBP in HBP is not overlapped on frequency domain.
Specifically, being set by enabling the network equipment to cover all terminal for N number of frequency hopping HBP of terminal device distribution
The bandwidth length of standby active-BP enables terminal device to carry out frequency hopping according to N number of frequency hopping HBP, avoids because N number of
The bandwidth total length of HBP is less than the bandwidth total length of N number of HBP, cause a part of bandwidth in the active-BP of terminal device by
Lighting system bandwidth carries out the problem of jumping out band of operation occur when frequency hopping.
Therefore, the method for the resource impact of the application, by being less than the bandwidth length of any one HBP in N number of HBP
Or the bandwidth length of the activated state portions of bandwidth active-BP equal to the terminal device, so that terminal device is according to N number of HBP
In any one HBP parameter information carry out frequency hopping when, will not all jump out the activated state portions of bandwidth active- of terminal device
BP。
Optionally, which sends the resource allocation information to the terminal device by RRC signaling;Or
The network equipment sends the parameter information of M HBP, M by system broadcast message or multicast message to terminal device
>=2 so that the terminal device according to the bandwidth length of the parameter information of the M HBP and the active-BP of the terminal device and
The initial position of active-BP or end position determine the parameter information of corresponding N number of HBP, wherein M, N are positive whole
Number, and M >=N.
Specifically, the network equipment can pass through wireless heterogeneous networks (Radio Resource Control, RRC) signaling
Individually each terminal device into system sends the corresponding resource allocation information;Alternatively, can also be disappeared by system broadcasts
Breath or multicast message broadcast the parameter information of M HBP in systems, and the parameter information of the M HBP is sent to more in system
A terminal device.
When the terminal device in system receives the M that the network equipment is sent by system broadcast message or multicast message
When the parameter information of HBP, according to the bandwidth length of the active-BP of itself, determined from the parameter information of the M HBP with
Belong to the parameter information of N number of HBP of the active-BP of the terminal device, wherein M, N are positive integer, and M >=N.
For the ease of the understanding to subsequent schedule, the parameter information of N number of HBP is illustrated first.
Optionally, the parameter information of each HBP in N number of HBP includes at least following information:
The frequency hopping Rule Information of the bandwidth length information of HBP, the location information of HBP and HBP, the frequency hopping rule letter of the HBP
Breath includes at least one of frequency-hopping mode information, frequency hopping PRB offset information, frequency hopping sub-band information.
Specifically, the bandwidth length information of the HBP can be Physical Resource Block (Physical included by HBP
Resource Block, PRB) number, the location information of the HBP can for the PRB resource of corresponding HBP starting number or
The number of the PRB resource of end;The frequency-hopping mode information of the HBP can be frequency hopping or transmission time list in transmission time unit
Frequency hopping between member;PRB offset when frequency hopping PRB offset information in HBP parameter information can be frequency hopping, for protecting in HBP
The normal transmission of other channels, other channels can be ascending physical signal control channel (Physical Uplink Control
Channel, PUCCH);Frequency hopping sub-band information in the parameter information of HBP can be son included by a HBP of terminal device
Band information of number.
It should be noted that the PRB number that the number of sub-bands information and PRB offset information and HBP include is provided commonly for
PRB when (for example, Type2 frequency hopping type) is from VRB resource to PRB resource impact when determining other types frequency hopping deviates meter
It calculates.
S240, the terminal device determine the upper of network equipment distribution according to the resource allocation information and uplink scheduling information
Row physical transfer resource;
Specifically, when terminal device receive the network equipment transmission resource allocation information after, terminal device according to
The resource allocation information and uplink scheduling information determine the ascending physical signal transfer resource of network equipment distribution, the uplink scheduling
Information is used to indicate the virtual transmission resource that the network equipment distributes for it to terminal device.
Optionally, which can be based on system pre-configuration, i.e. the network equipment and terminal device can
Enough know the uplink scheduling information;Alternatively, the uplink scheduling information can be sent to terminal device by the network equipment, the uplink tune
Degree information is used to indicate the network equipment to terminal device at least as the uplink transmission resource and mapping parameters information of its distribution, this is reflected
It needs to use certain frequency hopping type when penetrating parameter information for terminal device indicative of frequency hopping.For example, the uplink scheduling information to
Terminal device indicates the resource indexing information of uplink virtual resource block (Virtual Resource Block, VRB), the resource rope
Fuse breath may include the resource index value of uplink VRB resource.
After terminal device obtains the uplink scheduling information, so that it may according to the uplink scheduling information, determine network
Equipment is the virtual transmission resource of its distribution, is joined further, since the uplink scheduling information is also used to indicate to map to user equipment
Number information, the mapping parameters information need to use certain frequency hopping type when being used for terminal device indicative of frequency hopping.In turn, terminal is set
The standby mapping parameters information indicated according to the resource allocation information and uplink scheduling information, determines the ascending of network equipment distribution
Manage transfer resource.
In step S240, optionally, which determines the first uplink VRB resource for belonging to the first HBP, this first
HBP is any one HBP in N number of HBP, which is that the network equipment passes through the uplink scheduling information
For the resource of terminal device distribution;
The terminal device maps the first uplink VRB resource according to the parameter information of the first HBP, determines first
Uplink PRB resource, the second uplink PRB resource, i.e., in first time unit, the VRB resource is in the first HBP after mapping
The first uplink PRB resource is obtained, in the second time quantum, which obtains on second after mapping in the first HBP
Row PRB resource, the PRB between the first uplink PRB resource and the second uplink PRB resource on frequency domain there are certain amount are inclined
It moves.
It should be noted that the first uplink VRB resource can be one section that the network equipment is terminal device distribution continuous
VRB resource, alternatively, be also possible to the network equipment be terminal device distribution one section of continuous VRB resource in part VRB provide
Source (that is, the part VRB resource in the continuous VRB resource belongs to HBP1, another part VRB money in the continuous VRB resource
Source belongs to other HBP in N number of HBP in addition to HBP1).The application to this with no restriction.
For ease of description, below by taking the terminal device in system is first terminal equipment and second terminal equipment as an example,
The technical solution of the application is illustrated, wherein the bandwidth of operation size of the first terminal equipment and the second terminal equipment
Bandwidth of operation is of different sizes, and there are overlapping regions between the first terminal equipment and the bandwidth of operation of the second terminal equipment.
It is non-limiting as example, as shown in figure 3, the bandwidth of operation of the first terminal equipment includes 25 PRB resources
(that is, 0~No. 24 PRB resource), the bandwidth of operation of the second terminal equipment include 50 PRB resources (that is, 0~No. 49 PRB money
Source), wherein there are overlapping regions between first terminal equipment and the bandwidth of operation of second terminal equipment, and the overlapping region is wrapped
Containing 0~No. 24 PRB resource (that is, an example of the location information of an example and HBP of the bandwidth length information of HBP).The network equipment is logical
The resource allocation information is crossed, for one HBP of the first terminal device configuration (HBP1, that is, an example of the first HBP), the HBP packet
Containing 0~No. 24 PRB resource, the network equipment is two HBP of the second terminal device configuration, and the HBP1 in two HBP includes 0
~No. 24 PRB resources, the HBP2 in two HBP include 25~No. 49 PRB resources.
Non-limiting as example, the network equipment is by the uplink scheduling information, for the VRB money of first terminal equipment distribution
Source is 9~No. 13 VRB resources (that is, an example of the first uplink VRB resource).The first terminal equipment is according to the network equipment first
Its VRB resource distributed determines that 9~No. 13 VRB resources belong to HBP1, therefore, which will be according to HBP1's
Parameter information and the mapping parameters information of uplink scheduling information instruction carry out resource impact (that is, jumping to 9~No. 13 VRB resources
Frequently).
For example, the offset that the parameter information of HBP1 and HBP2 is each configured to PRB is 0, i.e., the PRB in entire HBP is
Hop region;Alternatively, the parameter information is also configured as in 14 OFDM symbols (OFDM Symbol, OS)
(intra-slot) frequency hopping in subframe;Further for example, the frequency-hopping mode of HBP1 is frequency hopping in transmission time unit, the frequency hopping mould of HBP2
Formula is similarly frequency hopping in transmission time unit, and configure frequency hopping number of sub-bands be 2, the uplink scheduling information of first terminal equipment with
Mapping parameters information in the uplink scheduling information of second terminal equipment is needed to terminal device indicative of frequency hopping using frequency hopping type
(for example, Type1 frequency hopping type) carries out frequency hopping according to 1/2 HBP length.
It should be noted that the configuration of the above-mentioned parameter information about HBP and the configuration of mapping parameters information are only to show
Example property explanation, the application are not intended to be limited in any this.
At this point, first time unit of the first terminal equipment first by 9~No. 13 VRB resource impacts into HBP1 is corresponding
9~No. 13 PRB resources (that is, an example of the first uplink PRB resource) in, then by 9~No. 13 VRB resources according to 12 PRB
After resource is deviated, corresponding 21~No. 24 PRB resources of the second time quantum being mapped in HBP1 and No. 0 PRB money
In source (that is, an example of the second uplink PRB resource).As can be seen that the first time unit on the first PRB resource and this second
There are the offsets of 12 PRB (result after 25/2 rounding downwards) between the 2nd PRB resource on time quantum.So far, first
Terminal device is according to resource allocation information and uplink scheduling information, it is determined that the ascending physical signal of network equipment distribution transmits money
Source.
In step S240, optionally, which at most belongs to the first HBP and the 2nd HBP, this
Two HBP are HBP adjacent with the first HBP in N number of HBP, which is one section of continuous VRB resource.
Non-limiting as example, the network equipment is that the VRB resource of second terminal equipment distribution is 22~No. 29 VRB moneys
Source.The second terminal equipment first according to the network equipment be its distribution VRB resource and HBP configuration information, determine this 22~29
22~No. 24 VRB resources in number VRB belong to HBP1, and 25~No. 29 VRB in 22~No. 29 VRB resources belong to HBP2.Cause
This, the second terminal equipment is by the Type1 frequency hopping type indicated according to the parameter information of HBP1 and uplink scheduling information (that is, 1/2
HBP PRB offset) resource impacts are carried out to 22~No. 24 VRB resources, believe according to the parameter information and uplink scheduling of HBP2
The Type1 frequency hopping type (that is, the PRB of 1/2 HBP is deviated) for ceasing instruction carries out resource impact to 25~No. 29 VRB resources
(that is, frequency hopping).
According to the configuration of the parameter information of above-mentioned HBP1 and HBP2 it is found that the frequency-hopping mode of HBP1 is transmission time unit
Interior frequency hopping, and the frequency hopping type of the uplink scheduling information instruction of the first terminal equipment is Type1 frequency hopping type, i.e., according to 12
PRB offset carries out frequency hopping;The frequency-hopping mode of HBP2 is frequency hopping in transmission time unit, and the uplink scheduling of the first terminal equipment
The frequency hopping type of information instruction is Type1 frequency hopping type, i.e., carries out frequency hopping according to 12 PRB offsets.
At this point, what 22~No. 24 VRB for belonging to HBP1 in first time unit were mapped to by second terminal equipment first
22~No. 24 PRB of HBP1,25~No. 29 VRB for belonging to HBP2 are mapped to 25~No. 29 PRB of HBP2, wherein single at the first time
Member can be n OFDM symbol continuous in time domain, n >=1;Secondly, 22~No. 24 of HBP1 will be belonged in the second time quantum
9~No. 11 PRB for the HBP1 that VRB is mapped to, 25~No. 29 VRB for belonging to HBP2 are mapped to 37~No. 41 PRB of HBP2, wherein
Second time quantum is continuous n OFDM symbol, n >=1 in time domain.
So far, second terminal equipment is according to resource allocation information and uplink scheduling information, it is determined that network equipment distribution
Ascending physical signal transfer resource.
It should be noted that when HBP is configured with the frequency-hopping mode in subframe, above-mentioned first time unit and this second
Time quantum may belong to the same transmission time unit;Alternatively, when the frequency-hopping mode between HBP configuration subframe, above-mentioned first
Time quantum can also be belonging respectively to different transmission time units from the second time quantum.The application does not limit this.
Optionally, this method 200 can also include step S250, the terminal device on the ascending physical signal transfer resource to
The network equipment sends upstream data.
Specifically, when terminal device has determined the ascending physical signal transfer resource of network equipment distribution (for example, above-mentioned 9
~No. 13 PRB resources, 21~No. 24 PRB resources and No. 0 PRB resource) after, so that it may on the ascending physical signal transfer resource
Upstream data is sent to the network equipment.
Optionally, this method 200 can also include step S260, and the network equipment is on the ascending physical signal transfer resource to connecing
Receive the upstream data that terminal device is sent
It should be noted that first terminal equipment shown in Fig. 3 includes a HBP and second terminal equipment includes two
The case where HBP, only with example, does not constitute any restriction to the application.In this application, the part in same system
The active-BP of terminal device can only include a HBP, and there are also the active-BP of section terminating equipment to include at least
Two HBP, alternatively, the active-BP of the section terminating equipment in same system can include at least two HBP.
The application is not construed as limiting this.
Therefore, the method for the resource impact of the application, the terminal device different for the bandwidth length of active-BP lead to
Crossing maps the virtual transmission resource for belonging to different terminal equipment in same HBP according to the parameter information of identical HBP,
According to respective active-BP frequency hopping resource occurs later for the different terminal device of the bandwidth length of solution active-BP in turn
The problem of conflict.
Above-mentioned is that the method for the resource impact of the application is illustrated for uplink.It is passed below for downlink
It is defeated, the method for the resource impact of the application is illustrated.
Fig. 4 shows the schematic flow chart of the method for the resource impact in the downlink transfer according to the application.In Fig. 4
Terminal device can be the terminal device in the terminal device 116,122 in Fig. 1;The network equipment can set for the network in Fig. 1
Standby 102.Certainly, in real system, the quantity of the network equipment and terminal device can be not limited to the present embodiment or other implementations
The citing of example, repeats no more below.As shown in figure 4, this method comprises:
S310, the network equipment generate resource allocation information, which is used to reflect to terminal device instruction is N number of
Penetrate the parameter information of portions of bandwidth (Mapping Bandwidth Part, MBP), N >=2, any one MBP in N number of MBP
Bandwidth length be less than or equal to the terminal device activated state portions of bandwidth active-BP bandwidth length MBP;
S320, the network equipment send the resource allocation information to terminal device;
S330, terminal device receive the resource allocation information that the network equipment is sent, which was used for the end
End equipment indicates the parameter information of N number of MBP, N >=2, the bandwidth length of any one MBP in N number of MBP is less than or equal to should
The bandwidth length MBP of the activated state portions of bandwidth active-BP of terminal device;
Specifically, the network equipment sends resource allocation information to terminal device, which is used for terminal
Equipment indicates the parameter information of N number of MBP, N >=2 indicate the activated state portions of bandwidth of the terminal device to terminal device
The parameter information of MBP and each MBP that the bandwidth length of active-BP is included, any one in N number of MBP
The bandwidth length of MBP is respectively less than or the bandwidth length of the activated state portions of bandwidth active-BP equal to the terminal device, also,
Any two MBP in N number of MBP is not overlapped on frequency domain.
Optionally, which is used to indicate the parameter information (that is, N=1) of a MBP to the terminal device,
The bandwidth length of one MBP is less than or equal to the bandwidth length of the activated state portions of bandwidth active-BP of the terminal device.
Specifically, by for one MBP of terminal equipment configuration, and the bandwidth length of the MBP is less than or equal to the end
The bandwidth length of the activated state portions of bandwidth active-BP of end equipment, can equally make terminal device according to 1 MBP's
When parameter information carries out distributed resource mapping, all without departing from the activated state portions of bandwidth active-BP of terminal device.
In step S330, terminal device receives the resource allocation information that the network equipment is sent, and passes through the resource distribution
Information, terminal device can determine the number for the MBP that its activated state portions of bandwidth active-BP includes and the ginseng of each MBP
Number information.In downlink transfer, which indicates to carry out in corresponding MBP according to the parameter information of the MBP to terminal device
Resource impact.
It should be noted that the MBP can be not construed as limiting this for PRB resource continuous on one section of frequency domain, the application.
Optionally, the bandwidth total length of N number of frequency hopping portions of bandwidth is long equal to the bandwidth of the active-BP of the terminal device
It spends, any two frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth is not overlapped on frequency domain.
Specifically, by enabling the network equipment to be that N number of MBP of terminal device distribution covers all terminal device
The bandwidth length of active-BP enables terminal device to carry out distributed resource mapping according to N number of MBP, avoids because eventually
End equipment active-BP bandwidth total length is less than the bandwidth total length of N number of MBP, leads to one in the active-BP of terminal device
There is the problem of beyond band of operation when carrying out distributed resource mapping according to system bandwidth in fractional bandwidth.
It should be noted that the bandwidth of the bandwidth total length of N number of MBP or any one MBP in N number of MBP are long
Degree can be greater than the bandwidth length of the active-BP of the terminal device, for the terminal device not covered by N number of MBP
Part active-BP for, the mapped mode of part active-BP is configurable to centralized mapping.
Therefore, the method for the resource impact of the application, by being less than the bandwidth length of any one MBP in N number of MBP
Or the bandwidth length of the activated state portions of bandwidth active-BP equal to the terminal device, so that terminal device is according to N number of MBP
In any one MBP parameter information carry out distributed resource mapping when, all without departing from the activated state bandwidth of terminal device
Part active-BP.
Optionally, which sends the resource allocation information to the terminal device by RRC signaling;Or
The network equipment sends the parameter information of M MBP, M by system broadcast message or multicast message to terminal device
>=2, so that the terminal device is determined according to the bandwidth length of the parameter information of the M MBP and the active-BP of the terminal device
The parameter information of corresponding N number of MBP, wherein M, N are positive integer, and M >=N.
Specifically, the network equipment can pass through wireless heterogeneous networks (Radio Resource Control, RRC) signaling
Individually each terminal device into system sends the corresponding resource allocation information;Alternatively, can also be disappeared by system broadcasts
Breath or multicast message broadcast the parameter information of M MBP in systems, multiple in the parameter information correspondence system of the M MBP
Terminal device.
When the terminal device in system receives the M that the network equipment is sent by system broadcast message or multicast message
When the parameter information of MBP, according to the bandwidth length of the active-BP of itself, determined from the parameter information of the M MBP with
Belong to the parameter information of N number of MBP of the terminal device, wherein M, N are positive integer, and M >=N.
For the ease of the understanding to subsequent schedule, the parameter information of N number of MBP is illustrated first.
Optionally, the parameter information of each MBP in N number of MBP includes at least following information:
The mapped mode of the bandwidth length information of MBP, the location information of MBP and MBP, the mapped mode of the MBP include collection
Chinese style mapping and distributed mapping.
Specifically, the bandwidth length information of the MBP can be Physical Resource Block (Physical included by MBP
Resource Block, PRB) number, the location information of the MBP can for the PRB resource of corresponding MBP starting number or
The number of the PRB resource of end, the mapped mode of the MBP include centralized mapping and distributed mapping.
Optionally, this method 300 can also include step S340, and the network equipment is on downlink physical transfer resource to this
Terminal device sends downlink data.
S350, the terminal device determine network according to the down dispatch information of the resource allocation information and the terminal device
The downlink physical transfer resource of equipment distribution;
Specifically, receiving the resource allocation information of network equipment transmission and the downlink of the terminal device when terminal device
After scheduling information, terminal device determines the network equipment firstly the need of according to the resource allocation information and down dispatch information
The downlink physical transfer resource of distribution, the down dispatch information are used to indicate that the network equipment distributes for it to terminal device virtual
Transfer resource, in addition, the down dispatch information is also used to indicate mapping parameters information to terminal device, the network equipment is reflected according to this
Parameter information is penetrated, downlink virtual resource block in MBP (Virtual Resource Block, VRB) can be calculated and provided to PRB
The interleaver matrix of source mapping.
Optionally, which can be based on system pre-configuration, i.e. the network equipment and terminal device can
Enough know the down dispatch information;Alternatively, the down dispatch information can be sent to terminal device by the network equipment, the downlink tune
Spend the downlink transfer resource that information is used to distribute to the terminal device network equipment for it.For example, the down dispatch information is to terminal
Equipment indicates the resource indexing information of VRB resource, which may include the resource index of downlink VRB resource
Value.
In step S350, optionally, which is downlink by the resource that down dispatch information is terminal distribution
VRB resource, it is the first VRB resource that the first MBP is belonged in downlink VRB resource, and the first MBP is any one in N number of MBP
A MBP;
The terminal device maps the first downlink VRB resource according to the parameter information of the first MBP, determines first
Downlink PRB resource, the first downlink PRB resource are the first downlink VRB resource corresponding mapping resource in the first MBP,
The first downlink PRB resource belongs to the first MBP.
For ease of description, below by taking the terminal device in system is first terminal equipment and second terminal equipment as an example,
The technical solution of the application is illustrated, wherein the bandwidth of operation size of the first terminal equipment and the second terminal equipment
Bandwidth of operation is of different sizes, and there are overlapping regions between the first terminal equipment and the bandwidth of operation of the second terminal equipment.
It is non-limiting as example, as shown in figure 5, the bandwidth of operation of the first terminal equipment includes 25 PRB resources
(that is, 0~No. 24 PRB resource), the bandwidth of operation of the second terminal equipment include 50 PRB resources (that is, 0~No. 49 PRB money
Source), wherein there are overlapping regions between first terminal equipment and the bandwidth of operation of second terminal equipment, and the overlapping region is wrapped
Containing 0~No. 24 PRB resource (that is, an example of the location information of an example and MBP of the bandwidth length information of MBP).The network equipment is logical
The resource allocation information is crossed, for one MBP of the first terminal device configuration (MBP1, that is, an example of the first MBP), the MBP packet
Containing 0~No. 24 PRB resource, the network equipment is two MBP of the second terminal device configuration, and the MBP1 in two MBP includes 0
~No. 24 PRB resources, the MBP2 in two MBP include 25~No. 49 PRB resources.
Non-limiting as example, the network equipment is by the down dispatch information, for the VRB money of first terminal equipment distribution
Source is 9~No. 13 VRB resources.The first terminal equipment matches confidence according to the network equipment first for the VRB resource and MBP of its distribution
Breath, determines that 9~No. 13 VRB resources belong to MBP1, therefore, which will be according to the parameter information and downlink of MBP1
Scheduling information is shown or the mapping parameters information of implicit instruction, determines the interleaver matrix that VRB to PRB maps in MBP1.
The interleaver matrix is as shown in figure 5, the network equipment can determine VRB resource to PRB resource according to the interleaver matrix
Resource mapping table, the resource mapping table are as shown in Figure 5.
For example, the mapped mode distributed mapping of MBP1.At this point, the first terminal according to the resource mapping table, first will
9~No. 13 VRB resource impacts are into MBP1, wherein and No. 9 VRB resource impacts are in No. 8 PRB resources into MBP1, and No. 10
VRB resource impact is in No. 14 PRB resources into MBP1, and No. 11 VRB resource impacts are in No. 20 PRB resources into MBP1, and 12
Number VRB resource impact is in No. 3 PRB resources into MBP1, and No. 13 VRB resource impacts are in No. 9 PRB resources into MBP1.Extremely
This, the first terminal equipment is according to resource allocation information and down dispatch information, it is determined that the network equipment is under its distribution
Row physical transfer resource
In step S350, optionally, which belongs to multiple adjacent MBP in N number of MBP, should
First downlink VRB resource is one section of continuous VRB resource.
It is non-limiting as example, as shown in figure 5, for example, the first downlink VRB resource belongs to two in N number of MBP
Adjacent MBP, the network equipment are that the VRB resource of second terminal equipment distribution is 22~No. 29 VRB resources (that is, the first downlink VRB
An example of resource).The second terminal equipment is first the VRB resource of its distribution according to the network equipment, determines 22~No. 29 VRB
22~No. 24 VRB resources in resource belong to MBP1, and 25~No. 29 VRB resources in 22~No. 29 VRB resources belong to MBP2,
Therefore, which is that its equipment will be shown or the mapping of implicit instruction according to the parameter information and down dispatch information of MBP1
Parameter carries out resource impact to 22~No. 24 VRB resources, shows according to the parameter information and down dispatch information of MBP2 or hidden
The mapping parameters information of formula instruction carries out resource impact to 25~No. 29 VRB resources.
For example, the mapped mode distributed mapping of MBP1, the mapped mode of MBP2 is distributed mapping.
At this point, the second terminal equipment is first by 22~No. 24 VRB resource impacts into MBP1, wherein No. 22 VRB moneys
Source is mapped in No. 17 PRB resources in MBP1, and No. 23 VRB resource impacts are in No. 23 PRB resources into MBP1, No. 24 VRB
Resource impact is in No. 24 PRB resources into MBP1, then by 25~No. 29 VRB resource impacts into MBP1.
The second terminal equipment is by 25~No. 29 VRB resource impacts into MBP2, wherein No. 25 VRB resource impacts arrive
In No. 25 PRB resources in MBP1, No. 26 VRB resource impacts are in No. 31 PRB resources into MBP2, No. 27 VRB resource impacts
In No. 37 PRB resources into MBP2, No. 28 VRB resource impacts in No. 43 PRB resources into MBP2, reflect by No. 29 VRB resources
It is mapped in No. 26 PRB resources in MBP2.
So far, the second terminal equipment is according to resource allocation information and down dispatch information, it is determined that the network equipment is
Its downlink physical transfer resource distributed.
It should be noted that the mapped mode of MBP1 can also be centralized mapping, when the mapped mode of MBP1 is to concentrate
When formula maps, 9~No. 13 PRB resources of 9~No. 13 VRB resources according to centralized mapping mode map into MBP1.
It should also be noted that, the mapped mode as MBP1 is distributed mapping, the mapped mode of MBP2 reflects for centralization
When penetrating, wherein 22~No. 24 VRB resources for belonging to MBP1 are mapped according to the distributed mapping mode of MBP1, belong to MBP2
25~No. 29 VRB resources then mapped according to the centralized mapping mode of MBP2,25~No. 29 VRB resources are according to MBP2
25~No. 29 PRB resources of the centralized mapping mode map into MBP2.
Optionally, this method 300 can also include step S360, which connects on the downlink physical transfer resource
Receive the downlink data of network equipment transmission.
Specifically, after terminal device has determined downlink physical transfer resource of the network equipment for its distribution, so that it may
To receive the downlink data of network equipment transmission in the physical transfer resource.
It should be noted that first terminal equipment shown in Fig. 5 includes a MBP and second terminal equipment includes two
The case where MBP, only with example, does not constitute any restriction to the application.In this application, the part in same system
The active-BP of terminal device can only include a MBP, and there are also the active-BP of section terminating equipment to include at least
Two MBP, alternatively, the active-BP of the section terminating equipment in same system can include at least two MBP.
The application is not construed as limiting this.
Therefore, the terminal device different for the bandwidth length of active-BP belongs to difference in same MBP by making
The virtual transmission resource of terminal device carries out distributed resource mapping according to the parameter information of identical MBP, and then solves
The different terminal device of the bandwidth length of active-BP send out after distributed resource mapping according to respective active-BP
The problem of raw resource contention.
Fig. 6 is the schematic block diagram according to the device 400 of the resource impact of the application.As shown in fig. 6, the device includes:
Processing unit 410 and communication unit 420.
Wherein, processing unit 410, for generating resource allocation information, which is used for the terminal device
Indicate the parameter information of N number of frequency hopping portions of bandwidth, N >=2, any one frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth
Bandwidth length be less than or equal to the terminal device activated state portions of bandwidth active-BP bandwidth length;
Communication unit 420, for sending the resource allocation information to terminal device.
Optionally, the bandwidth total length of N number of frequency hopping portions of bandwidth is long equal to the bandwidth of the active-BP of the terminal device
It spends, any two frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth is not overlapped on frequency domain.
Optionally, which is also used to:
The uplink scheduling information is sent to the terminal device, which is used to indicate uplink VRB resource
Resource indexing information, the resource indexing information include the resource index value of uplink VRB resource.
Optionally, the parameter information of each frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth includes at least following letter
Breath:
The frequency hopping of the bandwidth length information of frequency hopping portions of bandwidth, the location information of frequency hopping portions of bandwidth and frequency hopping portions of bandwidth
The frequency hopping Rule Information of Rule Information, the frequency hopping portions of bandwidth includes at least frequency-hopping mode information, frequency hopping PRB offset information and jump
Frequency sub-band information.
Optionally, which is also used to:
The resource allocation information is sent to the terminal device by RRC signaling;Or
Send the parameter information of M frequency hopping portions of bandwidth to terminal device by system broadcast message or multicast message, M >=
2, so that bandwidth of the terminal device according to the parameter information of the M frequency hopping portions of bandwidth and the active-BP of the terminal device
Length P determines the parameter information of corresponding N number of frequency hopping portions of bandwidth, wherein M, N are positive integer, and M >=N.
Optionally, which is also used to:
The upstream data of terminal device transmission is received on ascending physical signal transfer resource.
It should be understood that the device 400 according to the resource impact of the application can correspond to the network equipment in the present processes,
And each unit and module in the device 400 of the resource impact and other above-mentioned operation and/or functions are respectively for implementation method
The corresponding process executed in 200 by the network equipment, for sake of simplicity, details are not described herein again.
Therefore, the device of the resource impact of the application, by being less than the bandwidth length of any one HBP in N number of HBP
Or the bandwidth length of the activated state portions of bandwidth active-BP equal to the terminal device, so that terminal device is according to N number of HBP
In any one HBP parameter information carry out frequency hopping when, will not all jump out the activated state portions of bandwidth active- of terminal device
BP。
Fig. 7 is the schematic block diagram according to the device 500 of the resource impact of the application.As shown in fig. 7, the device includes:
Communication unit 510 and processing unit 520.
Wherein, communication unit 510, for receiving the resource allocation information of network equipment transmission, which is used
In the parameter information for indicating N number of frequency hopping portions of bandwidth to the terminal device, N >=2 are any one in N number of frequency hopping portions of bandwidth
The bandwidth that the bandwidth length of a frequency hopping portions of bandwidth is less than or equal to the activated state portions of bandwidth active-BP of the terminal device is long
Spend frequency hopping portions of bandwidth frequency hopping portions of bandwidth;
Processing unit 520, for determining the upper of network equipment distribution according to the resource allocation information and uplink scheduling information
Row physical transfer resource.
Optionally, the bandwidth total length of N number of frequency hopping portions of bandwidth is equal to the bandwidth length of the active-BP, N number of jump
Any two frequency hopping portions of bandwidth in frequency band wide portion is not overlapped on frequency domain.
Optionally, which is specifically used for:
Determine that the first uplink VRB resource belongs to the first frequency hopping portions of bandwidth, which is N number of frequency hopping
Any one frequency hopping portions of bandwidth in portions of bandwidth, the first uplink VRB resource are that the network equipment passes through the uplink scheduling
Information is the resource of terminal device distribution;
The first uplink VRB resource is mapped according to the parameter information of the first frequency hopping portions of bandwidth, determines first
Uplink PRB resource, the second uplink PRB resource, the first uplink PRB resource and the second uplink PRB resource are first uplink
VRB resource corresponding mapping resource in the first frequency hopping portions of bandwidth, the first uplink PRB resource belong to the first frequency hopping band
First time unit in wide portion, the second uplink PRB resource belong to the list of the second time in the first frequency hopping portions of bandwidth
Member, there are the offsets of integer PRB resource on frequency domain between the first uplink PRB resource and the second uplink PRB resource.
Optionally, which at most belongs to the first frequency hopping portions of bandwidth and the second frequency hopping portions of bandwidth,
The second frequency hopping portions of bandwidth is frequency hopping bandwidth portion adjacent with the first frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth
Point, which is one section of continuous VRB resource.
Optionally, which is also used to:
The uplink scheduling information of network equipment transmission is received, which is used to indicate uplink VRB money
The resource indexing information in source, the resource indexing information include the resource index value of uplink VRB resource.
Optionally, the parameter information of each frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth includes at least following letter
Breath:
The frequency hopping of the bandwidth length information of frequency hopping portions of bandwidth, the location information of frequency hopping portions of bandwidth and frequency hopping portions of bandwidth
The frequency hopping Rule Information of Rule Information, the frequency hopping portions of bandwidth includes at least frequency-hopping mode information, frequency hopping PRB offset information and jump
Frequency sub-band information.
Optionally, which is also used to:
The network equipment, which is received, by RRC signaling sends the resource allocation information;Or
The parameter letter of M frequency hopping portions of bandwidth of network equipment transmission is received by system broadcast message or multicast message
Breath, M >=2;
The processing unit 520 is also used to:
According to the bandwidth length of the parameter information of the M frequency hopping portions of bandwidth and the active-BP, determine corresponding N number of
The parameter information of frequency hopping portions of bandwidth, wherein M, N are positive integer, and M >=N.
Optionally, which is also used to:
Upstream data is sent to the network equipment on the ascending physical signal transfer resource.
It should be understood that the device 500 according to the resource impact of the application can correspond to the terminal device in the present processes,
And each unit and module in the device 500 of the resource impact and other above-mentioned operation and/or functions are respectively for implementation method
The corresponding process executed in 200 by terminal device, for sake of simplicity, details are not described herein again.
Therefore, the device of the resource impact of the application, by being less than the bandwidth length of any one HBP in N number of HBP
Or the bandwidth length of the activated state portions of bandwidth active-BP equal to the terminal device, so that terminal device is according to N number of HBP
In any one HBP parameter information carry out frequency hopping when, will not all jump out the activated state portions of bandwidth active- of terminal device
BP。
Fig. 8 is the schematic block diagram according to the device 600 of the resource impact of the application.As shown in figure 8, the device includes:
Processing unit 610 and communication unit 620.
Wherein, processing unit 610, for generating resource allocation information, which is used for the terminal device
Indicate the parameter information of N number of map bandwidth part, N >=2, any one map bandwidth part in N number of map bandwidth part
Bandwidth length be less than or equal to the terminal device activated state portions of bandwidth active-BP bandwidth length map bandwidth part
Map bandwidth part;
Communication unit 620, for sending the resource allocation information to terminal device.
Optionally, the bandwidth total length of N number of map bandwidth part is equal to the bandwidth length of the active-BP, this is N number of to reflect
Any two map bandwidth part penetrated in portions of bandwidth is not overlapped on frequency domain.
Optionally, which is also used to:
The down dispatch information is sent to the terminal device, which is used to indicate downlink VRB resource
Resource indexing information, the resource indexing information include the resource index value of downlink VRB resource.
Optionally, the parameter information of each map bandwidth part in N number of map bandwidth part includes at least following letter
Breath:
The mapping of the bandwidth length information of map bandwidth part, the location information of map bandwidth part and map bandwidth part
Mode, the mapped mode of the map bandwidth part include centralized mapping and distributed mapping.
Optionally, which is also used to:
The resource allocation information is sent to the terminal device by RRC signaling;Or
Send the parameter information of M map bandwidth part to terminal device by system broadcast message or multicast message, M >=
2, so that bandwidth of the terminal device according to the parameter information of the M map bandwidth part and the active-BP of the terminal device
Length determines the parameter information of corresponding N number of map bandwidth part, wherein M, N are positive integer, and M >=N.
Optionally, which is also used to:
Downlink data is sent to the terminal device on the downlink physical transfer resource.
It should be understood that the device 600 according to the resource impact of the application can correspond to the network equipment in the present processes,
And each unit and module in the device 600 of the resource impact and other above-mentioned operation and/or functions are respectively for implementation method
The corresponding process executed in 300 by the network equipment, for sake of simplicity, details are not described herein again.
Therefore, the method for the resource impact of the application, by being less than the bandwidth length of any one MBP in N number of MBP
Or the bandwidth length of the activated state portions of bandwidth active-BP equal to the terminal device, so that terminal device is according to N number of MBP
In any one MBP parameter information carry out distributed resource mapping when, all without departing from the activated state bandwidth of terminal device
Part active-BP.
Fig. 9 is the schematic block diagram according to the device 700 of the resource impact of the application.As shown in figure 9, the device includes:
Communication unit 710 and processing unit 720.
Wherein, communication unit 720, for receiving the resource allocation information of network equipment transmission, which is used
In the parameter information for indicating N number of map bandwidth part to the terminal device, N >=2 are any one in N number of map bandwidth part
The bandwidth that the bandwidth length of a map bandwidth part is less than or equal to the activated state portions of bandwidth active-BP of the terminal device is long
Spend map bandwidth part mapping portions of bandwidth;
Processing unit 720, for determining under network equipment distribution according to the resource allocation information and down dispatch information
Row physical transfer resource.
Optionally, the bandwidth total length of N number of map bandwidth part is equal to the bandwidth length of the active-BP, this is N number of to reflect
Any two map bandwidth part penetrated in portions of bandwidth is not overlapped on frequency domain.
Optionally, which is specifically used for:
Determine that the first downlink VRB resource belongs to the first map bandwidth part, which is N number of mapping
Any one map bandwidth part in portions of bandwidth, the first downlink VRB resource are that the network equipment passes through the descending scheduling
Information is the resource of terminal device distribution;
The first downlink VRB resource is mapped according to the parameter information of the first map bandwidth part, determines first
Downlink PRB resource, the first downlink PRB resource are that the first downlink VRB resource is corresponding in the first map bandwidth part
Resource is mapped, which belongs to the first map bandwidth part.
Optionally, which belongs to multiple adjacent map bandwidth portions in N number of map bandwidth part
Point, which is one section of continuous VRB resource.
Optionally, which is also used to:
The down dispatch information of network equipment transmission is received, which is used to indicate downlink VRB money
The resource indexing information in source, the resource indexing information include the resource index value of downlink VRB resource.
Optionally, the parameter information of each map bandwidth part in N number of map bandwidth part includes at least following letter
Breath:
The mapping of the bandwidth length information of map bandwidth part, the location information of map bandwidth part and map bandwidth part
Mode, the mapped mode of the map bandwidth part include centralized mapping and distributed mapping.
Optionally, which is also used to:
The resource allocation information of network equipment transmission is received by RRC signaling;Or
The parameter letter of M map bandwidth part of network equipment transmission is received by system broadcast message or multicast message
Breath, M >=2;
The processing unit 720 is also used to:
According to the bandwidth length of the parameter information of the M map bandwidth part and the active-BP, determine corresponding N number of
The parameter information of map bandwidth part, wherein M, N are positive integer, and M >=N.
Optionally, which is also used to:
The downlink data of network equipment transmission is received on the downlink physical transfer resource.It should be understood that according to the application
The device 700 of resource impact can correspond to the terminal device in the present processes, and in the device 700 of the resource impact
Each unit and module and other above-mentioned operation and/or functions are corresponding in order to be executed in implementation method 300 by terminal device respectively
Process, for sake of simplicity, details are not described herein again.
Therefore, the method for the resource impact of the application, by being less than the bandwidth length of any one MBP in N number of MBP
Or the bandwidth length of the activated state portions of bandwidth active-BP equal to the terminal device, so that terminal device is according to N number of MBP
In any one MBP parameter information carry out distributed resource mapping when, all without departing from the activated state bandwidth of terminal device
Part active-BP.
Figure 10 is the schematic diagram according to the equipment 800 of the resource impact of the application.As shown in Figure 10, the equipment
800 include:
Transceiver 810;
Memory 820;
Processor 830;
Wherein, for storing instruction, which is used to execute the finger of the memory 820 storage to the memory 820
It enables, receives signal to control the transceiver 810 transmission signal or control the transceiver 810.
Wherein, processor 830, for generating resource allocation information, the resource allocation information to the terminal device for referring to
Show the parameter information of N number of frequency hopping portions of bandwidth, N >=2, any one frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth
Bandwidth length is less than or equal to the bandwidth length of the activated state portions of bandwidth active-BP of the terminal device;
Transceiver 810, for sending the resource allocation information to terminal device.
Optionally, the bandwidth total length of N number of frequency hopping portions of bandwidth is long equal to the bandwidth of the active-BP of the terminal device
It spends, any two frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth is not overlapped on frequency domain.
Optionally, which is also used to:
The uplink scheduling information is sent to the terminal device, which is used to indicate uplink VRB resource
Resource indexing information, the resource indexing information include the resource index value of uplink VRB resource.
Optionally, the parameter information of each frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth includes at least following letter
Breath:
The frequency hopping of the bandwidth length information of frequency hopping portions of bandwidth, the location information of frequency hopping portions of bandwidth and frequency hopping portions of bandwidth
The frequency hopping Rule Information of Rule Information, the frequency hopping portions of bandwidth includes at least frequency-hopping mode information, frequency hopping PRB offset information and jump
Frequency sub-band information.
Optionally, which is also used to:
The resource allocation information is sent to the terminal device by RRC signaling;Or
Send the parameter information of M frequency hopping portions of bandwidth to terminal device by system broadcast message or multicast message, M >=
2, so that bandwidth of the terminal device according to the parameter information of the M frequency hopping portions of bandwidth and the active-BP of the terminal device
Length P determines the parameter information of corresponding N number of frequency hopping portions of bandwidth, wherein M, N are positive integer, and M >=N.
Optionally, which is also used to:
The upstream data of terminal device transmission is received on the ascending physical signal transfer resource.
It should be understood that the equipment 800 according to the resource impact of the application can correspond to the network equipment in the present processes,
And each unit and module in the equipment 800 of the resource impact and other above-mentioned operation and/or functions are respectively for implementation method
The corresponding process executed in 200 by the network equipment, for sake of simplicity, details are not described herein again.
Therefore, the equipment of the resource impact of the application, by being less than the bandwidth length of any one HBP in N number of HBP
Or the bandwidth length of the activated state portions of bandwidth active-BP equal to the terminal device, so that terminal device is according to N number of HBP
In any one HBP parameter information carry out frequency hopping when, will not all jump out the activated state portions of bandwidth active- of terminal device
BP。
Figure 11 is the schematic diagram according to the equipment 900 of the resource impact of the application.As shown in figure 11, the equipment
900 include:
Transceiver 910;
Memory 920;
Processor 930;
Wherein, for storing instruction, which is used to execute the finger of the memory 920 storage to the memory 920
It enables, receives signal to control the transceiver 910 transmission signal or control the transceiver 910.
Wherein, transceiver 910, for receiving the resource allocation information of network equipment transmission, which is used for
Indicate the parameter information of N number of frequency hopping portions of bandwidth to the terminal device, N >=2, any one in N number of frequency hopping portions of bandwidth
The bandwidth length of frequency hopping portions of bandwidth is less than or equal to the bandwidth length of the activated state portions of bandwidth active-BP of the terminal device
Frequency hopping portions of bandwidth frequency hopping portions of bandwidth;
Processor 930, for determining the uplink of network equipment distribution according to the resource allocation information and uplink scheduling information
Physical transfer resource.
Optionally, the bandwidth total length of N number of frequency hopping portions of bandwidth is equal to the bandwidth length of the active-BP, N number of jump
Any two frequency hopping portions of bandwidth in frequency band wide portion is not overlapped on frequency domain.
Optionally, which is specifically used for:
Determine that the first uplink VRB resource belongs to the first frequency hopping portions of bandwidth, which is N number of frequency hopping
Any one frequency hopping portions of bandwidth in portions of bandwidth, the first uplink VRB resource are that the network equipment passes through the uplink scheduling
Information is the resource of terminal device distribution;
The first uplink VRB resource is mapped according to the parameter information of the first frequency hopping portions of bandwidth, determines first
Uplink PRB resource, the second uplink PRB resource, the first uplink PRB resource and the second uplink PRB resource are first uplink
VRB resource corresponding mapping resource in the first frequency hopping portions of bandwidth, the first uplink PRB resource belong to the first frequency hopping band
First time unit in wide portion, the second uplink PRB resource belong to the list of the second time in the first frequency hopping portions of bandwidth
Member, there are the offsets of integer PRB resource on frequency domain between the first uplink PRB resource and the second uplink PRB resource.
Optionally, which at most belongs to the first frequency hopping portions of bandwidth and the second frequency hopping portions of bandwidth,
The second frequency hopping portions of bandwidth is frequency hopping bandwidth portion adjacent with the first frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth
Point, which is one section of continuous VRB resource.
Optionally, which is also used to:
The uplink scheduling information of network equipment transmission is received, which is used to indicate uplink VRB money
The resource indexing information in source, the resource indexing information include the resource index value of uplink VRB resource.
Optionally, the parameter information of each frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth includes at least following letter
Breath:
The frequency hopping of the bandwidth length information of frequency hopping portions of bandwidth, the location information of frequency hopping portions of bandwidth and frequency hopping portions of bandwidth
The frequency hopping Rule Information of Rule Information, the frequency hopping portions of bandwidth includes at least frequency-hopping mode information, frequency hopping PRB offset information and jump
Frequency sub-band information.
Optionally, which is also used to:
The network equipment, which is received, by RRC signaling sends the resource allocation information;Or
The parameter letter of M frequency hopping portions of bandwidth of network equipment transmission is received by system broadcast message or multicast message
Breath, M >=2;
The processor 930 is also used to:
According to the bandwidth length of the parameter information of the M frequency hopping portions of bandwidth and the active-BP, determine corresponding N number of
The parameter information of frequency hopping portions of bandwidth, wherein M, N are positive integer, and M >=N.
Optionally, which is also used to:
Upstream data is sent to the network equipment on the ascending physical signal transfer resource.
It should be understood that the equipment 900 according to the resource impact of the application can correspond to the terminal device in the present processes,
And each unit and module in the equipment 900 of the resource impact and other above-mentioned operation and/or functions are respectively for implementation method
The corresponding process executed in 300 by terminal device, for sake of simplicity, details are not described herein again.
Therefore, the equipment of the resource impact of the application, by being less than the bandwidth length of any one HBP in N number of HBP
Or the bandwidth length of the activated state portions of bandwidth active-BP equal to the terminal device, so that terminal device is according to N number of HBP
In any one HBP parameter information carry out frequency hopping when, will not all jump out the activated state portions of bandwidth active- of terminal device
BP。
Figure 12 is the schematic diagram according to the equipment 1000 of the resource impact of the application.As shown in figure 12, the equipment
1000 include:
Transceiver 1010;
Memory 1020;
Processor 1030;
Wherein, for storing instruction, which is used to execute the memory 1020 storage to the memory 1020
Instruction receives signal to control the transceiver 1010 transmission signal or control the transceiver 1010.
Wherein, processor 1030, for generating resource allocation information, the resource allocation information to the terminal device for referring to
Show the parameter information of N number of map bandwidth part, N >=2, any one map bandwidth part in N number of map bandwidth part
The bandwidth length map bandwidth part that bandwidth length is less than or equal to the activated state portions of bandwidth active-BP of the terminal device is reflected
Penetrate portions of bandwidth;
Transceiver 1010, for sending the resource allocation information to terminal device.
Optionally, the bandwidth total length of N number of map bandwidth part is equal to the bandwidth length of the active-BP, this is N number of to reflect
Any two map bandwidth part penetrated in portions of bandwidth is not overlapped on frequency domain.
Optionally, which is also used to:
The down dispatch information is sent to the terminal device, which is used to indicate downlink VRB resource
Resource indexing information, the resource indexing information include the resource index value of downlink VRB resource.
Optionally, the parameter information of each map bandwidth part in N number of map bandwidth part includes at least following letter
Breath:
The mapping of the bandwidth length information of map bandwidth part, the location information of map bandwidth part and map bandwidth part
Mode, the mapped mode of the map bandwidth part include centralized mapping and distributed mapping.
Optionally, which is also used to:
The resource allocation information is sent to the terminal device by RRC signaling;Or
Send the parameter information of M map bandwidth part to terminal device by system broadcast message or multicast message, M >=
2, so that bandwidth of the terminal device according to the parameter information of the M map bandwidth part and the active-BP of the terminal device
Length determines the parameter information of corresponding N number of map bandwidth part, wherein M, N are positive integer, and M >=N.
Optionally, which is also used to:
Downlink data is sent to the terminal device on the downlink physical transfer resource
It should be understood that being set according to the network that the equipment 1000 of the resource impact of the application can correspond in the present processes
It is standby, and each unit and module in the equipment 1000 of the resource impact and other above-mentioned operation and/or functions are respectively in order to realize
The corresponding process executed in method 300 by the network equipment, for sake of simplicity, details are not described herein again.
Therefore, the equipment of the resource impact of the application, by being less than the bandwidth length of any one MBP in N number of MBP
Or the bandwidth length of the activated state portions of bandwidth active-BP equal to the terminal device, so that terminal device is according to N number of MBP
In any one MBP parameter information carry out distributed resource mapping when, all without departing from the activated state bandwidth of terminal device
Part active-BP.
Figure 13 is the schematic diagram according to the equipment 1100 of the resource impact of the application.As shown in figure 13, the equipment
1100 include:
Transceiver 1110;
Memory 1120;
Processor 1130;
Wherein, for storing instruction, which is used to execute the memory 1120 storage to the memory 1120
Instruction receives signal to control the transceiver 1110 transmission signal or control the transceiver 1110.
Wherein, transceiver 1110, for receiving the resource allocation information of network equipment transmission, which is used for
Indicate the parameter information of N number of map bandwidth part to the terminal device, N >=2, any one in N number of map bandwidth part
The bandwidth length of map bandwidth part is less than or equal to the bandwidth length of the activated state portions of bandwidth active-BP of the terminal device
Map bandwidth part mapping portions of bandwidth;
Processor 1130, for determining under network equipment distribution according to the resource allocation information and down dispatch information
Row physical transfer resource.
Optionally, the bandwidth total length of N number of map bandwidth part is equal to the bandwidth length of the active-BP, this is N number of to reflect
Any two map bandwidth part penetrated in portions of bandwidth is not overlapped on frequency domain.
Optionally, which is specifically used for:
Determine that the first downlink VRB resource belongs to the first map bandwidth part, which is N number of mapping
Any one map bandwidth part in portions of bandwidth, the first downlink VRB resource are that the network equipment passes through the descending scheduling
Information is the resource of terminal device distribution;
The first downlink VRB resource is mapped according to the parameter information of the first map bandwidth part, determines first
Downlink PRB resource, the first downlink PRB resource are that the first downlink VRB resource is corresponding in the first map bandwidth part
Resource is mapped, which belongs to the first map bandwidth part.
Optionally, which belongs to multiple adjacent map bandwidth portions in N number of map bandwidth part
Point, which is one section of continuous VRB resource.
Optionally, which is also used to:
The down dispatch information of network equipment transmission is received, which is used to indicate downlink VRB money
The resource indexing information in source, the resource indexing information include the resource index value of downlink VRB resource.
Optionally, the parameter information of each map bandwidth part in N number of map bandwidth part includes at least following letter
Breath:
The mapping of the bandwidth length information of map bandwidth part, the location information of map bandwidth part and map bandwidth part
Mode, the mapped mode of the map bandwidth part include centralized mapping and distributed mapping.
Optionally, which is also used to:
The resource allocation information of network equipment transmission is received by RRC signaling;Or
The parameter letter of M map bandwidth part of network equipment transmission is received by system broadcast message or multicast message
Breath, M >=2;
The processor 1130 is also used to:
According to the bandwidth length of the parameter information of the M map bandwidth part and the active-BP, determine corresponding N number of
The parameter information of map bandwidth part, wherein M, N are positive integer, and M >=N.
Optionally, which is also used to:
The downlink data of network equipment transmission is received on the downlink physical transfer resource.
It should be understood that being set according to the terminal that the equipment 1100 of the resource impact of the application can correspond in the present processes
It is standby, and each unit and module in the equipment 1100 of the resource impact and other above-mentioned operation and/or functions are respectively in order to realize
The corresponding process executed in method 300 by terminal device, for sake of simplicity, details are not described herein again.
Therefore, the equipment of the resource impact of the application, by being less than the bandwidth length of any one MBP in N number of MBP
Or the bandwidth length of the activated state portions of bandwidth active-BP equal to the terminal device, so that terminal device is according to N number of MBP
In any one MBP parameter information carry out distributed resource mapping when, all without departing from the activated state bandwidth of terminal device
Part active-BP.
Those of ordinary skill in the art may be aware that list described in conjunction with the examples disclosed in the embodiments of the present disclosure
Member and algorithm steps can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are actually
It is implemented in hardware or software, the specific application and design constraint depending on technical solution.Professional technician
Each specific application can be used different methods to achieve the described function, but this realization is it is not considered that exceed
The scope of the present invention.
It is apparent to those skilled in the art that for convenience and simplicity of description, the system of foregoing description,
The specific work process of device and unit, can refer to corresponding processes in the foregoing method embodiment, and details are not described herein.
In several embodiments provided herein, it should be understood that disclosed systems, devices and methods, it can be with
It realizes by another way.For example, the apparatus embodiments described above are merely exemplary, for example, the unit
It divides, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components
It can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, it is shown or
The mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, the indirect coupling of device or unit
It closes or communicates to connect, can be electrical property, mechanical or other forms.
The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit
The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple
In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme
's.
It, can also be in addition, the functional units in various embodiments of the present invention may be integrated into one processing unit
It is that each unit physically exists alone, can also be integrated in one unit with two or more units.
It, can be with if the function is realized in the form of SFU software functional unit and when sold or used as an independent product
It is stored in a computer readable storage medium.Based on this understanding, technical solution of the present invention is substantially in other words
The part of the part that contributes to existing technology or the technical solution can be embodied in the form of software products, the meter
Calculation machine software product is stored in a storage medium, including some instructions are used so that a computer equipment (can be a
People's computer, server or network equipment etc.) it performs all or part of the steps of the method described in the various embodiments of the present invention.
And storage medium above-mentioned includes: that USB flash disk, mobile hard disk, read-only memory (Read-Only Memory, ROM), arbitrary access are deposited
The various media that can store program code such as reservoir (Random Access Memory, RAM), magnetic or disk.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain
Lid is within protection scope of the present invention.Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.
Claims (14)
1. a kind of method of resource impact, which is characterized in that the described method includes:
Terminal device receives the resource allocation information that the network equipment is sent, and the resource allocation information is used for the terminal device
Indicate the parameter information of N number of frequency hopping portions of bandwidth, N >=2, any one frequency hopping bandwidth portion in N number of frequency hopping portions of bandwidth
The bandwidth length divided is less than or equal to the bandwidth length frequency hopping bandwidth of the activated state portions of bandwidth active-BP of the terminal device
Part frequency hopping portions of bandwidth;
The terminal device determines the ascending physical signal of network equipment distribution according to the resource allocation information and uplink scheduling information
Transfer resource.
2. the method according to claim 1, wherein the bandwidth total length of N number of frequency hopping portions of bandwidth is equal to
The bandwidth length of the active-BP, any two frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth on frequency domain not
Overlapping.
3. method according to claim 1 or 2, which is characterized in that the terminal device is according to the resource allocation information
And uplink scheduling information, determine the ascending physical signal transfer resource of network equipment distribution, comprising:
The terminal device determines that the first uplink VRB resource belongs to the first frequency hopping portions of bandwidth, the first frequency hopping portions of bandwidth
For any one frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth, the first uplink VRB resource is that the network is set
The standby resource distributed by the uplink scheduling information for the terminal device;
The terminal device reflects the first uplink VRB resource according to the parameter information of the first frequency hopping portions of bandwidth
It penetrates, determines the first uplink PRB resource, the second uplink PRB resource, the first uplink PRB resource and the second uplink PRB money
Source is the first uplink VRB resource corresponding mapping resource in the first frequency hopping portions of bandwidth, the first uplink PRB
Resource belongs to the first time unit in the first frequency hopping portions of bandwidth, and the second uplink PRB resource belongs to described first
The second time quantum in frequency hopping portions of bandwidth, in frequency between the first uplink PRB resource and the second uplink PRB resource
There are the offsets of integer PRB resource on domain.
4. according to the method described in claim 3, it is characterized in that, the first uplink VRB resource at most belongs to described first
Frequency hopping portions of bandwidth and the second frequency hopping portions of bandwidth, the second frequency hopping portions of bandwidth be N number of frequency hopping portions of bandwidth in
The adjacent frequency hopping portions of bandwidth of the first frequency hopping portions of bandwidth, the first uplink VRB resource are one section of continuous VRB money
Source.
5. the method according to claim 3 or 4, which is characterized in that the method also includes:
The terminal device receives the uplink scheduling information that the network equipment is sent, and the uplink scheduling information is for referring to
Show that the resource indexing information of the uplink VRB resource, the resource indexing information include the resource index of the uplink VRB resource
Value.
6. the method according to any one of claims 1 to 5, which is characterized in that every in N number of frequency hopping portions of bandwidth
The parameter information of a frequency hopping portions of bandwidth includes at least following information:
The frequency hopping rule of the bandwidth length information of frequency hopping portions of bandwidth, the location information of frequency hopping portions of bandwidth and frequency hopping portions of bandwidth
The frequency hopping Rule Information of information, the frequency hopping portions of bandwidth includes at least frequency-hopping mode information, frequency hopping PRB offset information and frequency hopping
Sub-band information.
7. method according to any one of claim 1 to 6, which is characterized in that the terminal device receives the network
The resource allocation information that equipment is sent, comprising:
The terminal device receives the network equipment by RRC signaling and sends the resource allocation information;Or
The terminal device receives the M frequency hopping bandwidth portion that the network equipment is sent by system broadcast message or multicast message
The parameter information divided, M >=2;
The terminal device is according to the parameter information of the M frequency hopping portions of bandwidth and the bandwidth length of the active-BP, really
The parameter information of fixed corresponding N number of frequency hopping portions of bandwidth, wherein M, N are positive integer, and M >=N.
8. a kind of device of resource impact, which is characterized in that described device includes:
Communication unit, for receiving the resource allocation information of network equipment transmission, the resource allocation information was used for the end
End equipment indicates the parameter information of N number of frequency hopping portions of bandwidth, N >=2, any one frequency hopping in N number of frequency hopping portions of bandwidth
The bandwidth length that the bandwidth length of portions of bandwidth is less than or equal to the activated state portions of bandwidth active-BP of the terminal device is jumped
Frequency band wide portion frequency hopping portions of bandwidth;
Processing unit, for determining the ascending of network equipment distribution according to the resource allocation information and uplink scheduling information
Manage transfer resource.
9. device according to claim 8, which is characterized in that the bandwidth total length of N number of frequency hopping portions of bandwidth is equal to
The bandwidth length of the active-BP, any two frequency hopping portions of bandwidth in N number of frequency hopping portions of bandwidth on frequency domain not
Overlapping.
10. device according to claim 8 or claim 9, which is characterized in that the processing unit is specifically used for:
Determine that the first uplink VRB resource belongs to the first frequency hopping portions of bandwidth, the first frequency hopping portions of bandwidth is N number of frequency hopping
Any one frequency hopping portions of bandwidth in portions of bandwidth, the first uplink VRB resource are that the network equipment passes through on described
Row scheduling information is the resource of terminal device distribution;
The first uplink VRB resource is mapped according to the parameter information of the first frequency hopping portions of bandwidth, determines first
Uplink PRB resource, the second uplink PRB resource, the first uplink PRB resource and the second uplink PRB resource are described the
One uplink VRB resource corresponding mapping resource in the first frequency hopping portions of bandwidth, the first uplink PRB resource belong to institute
The first time unit in the first frequency hopping portions of bandwidth is stated, the second uplink PRB resource belongs to the first frequency hopping bandwidth portion
The second time quantum in point, there are whole on frequency domain between the first uplink PRB resource and the second uplink PRB resource
The offset of several PRB resources.
11. device according to claim 10, which is characterized in that the first uplink VRB resource at most belongs to described
One frequency hopping portions of bandwidth and the second frequency hopping portions of bandwidth, the second frequency hopping portions of bandwidth are in N number of frequency hopping portions of bandwidth
The frequency hopping portions of bandwidth adjacent with the first frequency hopping portions of bandwidth, the first uplink VRB resource are one section of continuous VRB money
Source.
12. device described in 0 or 11 according to claim 1, which is characterized in that the communication unit is also used to:
The uplink scheduling information that the network equipment is sent is received, the uplink scheduling information is used to indicate the uplink
The resource indexing information of VRB resource, the resource indexing information include the resource index value of the uplink VRB resource.
13. the device according to any one of claim 8 to 12, which is characterized in that in N number of frequency hopping portions of bandwidth
The parameter information of each frequency hopping portions of bandwidth includes at least following information:
The frequency hopping rule of the bandwidth length information of frequency hopping portions of bandwidth, the location information of frequency hopping portions of bandwidth and frequency hopping portions of bandwidth
The frequency hopping Rule Information of information, the frequency hopping portions of bandwidth includes at least frequency-hopping mode information, frequency hopping PRB offset information and frequency hopping
Sub-band information.
14. the device according to any one of claim 8 to 13, which is characterized in that the communication unit is also used to:
The network equipment, which is received, by RRC signaling sends the resource allocation information;Or
The parameter letter for the M frequency hopping portions of bandwidth that the network equipment is sent is received by system broadcast message or multicast message
Breath, M >=2;
The processing unit is also used to:
According to the bandwidth length of the parameter information of the M frequency hopping portions of bandwidth and the active-BP, determine corresponding N number of
The parameter information of frequency hopping portions of bandwidth, wherein M, N are positive integer, and M >=N.
Priority Applications (2)
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CN201710459150.2A CN109152019A (en) | 2017-06-16 | 2017-06-16 | The method and apparatus of resource impact |
PCT/CN2018/091501 WO2018228533A1 (en) | 2017-06-16 | 2018-06-15 | Resource mapping method and apparatus |
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CN201710459150.2A CN109152019A (en) | 2017-06-16 | 2017-06-16 | The method and apparatus of resource impact |
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CN111436085A (en) * | 2019-01-11 | 2020-07-21 | 华为技术有限公司 | Communication method and device |
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