CN109587788A - Resource allocation method, equipment and system - Google Patents
Resource allocation method, equipment and system Download PDFInfo
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- CN109587788A CN109587788A CN201710899050.1A CN201710899050A CN109587788A CN 109587788 A CN109587788 A CN 109587788A CN 201710899050 A CN201710899050 A CN 201710899050A CN 109587788 A CN109587788 A CN 109587788A
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- frequency domain
- domain resource
- downlink control
- control information
- communication equipment
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- 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
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
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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
- H04W72/21—Control channels or signalling for resource management in the uplink direction of a wireless link, i.e. towards the network
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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
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- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Mobile Radio Communication Systems (AREA)
Abstract
The embodiment of the present application provides resource allocation method, equipment and system, allows to the flexible configuration transmission multiple frequency domain resources of uplink control signaling.Method includes: access device distribution (M+N) a frequency domain resource to communication equipment, being somebody's turn to do (M+N) a frequency domain resource is the frequency domain resource that ascending physical signal control channel occupies, the ascending physical signal control channel is used for transmission upstream control signaling, wherein, M, N is positive integer, and M+N >=2;The access device sends Downlink Control Information to the communication equipment, which includes the location information for being somebody's turn to do (M+N) a frequency domain resource;Alternatively, the Downlink Control Information is used to indicate the position of (M+N) a frequency domain resource;Alternatively, the Downlink Control Information includes the location information of the M frequency domain resource, and, which is also used to indicate the position of N number of frequency domain resource.
Description
Technical field
This application involves field of communication technology more particularly to resource allocation methods, equipment and system.
Background technique
As shown in Figure 1, for existing upstream control signaling in long term evolution (long term evolution, LTE) system
Transmission mode.In LTE system, to improve diversity gain, transmit there are two uplink control signaling frequency domain resources;And it is
The raising availability of frequency spectrum, the two frequency domain resources are located at entire up-link bandwidth (uplink system bandwidth)
The symmetric position of two sides transmits upstream data in order to reserve intermediate frequency domain resource.For example, in Fig. 1, up-link band
Width includes multiple Physical Resource Block (physical resource block, PRB), transmits two frequency domains of uplink control signaling
Resource occupies first PRB and the last one PRB in this multiple PRB respectively.Certainly, each frequency of transmitting uplink control information
Domain resource can occupy multiple PRB, for example occupy two PRB, and Fig. 1 is merely illustrative, is not specifically limited herein.This
Outside, as shown in Figure 1, in LTE system, transmission uplink control signaling time-domain resource is located at the different time-gap of 1ms subframe
(slot) on, to support the waveform of low peak-to-average power ratio (peak-to-average power ratio, PAPR).For example, Fig. 1
In be illustrated for transmitting uplink control signaling time-domain resource and being located at time slot m and time slot (m+1).
It newly eats dishes without rice or wine in (new radio, NR) in the 5th generation (5th generation, 5G), since available system band is roomy
It is big to expand, in order to support the terminal of different abilities that can there is corresponding system bandwidth to access, therefore can be in whole system bandwidth
Isolate multiple independent frequency domain resources.In order to further obtain diversity gain, it can provide greater than two frequency domain resources in 5G NR
To transmit upstream control signaling.Simultaneously as 5G NR supports more service types, the delay requirement of partial service type is very
Height allows terminal transmitting uplink control information as early as possible to reduce time delay, and 5G NR supports to upload in whole system bandwidth
Defeated upstream control signaling.That is, 5G NR supports the Cross transfer of upstream data and ascending control information, rather than as LTE
System equally limits the symmetric position that transmission two frequency domain resources of uplink control signaling are located at entire up-link bandwidth two sides,
Reserve intermediate frequency domain resource transmission upstream data.
However, how flexible configuration transmits the multiple frequency domain resources of uplink control signaling, so that 5G NR can in 5G NR
To support more service types, there is no relevant solutions at present.
Summary of the invention
The embodiment of the present application provides resource allocation method, equipment and system, allows to flexible configuration transmission upload control
Multiple frequency domain resources of signaling.
In order to achieve the above objectives, the embodiment of the present application provides the following technical solutions:
In a first aspect, a kind of resource allocation method is provided, this method comprises: access device distributes (M+N) a frequency domain resource
To communication equipment, being somebody's turn to do (M+N) a frequency domain resource is the frequency domain resource that ascending physical signal control channel occupies, ascending physical signal control letter
Road is used for transmission upstream control signaling, wherein M, N are positive integer, and M+N >=2;The access device is sent to the communication equipment
Downlink Control Information, the Downlink Control Information include the location information for being somebody's turn to do (M+N) a frequency domain resource;Alternatively, downlink control letter
Breath is used to indicate the position of (M+N) a frequency domain resource;Alternatively, the Downlink Control Information includes the position of the M frequency domain resource
Information, and, which is also used to indicate the position of N number of frequency domain resource.Based on provided by the embodiments of the present application
Resource allocation method, since access device is used for transmission upstream control signaling to communication equipment in distribution (M+N) a frequency domain resource
Later, can directly send to communication equipment includes the Downlink Control Information for being somebody's turn to do the location information of (M+N) a frequency domain resource;Or
The Downlink Control Information of the position of (M+N) a frequency domain resource is somebody's turn to do in person, instruction;Alternatively, include the location information of M frequency domain resource
Downlink Control Information, and, indicate the Downlink Control Information of the position of N number of frequency domain resource, therefore, communication equipment can pass through
Above- mentioned information determine the position of (M+N) a frequency domain resource, and send uplink control to access device in (M+N) a frequency domain resource
Signaling processed, therefore the flexible configuration to the transmission multiple frequency domain resources of uplink control signaling may be implemented.
In a kind of possible design, which sends Downlink Control Information, downlink control to the communication equipment
Information is used to indicate the position of (M+N) a frequency domain resource, comprising: the access device sends the first downlink control to the communication equipment
Information processed, which includes first set, includes the location information of a variety of frequency domain resources in the first set
Combination, wherein in the combination of the location information of a variety of frequency domain resources the combination of the location information of every kind of frequency domain resource include
The location information of at least two frequency domain resources;And the access device sends the second Downlink Control Information to the communication equipment, it should
Second Downlink Control Information is used to indicate the group that the location information of frequency domain resource of the communication equipment is distributed in the first set
It closes, wherein it includes being somebody's turn to do (M+N) a frequency domain resource in the combination of the location information of the frequency domain resource of the communication equipment that this, which is distributed to,
Location information.Based on resource allocation method provided by the embodiments of the present application, due to including a variety of frequency domain resources in first set
The combination of location information, the combination packet of the location information of every kind of frequency domain resource in the combination of the location information of a variety of frequency domain resources
The location information of at least two frequency domain resources is included, therefore, the frequency domain by distributing to the communication equipment in instruction first set provides
Second Downlink Control Information of the combination of the location information in source can indicate (M+N) a frequency for distributing to the communication equipment simultaneously
The location information of domain resource.Also, since the second Downlink Control Information may be an element number in set, this
Apply for that embodiment can save the signaling money of system while flexible configuration transmission uplink control signaling multiple frequency domain resources
Source.
In a kind of possible design, which sends Downlink Control Information, downlink control to the communication equipment
Information includes the location information of the M frequency domain resource, and, which is also used to indicate N number of frequency domain resource
Position, comprising: the access device sends third Downlink Control Information to the communication equipment, which includes should
The location information of M frequency domain resource;And the access device is to the 4th Downlink Control Information of communication equipment, the 4th downlink
It is inclined relative to the position of (N1-1) a frequency domain resource including being somebody's turn to do the N1 frequency domain resource in (M+N) a frequency domain resource to control information
Shifting amount, wherein M+1≤N1≤M+N.Based on resource allocation method provided by the embodiments of the present application, believe since third downlink controls
Breath includes the location information of M frequency domain resource, and the 4th Downlink Control Information includes the N1 frequency domain money in (M+N) a frequency domain resource
Position offset of the source relative to (N1-1) a frequency domain resource, therefore can be in the multiple frequency domain moneys of transmission uplink control signaling
Source it is equal in magnitude in the case where so that communication equipment is in the position for determining M frequency domain resource according to third Downlink Control Information
, can be according to the location information and the position offset of M frequency domain resource while setting, while determining in addition N number of frequency domain money
The position in source.Also, since the signal resource of the system of position offset occupancy is obviously smaller than the location information of N number of frequency domain resource
The frequency domain resource of occupancy, therefore the embodiment of the present application can transmit the multiple frequency domain resources of uplink control signaling in flexible configuration
Meanwhile saving the signal resource of system.
In a kind of possible design, which sends Downlink Control Information, downlink control to the communication equipment
Information includes the location information of the M frequency domain resource, and, which is also used to indicate N number of frequency domain resource
Position, comprising: the access device sends third Downlink Control Information to the communication equipment, which includes should
The location information of M frequency domain resource;And the access device to the communication equipment send the 5th Downlink Control Information, the 5th
Downlink Control Information includes second set or the information for generating the second set, includes multiple frequency domains in the second set
The position offset of resource;And the access device sends the 6th Downlink Control Information, the 6th downlink control to the communication equipment
Information processed is used to indicate the N1 frequency domain resource in (M+N) a frequency domain resource for distribute in the second set communication equipment
Position offset relative to the N1-1 frequency domain resource, wherein M+1≤N1≤M+N.Based on money provided by the embodiments of the present application
Source configuration method, since third Downlink Control Information includes the location information of M frequency domain resource, the 5th Downlink Control Information includes
Second set or information for generating second set include the position offset of multiple frequency domain resources in the second set,
6th Downlink Control Information is used to indicate the N1 frequency in (M+N) a frequency domain resource for distribute in second set the communication equipment
Position offset of the domain resource relative to the N1-1 frequency domain resource, therefore can be in the transmission multiple frequency domains of uplink control signaling
Resource it is equal in magnitude in the case where, communication equipment is in the position for determining M frequency domain resource according to third Downlink Control Information
It later, can be according to the location information of M frequency domain resource and according to the 5th Downlink Control Information and the 6th Downlink Control Information
Determining position offset determines the position of other N number of frequency domain resource.Also, since the 6th Downlink Control Information may be
An element number in set, therefore, the embodiment of the present application can transmit the multiple frequencies of uplink control signaling in flexible configuration
While the resource of domain, the signal resource of system is saved.
Optionally, which is negotiated to determine by minizone;Timeslot-level match alternatively, the position offset is one
Set parameter, each time slot separate configurations.
In a kind of possible design, which sends Downlink Control Information, downlink control to the communication equipment
Information includes the location information of the M frequency domain resource, and, which is also used to indicate N number of frequency domain resource
Position, comprising: the access device sends third Downlink Control Information to the communication equipment, which includes should
The location information of M frequency domain resource;And the access device to the communication equipment send the 7th Downlink Control Information, the 7th
Downlink Control Information includes third set or the information for generating the third set, includes multiple frequency domains in the third set
The location information of resource;And the access device sends the 8th Downlink Control Information, the control of the 8th downlink to the communication equipment
Information is used to indicate the location information that N number of frequency domain resource of the communication equipment is distributed in the third set.Based on the application
The resource allocation method that embodiment provides, since third Downlink Control Information includes the location information of M frequency domain resource, under the 7th
Row control information includes third set or the information for generating third set, includes multiple frequency domain resources in the third set
Location information, the 8th Downlink Control Information is used to indicate N number of frequency domain resource that the communication equipment is distributed in third set
Location information, therefore communication equipment can determine the position of M frequency domain resource according to third Downlink Control Information, and, it can
To determine the position of other N number of frequency domain resource according to the 7th Downlink Control Information and the 8th Downlink Control Information.Due to the 8th
Downlink Control Information may be an element number in set, and therefore, the embodiment of the present application can be in flexible configuration transmission
While multiple frequency domain resources of row control signaling, the signal resource of system is saved.
In a kind of possible design, which sends Downlink Control Information, downlink control to the communication equipment
Information is used to indicate the position of (M+N) a frequency domain resource, comprising: the access device sends the 7th downlink control to the communication equipment
Information processed, the 7th Downlink Control Information include third set or the information for generating the third set, the third set
In include multiple frequency domain resources location information;And the access device sends the 9th Downlink Control Information to the communication equipment,
9th Downlink Control Information is used to indicate the position for being somebody's turn to do (M+N) a frequency domain resource that the communication equipment is distributed in the third set
It sets.Based on resource allocation method provided by the embodiments of the present application, since the 7th Downlink Control Information includes third set or use
Including the location information of multiple frequency domain resources, the 9th Downlink Control Information in the information for generating third set, the third set
It is used to indicate the location information that (M+N) a frequency domain resource of the communication equipment is distributed in third set, therefore communication equipment can
To determine the position of (M+N) a frequency domain resource according to the 7th Downlink Control Information and the 9th Downlink Control Information.Due to the 9th
Downlink Control Information may be an element number in set, and therefore, the embodiment of the present application can be in flexible configuration transmission
While multiple frequency domain resources of row control signaling, the signal resource of system is saved.
In a kind of possible design, which sends Downlink Control Information, downlink control to the communication equipment
Information includes the location information of the M frequency domain resource, and, which is also used to indicate N number of frequency domain resource
Position, comprising: the access device sends third Downlink Control Information to the communication equipment in target frequency domain resource, under the third
Row control information includes the location information of the M frequency domain resource, wherein the location information of the M frequency domain resource and target frequency
At least one of the location information of domain resource is used to indicate the position of N number of frequency domain resource;Alternatively, the M frequency domain resource
Location information and at least one of the location information of the target frequency domain resource are used to indicate N1 in (M+N) a frequency domain resource
Position offset of a frequency domain resource relative to the N1-1 frequency domain resource, wherein M+1≤N1≤M+N.Implemented based on the application
The resource allocation method that example provides, since third Downlink Control Information includes the location information of M frequency domain resource, and can lead to
Cross transmission third Downlink Control Information the N number of frequency domain resource of target frequency domain resource implicit instruction position, do not need it is extra under
Row controls information to indicate the position of N number of frequency domain resource, therefore the embodiment of the present application can transmit upload control in flexible configuration
While multiple frequency domain resources of signaling, the signal resource of system is saved.
Optionally, the location information of the target frequency domain resource, comprising: first physical control of the target frequency domain resource is believed
Road Elements C CE label, the last one CCE label of the target frequency domain resource, the initial position of the target frequency domain resource and the mesh
Mark at least one of the end position of frequency domain resource.
Second aspect provides a kind of resource allocation method, which is characterized in that this method comprises: communication equipment reception comes from
The Downlink Control Information of access device, the Downlink Control Information include the location information of (M+N) a frequency domain resource;Alternatively, under this
Row control information is used to indicate the position of (M+N) a frequency domain resource;Alternatively, the Downlink Control Information includes M frequency domain resource
Location information, and, which is also used to indicate the position of N number of frequency domain resource, wherein M, N are positive integer,
And M+N >=2;The communication equipment determines the position for being somebody's turn to do (M+N) a frequency domain resource according to the Downlink Control Information;The communication equipment
Upstream control signaling is sent to the access device, wherein the upstream control signaling transmits in (M+N) a frequency domain resource, should
(M+N) a frequency domain resource is the frequency domain resource that ascending physical signal control channel occupies.
In a kind of possible design, which receives the Downlink Control Information from access device, the downlink control
Information processed is used to indicate the position of (M+N) a frequency domain resource, comprising: the communication equipment receives first from the access device
Downlink Control Information, which includes first set, includes the position of a variety of frequency domain resources in the first set
The combination of confidence breath, wherein the location information of every kind of frequency domain resource in the combination of the location information of a variety of frequency domain resources
Combination includes the location information of at least two frequency domain resources;And the communication equipment receive from the access device second under
Row control information, second Downlink Control Information are used to indicate the frequency domain resource that the communication equipment is distributed in the first set
The combination of location information, wherein it includes being somebody's turn to do (M+N) in the combination of the location information of the frequency domain resource of the communication equipment that this, which is distributed to,
The location information of a frequency domain resource;The communication equipment determines the position for being somebody's turn to do (M+N) a frequency domain resource according to the Downlink Control Information
It sets, comprising: for the communication equipment according to first Downlink Control Information and second Downlink Control Information, determining should (M+N) a frequency
The position of domain resource.
In a kind of possible design, which receives the Downlink Control Information from access device, the downlink control
Information processed includes the location information of the M frequency domain resource, and, which is also used to indicate N number of frequency domain resource
Position, comprising: the communication equipment receive the third Downlink Control Information from the access device, the third Downlink Control Information
Location information including the M frequency domain resource;And the communication equipment receives the 4th downlink from the access device and controls letter
Breath, the 4th Downlink Control Information is including the N1 frequency domain resource in (M+N) a frequency domain resource relative to (N1-1) a frequency
The position offset of domain resource, wherein M+1≤N1≤M+N.The communication equipment determines according to the Downlink Control Information and is somebody's turn to do (M+N)
The position of a frequency domain resource, comprising: the communication equipment determines the position of the M frequency domain resource according to the third Downlink Control Information
It sets;And the communication equipment determines N number of frequency domain money according to the third Downlink Control Information and the 4th Downlink Control Information
The position in source.
In a kind of possible design, which receives the Downlink Control Information from access device, the downlink control
Information processed includes the location information of the M frequency domain resource, and, which is also used to indicate N number of frequency domain resource
Position, comprising: the communication equipment receive the third Downlink Control Information from the access device, the third Downlink Control Information
Location information including the M frequency domain resource;And the communication equipment receives the 5th downlink from the access device and controls letter
Breath, the 5th Downlink Control Information includes second set or the information for generating the second set, is wrapped in the second set
Include the position offset of multiple frequency domain resources;And the communication equipment receives the 6th downlink from the access device and controls letter
Breath, the 6th Downlink Control Information are used to indicate (M+N) a frequency domain resource that the communication equipment is distributed in the second set
In position offset of the N1 frequency domain resource relative to the N1-1 frequency domain resource, wherein M+1≤N1≤M+N;The communication is set
For according to the Downlink Control Information, the position for being somebody's turn to do (M+N) a frequency domain resource is determined, comprising: the communication equipment is according under the third
Row control information, determines the position of the M frequency domain resource;The communication equipment is according under third Downlink Control Information, the 5th
Row control information and the 6th Downlink Control Information, determine the position of N number of frequency domain resource.
Optionally, which is negotiated to determine by minizone;Timeslot-level match alternatively, the position offset is one
Set parameter, each time slot separate configurations.
In a kind of possible design, which receives the Downlink Control Information from access device, the downlink control
Information processed includes the location information of the M frequency domain resource, and, which is also used to indicate N number of frequency domain resource
Position, comprising: the communication equipment receive the third Downlink Control Information from the access device, the third Downlink Control Information
Location information including the M frequency domain resource;And the communication equipment receives the 7th downlink from the access device and controls letter
Breath, the 7th Downlink Control Information includes third set or the information for generating the third set, is wrapped in the third set
Include the location information of multiple frequency domain resources;And the communication equipment receives the 8th Downlink Control Information from the access device,
8th Downlink Control Information is used to indicate the position letter for N number of frequency domain resource that the communication equipment is distributed in the second set
Breath;The communication equipment determines the position for being somebody's turn to do (M+N) a frequency domain resource, comprising: the communication equipment root according to the Downlink Control Information
According to the third Downlink Control Information, the position of the M frequency domain resource is determined;The communication equipment is according to the 7th Downlink Control Information
With the 8th Downlink Control Information, the position of N number of frequency domain resource is determined.
In a kind of possible design, which receives the Downlink Control Information from access device, the downlink control
Information processed is used to indicate the position of (M+N) a frequency domain resource, comprising: the communication equipment receives the 7th from the access device
Downlink Control Information, the 7th Downlink Control Information include third set or the information for generating the third set, this
It include the location information of multiple frequency domain resources in three set;And the communication equipment receive from the access device the 9th under
Row control information, the 9th Downlink Control Information be used to indicate distributed in the third set communication equipment should (M+N) it is a
The position of frequency domain resource;The communication equipment determines the position for being somebody's turn to do (M+N) a frequency domain resource according to the Downlink Control Information, comprising:
The communication equipment determines according to the 7th Downlink Control Information and the 9th Downlink Control Information and is somebody's turn to do (M+N) a frequency domain resource
Position.
In a kind of possible design, which receives the Downlink Control Information from access device, the downlink control
Information processed includes the location information of the M frequency domain resource, and, which is also used to indicate N number of frequency domain resource
Position, comprising: the communication equipment receives the third Downlink Control Information from the access device in target frequency domain resource, should
Downlink Control Information includes the location information of the M frequency domain resource, wherein the location information of the M frequency domain resource and the target
At least one of location information of frequency domain resource is used to indicate the position of N number of frequency domain resource;Alternatively, the M frequency domain resource
Location information and at least one of the location information of the target frequency domain resource be used to indicate in (M+N) a frequency domain resource the
Position offset of the N1 frequency domain resource relative to the N1-1 frequency domain resource, wherein M+1≤N1≤M+N;The communication equipment root
According to the Downlink Control Information, the position for being somebody's turn to do (M+N) a frequency domain resource is determined, comprising: the communication equipment is according to the third downlink control
Information processed determines the position of the M frequency domain resource;And the communication equipment is according to the location information of the M frequency domain resource and this
At least one of the location information of target frequency domain resource, determines the position of N number of frequency domain resource.
Optionally, the location information of the target frequency domain resource, comprising: first physical control of the target frequency domain resource is believed
Road Elements C CE label, the last one CCE label of the target frequency domain resource, the initial position of the target frequency domain resource and the mesh
Mark at least one of the end position of frequency domain resource.
Optionally, which includes long ascending physical signal control channel in short-term.
Optionally, which includes ascending control information UCI;Alternatively, the upstream control signaling include UCI and
Demodulated reference signal DMRS.
Wherein, technical effect brought by any design method can be found in first aspect and accordingly design in second aspect
Technical effect brought by mode, details are not described herein again.
The third aspect provides a kind of resource allocation method, which is characterized in that this method comprises: communication equipment reception comes from
The Downlink Control Information of access device, the Downlink Control Information include the location information of M frequency domain resource;The communication equipment according to
The Downlink Control Information determines the position of the M frequency domain resource;And the communication equipment is according to the Downlink Control Information and mesh
Parameter is marked, determines the position of N number of frequency domain resource, wherein the target component is the ginseng that the communication equipment and the access device are mutually known
Number, M, N are positive integer, and M+N >=2;The communication equipment sends upstream control signaling to the access device, wherein the uplink
For control signaling in (M+N) a frequency domain resource transmission, being somebody's turn to do (M+N) a frequency domain resource is the frequency domain that ascending physical signal control channel occupies
Resource.Based on resource allocation method provided by the embodiments of the present application, since communication equipment can be determined according to Downlink Control Information
The position of M frequency domain resource out, and the position of N number of frequency domain resource can be determined according to Downlink Control Information and target component.
Therefore the multiple frequency domain resources of uplink control signaling can be transmitted with flexible configuration based on this method.
In a kind of possible design method, which determines N number of according to the Downlink Control Information and target component
The position of frequency domain resource, comprising: the communication equipment determines N number of frequency domain according to the Downlink Control Information and first object parameter
The position range of the resource communication equipment determines N number of frequency according to the position range and the second target component of N number of frequency domain resource
The position of domain resource.
Optionally, which includes transmitting the number and minimum of uplink control signaling Physical Resource Block PRB
At least one of frequency domain interval.
Optionally, which is a cell level perhaps timeslot-level other parameter or second target
Parameter is a random number sequence.
In a kind of possible design method, the M frequency domain resource and N number of frequency domain resource are in one section of continuous frequency domain money
On source;Alternatively, detection reference signal SRS, which is occupied, is somebody's turn to do first frequency domain resource and (M+N) a frequency domain in (M+N) a frequency domain resource
Frequency domain resource between resource.Since upstream control signaling and SRS are transmitted in the same OFDM symbol, can to reserve
The symbol of more complete frequency domain resources is used for other transmission, so as to improve the utilization rate of frequency domain resource.
Fourth aspect provides a kind of resource allocation method, this method comprises: access device distributes M frequency domain resource to logical
Believe equipment;The access device sends Downlink Control Information to the communication equipment, which includes the M frequency domain resource
Location information, wherein the location information of the M frequency domain resource is used to determine the position of the M frequency domain resource;And the M
The location information and target component of frequency domain resource are used to determine the position of N number of frequency domain resource, the M frequency domain resource and N number of frequency
Domain resource is the frequency domain resource that ascending physical signal control channel occupies, which is used for transmission upload control letter
It enables, which is the parameter that the communication equipment and the access device are mutually known, M, N are positive integer, and M+N >=2.Based on this
Apply for the resource allocation method that embodiment provides, it is logical to this after distributing M frequency domain resource to communication equipment due to access device
Believe that equipment sends Downlink Control Information, which includes the location information of the M frequency domain resource, in this way, communication is set
The standby position that M frequency domain resource can be determined according to Downlink Control Information, and can be according to Downlink Control Information and target
Parameter determines the position of N number of frequency domain resource.Therefore the multiple frequencies of uplink control signaling can be transmitted with flexible configuration based on this method
Domain resource.
5th aspect, provides a kind of access device, which, which has, realizes above-mentioned first aspect or fourth aspect
The function of the method.The function can also execute corresponding software realization by hardware realization by hardware.This is hard
Part or software include one or more modules corresponding with above-mentioned function.
6th aspect, provides a kind of access device, comprising: processor and memory;The memory is calculated for storing
Machine executes instruction, and when access device operation, which executes the computer executed instructions of memory storage, so that
The access device executes the resource allocation method as described in any in above-mentioned first aspect or fourth aspect.
7th aspect, provides a kind of computer readable storage medium, finger is stored in the computer readable storage medium
It enables, when run on a computer, computer is executed any described in above-mentioned first aspect or fourth aspect
Resource allocation method.
Eighth aspect provides a kind of computer program product comprising instruction, when run on a computer, so that
Computer can execute any resource allocation method in above-mentioned first aspect or fourth aspect.
9th aspect, provides a kind of chip system, which includes processor, for supporting access device to realize
Function involved in above-mentioned aspect, such as distribution (M+N) a frequency domain resource is to communication equipment.In a kind of possible design,
The chip system further includes memory, the memory, for saving the necessary program instruction of access device and data.The core
Piece system, can be made of chip, also may include chip and other discrete devices.
Wherein, the 5th aspect technical effect brought by any design method into the 9th aspect can be found in first aspect
Or technical effect brought by different designs mode in fourth aspect, details are not described herein again.
Tenth aspect, provides a kind of communication equipment, which, which has, realizes above-mentioned second aspect or the third aspect
The function of the method.The function can also execute corresponding software realization by hardware realization by hardware.This is hard
Part or software include one or more modules corresponding with above-mentioned function.
On the one hand tenth, provides a kind of communication equipment, comprising: processor and memory;The memory is based on storing
Calculation machine executes instruction, and when communication equipment operation, which executes the computer executed instructions of memory storage, with
The communication equipment is set to execute the resource allocation method as described in any in above-mentioned second aspect or the third aspect.
12nd aspect, provides a kind of computer readable storage medium, is stored in the computer readable storage medium
Instruction executes computer any described in above-mentioned second aspect or the third aspect when run on a computer
Resource allocation method.
13rd aspect, provide a kind of computer program product comprising instruction makes when run on a computer
Any resource allocation method in above-mentioned second aspect or the third aspect can be executed by obtaining computer.
Fourteenth aspect provides a kind of chip system, which includes processor, for supporting that communication equipment is real
Function involved in existing above-mentioned aspect, such as according to Downlink Control Information, determine the position of (M+N) a frequency domain resource.One
In the possible design of kind, the chip system further includes memory, the memory, for saving the necessary program of communication equipment
Instruction and data.The chip system, can be made of chip, also may include chip and other discrete devices.
Wherein, the tenth aspect technical effect brought by any design method into fourteenth aspect can be found in second party
Technical effect brought by different designs mode in face or the third aspect, details are not described herein again.
15th aspect, provides a kind of communication system, which includes communication equipment described in any of the above-described aspect
And access device.
Optionally, above-mentioned communication equipment includes terminal, and above-mentioned access device includes base station.
These aspects or other aspects of the application can more straightforward in the following description.
Detailed description of the invention
Fig. 1 is existing uplink control signaling transmission mode in LTE system;
Fig. 2 is PRB provided by the embodiments of the present application continuously or discontinuously distribution schematic diagram;
Fig. 3 is the position view of frequency domain resource provided by the embodiments of the present application;
Fig. 4 is frequency domain resource provided by the embodiments of the present application continuously or discontinuously distribution schematic diagram;
Fig. 5 is a kind of structural schematic diagram of communication system provided by the embodiments of the present application;
Fig. 6 is the hardware structural diagram of access device provided by the embodiments of the present application and communication equipment;
Fig. 7 is the flow diagram one of resource allocation method provided by the embodiments of the present application;
Fig. 8 is the configuration schematic diagram one of frequency domain resource provided by the embodiments of the present application;
Fig. 9 is the flow diagram two of resource allocation method provided by the embodiments of the present application;
Figure 10 is the flow diagram three of resource allocation method provided by the embodiments of the present application;
Figure 11 is the configuration schematic diagram two of frequency domain resource provided by the embodiments of the present application;
Figure 12 is the flow diagram four of resource allocation method provided by the embodiments of the present application;
Figure 13 is the flow diagram five of resource allocation method provided by the embodiments of the present application;
Figure 14 is the flow diagram six of resource allocation method provided by the embodiments of the present application;
Figure 15 is the flow diagram seven of resource allocation method provided by the embodiments of the present application;
Figure 16 is the configuration schematic diagram three of frequency domain resource provided by the embodiments of the present application;
Figure 17 is the configuration schematic diagram four of frequency domain resource provided by the embodiments of the present application;
Figure 18 is the flow diagram eight of resource allocation method provided by the embodiments of the present application;
Figure 19 is the configuration schematic diagram five of frequency domain resource provided by the embodiments of the present application;
Figure 20 is the configuration schematic diagram six of frequency domain resource provided by the embodiments of the present application;
Figure 21 is the structural schematic diagram of access device provided by the embodiments of the present application;
Figure 22 is the structural schematic diagram of communication equipment provided by the embodiments of the present application.
Specific embodiment
In order to facilitate the technical solution for understanding the embodiment of the present application, the brief introduction of the application the relevant technologies is provided first such as
Under.
Ascending physical signal control channel and upstream control signaling:
In 5G NR, ascending physical signal control channel includes long physics ascending physical signal control channel (short in short-term
Physical uplink control channel, short-PUCCH) and long duration ascending physical signal control channel (long-
PUCCH)。
Ascending physical signal control channel long in short-term in the embodiment of the present application can occupy 1 or 2 orthogonal frequencies in the time domain
Divide multiplexing (orthogonal frequency division multiplexing, OFDM) symbol, one is occupied on frequency domain
Or multiple Physical Resource Block (physical resource block, PRB), this multiple PRB can be continuously, be also possible to
Discrete.
Long duration ascending physical signal control channel in the embodiment of the present application can occupy 4 to 14 OFDM symbols in the time domain
Number, one or more PRB is occupied on frequency domain, this multiple PRB can be continuously, be also possible to discrete.
Wherein, in the embodiment of the present application, PRB is continuously, to refer to that the serial number of PRB is continuous;PRB be it is discrete, refer to PRB
Serial number it is discontinuous.For example, as shown in Fig. 2, (q+ on q-th of PRB and p-th of OFDM symbol in p-th of OFDM symbol
1) a PRB is continuous;Alternatively, q-th of PRB in p-th of OFDM symbol and (q+1) in (p+2) a OFDM symbol
A PRB is continuous.(q+2) a PRB on q-th of PRB and p-th of OFDM symbol in p-th of OFDM symbol is not connect
Continuous;Alternatively, q-th of PRB in p-th of OFDM symbol and (q+2) a PRB in (p+1) a OFDM symbol are not connect
Continuous.
It should be noted that in the embodiment of the present application, the corresponding PRB of a PRB serial number, and PRB is frequency domain resource
One unit indicates one section of frequency domain resource, and therefore, the PRB serial number in the embodiment of the present application attached drawing does not represent one in a coordinate system
A coordinate value, but it is only illustrative the frequency domain for indicating a PRB.For example, in Fig. 2, one of the serial number q of PRB
PRB indicates one section of frequency domain between dotted line 1 and dotted line 2, is described collectively, is repeated no more herein below.In addition, in order to
Simplify attached drawing, is no longer illustrated with left bracket as shown in Figure 2 in following embodiment attached drawings, be described collectively herein.
Ascending physical signal control channel long in short-term in the embodiment of the present application can be used for transmitting upstream control signaling, the uplink control
Signaling processed includes ascending control information (uplink control information, UCI).Optionally, the upstream control signaling
It can also include carrying demodulated reference signal (demodulated reference signal, DMRS).Also, in 5G NR,
DMRS and ascending control information in long ascending physical signal control channel in short-term to occupy the different sub-carrier in a PRB respectively,
The mode for carrying out frequency division is transmitted, and existing three generations's partner program (3rd generation is specifically referred to
Partnership project, 3GPP) standard R1-1716099,3GPP TSG RAN WG1Meeting NR Ad-Hoc#3,
Nagoya, Japan, 18th -21st, September 2017, " Short-PUCCH for UCI of more than
The description of 2bits ", it will not go into details to this for the embodiment of the present application.
Long duration ascending physical signal control channel in the embodiment of the present application can be used for transmitting upstream control signaling, the uplink control
Signaling processed includes ascending control information and DMRS.Also, in 5G NR, the long duration ascending physical signal control channel is in the time domain
In occupied OFDM symbol, there is at least one OFDM symbol for carrying DMRS, remaining OFDM symbol is for carrying uplink
Information is controlled, existing 3GPP standard R1-1716759,3GPP TSG RAN WG1Meeting NR Ad-Hoc# is specifically referred to
3, Nagoya, Japan, 18th -21st, September 2017, " Short-PUCCH for UCI of more
The description of than2bits ", it will not go into details to this for the embodiment of the present application.
It should be noted that the ascending physical signal control channel in the following embodiments of the application can be long ascending physical signal in short-term
Control channel, is also possible to long duration ascending physical signal control channel, and the embodiment of the present application is not especially limited this.
It should be noted that transmission uplink control signaling frequency domain resource is mainly discussed in the following embodiments of the application, it is right
It is not especially limited in transmission uplink control signaling time-domain resource and code domain resource.For example, being passed in the following embodiments of the application
The defeated multiple frequency domain resources of uplink control signaling can be located in the same OFDM symbol, can also be located at different OFDM symbols
On, the embodiment of the present application is not especially limited this.Alternatively, base station can transmit upload control to terminal distribution code domain resource
Signaling specifically refers to existing 3GPP standard R1-1715401,3GPP TSG RAN WG1Meeting NR Ad-Hoc#3,
Nagoya, Japan, 18th -21st, September 2017, " Short-PUCCH for UCI of more than
The description of 2bits ", it will not go into details to this for the embodiment of the present application.
The location information of frequency domain resource:
In the embodiment of the present application, the position of frequency domain resource can be there are many forms of characterization, corresponding different forms of characterization, frequency
The location information of domain resource is not also identical.Several specific examples are provided below:
Illustratively, the position of frequency domain resource can be characterized by the initial position and end position of frequency domain resource.Its
In, the initial position of frequency domain resource is indicated by the starting PRB serial number of frequency domain resource, and the end position of frequency domain resource is by frequency domain
The end PRB serial number of resource is indicated.At this point, the location information of frequency domain resource include frequency domain resource starting PRB serial number with
The end PRB serial number of frequency domain resource.For example, the location information of frequency domain resource 1 can wrap in p-th of OFDM symbol in Fig. 3
It includes: the starting PRB serial number q of frequency domain resource 1 in p-th of OFDM symbol, and terminate PRB serial number (q+2);Alternatively, for example,
In Fig. 3, the location information of frequency domain resource 2 may include: frequency domain resource 2 in p-th of OFDM symbol in p-th of OFDM symbol
It originates PRB serial number (q+3), and, the end PRB serial number (q+3) of frequency domain resource 2 in p-th of OFDM symbol.
Certainly, only have the case where PRB, the starting PRB serial number and frequency domain resource of frequency domain resource for frequency domain resource
End PRB serial number it is identical, at this point, the location information of frequency domain resource can only include frequency domain resource starting PRB serial number, than
Such as, in Fig. 3, the location information of frequency domain resource 2 may include: frequency domain resource in p-th of OFDM symbol in p-th of OFDM symbol
2 starting PRB serial number (q+3).
Alternatively, illustrative, the position of frequency domain resource can be by the initial position of frequency domain resource and the size of frequency domain resource
It determines.Wherein, the initial position of frequency domain resource is indicated by the starting PRB serial number of frequency domain resource, and the size of frequency domain resource is logical
Often characterized by the PRB number that frequency domain resource occupies.At this point, the location information of frequency domain resource includes the starting of frequency domain resource
The PRB number that PRB serial number and frequency domain resource occupy;Alternatively, the location information of frequency domain resource includes the starting PRB sequence of frequency domain resource
Number.For example, the location information of frequency domain resource 1 may include: frequency in p-th of OFDM symbol in p-th of OFDM symbol in Fig. 3
The starting PRB serial number q of domain resource 1 and the size of frequency domain resource are 3 PRB;Alternatively, for example, in Fig. 3, p-th
The location information of frequency domain resource 1 may include: the starting PRB serial number of frequency domain resource 1 in p-th of OFDM symbol in OFDM symbol
q。
It should be noted that being determined in the position of frequency domain resource by the initial position of frequency domain resource and the size of frequency domain resource
When, the location information of frequency domain resource only includes the case where that the starting PRB serial number of frequency domain resource is commonly available to multiple frequency domain resources
The identical scene of size, at this point, the size of frequency domain resource can be determined by terminal or base station, specific method of determination can join
The relevant description of size of frequency domain resource is seen below, it will not be described here.
In addition, the location information of multiple frequency domain resources also can wrap under the identical scene of size of multiple frequency domain resources
The size of starting the PRB serial number and a frequency domain resource of multiple frequency domain resources is included, the embodiment of the present application is not especially limited this.
Above-mentioned be merely exemplary provides the forms of characterization of the position of several frequency domain resources, it is, of course, also possible to pass through other
Form characterizes the position of frequency domain resource, correspondingly, the location information of frequency domain resource can also be other, the embodiment of the present application is to this
It is not especially limited.
In addition, can also include the time domain where frequency domain resource in the location information of the frequency domain resource in the embodiment of the present application
The location information of resource, for example, the OFDM symbol where frequency domain resource.Alternatively, can also be wrapped in the location information of frequency domain resource
Physical control channel element (Control channel element, CCE) label etc. for including frequency domain resource, for example, frequency domain resource
First CCE label or the last one CCE label of frequency domain resource etc., the embodiment of the present application is not especially limited this.
The size of frequency domain resource:
As described above, the size of frequency domain resource is usually carried out by the PRB number that frequency domain resource occupies in the embodiment of the present application
Characterization.For example, the size of frequency domain resource 1 is 3 PRB in Fig. 3;The size of frequency domain resource 2 is 1 PRB.
Optionally, in the embodiment of the present application, for being used for transmission the multiple frequency domain resources of uplink control signaling, each frequency domain
The size of resource can be identical.For example, if the two frequency domains provide there are two transmission uplink control signaling frequency domain resources
The size in source can be equal, needs additional signaling overheads when differing in size to avoid frequency domain resource and indicates respectively each frequency
The size of domain resource.
Optionally, in the embodiment of the present application, in the identical situation of size of each frequency domain resource, each frequency domain resource
Size can be determined by the data volume of the ascending control information in the upstream control signaling of required transmission.For example, can be in terminal
Or collocating uplink controls pair of the data volume of information and the occupied PRB number of data volume of the ascending control information in base station
It should be related to;Alternatively, standard can specify that ascending control information data volume and the ascending control information data volume it is occupied
The corresponding relationship of PRB number.The corresponding relationship can be characterized by formula, can also be characterized by table.
Illustratively, can to characterize above-mentioned corresponding relationship by formula as follows:
When the data volume of 3≤ascending control information≤10 bit, the occupied PRB number of the data volume of ascending control information
=Y;
When 10*X bit < ascending control information data volume≤10* (X+1) bit, the data volume institute of ascending control information
PRB number=Y* (X+1) of occupancy, wherein X is positive integer, and Y is the number of the frequency domain resource of transmitting uplink control information.It is public
Formula (1)
Alternatively, illustrative, it is assumed that the number of the frequency domain resource of transmitting uplink control information is 2, then above-mentioned corresponding relationship
It can be as shown in Table 1:
Table one
Alternatively, illustrative, it is assumed that the number of the frequency domain resource of transmitting uplink control information is 3, then above-mentioned corresponding relationship
It can be as shown in Table 2:
Table two
Certainly, above-mentioned corresponding relationship can also have other forms of characterization, and the embodiment of the present application is not especially limited this.
According to above-mentioned corresponding relationship, each frequency domain resource occupied PRB of transmitting uplink control information can be determined
Number.
For example, according to above-mentioned formula (1), available following formula (2)
When the data volume of 3≤ascending control information≤10 bit, shared by each frequency domain resource of transmitting uplink control information
PRB number=1;
When 10*X bit < ascending control information data volume≤10* (X+1) bit, each of transmitting uplink control information
Occupied PRB number=(X+1) of frequency domain resource.Formula (2)
Alternatively, for example, according to above-mentioned table one, it is available such as following table three:
Table three
Alternatively, for example, according to above-mentioned table two, it is available such as following table four:
Table four
Optionally, in the embodiment of the present application, for being used for transmission the multiple frequency domain resources of uplink control signaling, each frequency domain
The size of resource is also possible to different, and the embodiment of the present application is not especially limited this.
Frequency domain resource is continuous:
In the embodiment of the present application, the first frequency domain resource and the second frequency domain resource continuously refer to, the starting of the second frequency domain resource
Without interval between frequency domain position and the end frequency domain position of the first frequency domain resource, i.e. the starting PRB serial number of the second frequency domain resource=
The end PRB serial number+1 of first frequency domain resource;Alternatively, for terminating frequency domain position and the first frequency domain resource of the second frequency domain resource
Without interval, i.e. end PRB serial number=first frequency domain resource starting PRB serial number-of the second frequency domain resource between beginning frequency domain position
1。
Alternatively, the first frequency domain resource and the second frequency domain resource continuously refer in the embodiment of the present application, the first frequency domain resource and
Second frequency domain resource has lap, i.e. starting PRB serial number≤first frequency domain resource end PRB serial number of the second frequency domain resource
The end PRB serial number of≤the second frequency domain resource;Alternatively, starting PRB serial number≤second frequency domain resource knot of the first frequency domain resource
Beam PRB serial number≤first frequency domain resource end PRB serial number.
Frequency domain resource is discontinuous:
In the embodiment of the present application, the first frequency domain resource and the second frequency domain resource discontinuously refer to, the second frequency domain resource rises
1 PRB, the i.e. end of the first frequency domain resource are at least spaced between beginning frequency domain position and the end frequency domain position of the first frequency domain resource
The serial number of the starting PRB of+1 the second frequency domain resource of < of PRB serial number;Alternatively, the end frequency domain position of the second frequency domain resource and first
1 PRB, i.e.+1 < first of end PRB serial number of the second frequency domain resource are at least spaced between the starting frequency domain position of frequency domain resource
The starting PRB serial number of frequency domain resource.
Illustratively, it is assumed that the starting PRB serial number (q+3) of frequency domain resource 1, terminates PRB serial number (q+
5), i.e., the frequency domain resource size of frequency domain resource 1 is 3 PRB, and the frequency domain resource 1 is in p-th of OFDM symbol;Frequency domain resource 2 rises
Beginning PRB serial number q terminates PRB serial number (q+2), i.e., the frequency domain resource size of frequency domain resource 2 is 3 PRB, the frequency domain resource 2
Can be in p-th of OFDM symbol perhaps in (p+1) a OFDM symbol or in (p+6) a OFDM symbol, Huo Zhe
(p+7) in a OFDM symbol;The starting PRB serial number (q+4) of frequency domain resource 3 terminates PRB serial number (q+6), i.e. frequency domain resource
3 frequency domain resource size is 3 PRB, which can be in p-th of OFDM symbol or (p+1) a OFDM is accorded with
On number;The starting PRB serial number (q+2) of frequency domain resource 4, terminates PRB serial number (q+4), i.e. the frequency domain resource of frequency domain resource 4 is big
Small is 3 PRB, which can be in (p+6) a OFDM symbol.The then frequency domain resource 1 in p-th of OFDM symbol
It is continuous with frequency domain resource 2;Alternatively, the frequency domain resource 1 and frequency domain resource 3 in p-th of OFDM symbol are continuous;Alternatively,
Frequency domain resource 1 in p-th of OFDM symbol and the frequency domain resource 3 in (p+1) a OFDM symbol are continuous;Alternatively, (p+
6) frequency domain resource 2 in a OFDM symbol and frequency domain resource 4 are continuous;Alternatively, the frequency domain in (p+6) a OFDM symbol provides
Frequency domain resource 4 on source 2 and (p+7) a OFDM symbol is continuous.Frequency domain resource 3 and frequency domain in p-th of OFDM symbol
Resource 2 is discontinuous;Alternatively, the frequency domain resource 3 and frequency domain resource 2 in (p+1) a OFDM symbol are discontinuous;Or
Person, the frequency domain resource 2 in frequency domain resource 3 and (p+1) a OFDM symbol in p-th of OFDM symbol is discontinuous;Alternatively,
Frequency domain resource 2 in p-th of OFDM symbol and the frequency domain resource 3 in (p+1) a OFDM symbol are discontinuous;Alternatively, pth
Frequency domain resource 3 in a OFDM symbol and the frequency domain resource 2 in (p+6) a OFDM symbol are discontinuous;Alternatively, p-th
Frequency domain resource 3 in OFDM symbol and the frequency domain resource 2 in (p+7) a OFDM symbol are discontinuous.
It should be noted that in the following embodiments of the application be used for transmission the multiple frequency domain resources of uplink control signaling can
Be it is continuous, be also possible to discontinuous, the embodiment of the present application is not especially limited this, be described collectively herein, with
Under repeat no more.
It should be noted that the embodiment of the present application is less than or equal to the starting PRB serial number of frequency domain resource terminates PRB serial number
For be illustrated, certainly, the starting PRB serial number of frequency domain resource, which may also be greater than or equal to, terminates PRB serial number, and the application is implemented
Example is not especially limited this.
The position offset of frequency domain resource:
In the embodiment of the present application, the position offset of frequency domain resource specifically refers to a frequency domain resource relative to another
The number for the PRB that frequency domain resource deviates in frequency domain resource.Wherein, the number of the PRB of the offset can be according to a frequency domain
What the difference of the starting PRB serial number of the end PRB serial number and another frequency domain resource of resource determined, for example, in Fig. 4, (p+
1) the starting PRB serial number (q+4) of the frequency domain resource 3 in a OFDM symbol, the frequency domain resource 2 in (p+1) a OFDM symbol
End PRB serial number (q+2), can determine the position of the frequency domain resource 2 and frequency domain resource 3 in (p+1) a OFDM symbol
Offset is (q+4)-(q+2)=2;Alternatively, the number of the PRB of the offset can be according to being spaced between two frequency domain resources
What the number of PRB determined, that is, number=(end PRB serial number and another frequency domain resource of a frequency domain resource of the PRB deviated
Starting PRB serial number difference) -1, for example, in Fig. 4, the starting PRB sequence of the frequency domain resource 3 in (p+1) a OFDM symbol
It number is (q+4), the end PRB serial number (q+2) of the frequency domain resource 2 in (p+1) a OFDM symbol can determine (p+1)
The position offset of frequency domain resource 2 and frequency domain resource 3 in a OFDM symbol is (q+4)-(q+2) -1=1, the embodiment of the present application
The calculation for not limiting the position offset of frequency domain resource, the definition with specific reference to the position offset of frequency domain resource determine.
It should be noted that for convenience of for example, the number with the PRB of offset is root in the following embodiments of the application
It is illustrated for being determined according to the number for the PRB being spaced between two frequency domain resources, is described collectively herein, it is no longer superfluous below
It states.
Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application is described.Its
In, in the description of the present application, unless otherwise indicated, "/" indicate or the meaning, for example, A/B can indicate A or B;Herein
"and/or" be only a kind of incidence relation for describing affiliated partner, indicate may exist three kinds of relationships, for example, A and/or B,
Can indicate: individualism A exists simultaneously A and B, these three situations of individualism B.Also, in the description of the present application, remove
Non- to be otherwise noted, " multiple " refer to two or more.In addition, for the ease of clearly describing the technical side of the embodiment of the present application
Case, in embodiments herein, use the printed words such as " first ", " second " to function and act on essentially identical identical entry or
Similar item distinguishes.It will be appreciated by those skilled in the art that the printed words such as " first ", " second " are not to quantity and execution order
It is defined, and the printed words such as " first ", " second " also do not limit certain difference.
The network architecture and business scenario of the embodiment of the present application description are to more clearly illustrate that the application is implemented
The technical solution of example, does not constitute the restriction for technical solution provided by the embodiments of the present application, those of ordinary skill in the art
It is found that technical solution provided by the embodiments of the present application is for similar with the differentiation of the network architecture and the appearance of new business scene
The technical issues of, it is equally applicable.
As shown in figure 5, being a kind of communication system 50 provided by the embodiments of the present application.The communication system 50 includes an access
Equipment 60, and the one or more communication equipments 70 being connect with the access device 60.Led to below with access device 60 with any
Letter equipment 70 is illustrated for interacting.
When needing to carry out resource allocation, access device 60 distributes (M+N) a frequency domain resource to communication equipment 70, and to logical
Believe that equipment 70 sends Downlink Control Information, which includes the location information of (M+N) a frequency domain resource;Alternatively, should
Downlink Control Information is used to indicate the position of (M+N) a frequency domain resource;Alternatively, the Downlink Control Information includes M frequency domain resource
Location information, and, which is also used to indicate the position of N number of frequency domain resource;The frequency domain resource is ascending
The frequency domain resource that control channel occupies is managed, which is used for transmission upstream control signaling, wherein M, N are
Positive integer, and M+N >=2.In this way, communication equipment 60 can receive the Downlink Control Information from access device 70, and according to this
Downlink Control Information, determine (M+N) a frequency domain resource position after, to access device 60 send upstream control signaling, the uplink
Control signaling is transmitted in (M+N) a frequency domain resource.
Alternatively, optional, when needing to carry out resource allocation, access device 60 distributes M frequency domain resource to communication equipment
70, and Downlink Control Information is sent to communication equipment 70, which includes the location information of M frequency domain resource,
In, the location information of the M frequency domain resource is used to determine the position of M frequency domain resource;And the position of the M frequency domain resource
Information and target component are used to determine the position of N number of frequency domain resource, which is communication equipment 70 and access device 60
The parameter mutually known, the frequency domain resource are the frequency domain resource that ascending physical signal control channel occupies, which is used for
Upstream control signaling is transmitted, M, N are positive integer, and M+N >=2.In this way, communication equipment 70 can receive from access device 60
Downlink Control Information determine the position of M frequency domain resource and according to the Downlink Control Information;And it is controlled according to the downlink
Information and target component behind the position for determining N number of frequency domain resource, send upstream control signaling to access device 60, wherein on this
Row control signaling is transmitted in (M+N) a frequency domain resource.
The specific implementation of above scheme will elaborate in the following embodiments, and details are not described herein.
Based on communication system 50 provided by the embodiments of the present application, the multiple frequencies of uplink control signaling can be transmitted with flexible configuration
Domain resource allows 5G NR to support more service types.
As shown in fig. 6, being the hardware structural diagram of access device 60 and communication equipment 70 provided by the embodiments of the present application.
Communication equipment 70 includes at least one processor 701, at least one processor 702 and at least one transceiver 703.
Optionally, communication equipment 70 can also include output equipment 704 and input equipment 705.
Processor 701, memory 702 are connected with transceiver 703 by communication line.Communication line may include one logical
Information is transmitted on road between said modules.
Processor 701 can be general central processor (central processing unit, CPU), micro process
Device, application-specific integrated circuit (application-specific integrated circuit, ASIC) or one or
Multiple integrated circuits executed for controlling application scheme program.In the concrete realization, as one embodiment, processor
701 also may include multiple CPU, and processor 701 can be monokaryon (single-CPU) processor or multicore
(multi-CPU) processor.Here processor can refer to one or more equipment, circuit or by handling data (based on such as
Calculation machine program instruction) processing core.
Memory 702 can be read-only memory (read-only memory, ROM) or can store static information and instruction
Other kinds of static storage device, random access memory (random access memory, RAM) or letter can be stored
The other kinds of dynamic memory of breath and instruction, is also possible to Electrically Erasable Programmable Read-Only Memory (electrically
Erasable programmable read-only memory, EEPROM), CD-ROM (compact disc read-
Only memory, CD-ROM) or other optical disc storages, optical disc storage (including compression optical disc, laser disc, optical disc, digital universal
Optical disc, Blu-ray Disc etc.), magnetic disk storage medium or other magnetic storage apparatus or can be used in carrying or store to have referring to
Enable or data structure form desired program code and can by any other medium of computer access, but not limited to this.
Memory 702, which can be, to be individually present, and is connected by communication line with processor 701.Memory 702 can also and processor
701 integrate.
Wherein, memory 702 be used for store execution application scheme computer executed instructions, and by processor 701
Control executes.Specifically, processor 701 is used to execute the computer executed instructions stored in memory 702, to realize this Shen
It please resource allocation method as described in the examples.Optionally, the computer executed instructions in the embodiment of the present application can also be referred to as
For application code or computer program code, the embodiment of the present application is not especially limited this.
The device of any transceiver one kind can be used in transceiver 703, for other equipment or communication, such as
Ethernet, wireless access network (radio access network, RAN), WLAN (wireless local area
Networks, WLAN) etc..Transceiver 703 includes transmitter Tx and receiver Rx.
Output equipment 704 and processor 701 communicate, and can show information in many ways.For example, output equipment 704
It can be liquid crystal display (liquid crystal display, LCD), Light-Emitting Diode (light emitting diode,
LED equipment) is shown, cathode-ray tube (cathode ray tube, CRT) shows equipment or projector (projector) etc..
Input equipment 705 and processor 701 communicate, and can receive the input of user in many ways.For example, input equipment 705 can be with
It is mouse, keyboard, touch panel device or sensing equipment etc..
Access device 60 includes at least one processor 601, at least one processor 602,603 and of at least one transceiver
At least one network interface 604.Processor 601, memory 602, transceiver 603 and network interface 604 pass through communication line phase
Connection.Wherein, network interface 604 is used to connect with equipment of the core network by link (such as S1 interface), or pass through it is wired or
The network interface of Radio Link (such as X2 interface) and other access devices is attached (not shown), the embodiment of the present application
This is not especially limited.In addition, the associated description of processor 601, memory 602 and transceiver 603 can refer to communication equipment
The description of processor 701, memory 702 and transceiver 703 in 70, details are not described herein.
Optionally, the equipment that the access device 60 in the embodiment of the present application refers to core network access, such as can be NR
Base station in system or the public land mobile network (public land mobile network, PLMN) of the following evolution,
Broadband network Service Gateway (broadband network gateway, BNG), convergence switch, non-3 GPP access equipment or
There is the equipment etc. of similar structures in Fig. 6.Base station may include various forms of base stations, such as: macro base station, micro-base station is (also referred to as
Small station), relay station, access point etc., the embodiment of the present application is not especially limited this.
Optionally, the communication equipment 70 in the embodiment of the present application can be terminal or chip etc., the embodiment of the present application pair
This is not especially limited.Wherein, terminal can be the user equipment (user in the PLMN of NR system or the following evolution
Equipment, UE), access terminal, terminal unit, terminal station, movement station, mobile station, remote station, remote terminal, movement set
Standby, wireless telecom equipment, terminal agent, terminal installation have equipment of similar structures etc. in Fig. 6.Access terminal can be bee
Cellular telephone, wireless phone, session initiation protocol (session initiation protocol, SIP) phone, Wireless Local Loop
It stands, personal digital assistant (personal digital assistant, PDA), have in road (wireless local loop, WLL)
There is the handheld device of wireless communication function, other processing equipments for calculating equipment or being connected to radio modem, vehicle-mounted set
Standby or wearable device etc., the embodiment of the present application is not especially limited this.
It is a terminal in NR system with communication equipment below in conjunction with Fig. 1 to Fig. 6, access device is in NR system
Base station for, expansion explanation is carried out to resource allocation method provided by the embodiments of the present application.
Illustratively, after base station and terminal establish connection by initial random access or other processes, terminal is in access
Frequency band listens to the Downlink Control Information of base station transmission, which indicates the resource and ascending physical signal control of downlink data
The resource (such as frequency domain resource) of channel processed.In addition, terminal needs the resource of the downlink data indicated by Downlink Control Information
On uplink physical channel indicated by the case where listening to downlink data, then being decoded according to downlink data and Downlink Control Information
Resource, reception condition of the feedback terminal for downlink data in ascending physical signal control channel.Wherein, the frequency band of terminal access
Information have several possibilities, base station notifies terminal when can be initial random access, or carried inside synchronization signal,
Can a part of band information in random access, another part in synchronization signal, the embodiment of the present application is not especially limited this.
Alternatively, base station needs terminal to feed back the information such as some ascending control informations, such as channel quality, at this point, base station can
To send Downlink Control Information to terminal, terminal listens to the Downlink Control Information of base station transmission, the downlink control in the frequency band of access
Information processed indicates the resource (such as frequency domain resource) of ascending physical signal control channel.Then, terminal refers to according to Downlink Control Information
The resource for the ascending physical signal control channel shown, in ascending physical signal control channel ascending control information.
Wherein, above-mentioned terminal can believe the reception condition or ascending control information of downlink data by upload control
It enables and carrying.
That is, when terminal needs to send upstream control signaling to base station, it is necessary first to which base station configures to terminal and passes
The defeated uplink control signaling resource.Based on this, the embodiment of the present application provides following several resource allocation methods.
As shown in fig. 7, being a kind of resource allocation method provided by the embodiments of the present application, the resource allocation method is with base station point
With T1 frequency domain resource to terminal, and by Downlink Control Information to terminal send T1 frequency domain resource location information for into
Row explanation.Specifically, the resource allocation method includes the following steps:
S701, base station distribute T1 frequency domain resource to terminal, which is ascending physical signal control channel occupancy
Frequency domain resource, which is used for transmission upstream control signaling, wherein T1 is the positive integer not less than 2.
Illustratively, it is assumed that T1=2, each frequency domain resource respectively need to occupy 2 PRB, are currently available for transmission uplink
The size of the frequency domain resource of control signaling is 10 PRB, and the frequency domain resource of PRB serial number 3 to 7 is occupied by other terminals, then
Base station can distribute 2 use according to frequency domain resource still idle in transmission uplink control signaling frequency domain resource is currently used in
In transmission uplink control signaling frequency domain resource to the PRB serial number 1 and 2 of terminal, such as one of frequency domain resource;Other one
The PRB serial number 8 and 9 of a frequency domain resource.
Certainly, base station there may also be other modes that uplink control signaling frequency domain resource is used for transmission to terminal distribution,
The embodiment of the present application does not limit the mode how base station is used for transmission uplink control signaling frequency domain resource to terminal distribution.
S702, base station are sent to terminal to Downlink Control Information is sent, which includes T1 frequency domain resource
Location information.
Optionally, in the embodiment of the present application, Downlink Control Information can be carried by dynamic signaling, for example base station is to terminal
Send dynamic signaling.Correspondingly, terminal receives the dynamic signaling from base station.Wherein, which carries downlink control letter
Breath.
Illustratively, which for example can be Downlink Control Information (downlink control
Information, DCI) etc., the embodiment of the present application is not especially limited this.
In addition, it is necessary to explanation can not use original process when carrying Downlink Control Information using DCI, but
A process is created to complete the configuration feature of frequency domain resource, is described collectively, is repeated no more below herein.
Optionally, in the embodiment of the present application, base station can carry T1 frequency domain resource by a Downlink Control Information
Location information;The location information of T1 frequency domain resource, every downlink control letter can also be carried by T1 Downlink Control Information
Breath carries the location information of 1 frequency domain resource, and the embodiment of the present application is not especially limited this.
S703, terminal determine the position of T1 frequency domain resource according to Downlink Control Information.
Illustratively, it is assumed that T1=2, i.e. base station distribute 2 frequency domain resources to terminal, and the location information of frequency domain resource 1 is
The starting PRB serial number x1 of frequency domain resource, the end PRB serial number x2 of frequency domain resource;The location information of frequency domain resource 2 is frequency domain
The starting PRB serial number x3 of resource, the end PRB serial number x4 of frequency domain resource, then terminal, can be true according to Downlink Control Information
Determine the position of frequency domain resource 1 and frequency domain resource 2, as a result as shown in Figure 8.Wherein, frequency domain resource 1 and frequency domain resource 2 can distribute
In the same OFDM symbol, as in (a) in Fig. 8 frequency domain resource 1 and frequency domain resource 2 divide equally fit in p-th of OFDM symbol;
Frequency domain resource 1 and frequency domain resource 2 can also distribute in two adjacent OFDM symbols, such as the frequency domain resource 1 in (b) in Fig. 8
Distribution is in p-th of OFDM symbol, and frequency domain resource 2 is distributed in (p+1) a OFDM symbol, and the embodiment of the present application does not make this
It is specific to limit.
In addition, it should be noted that, (a) in Fig. 8 and (b) in Fig. 8 are with the big of frequency domain resource 1 and frequency domain resource 2
Small is that 3 PRB are illustrated, and certainly, the size of frequency domain resource 1 and frequency domain resource 2 may be other values, the embodiment of the present application
This is not especially limited.
S704, terminal send upstream control signaling to base station, wherein the upstream control signaling is uploaded in T1 frequency domain resource
It is defeated.
It should be noted that being according to the frequency determined in step S703 when terminal sends upstream control signaling to base station
What the position of domain resource was sent, illustratively illustrated herein, is repeated no more below.
Illustratively, it is assumed that base station is in Fig. 8 to the uplink control signaling frequency domain resource that is used for transmission of terminal distribution
(a) frequency domain resource 1 and frequency domain resource 2 or in (b) in Fig. 8, then terminal can be according to the frequency domain determined in step S703
The position of resource sends upstream control signaling to base station in frequency domain resource 1 and frequency domain resource 2.
It should be noted that the Downlink Control Information in the embodiment of the present application in step S702 is that base station is individually sent to this
Terminal, the upstream control signaling in step S704 is that terminal is individually sent to the base station, is described collectively herein, below
It repeats no more.
Based on resource allocation method provided by the embodiments of the present application, after T1 frequency domain resource is distributed to terminal in base station,
The location information that T1 frequency domain resource can be carried by the Downlink Control Information sent to terminal, allows terminal according to this
Downlink Control Information determines the position of T1 frequency domain resource, and sends upstream control signaling to base station in T1 frequency domain resource,
Therefore the flexible configuration to the transmission multiple frequency domain resources of uplink control signaling may be implemented.
Wherein, the movement of above-mentioned steps S701 terminal into S704 can processing in communication equipment 70 as shown in Figure 6
Device 701 calls the application code stored in memory 703 to instruct the terminal to execute, above-mentioned steps S701 base into S704
The movement stood can the processor 601 in access device 60 as shown in Figure 6 call the application program generation stored in memory 603
For code to instruct the base station to execute, the embodiment of the present application is not intended to be limited in any this.
Optionally, as shown in figure 9, for another resource allocation method provided by the embodiments of the present application, the resource distribution side
Method distributes T2 frequency domain resource to terminal with base station, and is by the location information of Downlink Control Information T2 frequency domain resource of instruction
Example is illustrated.Specifically, the resource allocation method includes the following steps:
S901, similar with step S701, difference is only that the number of step S701 frequency domain resource is T1, in step S901
The number of frequency domain resource is T2, and T2 is the positive integer not less than 2, specifically refers to embodiment shown in Fig. 7, no longer superfluous herein
It states.
S902, base station send the first Downlink Control Information to terminal.First Downlink Control Information includes first set, should
The combination of location information in first set including a variety of frequency domain resources, wherein the group of the location information of a variety of frequency domain resources
The combination of the location information of every kind of frequency domain resource includes the location information of at least two frequency domain resources in conjunction.
It illustratively, include the knot for originating PRB serial number and frequency domain resource of frequency domain resource with the location information of frequency domain resource
For beam PRB serial number, then first set can be set 11:a ((x1, x2), (x3, x4)), ((x5, x6), (x7, x8),
(x9, x10)) ... ... }, wherein first element ((x1, x2), (x3, x4)) in set 11 indicates corresponding two frequency domains money
The location information in source, the two frequency domain resources is respectively: the location information of a frequency domain resource is the starting PRB sequence of frequency domain resource
Number be x1, the end PRB serial number x2 of frequency domain resource;The location information of one frequency domain resource is the starting PRB sequence of frequency domain resource
Number be x3, the end PRB serial number x4 of frequency domain resource.Set 11 in second element ((x5, x6), (x7, x8), (x9,
X10 corresponding three frequency domain resources)) are indicated, the location information of these three frequency domain resources is respectively: the position letter of a frequency domain resource
Breath is the starting PRB serial number x5, the end PRB serial number x6 of frequency domain resource of frequency domain resource;The position letter of one frequency domain resource
Breath is the starting PRB serial number x7, the end PRB serial number x8 of frequency domain resource of frequency domain resource;The position letter of one frequency domain resource
Breath is the starting PRB serial number x9, the end PRB serial number x10 of frequency domain resource of frequency domain resource.
Alternatively, illustrative, the location information with frequency domain resource includes the starting PRB serial number and frequency domain resource of frequency domain resource
Size for, then first set can be set 12:a ((x1, m1), (x3, m2)), ((x5, m3), (x7, m4), (x9,
M5)) ... ... }, wherein first element ((x1, m1), (x3, m2)) in set 12 indicates corresponding two frequency domain resources, this
The location information of two frequency domain resources is respectively: the location information of a frequency domain resource is the starting PRB serial number of frequency domain resource
X1, the size of frequency domain resource are m1 PRB;The location information of one frequency domain resource is the starting PRB serial number x3 of frequency domain resource,
The size of frequency domain resource is m2 PRB.Second element (x5, m3) in set 12, (x7, m4), (x9, m5)) it indicates to correspond to
Three frequency domain resources, the location information of these three frequency domain resources is respectively: the location information of a frequency domain resource is frequency domain resource
Starting PRB serial number x5, the size of frequency domain resource is m3 PRB;The location information of one frequency domain resource is frequency domain resource
PRB serial number x7 is originated, the size of frequency domain resource is m4 PRB;The location information of one frequency domain resource is rising for frequency domain resource
Beginning PRB serial number x9, the size of frequency domain resource are m5 PRB.
Alternatively, it is illustrative, in the embodiment of the present application, for being used for transmission the multiple frequency domain resources of uplink control signaling,
The size of each frequency domain resource can be identical, then the location information of the frequency domain resource in first set can only include frequency domain
The starting PRB serial number of resource.For example, first set can be set 13:a { (x1, x3), (x5, x7, x9) ... ... }, wherein
First element (x1, x3) in set 13 indicates corresponding two frequency domain resources, the location information difference of the two frequency domain resources
Be: the location information of a frequency domain resource is the starting PRB serial number x1 of frequency domain resource;The location information of one frequency domain resource is
The starting PRB serial number x3 of frequency domain resource.Second element (x5, x7, x9) in set 13 indicates corresponding three frequency domain resources,
The location information of these three frequency domain resources is respectively: the location information of a frequency domain resource is the starting PRB serial number of frequency domain resource
For x5;The location information of one frequency domain resource is the starting PRB serial number x7 of frequency domain resource;The location information of one frequency domain resource
For the starting PRB serial number x9 of frequency domain resource.At this point, in the identical situation of size of each frequency domain resource, each frequency domain money
The configuration mode of the size in source can refer to specific embodiment preamble, and details are not described herein.
Alternatively, it is illustrative, in the embodiment of the present application, for being used for transmission the multiple frequency domain resources of uplink control signaling,
The size of each frequency domain resource can be identical, then the location information of the corresponding frequency domain resource of each element can in first set
To include the size for originating PRB serial number and a frequency domain resource of multiple frequency domain resources.For example, first set can be set
14:a { (x1, x3, m1), (x5, x7, x9, m2) ... ... }, wherein first element (x1, x3, m1) expression pair in set 14
Answer two frequency domain resources, the location information of the two frequency domain resources is respectively: the size of frequency domain resource is m1 PRB, and one
The location information of frequency domain resource is the starting PRB serial number x1 of frequency domain resource;The location information of one frequency domain resource is frequency domain money
The starting PRB serial number x3 in source.Second element (x5, x7, x9, m2) in set 14 indicates corresponding three frequency domain resources, this
The location information of three frequency domain resources is respectively: the size of frequency domain resource is m2 PRB, the location information of a frequency domain resource
For the starting PRB serial number x5 of frequency domain resource;The location information of one frequency domain resource is the starting PRB serial number of frequency domain resource
x7;The location information of one frequency domain resource is the starting PRB serial number x9 of frequency domain resource, and the embodiment of the present application does not make the situation
It is specific to limit.
Optionally, in the embodiment of the present application, the first Downlink Control Information can be carried by high-level signaling, for example, base station to
Terminal sends high-level signaling.Wherein, which carries the first Downlink Control Information.
Illustratively, which for example can be media access control (medium access control, MAC)
Signaling or wireless heterogeneous networks (radio resource control, RRC) signaling etc., the embodiment of the present application does not make this to have
Body limits.
It should be noted that there is no inevitable execution sequencing between step S901 and S902 in the embodiment of the present application,
It can be and first carry out step S901, then execute step S902;It is also possible to first carry out step S902, then executes step S901;Also
It can be step S901 and S902 to be performed simultaneously, the embodiment of the present application is not especially limited this.
S903, base station are sent to terminal to sending the second Downlink Control Information.Second Downlink Control Information is used to indicate
The combination of the location information of the frequency domain resource of the terminal is distributed in first set, wherein this distributes to the frequency domain money of the terminal
It include the location information of T2 frequency domain resource in the combination of the location information in source.
Illustratively, it is assumed that base station is used for transmission uplink control signaling frequency domain resource to terminal distribution two, this two
The location information of a frequency domain resource can be characterized by first element in the set 11 in step S902, then under second
Row control information can be the corresponding element number 1 of the element, alternatively, second Downlink Control Information can be the element
((x1, x2), (x3, x4)).
Alternatively, illustrative, it is assumed that base station is used for transmission uplink control signaling frequency domain resource to terminal distribution two,
The location information of the two frequency domain resources can be characterized by first element in the set 12 in step S902, then and
Two Downlink Control Information can be the corresponding element number 1 of the element, alternatively, second Downlink Control Information can be the element
((x1, m1), (x3, m2)).
Alternatively, illustrative, it is assumed that base station is used for transmission uplink control signaling frequency domain resource to terminal distribution two,
The location information of the two frequency domain resources can be characterized by first element in the set 13 in step S902, then and
Two Downlink Control Information can be the corresponding element number 1 of the element, alternatively, second Downlink Control Information can be the element
(x1, x3).
Optionally, in the embodiment of the present application, the second Downlink Control Information can be carried by dynamic signaling, for example, base station to
Terminal sends dynamic signaling.Wherein, which carries the second Downlink Control Information.
Illustratively, the associated description of the dynamic signaling can refer to embodiment shown in Fig. 7, and details are not described herein.
Optionally, terminal may access different base stations at different times, therefore might have stored on multiple in terminal
The first set stated, in order to which distinguish the instruction of the second Downlink Control Information in step S903 is distributed in which first set
The combination of the location information of the frequency domain resource of the terminal can save first collection after terminal obtains a first set
The mark and the mark corresponding relationship for the base station for configuring the first set of conjunction or first set.In this way, terminal is receiving base station
After the second Downlink Control Information sent, corresponding first set can be found according to the mark of base station.For following implementations
Second set, the operation of third set are also similar in example, are described collectively, are repeated no more herein below.
S904, terminal determine the position of T2 frequency domain resource according to the first Downlink Control Information and the second Downlink Control Information
It sets.
Illustratively, it is assumed that first set in the first Downlink Control Information is the set 11 in step S902, under second
Row control information is element number 1, then terminal can determine the position difference of transmission two frequency domain resources of uplink control signaling
Are as follows: the location information of a frequency domain resource is the starting PRB serial number x1 of frequency domain resource, the end PRB serial number of frequency domain resource
x2;The location information of one frequency domain resource is the starting PRB serial number x3 of frequency domain resource, the end PRB serial number of frequency domain resource
x4.The two frequency domain resources can distribute in the same OFDM symbol, such as the frequency domain resource 1 and frequency domain resource in (a) in Fig. 8
Shown in 2, frequency domain resource 1 and frequency domain resource 2 are respectively fitted in p-th of OFDM symbol;It can also distribute in adjacent two OFDM symbol
On number, as shown in the frequency domain resource 1 and frequency domain resource 2 in (b) in Fig. 8, frequency domain resource 1 is distributed in p-th of OFDM symbol,
Frequency domain resource 2 is distributed in (p+1) a OFDM symbol, and the embodiment of the present application is not especially limited this.
In addition, it should be noted that, (a) in Fig. 8 and (b) in Fig. 8 are with the big of frequency domain resource 1 and frequency domain resource 2
Small is that 3 PRB are illustrated, and certainly, the size of frequency domain resource 1 and frequency domain resource 2 may be other values, the embodiment of the present application
This is not especially limited.
Alternatively, illustrative, it is assumed that the first set in the first Downlink Control Information is the set 12 in step S902, the
Two Downlink Control Information are element number 1, then terminal can determine the position of transmission two frequency domain resources of uplink control signaling
The location information for being respectively as follows: a frequency domain resource is the starting PRB serial number x1 of frequency domain resource, and the size of frequency domain resource is m1
PRB;The location information of one frequency domain resource is the starting PRB serial number x2 of frequency domain resource, and the size of frequency domain resource is m2
PRB.Assuming that m1=m2=3, then the position of the two frequency domain resources can refer to Fig. 8, and details are not described herein.
Alternatively, illustrative, it is assumed that the first set in the first Downlink Control Information is the set 13 in step S902, the
Two Downlink Control Information are element number 1, then terminal can determine the position of transmission two frequency domain resources of uplink control signaling
The location information for being respectively as follows: a frequency domain resource is the starting PRB serial number x1 of frequency domain resource;The position letter of one frequency domain resource
Breath is the starting PRB serial number x2 of frequency domain resource.Assuming that determine each frequency domain resource size be 3 PRB, then the two frequency
The position of domain resource can refer to Fig. 8, and details are not described herein.
Alternatively, illustrative, it is assumed that the first set in the first Downlink Control Information is the set 14 in step S902, the
Two Downlink Control Information are element number 1, then terminal can determine the position of transmission two frequency domain resources of uplink control signaling
The size for being respectively as follows: frequency domain resource is m1 PRB, and the location information of a frequency domain resource is the starting PRB sequence of frequency domain resource
Number be x1;The location information of one frequency domain resource is the starting PRB serial number x2 of frequency domain resource.Assuming that m1=3, then the two frequencies
The position of domain resource can refer to Fig. 8, and details are not described herein.
S905, similar with step S704, difference is only that the number of step S704 frequency domain resource is T1, in step S905
The number of frequency domain resource is T2, specifically refers to embodiment shown in Fig. 7, details are not described herein.
It should be noted that can be base station independent for the second Downlink Control Information in the embodiment of the present application in step S903
It is sent to the terminal, the upstream control signaling in step S905 is that terminal can be individually sent to the base station, is carried out herein
It is described collectively, repeats no more below.The first Downlink Control Information in the embodiment of the present application step S902 can be base station can be with
It is individually sent to the base station, is also possible to what base station was sent to multiple terminals including the terminal, the embodiment of the present application
This is not construed as limiting.
Based on resource allocation method provided by the embodiments of the present application, due to including the position of a variety of frequency domain resources in first set
The combination of confidence breath, in the combination of the location information of a variety of frequency domain resources the combination of the location information of every kind of frequency domain resource include
The location information of at least two frequency domain resources, therefore, the position of the frequency domain resource by distributing to the terminal in instruction first set
Second Downlink Control Information of the combination of confidence breath can indicate the position letter for distributing to T2 frequency domain resource of the terminal simultaneously
Breath.Also, since the second Downlink Control Information may be an element number in set, with embodiment shown in Fig. 7
It compares, the embodiment of the present application more saves the signal resource of system.If than base station to terminal distribution frequency domain resource be Fig. 8 in
Frequency domain resource 1 and frequency domain resource 2, the location information of the two frequency domain resources can be by the set 11 in step S902
First element is characterized, therefore the second Downlink Control Information may be element number 1, it is only necessary to and 1 bit can indicate, and if
Directly indicate the location information of two frequency domain resources, then the control information in step S702 may be (x1, x2), and (x3, x4) is shown
More bit numbers can so be occupied.That is, the embodiment of the present application can be more in flexible configuration transmission uplink control signaling
While a frequency domain resource, the signal resource of system is saved.
Wherein, the movement of above-mentioned steps S901 terminal into S905 can processing in communication equipment 70 as shown in Figure 6
Device 701 calls the application code stored in memory 703 to instruct the terminal to execute, above-mentioned steps S901 base into S905
The movement stood can the processor 601 in access device 60 as shown in Figure 6 call the application program generation stored in memory 603
For code to instruct the base station to execute, the embodiment of the present application is not intended to be limited in any this.
It optionally, as shown in Figure 10, is another resource allocation method provided by the embodiments of the present application, the resource distribution side
Method is believed with base station distribution (M+N) a frequency domain resource to terminal, and by the position that Downlink Control Information carries M frequency domain resource
Breath, and indicate by Downlink Control Information to be illustrated for the location information of N number of frequency domain resource.Specifically, the resource is matched
The method of setting includes the following steps:
S1001, similar with step S701, difference is only that the number of step S701 frequency domain resource is T1, step S901
The number of frequency domain resource is (M+N), and M and N are positive integer, and (M+N) is the positive integer not less than 2, specifically refers to Fig. 7 institute
The embodiment shown, details are not described herein.
In addition, it should be noted that, the M and N in the embodiment of the present application are a to (M+N) of terminal distribution for distinguishing base station
The number of the frequency domain resource of different configuration modes, can be what base station was distributed according to preset rules, is also possible in frequency domain resource
What base station was randomly assigned, notice can also be determination after terminal and base station are negotiated to base station after can also be terminal determination,
The embodiment of the present application is not especially limited this.
S1002, base station send third Downlink Control Information to terminal.The third Downlink Control Information includes M frequency domain money
The location information in source.
Optionally, in the embodiment of the present application, third Downlink Control Information can be carried by dynamic signaling, for example, base station to
Terminal sends dynamic signaling.Wherein, which carries third Downlink Control Information.Associated description about dynamic signaling can
With reference to embodiment shown in Fig. 7, details are not described herein.
S1003, base station are sent to terminal to the 4th Downlink Control Information of transmission.4th Downlink Control Information includes (M+
N) position offset of the N1 frequency domain resource relative to (N1-1) a frequency domain resource in a frequency domain resource, wherein M+1≤N1
≤M+N。
Illustratively, if M=1, N=2, that is to say, that base station is used for transmission upstream control signaling to terminal distribution 3
Frequency domain resource, respectively frequency domain resource 1, frequency domain resource 2 and frequency domain resource 3, then third Downlink Control Information can carry frequency
The location information of domain resource 1, the 4th Downlink Control Information can carry positional shift of the frequency domain resource 2 relative to frequency domain resource 1
The position offset of amount and frequency domain resource 3 relative to frequency domain resource 2.
Optionally, in the embodiment of the present application, the 4th Downlink Control Information can be taken by high-level signaling or dynamic signaling
Band.For example, base station sends high-level signaling to terminal.Wherein, which carries the 4th Downlink Control Information.
Wherein, the associated description of high-level signaling can refer to embodiment shown in Fig. 8, and details are not described herein.
Optionally, in the embodiment of the present application, in order to reduce the interference between adjacent cell, position offset can be by minizone
Negotiate to determine;Alternatively, in another case, the position offset amount of bias can be a timeslot-level configuration parameter, when each
Gap separate configurations, the embodiment of the present application are not especially limited this.
S1004, terminal determine the position of M frequency domain resource according to third Downlink Control Information.
Illustratively, if M=1, the location information of corresponding frequency domain resource 1 is the starting PRB serial number x1 of frequency domain resource,
The end PRB serial number x2 of frequency domain resource can determine the position of frequency domain resource 1 such as then according to the third Downlink Control Information
Shown in (b) in (a) or Figure 11 in Figure 11.
S1005, terminal determine the position of N number of frequency domain resource according to third Downlink Control Information and the 4th Downlink Control Information
It sets.
Illustratively, it is assumed that third Downlink Control Information and the 4th Downlink Control Information such as the example institute in step S1003
Show, then according to third Downlink Control Information and the 4th Downlink Control Information, can determine the position of frequency domain resource 2 and frequency domain resource 3
It sets as shown in (b) in (a) or Figure 11 in Figure 11.
Assuming that x1=3, x2=5, position offset=1, then can determine x3=7, x4=9;X5=11, x6=13.
Wherein, (a) in Figure 11 is carried out so that M frequency domain resource and N number of frequency domain resource are in identical OFDM symbol as an example
Illustrate, is fitted in p-th of OFDM symbol specifically, frequency domain resource 1, frequency domain resource 2 and frequency domain resource 3 are divided equally;(b) in Figure 11
It is illustrated so that M frequency domain resource and N number of frequency domain resource are in identical OFDM symbol as an example, specifically, frequency domain resource 1 is distributed
In p-th of OFDM symbol, frequency domain resource 2 and the distribution of frequency domain resource 3 are in (p+1) a OFDM symbol, and the embodiment of the present application is not
Limit the position for the time-domain resource being used for transmission where the multiple frequency domain resources of uplink control signaling.
In addition, it should be noted that, (a) in Figure 11 is with (b) in Figure 11 with frequency domain resource 1, frequency domain resource 2 and frequency
The size of domain resource 3 is that 3 PRB are illustrated, and certainly, the size of frequency domain resource 1, frequency domain resource 2 and frequency domain resource 3 can also be with
For other values, the embodiment of the present application is not especially limited this.
S1006, similar with step S704, difference is only that the number of step S704 frequency domain resource is T1, step S1006
The number of frequency domain resource is (M+N), specifically refers to embodiment shown in Fig. 7, details are not described herein.
It should be noted that in third Downlink Control Information and step S1003 in the embodiment of the present application in step S1002
The 4th Downlink Control Information can be base station and be individually sent to the terminal, the upstream control signaling in step S1006 can be with
It is that terminal is individually sent to the base station, is described collectively, is repeated no more below herein.
Based on resource allocation method provided by the embodiments of the present application, since third Downlink Control Information includes M frequency domain money
The location information in source, the 4th Downlink Control Information is including the N1 frequency domain resource in (M+N) a frequency domain resource relative to (N1-
1) position offset of a frequency domain resource, therefore can be in the equal-sized of the transmission multiple frequency domain resources of uplink control signaling
In the case of, so that terminal is while determining the position of M frequency domain resource according to third Downlink Control Information, it can be according to M
The location information of a frequency domain resource and the position offset, while determining the position of other N number of frequency domain resource.Also, due to
The signal resource for the system that position offset occupies is obviously smaller than the frequency domain resource that the location information of N number of frequency domain resource occupies, because
This embodiment of the present application can save the letter of system while flexible configuration transmission uplink control signaling multiple frequency domain resources
Enable resource.
Wherein, the movement of above-mentioned steps S1001 terminal into S1006 can place in communication equipment 70 as shown in Figure 6
Reason device 701 calls the application code stored in memory 703 to instruct the terminal to execute, above-mentioned steps S1001 to S1006
The movement of middle base station can the processor 601 in access device 60 as shown in Figure 6 call the application journey stored in memory 603
For sequence code to instruct the base station to execute, the embodiment of the present application is not intended to be limited in any this.
It optionally, as shown in figure 12, is another resource allocation method provided by the embodiments of the present application, the resource distribution side
Method is believed with base station distribution (M+N) a frequency domain resource to terminal, and by the position that Downlink Control Information carries M frequency domain resource
Breath, and indicate by Downlink Control Information to be illustrated for the location information of N number of frequency domain resource.Specifically, the resource is matched
The method of setting includes the following steps:
S1201, with step S1001, specifically refer to embodiment shown in Fig. 10, details are not described herein.
S1202, with step S1002, specifically refer to embodiment shown in Fig. 10, details are not described herein.
S1203, base station send the 5th Downlink Control Information to terminal.5th Downlink Control Information include second set or
Person is used to generate the information of second set, includes the position offset of multiple frequency domain resources in the second set.
Illustratively, which can be a set of random numbers, for example, second set can be set 21:{ 3,
6,9 ... }.The information of the generation second set can be a random number seed, for example, can be by 123 as random several
Son is input in random number calculation formula and calculates set of random numbers.Wherein, the acquisition modes of set of random numbers can refer to existing
Implementation, it will not be described here.
Wherein, first element in above-mentioned set 21 characterizes in two adjacent frequency domain resources, the position of frequency domain resource
Offset is 3;Second element in above-mentioned set 21 characterizes in two adjacent frequency domain resources, the positional shift of frequency domain resource
Amount is 6;Third element in above-mentioned set 21 characterizes in two adjacent frequency domain resources, and the position offset of frequency domain resource is
9。
Optionally, in the embodiment of the present application, the 5th Downlink Control Information can be carried by high-level signaling.For example, base station
High-level signaling is sent to terminal.Wherein, which carries the 5th Downlink Control Information.
Wherein, the associated description of high-level signaling can refer to embodiment shown in Fig. 9, and details are not described herein.
It should be noted that there is no inevitable execution successively suitable between step S1201 and S1203 in the embodiment of the present application
Sequence can be and first carry out step S1201, then execute step S1203;It is also possible to first carry out step S1103, then executes step
S1101;It can also be that step S1201 and S1203 are performed simultaneously, the embodiment of the present application is not especially limited this.
S1204, base station send the 6th Downlink Control Information to terminal.6th Downlink Control Information is used to indicate the second collection
Position of the N1 frequency domain resource relative to the N1-1 frequency domain resource in (M+N) a frequency domain resource of the terminal is distributed in conjunction
Offset, wherein M+1≤N1≤M+N.
Illustratively, it is assumed that the N1 frequency domain resource that the terminal is distributed in set 21 is provided relative to the N1-1 frequency domain
The position offset in source is 3, then the 6th Downlink Control Information can be the corresponding element number 1 of the element, alternatively, under the 6th
Row control information can be the element 3.
Optionally, in the embodiment of the present application, the 6th Downlink Control Information can be carried by dynamic signaling.For example, base station
Dynamic signaling is sent to terminal.Wherein, which carries the 6th Downlink Control Information.
Wherein, the associated description of dynamic signaling can refer to embodiment shown in Fig. 7, and details are not described herein.
Optionally, in the embodiment of the present application, it is also possible to base station and terminal both sides has appointed above-mentioned second set,
At this point, base station is without carrying out above-mentioned steps S1203, but indicate to distribute to the terminal in second set by step S1204
(M+N) position offset of the N1 frequency domain resource relative to the N1-1 frequency domain resource, the application in a frequency domain resource
Embodiment is not especially limited this.
S1205, with step S1004, specifically refer to embodiment shown in Fig. 10, details are not described herein.
S1206, terminal are according to third Downlink Control Information, the 5th Downlink Control Information and the 6th Downlink Control Information, really
The position of fixed N number of frequency domain resource.
Optionally, if including the information for generating second set in the 5th Downlink Control Information, terminal needs basis
Mode in step S1203 generates second set, and then according to third Downlink Control Information and the 6th Downlink Control Information, determines
The position of N number of frequency domain resource.
Illustratively, it is assumed that M=1, the frequency domain resource 1 in corresponding diagram 11;N=2, the frequency of the 6th Downlink Control Information instruction
The position offset of domain resource is as shown in Figure 11, then frequency domain resource 2 and frequency domain resource 3 can be as shown in figure 11.
Wherein, the associated description of Figure 11 can refer to embodiment shown in Fig. 10, and details are not described herein.
S1207, with step S1006, specifically refer to embodiment shown in Fig. 10, details are not described herein.
It should be noted that in third Downlink Control Information and step S1204 in the embodiment of the present application in step S1202
The 6th Downlink Control Information can be base station and be individually sent to the terminal, the upstream control signaling in step S1207 can be with
It is that terminal is individually sent to the base station, is described collectively, is repeated no more below herein.The embodiment of the present application step S1203
In the 5th Downlink Control Information can be base station and be individually sent to the base station, be also possible to base station to including the terminal
Multiple terminals send, the embodiment of the present application is not construed as limiting this.
Based on resource allocation method provided by the embodiments of the present application, since third Downlink Control Information includes M frequency domain money
The location information in source, the 5th Downlink Control Information include second set or the information for generating second set, second collection
It include the position offset of multiple frequency domain resources in conjunction, the 6th Downlink Control Information, which is used to indicate in second set, distributes to the end
Position offset of the N1 frequency domain resource relative to the N1-1 frequency domain resource in (M+N) a frequency domain resource at end, therefore can
With transmit the multiple frequency domain resources of uplink control signaling it is equal in magnitude in the case where, terminal according to third downlink control believe
It, can be according to the location information of M frequency domain resource and according to the 5th downlink after breath determines the position of M frequency domain resource
The position offset that control information and the 6th Downlink Control Information determine determines the position of other N number of frequency domain resource.Also,
Since the 6th Downlink Control Information may be an element number in set, compared with embodiment shown in Fig. 10, this
Application embodiment more saves the signal resource of system.If being above-mentioned set 21:{ 3,6,9 ... than position offset } in
Third element corresponding 9, then element number 3 only needs 2 bits that can indicate, and if directly instruction 9, need 4 bits carry out
Instruction, it is clear that the embodiment of the present application more saves the signal resource of system.To sum up, the embodiment of the present application can be passed in flexible configuration
While defeated uplink control signaling multiple frequency domain resources, the signal resource of system is saved.
Wherein, the movement of above-mentioned steps S1201 terminal into S1207 can place in communication equipment 70 as shown in Figure 6
Reason device 701 calls the application code stored in memory 703 to instruct the terminal to execute, above-mentioned steps S1201 to S1207
The movement of middle base station can the processor 601 in access device 60 as shown in Figure 6 call the application journey stored in memory 603
For sequence code to instruct the base station to execute, the embodiment of the present application is not intended to be limited in any this.
It optionally, as shown in figure 13, is another resource allocation method provided by the embodiments of the present application, the resource distribution side
Method is believed with base station distribution (M+N) a frequency domain resource to terminal, and by the position that Downlink Control Information carries M frequency domain resource
Breath, and indicate by Downlink Control Information to be illustrated for the location information of N number of frequency domain resource.Specifically, the resource is matched
The method of setting includes the following steps:
S1301, with step S1001, specifically refer to embodiment shown in Fig. 10, details are not described herein.
S1302, with step S1002, specifically refer to embodiment shown in Fig. 10, details are not described herein.
S1303, base station send the 7th Downlink Control Information to terminal.7th Downlink Control Information include third set or
Person is used to generate the information of third set, includes the location information of multiple frequency domain resources in the third set.
Illustratively, which can be a set of random numbers, for example, third set can be set 31:
{ x1, x3, x5 ... }.The information of the generation third set can be a random number seed, for example, can by 123 as with
The several sons of machine, which are input in random number calculation formula, calculates set of random numbers.Wherein, the acquisition modes of set of random numbers can join
Existing implementation is examined, it will not be described here.
Wherein, the starting PRB serial number for the frequency domain resource that first element characterization element number in above-mentioned set 31 is 1
x1;It is the starting of frequency domain resource that second element characterization element number in above-mentioned set 31, which is the location information of 2 frequency domain resources,
PRB serial number x3, the third element characterization element number in above-mentioned set 31 are that the location information of 3 frequency domain resources is frequency domain money
The starting PRB serial number x5 in source, etc..
Optionally, in the embodiment of the present application, the 7th Downlink Control Information can be carried by high-level signaling.For example, base station
High-level signaling is sent to terminal.Wherein, which carries the 7th Downlink Control Information.
Wherein, the associated description of high-level signaling can refer to embodiment shown in Fig. 9, and details are not described herein.
It should be noted that there is no inevitable execution successively suitable between step S1301 and S1303 in the embodiment of the present application
Sequence can be and first carry out step S1301, then execute step S1303;It is also possible to first carry out step S1303, then executes step
S1301;It can also be that step S1301 and S1303 are performed simultaneously, the embodiment of the present application is not especially limited this.
S1304, base station send the 8th Downlink Control Information to terminal.8th Downlink Control Information is used to indicate third collection
The location information of N number of frequency domain resource of the terminal is distributed in conjunction.
Illustratively, it is assumed that N=2 gathers the starting PRB serial number difference for 2 frequency domain resources that the terminal is distributed in 31
For x3 and x5, then the 8th Downlink Control Information can be element number 2 and 3;Alternatively, the 8th Downlink Control Information can be element
X3 and x5.
Optionally, in the embodiment of the present application, the 8th Downlink Control Information can be carried by dynamic signaling.For example, base station
Dynamic signaling is sent to terminal.Correspondingly, terminal receives the dynamic signaling from base station.Wherein, which carries the 8th
Downlink Control Information.
Wherein, the associated description of dynamic signaling can refer to embodiment shown in Fig. 7, and details are not described herein.
Optionally, in the embodiment of the present application, the 8th Downlink Control Information can be one article of Downlink Control Information, be also possible to
N Downlink Control Information, i.e. base station can indicate to distribute to the N number of of the terminal in third set by a Downlink Control Information
The location information of frequency domain resource;N number of frequency that the terminal is distributed in third set can also be indicated by N Downlink Control Information
The location information of domain resource, every Downlink Control Information indicate the position that a frequency domain resource of the terminal is distributed in third set
Confidence breath, the embodiment of the present application are not especially limited this.
S1305, with step S1004, specifically refer to embodiment shown in Fig. 10, details are not described herein.
S1306, terminal determine the position of N number of frequency domain resource according to the 7th Downlink Control Information and the 8th Downlink Control Information
It sets.
Optionally, if including the information for generating third set in the 7th Downlink Control Information, terminal needs basis
Mode in step S1303 generates third set, and then according to the 8th Downlink Control Information, determines the position of N number of frequency domain resource.
Illustratively, it is assumed that M=1, the frequency domain resource 1 in corresponding diagram 11;N=2, the 8th Downlink Control Information such as step
Shown in example in S1304, then frequency domain resource 2 and frequency domain resource 3 can be as shown in figure 11.
Wherein, the associated description of Figure 11 can refer to embodiment shown in Fig. 10, and details are not described herein.
S1307, with step S1006, specifically refer to embodiment shown in Fig. 10, details are not described herein.
It should be noted that in third Downlink Control Information and step S1304 in the embodiment of the present application in step S1302
The 8th Downlink Control Information can be base station and be individually sent to the terminal, the upstream control signaling in step S1307 can be with
It is that terminal is individually sent to the base station, is described collectively, is repeated no more below herein.The embodiment of the present application step S1303
In the 7th Downlink Control Information can be base station and be individually sent to the base station, be also possible to base station to including the terminal
Multiple terminals send, the embodiment of the present application is not construed as limiting this.
Based on resource allocation method provided by the embodiments of the present application, since third Downlink Control Information includes M frequency domain money
The location information in source, the 7th Downlink Control Information include third set or the information for generating third set, the third collection
It include the location information of multiple frequency domain resources in conjunction, the 8th Downlink Control Information, which is used to indicate in third set, distributes to the terminal
N number of frequency domain resource location information, therefore terminal can determine the position of M frequency domain resource according to third Downlink Control Information
It sets, and, the position of other N number of frequency domain resource can be determined according to the 7th Downlink Control Information and the 8th Downlink Control Information
It sets.Since the 8th Downlink Control Information may be an element number in set, compared with embodiment shown in Fig. 7,
The embodiment of the present application more saves the signal resource of system.If frequency domain resource 2 and frequency domain resource than N=2, in corresponding diagram 11
3, then the 8th Downlink Control Information can be the element number 2 and 3 of set 31, and if directly carrying 31 frequency domain resources 2 of set
With the location information x3 and x5 of frequency domain resource 3, it is clear that more bit numbers can be occupied.That is, the embodiment of the present application can be with
While flexible configuration transmission uplink control signaling multiple frequency domain resources, the signal resource of system is saved.
Wherein, the movement of above-mentioned steps S1301 terminal into S1307 can place in communication equipment 70 as shown in Figure 6
Reason device 701 calls the application code stored in memory 703 to instruct the terminal to execute, above-mentioned steps S1301 to S1307
The movement of middle base station can the processor 601 in access device 60 as shown in Figure 6 call the application journey stored in memory 603
For sequence code to instruct the base station to execute, the embodiment of the present application is not intended to be limited in any this.
It optionally, as shown in figure 14, is another resource allocation method provided by the embodiments of the present application, the resource distribution side
Method distributes T3 frequency domain resource to terminal with base station, and sends the position of T3 frequency domain resource to terminal by Downlink Control Information
It is illustrated for information.Specifically, the resource allocation method includes the following steps:
S1401, similar with step S701, difference is only that the number of step S701 frequency domain resource is T1, step 1401
The number of frequency domain resource is T3, and T3 is the positive integer not less than 2, specifically refers to embodiment shown in Fig. 7, no longer superfluous herein
It states.
S1402, with step S1303, specifically refer to embodiment shown in Figure 13, details are not described herein.
S1403, base station send the 9th Downlink Control Information to terminal.9th Downlink Control Information is used to indicate third collection
The location information of T3 frequency domain resource of the terminal is distributed in conjunction.
Illustratively, it is assumed that T3=3 gathers the starting PRB serial number difference for 3 frequency domain resources that the terminal is distributed in 31
For x1, x3 and x5, then the 9th Downlink Control Information can be element number 1,2 and 3;Alternatively, the 9th Downlink Control Information can be with
It is element x 1, x3 and x5.
Optionally, in the embodiment of the present application, the 9th Downlink Control Information can be carried by dynamic signaling.For example, base station
Dynamic signaling is sent to terminal.Wherein, which carries the 9th Downlink Control Information.
Wherein, the associated description of dynamic signaling can refer to embodiment shown in Fig. 7, and details are not described herein.
Optionally, in the embodiment of the present application, the 9th Downlink Control Information can be one article of Downlink Control Information, be also possible to
T3 Downlink Control Information, i.e. base station can indicate the T3 that the terminal is distributed in third set by a Downlink Control Information
The location information of a frequency domain resource;The T3 that the terminal is distributed in third set can also be indicated by T3 Downlink Control Information
The location information of a frequency domain resource, every Downlink Control Information indicate the frequency domain resource that the terminal is distributed in third set
Location information, the embodiment of the present application is not especially limited this.
S1404, terminal determine the position of T3 frequency domain resource according to the 7th Downlink Control Information and the 9th Downlink Control Information
It sets.
Optionally, if including the information for generating third set in the 7th Downlink Control Information, terminal needs basis
Mode in step S1402 generates third set, and then according to the 9th Downlink Control Information, determines the position of T3 frequency domain resource
It sets.
Illustratively, it is assumed that the 9th Downlink Control Information is as shown in the example in step S1403, then frequency domain resource 1, frequency domain
Resource 2 and frequency domain resource 3 can be as shown in figure 11.
Wherein, the associated description of Figure 11 can refer to embodiment shown in Fig. 10, and details are not described herein.
S1405, similar with step S704, difference is only that the number of step S704 frequency domain resource is T1, step S1405
The number of frequency domain resource is T3, specifically refers to embodiment shown in Fig. 7, details are not described herein.
It should be noted that the 9th Downlink Control Information in the embodiment of the present application in step S1403 can be base station list
Solely be sent to the terminal, the upstream control signaling in step S1405 can be terminal and be individually sent to the base station, herein into
Row is described collectively, and repeats no more below.The 7th Downlink Control Information in the embodiment of the present application step S1402 can be base station list
It is solely sent to the base station, is also possible to what base station was sent to multiple terminals including the terminal, the embodiment of the present application pair
This is not construed as limiting.
Based on resource allocation method provided by the embodiments of the present application, due to the 7th Downlink Control Information include third set or
Person is used to generate the information of third set, includes the location information of multiple frequency domain resources, the control of the 9th downlink in the third set
Information is used to indicate the location information that T3 frequency domain resource of the terminal is distributed in third set, therefore terminal can be according to
Seven Downlink Control Information and the 9th Downlink Control Information determine the position of T3 frequency domain resource.Due to the 9th Downlink Control Information
It may be an element number in set, therefore, compared with embodiment shown in Fig. 7, the embodiment of the present application, which is more saved, is
The signal resource of system.If than frequency domain resource 1, frequency domain resource 2 and frequency that the frequency domain resource that terminal is distributed in base station is in Figure 11
Domain resource 3, then the 9th Downlink Control Information can be the element number 1,2 and 3 of set 31, and if directly carrying 31 intermediate frequencies of set
Location information x1, x3 and x5 of domain resource 1, frequency domain resource 2 and frequency domain resource 3, it is clear that more bit numbers can be occupied.Namely
It says, the embodiment of the present application can save system while flexible configuration transmission uplink control signaling multiple frequency domain resources
Signal resource.
Wherein, the movement of above-mentioned steps S1401 terminal into S1405 can place in communication equipment 70 as shown in Figure 6
Reason device 701 calls the application code stored in memory 703 to instruct the terminal to execute, above-mentioned steps S1401 to S1405
The movement of middle base station can the processor 601 in access device 60 as shown in Figure 6 call the application journey stored in memory 603
For sequence code to instruct the base station to execute, the embodiment of the present application is not intended to be limited in any this.
It optionally, as shown in figure 15, is another resource allocation method provided by the embodiments of the present application, the resource distribution side
Method is believed with base station distribution (M+N) a frequency domain resource to terminal, and by the position that Downlink Control Information carries M frequency domain resource
Breath, and indicate by Downlink Control Information to be illustrated for the location information of N number of frequency domain resource.Specifically, the resource is matched
The method of setting includes the following steps:
S1501, with step S1001, specifically refer to embodiment shown in Fig. 10, details are not described herein.
S1502, base station send third Downlink Control Information to terminal in target frequency domain resource.Third downlink control letter
Breath includes the location information of M frequency domain resource, wherein the location information of M frequency domain resource and the position of target frequency domain resource are believed
At least one of breath is used to indicate the position of N number of frequency domain resource;Alternatively, the location information and target frequency domain of M frequency domain resource
At least one of location information of resource is used to indicate in (M+N) a frequency domain resource the N1 frequency domain resource relative to N1-1
The position offset of a frequency domain resource, wherein M+1≤N1≤M+N.
Optionally, in the embodiment of the present application, the location information of target frequency domain resource be can specifically include: target frequency domain resource
First CCE label, the last one CCE label of target frequency domain resource, the initial position of target frequency domain resource and target frequency
At least one of the end position of domain resource.
S1503, with step S1004, specifically refer to embodiment shown in Fig. 10, details are not described herein.
S1504, terminal are according at least one in the location information of M frequency domain resource and the location information of target frequency domain resource
It is a, determine the position of N number of frequency domain resource.
Illustratively, it is assumed that M=1, corresponding frequency domain resource 1, N=1, corresponding frequency domain resource 2 provide several base station roots here
According at least one of the location information of frequency domain resource 1 and location information of target frequency domain resource, the position of frequency domain resource 2 is determined
Be implemented as follows:
Mode one: the initial position of frequency domain resource 2 is equal to the initial position of target frequency domain resource, such as shown in figure 16,
The starting PRB serial number x3 of frequency domain resource 2 is equal to of target frequency domain resource in 2 OFDM symbols of pth in 1 OFDM symbol of pth
Beginning PRB serial number x3, since target frequency domain resource is used for transmission downlink transfer, frequency domain resource 2 is used for uplink, therefore when two
When frequency domain resource is located in different OFDM symbols, allows part frequency domain resource to repeat, be described collectively herein, below no longer
It repeats.
Mode two, frequency domain resource 2 initial position be equal to the end position of target frequency domain resource, such as,
The PRB serial number x4+1 that terminates of frequency domain resource 2 is equal to target frequency domain resource in 2 OFDM symbols of pth in 1 OFDM symbol of pth
Originate PRB serial number x5.
Mode three, frequency domain resource 2 initial position by target frequency domain resource first CCE calculating get;Alternatively, frequency domain
The initial position of resource 2 by target frequency domain resource the last one CCE calculating get, such as CCE label modulo operation or its
Its operation etc., the embodiment of the present application is not especially limited this.
Mode four, frequency domain resource 2 are equal to the initial position of target frequency domain resource relative to the location bias amount of frequency domain resource 1
Difference between end position.In turn, according to the location information of frequency domain resource 1 and the position offset, frequency domain can be determined
The position of resource 2.
Mode five, frequency domain resource 2 relative to frequency domain resource 1 location bias amount by target frequency domain resource first CCE
Perhaps the last one CCE calculating gets such as CCE label modulo operation or other operations etc., the embodiment of the present application to this not
Make specific limit.In turn, according to the location information of frequency domain resource 1 and the position offset, the position of frequency domain resource 2 can be determined
It sets.
Mode six, frequency domain resource 2 initial position by the initial position of frequency domain resource 1 and first of target frequency domain resource
CCE or the last one CCE calculating is got.
Mode seven, frequency domain resource 2 initial position by the initial position of frequency domain resource 1 and target frequency domain resource
Beginning position and end position between difference calculate.
Of course, it is also possible to which the position of the N number of frequency domain resource of implicit instruction, the embodiment of the present application do not make this otherwise
It is specific to limit.
S1505, with step S1006, specifically refer to embodiment shown in Fig. 10, details are not described herein.
It should be noted that the third Downlink Control Information in the embodiment of the present application in step S1502 can be base station list
Solely be sent to the terminal, the upstream control signaling in step S1505 can be terminal and be individually sent to the base station, herein into
Row is described collectively, and repeats no more below.
It should be noted that the communication in the embodiment of the present application in step S1502 and step S1505 between base station and terminal
Belong to unicast communication, i.e., one-to-one communication between base station and terminal is described collectively herein, is repeated no more below.
Based on resource allocation method provided by the embodiments of the present application, since third Downlink Control Information includes M frequency domain money
The location information in source, and can be provided by the N number of frequency domain of target frequency domain resource implicit instruction of transmission third Downlink Control Information
The position in source does not need extra Downlink Control Information to indicate the position of N number of frequency domain resource, therefore the embodiment of the present application can be with
While flexible configuration transmission uplink control signaling multiple frequency domain resources, the signal resource of system is saved.
Wherein, the movement of above-mentioned steps S1501 terminal into S1505 can place in communication equipment 70 as shown in Figure 6
Reason device 701 calls the application code stored in memory 703 to instruct the terminal to execute, above-mentioned steps S1501 to S1505
The movement of middle base station can the processor 601 in access device 60 as shown in Figure 6 call the application journey stored in memory 603
For sequence code to instruct the base station to execute, the embodiment of the present application is not intended to be limited in any this.
It optionally, as shown in figure 18, is another resource allocation method provided by the embodiments of the present application, the resource distribution side
Method distributes M frequency domain resource to terminal with base station, and the location information of M frequency domain resource is carried by Downlink Control Information, by
Terminal is illustrated for determining the location information of N number of frequency domain resource according to the location information and target component of M frequency domain resource.
Specifically, the resource allocation method includes the following steps:
S1801, base station distribute M frequency domain resource to terminal.
Wherein, the step of M frequency domain resource of terminal distribution can refer to embodiment shown in Fig. 7 to the specific implementation of terminal
(M+N) a frequency domain resource is distributed to the specific implementation of terminal in base station in S701, and details are not described herein.
S1802, base station send Downlink Control Information to terminal.The Downlink Control Information includes the position of M frequency domain resource
Information.
Wherein, the step of associated description of Downlink Control Information can refer to embodiment shown in Fig. 10 in the embodiment of the present application
The associated description of third Downlink Control Information in S1002, details are not described herein.
S1803, terminal determine the position of M frequency domain resource according to Downlink Control Information.
Wherein, terminal determines that the specific implementation of the position of M frequency domain resource can refer to Figure 10 institute according to Downlink Control Information
Terminal determines the specific reality of the position of M frequency domain resource according to third Downlink Control Information in the step S1004 for the embodiment shown
Existing, details are not described herein.
S1804, terminal determine the position of N number of frequency domain resource, wherein target according to Downlink Control Information and target component
Parameter is base station and the parameter that terminal is mutually known, the M frequency domain resource and N number of frequency domain resource are ascending physical signal control channel occupancy
Frequency domain resource, which is used for transmission upstream control signaling, and M, N are positive integer, and M+N >=2;
It should be noted that in the embodiment of the present application, the parameter that base station and terminal are mutually known is specifically referred to, and base station and terminal are equal
The parameter known.The parameter can be base station and terminal consults;It is also possible to be sent to terminal after base station determines;May be used also
To be to be sent to base station after terminal determines, the embodiment of the present application is not especially limited this.
Optionally, in the embodiment of the present application, terminal determines N number of frequency domain resource according to Downlink Control Information and target component
Position, can specifically include: terminal determines the position of N number of frequency domain resource according to Downlink Control Information and first object parameter
Range;In turn, terminal determines the position of N number of frequency domain resource according to the position range and the second target component of N number of frequency domain resource.
Wherein, first object parameter for example can be in the number and minimum frequency domain interval of transmission uplink control signaling PRB at least
One.Second target component for example can be a cell level perhaps timeslot-level other parameter or the second target component example
It such as can be a random number sequence.The embodiment of the present application is not especially limited first object parameter and the second target component.
It is described as follows below by a specific example:
Illustratively, the position range of N number of frequency domain resource can be determined by following formula (3).
Wherein, P indicates the position range of N number of frequency domain resource;NPRBExpression can be used for transmitting uplink control signaling PRB's
Number;Y (k) indicates the number for the PRB that k-th of frequency domain resource in M frequency domain resource occupies;It indicates from y (1) to y
(M) it sums;Δ indicates minimum frequency domain interval, and M indicates the number of M frequency domain resource.
For example, as shown in figure 19, it is assumed that there is one section of starting PRB serial number x1, terminates the frequency domain resource of PRB serial number x6,
The frequency domain resource all can be used for transmitting upstream control signaling;And assume M=1, corresponding first frequency domain resource, the first frequency domain money
The starting PRB serial number x3 in source terminates PRB serial number (x4-1);N=1, corresponding second frequency domain resource, then can be obtained by formula (3)
The position range P1 of second frequency domain resource:
That is P1 is PRB serial number x1 to PRB serial number (x2-
1), and, PRB serial number x5 to PRB serial number x6, as shown in figure 19.
Alternatively, for example, as shown in figure 20, it is assumed that have one section of starting PRB serial number x1, terminate the frequency domain of PRB serial number x8
Resource has one section of starting PRB serial number x2 in the frequency domain resource, and the frequency domain resource for terminating PRB serial number (x3-1) is used for transmission
Detection reference signal (sounding reference signal, SRS), then, be used for transmission uplink control signaling frequency domain resource
Range be whole section of frequency domain resource range subtract the range for being used for transmission the frequency domain resource of SRS.And assume M=1, corresponding the
One frequency domain resource, the starting PRB serial number x5 of the first frequency domain resource terminate PRB serial number (x6-1);N=1, corresponding second frequency
Domain resource can then be obtained the position range P1 of the second frequency domain resource by formula (3):
That is P1 is PRB serial number x1 to PRB serial number (x2-
1), and, PRB serial number x3 to PRB serial number (x4-1), and, PRB serial number x7 to PRB serial number x8.As shown in figure 20.
That is, M frequency domain resource and N number of frequency domain resource can be in one section of continuous frequency domains in the embodiment of the present application
In resource, such as shown in figure 19;Alternatively, first frequency domain resource and (M+N) are a in SRS occupancy (M+N) a frequency domain resource
Frequency domain resource between frequency domain resource, for example as shown in figure 20, the embodiment of the present application is not especially limited this.Wherein, uplink
Control signaling and SRS are transmitted in the same OFDM symbol, and the symbol for reserving more complete frequency domain resources can be made to supply
Other transmission use, so as to improve the utilization rate of frequency domain resource.
Illustratively, the position of N number of frequency domain resource can be determined by following formula (4).
S=(ncell(nslot)) mod (P), formula (4)
Wherein, P indicates that the position range of N number of frequency domain resource, mod indicate remainder, ncell(nslot) be a cell level or
The timeslot-level other parameter of a person either random number sequence.
S1805, with step S1006, specifically refer to embodiment shown in Fig. 10, details are not described herein.
It is individually sent out it should be noted that the Downlink Control Information in the embodiment of the present application in step S1802 can be base station
The terminal is given, the upstream control signaling in step S1805 can be terminal and be individually sent to the base station, unite herein
One explanation, repeats no more below.
It should be noted that the communication in the embodiment of the present application in step S1802 and step S1805 between base station and terminal
Belong to unicast communication, i.e., one-to-one communication between base station and terminal is described collectively herein, is repeated no more below.
Based on resource allocation method provided by the embodiments of the present application, since terminal can be determined according to Downlink Control Information
The position of M frequency domain resource, and the position of N number of frequency domain resource can be determined according to Downlink Control Information and target component.Cause
This, which is based on this method, to transmit the multiple frequency domain resources of uplink control signaling with flexible configuration.
Wherein, the movement of above-mentioned steps S1801 terminal into S1805 can place in communication equipment 70 as shown in Figure 6
Reason device 701 calls the application code stored in memory 703 to instruct the terminal to execute, above-mentioned steps S1801 to S1805
The movement of middle base station can the processor 601 in access device 60 as shown in Figure 6 call the application journey stored in memory 603
For sequence code to instruct the base station to execute, the embodiment of the present application is not intended to be limited in any this.
It should be noted that in resource allocation method shown in Fig. 7 to Figure 18, if the instruction of M >=2, M frequency domain resources
The indicating means of any one (M+N) a frequency domain resource that method can also be provided with reference to the above embodiments of the present application, herein not
It repeats again.
Optionally, in the resource allocation method that the above embodiments of the present application provide, when upstream control signaling includes DMRS,
The DMRS sequence that can be in the continuous T PRB of frequency domain resource on each PRB is identical.For example the length of DMRS sequence is 4, such as
Shown in table five.That is, terminal uses a DMRS sequence on a PRB, then on the PRB adjacent with the PRB, terminal is adopted
It is transmitted with identical DMRS sequence.
Table five
Number/sequence number | Sequence |
0 | {+1 ,+1 ,+1 ,+1 } |
1 | {+1, -1 ,+1, -1 } |
2 | {+1, -1, -1 ,+1 } |
3 | {+1 ,+1, -1, -1 } |
Alternatively, it is optional, in the resource allocation method that the above embodiments of the present application provide, when upstream control signaling includes
When DMRS, the length for being also possible to each DMRS sequence on the continuous T PRB of frequency domain resource is 4T, that is to say, that all
PRB uses a DMRS sequence across multiple PRB.Corresponding DMRS sequence can be currently used Zad- in LTE system
Off Chu sequence, it will not be described here for the embodiment of the present application.
It is above-mentioned that mainly scheme provided by the embodiments of the present application is described from the angle of interaction between each network element.It can
With understanding, in order to realize the above functions, it comprises execute each corresponding hardware configuration of function for above-mentioned terminal and base station
And/or software module.Those skilled in the art should be readily appreciated that, described in conjunction with the examples disclosed in this document each
Exemplary unit and algorithm steps, the application can be realized with the combining form of hardware or hardware and computer software.Some
Function is executed in a manner of hardware or computer software driving hardware actually, depending on technical solution specific application and set
Count constraint condition.Professional technician can use different methods to achieve the described function each specific application,
But this realization is it is not considered that exceed scope of the present application.
For example, Figure 21 is shown in above-described embodiment in the case where to use the integrated each functional module of model split
The structural schematic diagram of related access device.The access device 210 includes: processing module 2101 and transceiver module 2102.
Wherein, (M+N) a frequency domain resource is somebody's turn to do for distributing (M+N) a frequency domain resource to communication equipment in processing module 2101
For the frequency domain resource that ascending physical signal control channel occupies, which is used for transmission upstream control signaling, wherein
M, N are positive integer, and M+N >=2;Transceiver module 2102, for sending Downlink Control Information, the downlink control to the communication equipment
Information processed includes the location information for being somebody's turn to do (M+N) a frequency domain resource;Alternatively, the Downlink Control Information is used to indicate (M+N) a frequency
The position of domain resource;Alternatively, the Downlink Control Information includes the location information of the M frequency domain resource, and, downlink control letter
Breath is also used to indicate the position of N number of frequency domain resource.
Alternatively, optional, processing module 2101, for distributing M frequency domain resource to communication equipment;Transceiver module 2102,
For sending Downlink Control Information to the communication equipment, which includes the location information of the M frequency domain resource,
In, the location information of the M frequency domain resource is used to determine the position of the M frequency domain resource;And the position of the M frequency domain resource
Confidence breath and target component are used to determine the position of N number of frequency domain resource, which is that the communication equipment and the access are set
The standby parameter mutually known, the M frequency domain resource and N number of frequency domain resource are the frequency domain resource that ascending physical signal control channel occupies, should
Ascending physical signal control channel is used for transmission upstream control signaling, M, and N is positive integer, and M+N >=2.
Wherein, all related contents for each step that above method embodiment is related to can quote corresponding function module
Function description, details are not described herein.
In the present embodiment, which is in the form of using the integrated each functional module of model split
It is existing.Here " module " can refer to application-specific integrated circuit (application-specific integrated
Circuit, ASIC), circuit, the processor and memory of the one or more softwares of execution or firmware program, integrated logic circuit,
And/or other can provide the device of above-mentioned function.In a simple embodiment, those skilled in the art is contemplated that
Access device 210 can be using form shown in access device 60 in Fig. 6.
For example, the processor 601 of access device 60 can be by calling the computer stored in memory 603 to hold in Fig. 6
Row instruction, so that access device 210 executes the resource allocation method in above method embodiment.
Specifically, function/realization process of transceiver module 2102 and processing module 2101 in Figure 21 can be by Fig. 6
The processor 601 of access device 60 calls the computer executed instructions stored in memory 603 to instruct access device 60 to realize.
Alternatively, the function of the processing module 2101 in Figure 21/realization process can be adjusted by the processor 601 of access device 60 in Fig. 6
It is realized with the computer executed instructions stored in memory 603, function/realization process of the transceiver module 2102 in Figure 21 can
It is realized with communication interface 604 by access device 60 in Fig. 6.
Since access device 210 provided by the embodiments of the present application can be used for executing above-mentioned resource allocation method, institute
Obtainable technical effect can refer to above method embodiment, and details are not described herein.
Alternatively, for example, Figure 22 shows above-mentioned implementation in the case where to use the integrated each functional module of model split
The structural schematic diagram of communication equipment involved in example.The communication equipment 220 includes: processing module 2201 and transceiver module
2202。
Wherein, transceiver module 2202, for receiving the Downlink Control Information from access device, the Downlink Control Information packet
Include the location information of (M+N) a frequency domain resource;Alternatively, the Downlink Control Information is used to indicate the position of (M+N) a frequency domain resource
It sets;Alternatively, the Downlink Control Information includes the location information of M frequency domain resource, and, which is also used to indicate
The position of N number of frequency domain resource, wherein M, N are positive integer, and M+N >=2.Processing module 2201, for being controlled according to the downlink
Information determines the position for being somebody's turn to do (M+N) a frequency domain resource.Transceiver module 2202 is also used to send upload control to the access device
Signaling, wherein the upstream control signaling transmits in (M+N) a frequency domain resource, and being somebody's turn to do (M+N) a frequency domain resource is ascending physical signal
The frequency domain resource that control channel occupies.
Alternatively, optional, transceiver module 2202, for receiving the Downlink Control Information from access device, the downlink control
Information processed includes the location information of M frequency domain resource.Processing module 2201, for according to the Downlink Control Information, determining the M
The position of frequency domain resource;And the communication equipment determines N number of frequency domain resource according to the Downlink Control Information and target component
Position, wherein the target component is the parameter that the communication equipment and the access device are mutually known, M, N are positive integer, and M+N >=
2.Transceiver module 2202 is also used to send upstream control signaling to the access device, wherein the upstream control signaling is in (the M+
N) a frequency domain resource transmission, being somebody's turn to do (M+N) a frequency domain resource is the frequency domain resource that ascending physical signal control channel occupies.
Wherein, all related contents for each step that above method embodiment is related to can quote corresponding function module
Function description, details are not described herein.
In the present embodiment, which is in the form of using the integrated each functional module of model split
It is existing.Here " module " can refer to that ASIC, circuit execute the processor and memory of one or more softwares or firmware program,
Integrated logic circuit and/or other device of above-mentioned function can be provided.In a simple embodiment, the skill of this field
Art personnel are contemplated that communication equipment 220 can be using form shown in communication equipment 70 in Fig. 7.
For example, the processor 701 of communication equipment 70 can be by calling the computer stored in memory 703 to hold in Fig. 7
Row instruction, so that communication equipment 220 executes the resource allocation method in above method embodiment.
Specifically, function/realization process of transceiver module 2202 and processing module 2201 in Figure 22 can be by Fig. 7
The processor 701 of communication equipment 70 calls the computer executed instructions stored in memory 703 with the realization of command communication equipment 70.
Alternatively, the function of the processing module 2201 in Figure 22/realization process can be adjusted by the processor 701 of communication equipment 70 in Fig. 7
It is realized with the computer executed instructions stored in memory 703, function/realization process of the transceiver module 2202 in Figure 22 can
It is realized with communication interface 704 by communication equipment 70 in Fig. 7.
Since communication equipment 220 provided by the embodiments of the present application can be used for executing above-mentioned resource allocation method, institute
Obtainable technical effect can refer to above method embodiment, and details are not described herein.
In above-described embodiment, access device 210 and communication equipment 220 are using the integrated each functional module of model split
Form present.Certainly, the embodiment of the present application can also correspond to each of each function division access device and communication equipment
Functional module, the embodiment of the present application are not especially limited this.
Optionally, the embodiment of the present application provides a kind of chip system, which includes processor, connects for supporting
Enter equipment and realizes that above-mentioned resource allocation method, such as distribution (M+N) a frequency domain resource are set to communication equipment, or opposite communication
After the Downlink Control Information that preparation is sent is encoded, the transceiver module which is sent in access device.?
In a kind of possible design, which further includes memory.The memory refers to for saving the necessary program of access device
Order and data.The chip system, can be made of chip, also may include chip and other discrete devices, the embodiment of the present application
This is not especially limited.
Optionally, the embodiment of the present application provides a kind of chip system, which includes processor, leads to for supporting
Letter equipment realizes above-mentioned resource allocation method, such as is decoded to the Downlink Control Information received;Alternatively, according to downlink
Information is controlled, determines that the position of (M+N) a frequency domain resource, or the upstream control signaling that opposite access device is sent are encoded
Afterwards, the transceiver module, etc. which being sent in communication equipment.In a kind of possible design, the chip
System further includes memory.The memory, for saving the necessary program instruction of communication equipment and data.The chip system, can
To be made of chip, chip and other discrete devices also may include, the embodiment of the present application is not especially limited this.
In the above-described embodiments, can come wholly or partly by software, hardware, firmware or any combination thereof real
It is existing.When being realized using software program, can entirely or partly realize in the form of a computer program product.The computer
Program product includes one or more computer instructions.On computers load and execute computer program instructions when, all or
It partly generates according to process or function described in the embodiment of the present application.The computer can be general purpose computer, dedicated meter
Calculation machine, computer network or other programmable devices.The computer instruction can store in computer readable storage medium
In, or from a computer readable storage medium to the transmission of another computer readable storage medium, for example, the computer
Instruction can pass through wired (such as coaxial cable, optical fiber, number from a web-site, computer, server or data center
Word user line (digital subscriber line, DSL)) or wireless (such as infrared, wireless, microwave etc.) mode to another
A web-site, computer, server or data center are transmitted.The computer readable storage medium can be computer
Any usable medium that can be accessed either includes the numbers such as one or more server, data centers that medium can be used to integrate
According to storage equipment.The usable medium can be magnetic medium (for example, floppy disk, hard disk, tape), optical medium (for example, DVD),
Or semiconductor medium (such as solid state hard disk (solid state disk, SSD)) etc..
Although the application is described in conjunction with each embodiment herein, however, implementing the application claimed
In the process, those skilled in the art are by checking the attached drawing, disclosure and the appended claims, it will be appreciated that and it is real
Other variations of the existing open embodiment.In the claims, " comprising " (comprising) word is not excluded for other compositions
Part or step, "a" or "an" are not excluded for multiple situations.Claim may be implemented in single processor or other units
In several functions enumerating.Mutually different has been recited in mutually different dependent certain measures, it is not intended that these are arranged
It applies to combine and generates good effect.
Although the application is described in conjunction with specific features and embodiment, it is clear that, do not departing from this Shen
In the case where spirit and scope please, it can be carry out various modifications and is combined.Correspondingly, the specification and drawings are only institute
The exemplary illustration for the application that attached claim is defined, and be considered as covered within the scope of the application any and all and repair
Change, change, combining or equivalent.Obviously, those skilled in the art the application can be carried out various modification and variations without
It is detached from spirit and scope.If in this way, these modifications and variations of the application belong to the claim of this application and its
Within the scope of equivalent technologies, then the application is also intended to include these modifications and variations.
Claims (43)
1. a kind of resource allocation method, which is characterized in that the described method includes:
Access device distributes (M+N) a frequency domain resource to communication equipment, and (M+N) a frequency domain resource is ascending physical signal control letter
The frequency domain resource that road occupies, the ascending physical signal control channel are used for transmission upstream control signaling, wherein and M, N are positive integer,
And M+N >=2;
The access device sends Downlink Control Information to the communication equipment, and the Downlink Control Information includes (M+N)
The location information of a frequency domain resource;Alternatively, the Downlink Control Information is used to indicate the position of described (M+N) a frequency domain resource;
Alternatively, the Downlink Control Information includes the location information of the M frequency domain resource, and, the Downlink Control Information is also used
In the position for indicating N number of frequency domain resource.
2. the method according to claim 1, wherein the access device sends downlink control to the communication equipment
Information processed, the Downlink Control Information are used to indicate the position of described (M+N) a frequency domain resource, comprising:
The access device sends the first Downlink Control Information to the communication equipment, and first Downlink Control Information includes the
One gathers, and includes the combination of the location information of a variety of frequency domain resources in the first set, wherein a variety of frequency domain resources
The combination of the location information of every kind of frequency domain resource includes the location information of at least two frequency domain resources in the combination of location information;
And the access device sends the second Downlink Control Information, second Downlink Control Information to the communication equipment
It is used to indicate the combination that the location information of frequency domain resource of the communication equipment is distributed in the first set, wherein described
Distribute to the position letter of (M+N) a frequency domain resource described in including in the combination of the location information of the frequency domain resource of the communication equipment
Breath.
3. the method according to claim 1, wherein the access device sends downlink control to the communication equipment
Information processed, the Downlink Control Information include the location information of the M frequency domain resource, and, the Downlink Control Information is also
It is used to indicate the position of N number of frequency domain resource, comprising:
The access device sends third Downlink Control Information to the communication equipment, and the third Downlink Control Information includes institute
State the location information of M frequency domain resource;
And the access device, to the 4th Downlink Control Information of communication equipment, the 4th Downlink Control Information includes
Position offset of the N1 frequency domain resource relative to (N1-1) a frequency domain resource in (M+N) a frequency domain resource, wherein
M+1≤N1≤M+N。
4. the method according to claim 1, wherein the access device sends downlink control to the communication equipment
Information processed, the Downlink Control Information include the location information of the M frequency domain resource, and, the Downlink Control Information is also
It is used to indicate the position of N number of frequency domain resource, comprising:
The access device sends third Downlink Control Information to the communication equipment, and the third Downlink Control Information includes institute
State the location information of M frequency domain resource;
And the access device sends the 5th Downlink Control Information, the 5th Downlink Control Information to the communication equipment
Information including second set or for generating the second set includes the position of multiple frequency domain resources in the second set
Set offset;
And the access device sends the 6th Downlink Control Information, the 6th Downlink Control Information to the communication equipment
It is used to indicate the N1 frequency domain resource in (M+N) a frequency domain resource for distribute in the second set communication equipment
Position offset relative to the N1-1 frequency domain resource, wherein M+1≤N1≤M+N.
5. the method according to claim 3 or 4, which is characterized in that the position offset is negotiated to determine by minizone;Or
Person, the position offset are a timeslot-level configuration parameter, each time slot separate configurations.
6. the method according to claim 1, wherein the access device sends downlink control to the communication equipment
Information processed, the Downlink Control Information include the location information of the M frequency domain resource, and, the Downlink Control Information is also
It is used to indicate the position of N number of frequency domain resource, comprising:
The access device sends third Downlink Control Information to the communication equipment, and the third Downlink Control Information includes institute
State the location information of M frequency domain resource;
And the access device sends the 7th Downlink Control Information, the 7th Downlink Control Information to the communication equipment
Information including third set or for generating the third set includes the position of multiple frequency domain resources in the third set
Confidence breath;
And the access device sends the 8th Downlink Control Information, the 8th Downlink Control Information to the communication equipment
It is used to indicate the location information that N number of frequency domain resource of the communication equipment is distributed in the third set.
7. the method according to claim 1, wherein the access device sends downlink control to the communication equipment
Information processed, the Downlink Control Information are used to indicate the position of described (M+N) a frequency domain resource, comprising:
The access device sends the 7th Downlink Control Information to the communication equipment, and the 7th Downlink Control Information includes the
Three set or the information for generating the third set include that the positions of multiple frequency domain resources is believed in the third set
Breath;
And the access device sends the 9th Downlink Control Information, the 9th Downlink Control Information to the communication equipment
It is used to indicate the position that (M+N) a frequency domain resource of the communication equipment is distributed in the third set.
8. the method according to claim 1, wherein the access device sends downlink control to the communication equipment
Information processed, the Downlink Control Information include the location information of the M frequency domain resource, and, the Downlink Control Information is also
It is used to indicate the position of N number of frequency domain resource, comprising:
The access device sends third Downlink Control Information to the communication equipment in target frequency domain resource, under the third
Row control information includes the location information of the M frequency domain resource, wherein the location information of the M frequency domain resource and described
At least one of the location information of target frequency domain resource is used to indicate the position of N number of frequency domain resource;Alternatively, the M
It is a that the location information of frequency domain resource and at least one of the location information of the target frequency domain resource are used to indicate (M+N)
Position offset of the N1 frequency domain resource relative to the N1-1 frequency domain resource in frequency domain resource, wherein M+1≤N1≤M+N.
9. according to the method described in claim 8, it is characterized in that, the location information of the target frequency domain resource, comprising:
First physical control channel Elements C CE label of the target frequency domain resource, the target frequency domain resource last
At least one of a CCE label, the initial position of the target frequency domain resource and end position of the target frequency domain resource.
10. a kind of resource allocation method, which is characterized in that the described method includes:
Communication equipment receives the Downlink Control Information from access device, and the Downlink Control Information includes (M+N) a frequency domain money
The location information in source;Alternatively, the Downlink Control Information is used to indicate the position of described (M+N) a frequency domain resource;Alternatively, described
Downlink Control Information includes the location information of M frequency domain resource, and, the Downlink Control Information is also used to indicate N number of frequency domain
The position of resource, wherein M, N are positive integer, and M+N >=2;
The communication equipment according to the Downlink Control Information, determine described in (M+N) a frequency domain resource position;
The communication equipment sends upstream control signaling to the access device, wherein the upstream control signaling is in (the M+
N it) is transmitted in a frequency domain resource, (M+N) a frequency domain resource is the frequency domain resource that ascending physical signal control channel occupies.
11. according to the method described in claim 10, it is characterized in that, the communication equipment receives the downlink from access device
Information is controlled, the Downlink Control Information is used to indicate the position of described (M+N) a frequency domain resource, comprising:
The communication equipment receives the first Downlink Control Information from the access device, the first Downlink Control Information packet
First set is included, includes the combination of the location information of a variety of frequency domain resources in the first set, wherein a variety of frequency domain moneys
The combination of the location information of every kind of frequency domain resource in the combination of the location information in source includes the position of at least two frequency domain resources
Information;
And the communication equipment receives the second Downlink Control Information from the access device, the second downlink control
Information is used to indicate the combination that the location information of frequency domain resource of the communication equipment is distributed in the first set, wherein
It include the position of described (M+N) a frequency domain resource in the combination of the location information of the frequency domain resource for distributing to the communication equipment
Confidence breath;
The communication equipment according to the Downlink Control Information, determine described in (M+N) a frequency domain resource position, comprising:
The communication equipment according to first Downlink Control Information and second Downlink Control Information, determine described in (M+N)
The position of a frequency domain resource.
12. according to the method described in claim 10, it is characterized in that, the communication equipment receives the downlink from access device
Information is controlled, the Downlink Control Information includes the location information of the M frequency domain resource, and, the Downlink Control Information
It is also used to indicate the position of N number of frequency domain resource, comprising:
The communication equipment receives the third Downlink Control Information from the access device, the third Downlink Control Information packet
Include the location information of the M frequency domain resource;
And the communication equipment receives the 4th Downlink Control Information from the access device, the 4th downlink control
Information includes positional shift of the N1 frequency domain resource relative to (N1-1) a frequency domain resource in described (M+N) a frequency domain resource
Amount, wherein M+1≤N1≤M+N;
The communication equipment according to the Downlink Control Information, determine described in (M+N) a frequency domain resource position, comprising:
The communication equipment determines the position of the M frequency domain resource according to the third Downlink Control Information;
And the communication equipment determines the N according to the third Downlink Control Information and the 4th Downlink Control Information
The position of a frequency domain resource.
13. according to the method described in claim 10, it is characterized in that, the communication equipment receives the downlink from access device
Information is controlled, the Downlink Control Information includes the location information of the M frequency domain resource, and, the Downlink Control Information
It is also used to indicate the position of N number of frequency domain resource, comprising:
The communication equipment receives the third Downlink Control Information from the access device, the third Downlink Control Information packet
Include the location information of the M frequency domain resource;
And the communication equipment receives the 5th Downlink Control Information from the access device, the 5th downlink control
Information includes second set or the information for generating the second set, includes multiple frequency domain resources in the second set
Position offset;
And the communication equipment receives the 6th Downlink Control Information from the access device, the 6th downlink control
Information is used to indicate the N1 frequency domain in (M+N) a frequency domain resource for distribute in the second set communication equipment
Position offset of the resource relative to the N1-1 frequency domain resource, wherein M+1≤N1≤M+N;
The communication equipment according to the Downlink Control Information, determine described in (M+N) a frequency domain resource position, comprising:
The communication equipment determines the position of the M frequency domain resource according to the third Downlink Control Information;
The communication equipment is according to the third Downlink Control Information, the 5th Downlink Control Information and the 6th downlink control
Information processed determines the position of N number of frequency domain resource.
14. method according to claim 12 or 13, which is characterized in that the position offset is negotiated true by minizone
It is fixed;Alternatively, the position offset is a timeslot-level configuration parameter, each time slot separate configurations.
15. according to the method described in claim 10, it is characterized in that, the communication equipment receives the downlink from access device
Information is controlled, the Downlink Control Information includes the location information of the M frequency domain resource, and, the Downlink Control Information
It is also used to indicate the position of N number of frequency domain resource, comprising:
The communication equipment receives the third Downlink Control Information from the access device, the third Downlink Control Information packet
Include the location information of the M frequency domain resource;
And the communication equipment receives the 7th Downlink Control Information from the access device, the 7th downlink control
Information includes third set or the information for generating the third set, includes multiple frequency domain resources in the third set
Location information;
And the communication equipment receives the 8th Downlink Control Information from the access device, the 8th downlink control
Information is used to indicate the location information that N number of frequency domain resource of the communication equipment is distributed in the second set;
The communication equipment according to the Downlink Control Information, determine described in (M+N) a frequency domain resource position, comprising:
The communication equipment determines the position of the M frequency domain resource according to the third Downlink Control Information;
The communication equipment determines N number of frequency according to the 7th Downlink Control Information and the 8th Downlink Control Information
The position of domain resource.
16. according to the method described in claim 10, it is characterized in that, the communication equipment receives the downlink from access device
Information is controlled, the Downlink Control Information is used to indicate the position of described (M+N) a frequency domain resource, comprising:
The communication equipment receives the 7th Downlink Control Information from the access device, the 7th Downlink Control Information packet
Third set or the information for generating the third set are included, includes the position of multiple frequency domain resources in the third set
Information;
And the communication equipment receives the 9th Downlink Control Information from the access device, the 9th downlink control
Information is used to indicate the position that (M+N) a frequency domain resource of the communication equipment is distributed in the third set;
The communication equipment according to the Downlink Control Information, determine described in (M+N) a frequency domain resource position, comprising:
The communication equipment according to the 7th Downlink Control Information and the 9th Downlink Control Information, determine described in (M+N)
The position of a frequency domain resource.
17. according to the method described in claim 10, it is characterized in that, the communication equipment receives the downlink from access device
Information is controlled, the Downlink Control Information includes the location information of the M frequency domain resource, and, the Downlink Control Information
It is also used to indicate the position of N number of frequency domain resource, comprising:
The communication equipment receives the third Downlink Control Information from the access device in target frequency domain resource, under described
Row control information includes the location information of the M frequency domain resource, wherein the location information of the M frequency domain resource and described
At least one of the location information of target frequency domain resource is used to indicate the position of N number of frequency domain resource;Alternatively, the M
It is a that the location information of frequency domain resource and at least one of the location information of the target frequency domain resource are used to indicate (M+N)
Position offset of the N1 frequency domain resource relative to the N1-1 frequency domain resource in frequency domain resource, wherein M+1≤N1≤M+N;
The communication equipment according to the Downlink Control Information, determine described in (M+N) a frequency domain resource position, comprising:
The communication equipment determines the position of the M frequency domain resource according to the third Downlink Control Information;
And the communication equipment is believed according to the location information of the M frequency domain resource and the position of the target frequency domain resource
At least one of breath, determines the position of N number of frequency domain resource.
18. according to the method for claim 17, which is characterized in that the location information of the target frequency domain resource, comprising:
First physical control channel Elements C CE label of the target frequency domain resource, the target frequency domain resource last
At least one of a CCE label, the initial position of the target frequency domain resource and end position of the target frequency domain resource.
19. the described in any item methods of 0-18 according to claim 1, which is characterized in that the ascending physical signal control channel includes
Long ascending physical signal control channel in short-term.
20. the described in any item methods of 0-19 according to claim 1, which is characterized in that the upstream control signaling includes uplink
Control information UCI;Alternatively, the upstream control signaling includes UCI and demodulated reference signal DMRS.
21. a kind of resource allocation method, which is characterized in that the described method includes:
Communication equipment receives the Downlink Control Information from access device, and the Downlink Control Information includes M frequency domain resource
Location information;
The communication equipment determines the position of the M frequency domain resource according to the Downlink Control Information;And the communication
Equipment determines the position of N number of frequency domain resource according to the Downlink Control Information and target component, wherein the target component is
The parameter that the communication equipment and the access device are mutually known, M, N are positive integer, and M+N >=2;
The communication equipment sends upstream control signaling to the access device, wherein the upstream control signaling is in (the M+
N) a frequency domain resource transmission, (M+N) a frequency domain resource are the frequency domain resource that ascending physical signal control channel occupies.
22. according to the method for claim 21, which is characterized in that the communication equipment according to the Downlink Control Information and
Target component determines the position of N number of frequency domain resource, comprising:
The communication equipment determines the position of N number of frequency domain resource according to the Downlink Control Information and first object parameter
Range;
The communication equipment determines N number of frequency domain money according to the position range and the second target component of N number of frequency domain resource
The position in source.
23. according to the method for claim 22, which is characterized in that the first object parameter includes transmission upload control letter
At least one of the number of the Physical Resource Block PRB of order and minimum frequency domain interval.
24. the method according to claim 22 or 23, which is characterized in that second target component is a cell level
Perhaps timeslot-level other parameter or second target component are a random number sequence.
25. according to the described in any item methods of claim 21-24, which is characterized in that the M frequency domain resource and described N number of
Frequency domain resource is in one section of continuous frequency domain resource;Alternatively, in (M+N) a frequency domain resource described in detection reference signal SRS occupancy
First frequency domain resource between frequency domain resource and (M+N) a frequency domain resource.
26. a kind of resource allocation method, which is characterized in that the described method includes:
Access device distributes M frequency domain resource to communication equipment;
The access device sends Downlink Control Information to the communication equipment, and the Downlink Control Information includes the M frequency
The location information of domain resource, wherein the location information of the M frequency domain resource is used to determine the position of the M frequency domain resource;
And the location information and target component of the M frequency domain resource are used to determine the position of N number of frequency domain resource, the target ginseng
Number is the parameter that the communication equipment and the access device are mutually known, the M frequency domain resource and N number of frequency domain resource are upper
The frequency domain resource that row physical control channel occupies, the ascending physical signal control channel are used for transmission upstream control signaling, M, and N is
Positive integer, and M+N >=2.
27. a kind of access device, which is characterized in that the access device includes processing module and transceiver module;
The processing module, for distributing (M+N) a frequency domain resource to communication equipment, (M+N) frequency domain resource is ascending
The frequency domain resource that control channel occupies is managed, the ascending physical signal control channel is used for transmission upstream control signaling, wherein M, N are equal
For positive integer, and M+N >=2;
The transceiver module, for sending Downlink Control Information to the communication equipment, the Downlink Control Information includes described
(M+N) location information of a frequency domain resource;Alternatively, the Downlink Control Information is used to indicate described (M+N) a frequency domain resource
Position;Alternatively, the Downlink Control Information includes the location information of the M frequency domain resource, and, the Downlink Control Information
It is also used to indicate the position of N number of frequency domain resource.
28. access device according to claim 27, which is characterized in that the transceiver module is specifically used for executing such as right
It is required that operation performed by access device described in 2-8 any one.
29. the access device according to claim 27 or 28, which is characterized in that the access device includes base station.
30. a kind of communication equipment, which is characterized in that the communication equipment includes: transceiver module and processing module;
The transceiver module, for receiving the Downlink Control Information from access device, the Downlink Control Information includes (M+N)
The location information of a frequency domain resource;Alternatively, the Downlink Control Information is used to indicate the position of described (M+N) a frequency domain resource;
Alternatively, the Downlink Control Information includes the location information of M frequency domain resource, and, the Downlink Control Information is also used to refer to
Show the position of N number of frequency domain resource, wherein M, N are positive integer, and M+N >=2;
The processing module, the position for (M+N) a frequency domain resource described according to the Downlink Control Information, determining;
The transceiver module is also used to send upstream control signaling to the access device, wherein the upstream control signaling exists
It is transmitted in (M+N) a frequency domain resource, (M+N) frequency domain resource is the frequency domain resource that ascending physical signal control channel occupies.
31. communication equipment according to claim 30, which is characterized in that the transceiver module is wanted specifically for perform claim
The first operation performed by communication equipment described in 11-20 any one is asked, first operation includes receiving to set from access
Standby Downlink Control Information;The processing module is specifically used for perform claim and requires communication equipment described in 11-20 any one
Performed second operation, second operation include according to the Downlink Control Information, determine described in (M+N) a frequency domain resource
Position.
32. the communication equipment according to claim 30 or 31, which is characterized in that the communication equipment includes terminal.
33. a kind of communication equipment, which is characterized in that the communication equipment includes: transceiver module and processing module;
The transceiver module, for receiving the Downlink Control Information from access device, the Downlink Control Information includes M frequency
The location information of domain resource;
The processing module, for determining the position of the M frequency domain resource according to the Downlink Control Information;And it is described
Communication equipment determines the position of N number of frequency domain resource according to the Downlink Control Information and target component, wherein the target ginseng
Number is the parameters mutually known of the communication equipment and the access device, and M, N are positive integer, and M+N >=2;
The transceiver module is also used to send upstream control signaling to the access device, wherein the upstream control signaling exists
(M+N) a frequency domain resource transmission, (M+N) frequency domain resource is the frequency domain resource that ascending physical signal control channel occupies.
34. communication equipment according to claim 33, which is characterized in that the transceiver module is wanted specifically for perform claim
Ask operation performed by communication equipment described in 22-25 any one.
35. the communication equipment according to claim 33 or 34, which is characterized in that the communication equipment includes terminal.
36. a kind of access device, which is characterized in that the access device includes processing module and transceiver module;
The processing module, for distributing M frequency domain resource to communication equipment;
The transceiver module, for sending Downlink Control Information to the communication equipment, the Downlink Control Information includes the M
The location information of a frequency domain resource, wherein the location information of the M frequency domain resource is for determining the M frequency domain resource
Position;And the location information and target component of the M frequency domain resource are used to determine the position of N number of frequency domain resource, the mesh
Mark parameter is the parameter that the communication equipment and the access device are mutually known, the M frequency domain resource and N number of frequency domain resource
For the frequency domain resource that ascending physical signal control channel occupies, the ascending physical signal control channel is used for transmission upstream control signaling, M, N
It is positive integer, and M+N >=2.
37. access device according to claim 36, which is characterized in that the access device includes base station.
38. a kind of communication equipment, which is characterized in that the communication equipment includes processor and memory;
The memory is for storing computer executed instructions, when communication equipment operation, described in the processor execution
The computer executed instructions of memory storage, so that the communication equipment is executed such as any one of claim 10-20
The resource allocation method;Alternatively, so that the communication equipment executes the money as described in any one of claim 21-25
Source configuration method.
39. a kind of access device, which is characterized in that the access device includes processor and memory;
The memory is for storing computer executed instructions, when access device operation, described in the processor execution
The computer executed instructions of memory storage, so that the access device is executed such as any one of claim 1-9 institute
The resource allocation method stated;Alternatively, so that the access device executes resource allocation method as claimed in claim 26.
40. a kind of chip, which is characterized in that the chip includes processor, for supporting access device to realize such as claim
Resource allocation method described in any one of 1-9;Alternatively, for supporting access device to realize money as claimed in claim 26
Source configuration method.
41. a kind of chip, which is characterized in that the chip includes processor, for supporting communication equipment to realize such as claim
Resource allocation method described in any one of 10-20;Alternatively, for supporting communication equipment to realize such as claim 10-20 institute
The resource allocation method stated.
42. a kind of computer readable storage medium, which is characterized in that including instruction, when run on a computer, so that institute
State resource allocation method of the computer execution as described in any one of claim 1-26.
43. a kind of communication system, which is characterized in that the communication system includes connecing as claim 27-29 is described in any item
Enter equipment and such as the described in any item communication equipments of claim 30-32;
Alternatively, the communication system includes such as the described in any item communication equipments of claim 33-35 and such as claim 36
Or access device described in 37;
Alternatively, the communication system includes communication equipment as claimed in claim 38 and connects as claimed in claim 39
Enter equipment.
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CN201710899050.1A CN109587788B (en) | 2017-09-28 | 2017-09-28 | Resource allocation method, equipment and system |
PCT/CN2018/087179 WO2019062148A1 (en) | 2017-09-28 | 2018-05-16 | Resource configuration method, device and system |
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CN106851744A (en) * | 2015-12-03 | 2017-06-13 | 华为技术有限公司 | The method and apparatus of radio communication |
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CN102082641B (en) * | 2010-02-11 | 2016-01-20 | 电信科学技术研究院 | The method of the many bit ACK/nack messages of a kind of transmission and device |
CN102316595B (en) * | 2011-09-30 | 2017-04-12 | 中兴通讯股份有限公司 | Resource determination method and device for physical uplink control channel (PUCCH) of large-band-width system |
CN105451155B (en) * | 2014-09-26 | 2020-10-27 | 中兴通讯股份有限公司 | Channel and signal transmission method, corresponding terminal and base station |
WO2016161629A1 (en) * | 2015-04-10 | 2016-10-13 | Mediatek Singapore Pte. Ltd. | Methods and apparatus for pucch resource allocation of mtc |
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Publication number | Priority date | Publication date | Assignee | Title |
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WO2016100133A1 (en) * | 2014-12-18 | 2016-06-23 | Qualcomm Incorporated | Techniques for identifying resources to transmit a channel reservation signal |
CN106851744A (en) * | 2015-12-03 | 2017-06-13 | 华为技术有限公司 | The method and apparatus of radio communication |
CN106301738A (en) * | 2016-06-28 | 2017-01-04 | 宇龙计算机通信科技(深圳)有限公司 | Communication means based on frame structure |
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