CN109391421A - Method, terminal device and the network equipment of transmitting uplink control information - Google Patents
Method, terminal device and the network equipment of transmitting uplink control information Download PDFInfo
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- CN109391421A CN109391421A CN201710686614.3A CN201710686614A CN109391421A CN 109391421 A CN109391421 A CN 109391421A CN 201710686614 A CN201710686614 A CN 201710686614A CN 109391421 A CN109391421 A CN 109391421A
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- 238000000034 method Methods 0.000 title claims abstract description 100
- 230000001174 ascending effect Effects 0.000 claims abstract description 12
- 238000011144 upstream manufacturing Methods 0.000 claims description 213
- 230000005540 biological transmission Effects 0.000 claims description 55
- 238000013475 authorization Methods 0.000 claims description 17
- 230000011664 signaling Effects 0.000 description 22
- 238000004891 communication Methods 0.000 description 19
- 238000010586 diagram Methods 0.000 description 12
- 230000000737 periodic effect Effects 0.000 description 10
- 125000002015 acyclic group Chemical group 0.000 description 8
- 238000012545 processing Methods 0.000 description 6
- 101000741965 Homo sapiens Inactive tyrosine-protein kinase PRAG1 Proteins 0.000 description 5
- 102100038659 Inactive tyrosine-protein kinase PRAG1 Human genes 0.000 description 5
- 101100465000 Mus musculus Prag1 gene Proteins 0.000 description 5
- 230000000694 effects Effects 0.000 description 5
- 230000006870 function Effects 0.000 description 5
- 238000010168 coupling process Methods 0.000 description 3
- 238000005859 coupling reaction Methods 0.000 description 3
- 230000008878 coupling Effects 0.000 description 2
- 230000000977 initiatory effect Effects 0.000 description 2
- 238000004364 calculation method Methods 0.000 description 1
- 230000001413 cellular effect Effects 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000010295 mobile communication Methods 0.000 description 1
- 238000005192 partition Methods 0.000 description 1
- 230000003252 repetitive effect Effects 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
Classifications
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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
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/12—Wireless traffic scheduling
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W74/00—Wireless channel access
- H04W74/002—Transmission of channel access control information
- H04W74/006—Transmission of channel access control information in the downlink, i.e. towards the terminal
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- Engineering & Computer Science (AREA)
- Signal Processing (AREA)
- Computer Networks & Wireless Communication (AREA)
- Mobile Radio Communication Systems (AREA)
Abstract
This application provides the method for transmitting uplink control information, terminal device and the network equipments.This method comprises: terminal device determines destination channel from multiple channels, the multiple channel includes exempting to authorize Physical Uplink Shared Channel GF-PUSCH and authorizing Physical Uplink Shared Channel GB-PUSCH;Terminal device sends the ascending control information UCI to the network equipment by the destination channel.The application can be improved the flexibility of transmitting uplink control information.
Description
Technical field
This application involves the communications fields, and set more particularly, to a kind of method of transmitting uplink control information, terminal
The standby and network equipment.
Background technique
During terminal device and network device communications, wireless resource management and tune are carried out for the ease of the network equipment
Spend decision, terminal device can to the network equipment send ascending control information (Uplink control information,
UCI)。
In existing LTE system, terminal device is by authorizing (Grant Based, GB) running time-frequency resource to the network equipment
UCI is sent, for example, when terminal device is determined in authorization physical uplink data channel (Grant Based-Physical Uplink
Shared Channel, GB-PUSCH) send upstream data when, terminal device by GB-PUSCH to the network equipment send UCI.
But above-mentioned this rely on authorizes running time-frequency resource to lack flexibility to the mode of network equipment transmission UCI, therefore,
It is a problem to be solved that UCI how could be transmitted for greater flexibility.
Summary of the invention
The application provides a kind of method and apparatus of transmitting uplink control information, to improve the spirit of transmitting uplink control information
Activity.
In a first aspect, provide a kind of method of transmitting uplink control information, this method comprises: terminal device is from multiple letters
Destination channel is determined in road, the multiple channel includes exempting to authorize Physical Uplink Shared Channel GF-PUSCH and authorizing physical uplink
Shared channel GB-PUSCH;Terminal device sends ascending control information UCI to the network equipment by the destination channel.
In the application, terminal device can be in the case where being configured with GF-PUSCH and GF-PUSCH, from multiple channels
Flexible choice destination channel sends UCI, and is only capable of in the scheme of the prior art sending UCI's by GB-PUSCH and PUCCH
Mode is compared, and can select the resource of transmission UCI for greater flexibility.
It should be understood that in above-mentioned multiple channels other than comprising GB-PUSCH and GF-PUSCH, it can also be comprising physically
Row control channel (Physical Uplink Control Channel, PUCCH), that is to say, that terminal device is in addition to that can select
Except data channel is selected as destination channel, it is also an option that control channel is as destination channel.
With reference to first aspect, in certain implementations of first aspect, the method also includes: the terminal device connects
Receive the first instruction information that the network equipment is sent, the first instruction information is used to indicate the terminal device from described more
The GF-PUSCH or the GB-PUSCH are preferentially chosen in a channel as the destination channel;The terminal device is from more
Destination channel is determined in a channel, comprising: the terminal device is selected from the multiple channel according to the first instruction information
Take the GF-PUSCH or the GB-PUSCH as the destination channel.
Above-mentioned first instruction information can be carried on the RRC signaling or downlink control that the network equipment is sent to terminal device
It, therefore, can be by increasing by one in RRC signaling and DCI in information (Downlink Control Information, DCI)
A new field indicates the first instruction information.
Terminal device, can be according to the first instruction information spirit after the first instruction information of the transmission for receiving the network equipment
Ground living selection target channel.
With reference to first aspect, in certain implementations of first aspect, the first instruction information is specifically used for instruction
The terminal device preferentially chooses the GF-PUSCH as the destination channel, the terminal device from the multiple channel
It is chosen from the multiple channel described in the GF-PUSCH or GB-PUSCH conduct according to the first instruction information
Destination channel, comprising: the terminal device determines whether to send upstream data in the GF-PUSCH;If in the GF-PUSCH
Upstream data is sent, the terminal device chooses the GF-PUSCH as the destination channel.
With reference to first aspect, in certain implementations of first aspect, the terminal device is according to first instruction
Information chooses the GF-PUSCH or the GB-PUSCH as the destination channel from the multiple channel, comprising: if
Upstream data is not sent in the GF-PUSCH, the terminal device determines whether to send upstream data in the GB-PUSCH;
If sending upstream data in the GB-PUSCH, the terminal device chooses the GB-PUSCH as the destination channel.
With reference to first aspect, in certain implementations of first aspect, the first instruction information is specifically used for instruction
The terminal device preferentially chooses the GB-PUSCH as the destination channel, the terminal device from the multiple channel
It is chosen from the multiple channel described in the GF-PUSCH or GB-PUSCH conduct according to the first instruction information
Destination channel, comprising: the terminal device determines whether to send upstream data in the GB-PUSCH;If in the GB-PUSCH
Upstream data is sent, the terminal device chooses the GB-PUSCH as the destination channel.
With reference to first aspect, in certain implementations of first aspect, the terminal device is according to first instruction
Information chooses the GF-PUSCH or the GB-PUSCH as the destination channel from the multiple channel, comprising: if
Upstream data is not sent in the GB-PUSCH, the terminal device determines whether to send upstream data in the GF-PUSCH;
If sending upstream data in the GF-PUSCH, the terminal device chooses the GF-PUSCH as the destination channel.
With reference to first aspect, in certain implementations of first aspect, the first instruction information is used to indicate described
Terminal device preferentially chooses the GF-PUSCH as the destination channel from the multiple channel, the terminal device according to
The first instruction information chooses the GF-PUSCH or the GB-PUSCH as the target from the multiple channel
Channel, comprising: the terminal device chooses the GF-PUSCH as the destination channel.
With reference to first aspect, in certain implementations of first aspect, the first instruction information is used to indicate described
Terminal device preferentially chooses the GB-PUSCH as the destination channel from the multiple channel, the terminal device according to
The first instruction information chooses the GF-PUSCH or the GB-PUSCH as the target from the multiple channel
Channel, comprising: the terminal device chooses the GB-PUSCH as the destination channel.
With reference to first aspect, in certain implementations of first aspect, terminal device determines target from multiple channels
Channel, comprising: the terminal device chooses the GF-PUSCH or the GB-PUSCH conduct according to the type of the UCI
The destination channel.
Terminal device can select to can be improved transmission with the data channel of the type matching of UCI according to the type of UCI
The effect of UCI.
With reference to first aspect, in certain implementations of first aspect, the terminal device is determined from multiple channels
Destination channel, comprising: in the case where the type of the UCI belongs to the first kind, the terminal device chooses the GF-
PUSCH is as the destination channel;In the case where the type of the UCI belongs to Second Type, the terminal device chooses institute
GB-PUSCH is stated as the destination channel;Wherein, the first kind is different with the Second Type.
With reference to first aspect, in certain implementations of first aspect, the terminal device is determined from multiple channels
Destination channel, comprising: in the case where the type of the UCI belongs to the first kind, the terminal device determines whether described
GF-PUSCH sends upstream data;If sending upstream data in the GF-PUSCH, the terminal device chooses the GF-
PUSCH is as the destination channel.
With reference to first aspect, in certain implementations of first aspect, the terminal device is determined from multiple channels
Destination channel, further includes: in the case where the type of the UCI belongs to Second Type, the terminal device determines whether in institute
It states GB-PUSCH and sends upstream data;If sending upstream data in the GB-PUSCH, the terminal device chooses the GB-
PUSCH is as the destination channel;Wherein, the first kind is different with the Second Type.
With reference to first aspect, in certain implementations of first aspect, the UCI of the first kind includes needing the period
Property the UCI that sends, the UCI of the Second Type includes the UCI without periodicity sending.
With reference to first aspect, in certain implementations of first aspect, the UCI of the first kind includes periodic
Channel state information (Channel State Information, CSI), the UCI of the Second Type includes acyclic
CSI, informing receive (Acknowledge, ACK), informing does not receive in (Non-Acknowledge, NACK) information at least
It is a kind of.
With reference to first aspect, in certain implementations of first aspect, the terminal equipment configuration has multiple GF-
PUSCH receives the second indication information that the network equipment is sent the method also includes: the terminal device, and described second
Instruction information, which is used to indicate in the multiple GF-PUSCH, can be used for the terminal device to the network equipment transmission UCI
Target GF-PUSCH.
Above-mentioned second indication information can be carried on the network equipment into the RRC signaling or DCI that terminal device is sent, because
This, can indicate second indication information by increasing a new field in RRC signaling and DCI.
Second aspect provides a kind of method of transmitting uplink control information, this method comprises: the network equipment is from multiple letters
Destination channel is determined in road, the multiple channel includes exempting to authorize Physical Uplink Shared Channel GF-PUSCH and authorizing physical uplink
Shared channel GB-PUSCH;The ascending control information UCI that the network equipment is sent from the destination channel receiving terminal apparatus.
In the application, the network equipment can be in the case where being configured with GF-PUSCH and GF-PUSCH, from multiple channels
Flexible choice destination channel sends UCI, and is only capable of in the scheme of the prior art sending UCI's by GB-PUSCH and PUCCH
Mode is compared, and can select the resource of transmission UCI for greater flexibility.
It should be understood that in above-mentioned multiple channels other than comprising GB-PUSCH and GF-PUSCH, it can be with PUCCH, also
It is to say, terminal device is other than it can choose data channel as destination channel, it is also an option that control channel is as target
Channel.
In conjunction with second aspect, in certain implementations of second aspect, in the network equipment from the destination channel
Before the UCI that receiving terminal apparatus is sent, the method also includes: the network equipment sends first to the terminal device and refers to
Show that information, the first instruction information are used to indicate the terminal device and preferentially choose the GF- from the multiple channel
PUSCH or the GB-PUSCH are as the destination channel.
Above-mentioned first instruction information can be carried on the network equipment into the RRC signaling or DCI that terminal device is sent, because
This, can indicate the first instruction information by increasing a new field in RRC signaling and DCI.
In conjunction with second aspect, in certain implementations of second aspect, the first instruction information is specifically used for instruction
The terminal device preferentially chooses the GF-PUSCH as the destination channel, the network equipment from the multiple channel
Destination channel is determined from multiple channels, comprising: the network equipment determines whether upstream data on the GF-PUSCH
Transmission;If there is upstream data to transmit on the GF-PUSCH, the network equipment chooses the GF-PUSCH as the mesh
Mark channel.
In conjunction with second aspect, in certain implementations of second aspect, the first instruction information is specifically used for instruction
The terminal device preferentially chooses the GF-PUSCH as the destination channel, the network equipment from the multiple channel
Destination channel is determined from multiple channels, comprising: if transmitting on the GF-PUSCH without upstream data, the network equipment
Determine whether that upstream data transmits on the GB-PUSCH;It is described if there is upstream data to transmit on the GB-PUSCH
The network equipment chooses the GB-PUSCH as the destination channel.
In conjunction with second aspect, in certain implementations of second aspect, the first instruction information is specifically used for instruction
The terminal device preferentially chooses the GB-PUSCH as the destination channel, the network equipment from the multiple channel
Destination channel is determined from multiple channels, comprising: the network equipment determines whether upstream data on the GB-PUSCH
Transmission;If there is upstream data to transmit on the GB-PUSCH, the network equipment chooses the GB-PUSCH as the mesh
Mark channel.
In conjunction with second aspect, in certain implementations of second aspect, the network equipment is determined from multiple channels
Destination channel, comprising: if transmitting on the GB-PUSCH without upstream data, the network equipment determines whether line number
It is transmitted according on the GF-PUSCH;If there is upstream data to transmit on the GF-PUSCH, described in the network equipment selection
GF-PUSCH is as the destination channel.
In conjunction with second aspect, in certain implementations of second aspect, the first instruction information is used to indicate described
Terminal device preferentially chooses the GF-PUSCH as the destination channel from the multiple channel, and the network equipment is from more
Destination channel is determined in a channel, comprising: the network equipment chooses the GF-PUSCH as the destination channel.
In conjunction with second aspect, in certain implementations of second aspect, the first instruction information is used to indicate described
Terminal device preferentially chooses the GB-PUSCH as the destination channel from the multiple channel, and the network equipment is from more
Destination channel is determined in a channel, comprising: the network equipment chooses the GB-PUSCH as the destination channel.
In conjunction with second aspect, in certain implementations of second aspect, the network equipment is determined from multiple channels
Destination channel, comprising: the network equipment chooses the GF-PUSCH or GB-PUSCH according to the type of the UCI
As the destination channel.
The network equipment can select to can be improved transmission with the data channel of the type matching of UCI according to the type of UCI
The effect of UCI.
In conjunction with second aspect, in certain implementations of second aspect, the network equipment is determined from multiple channels
Destination channel, comprising: in the case where the type of the UCI belongs to the first kind, the network equipment chooses the GF-
PUSCH is as the destination channel;In the case where the type of the UCI belongs to Second Type, the network equipment chooses institute
GB-PUSCH is stated as the destination channel;Wherein, the first kind is different with the Second Type.
In conjunction with second aspect, in certain implementations of second aspect, the network equipment is determined from multiple channels
Destination channel, comprising: in the case where the type of the UCI belongs to the first kind, the network equipment determines whether uplink
Data are transmitted on the GF-PUSCH;If there is upstream data to transmit on the GF-PUSCH, the network equipment chooses institute
GF-PUSCH is stated as the destination channel.
In conjunction with second aspect, in certain implementations of second aspect, the network equipment is determined from multiple channels
Destination channel further include: in the case where the type of the UCI belongs to Second Type, the network equipment determines whether uplink
Data are transmitted on the GB-PUSCH;If there is upstream data to transmit on the GB-PUSCH, the network equipment chooses institute
GB-PUSCH is stated as the destination channel;Wherein, the first kind is different with the Second Type
In conjunction with second aspect, in certain implementations of second aspect, the UCI of the first kind includes needing the period
Property send UCI, the UCI of the Second Type includes the UCI for not needing periodicity sending.
In conjunction with second aspect, in certain implementations of second aspect, the UCI of the first kind includes periodic
CSI, the UCI of the Second Type include at least one of acyclic CSI, ACK, nack message.
In conjunction with second aspect, in certain implementations of second aspect, the terminal equipment configuration has multiple GF-
PUSCH, the method also includes: the network equipment sends second indication information, second instruction to the terminal device
Information, which is used to indicate, can be used for the mesh that the terminal device sends the UCI to the network equipment in the multiple GF-PUSCH
Mark GF-PUSCH.
Above-mentioned second indication information can be carried on the network equipment into the RRC signaling or DCI that terminal device is sent, because
This, can indicate second indication information by increasing a new field in RRC signaling and DCI.
The third aspect, provides a kind of terminal device, the terminal device include for execute the first aspect or
The module of method in any possible implementation of first aspect.
Fourth aspect, provides a kind of network equipment, the network equipment include for execute the second aspect or
The module of method in any possible implementation of second aspect.
5th aspect provides a kind of terminal device, including memory, transceiver and processor, and the memory is for depositing
Program is stored up, the processor is for executing program, and when described program is performed, the processor and the transceiver execute institute
State the method in any possible implementation of first aspect or first aspect.
6th aspect provides a kind of network equipment, including memory, transceiver and processor, and the memory is for depositing
Program is stored up, the processor is for executing program, and when described program is performed, the processor and the transceiver execute institute
State the method in any possible implementation of second aspect or second aspect.
7th aspect, provides a kind of terminal device, and the terminal device includes storage medium and central processing unit, described to deposit
Storage media can be non-volatile memory medium, and computer executable program, the centre are stored in the storage medium
Reason device connect with the non-volatile memory medium, and execute the computer executable program with realize the first aspect or
Method in any possible implementation of person's first aspect.
Eighth aspect, provides a kind of network equipment, and the network equipment includes storage medium and central processing unit, described to deposit
Storage media can be non-volatile memory medium, and computer executable program, the centre are stored in the storage medium
Reason device connect with the non-volatile memory medium, and execute the computer executable program with realize the second aspect or
Method in any possible implementation of person's second aspect.
9th aspect, provides a kind of chip, and the chip includes processor and communication interface, the communication interface be used for
External devices are communicated, and the processor is used to execute in any possible implementation of first aspect or first aspect
Method.
Optionally, as a kind of implementation, the chip can also include memory, be stored with finger in the memory
It enables, the processor is for executing the instruction stored on the memory, and when executed, the processor is used for
Execute the method in any possible implementation of first aspect or first aspect.
Optionally, as a kind of implementation, the integrated chip is on the terminal device.
Tenth aspect, provides a kind of chip, and the chip includes processor and communication interface, the communication interface be used for
External devices are communicated, and the processor is used to execute in any possible implementation of second aspect or second aspect
Method.
Optionally, as a kind of implementation, the chip can also include memory, be stored with finger in the memory
It enables, the processor is for executing the instruction stored on the memory, and when executed, the processor is used for
Execute the method in any possible implementation of second aspect or second aspect.
Optionally, as a kind of implementation, the integrated chip is on network devices.
Tenth on the one hand, provides a kind of computer readable storage medium, and the computer-readable medium storage is used for equipment
The program code of execution, said program code include any possible realization side for executing first aspect or first aspect
The instruction of method in formula.
12nd aspect, provides a kind of computer readable storage medium, and the computer-readable medium storage is used for equipment
The program code of execution, said program code include any possible realization side for executing second aspect or second aspect
The instruction of method in formula.
Detailed description of the invention
Fig. 1 is a kind of schematic diagram of possible application scenarios of the embodiment of the present application.
Fig. 2 is the schematic flow chart of the method for the transmitting uplink control information of the embodiment of the present application.
Fig. 3 is the schematic figure of the method for the transmitting uplink control information of the embodiment of the present application.
Fig. 4 is the schematic figure of the method for the transmitting uplink control information of the embodiment of the present application.
Fig. 5 is the schematic figure of the method for the transmitting uplink control information of the embodiment of the present application.
Fig. 6 is the schematic figure of the method for the transmitting uplink control information of the embodiment of the present application.
Fig. 7 is the schematic figure of the method for the transmitting uplink control information of the embodiment of the present application.
Fig. 8 is the schematic figure of the method for the transmitting uplink control information of the embodiment of the present application.
Fig. 9 is the schematic diagram of GF-PUSCH data.
Figure 10 is the schematic diagram of GF-PUSCH data.
Figure 11 is the schematic flow chart of the method for the transmitting uplink control information of the embodiment of the present application.
Figure 12 is the schematic block diagram of the terminal device of the embodiment of the present application.
Figure 13 is the schematic block diagram of the network equipment of the embodiment of the present application.
Figure 14 is the schematic block diagram of the terminal device of the embodiment of the present application.
Figure 15 is the schematic block diagram of the network equipment of the embodiment of the present application.
Specific embodiment
Below in conjunction with attached drawing, the technical solution in the application is described.
The technical solution of the embodiment of the present application can be applied to plurality of communication systems, such as: the 5th following generation (5th
Generation, 5G) system, new wireless (New Radio, NR) system or the communication system with 5G system with same architecture
Deng.
Terminal device in the embodiment of the present application can refer to user equipment, access terminal, subscriber unit, subscriber station, movement
It stands, mobile station, remote station, remote terminal, mobile device, user terminal, terminal, wireless telecom equipment, user agent or user
Device.Terminal device can also be cellular phone, wireless phone, session initiation protocol (Session Initiation
Protocol, SIP) phone, wireless local loop (Wireless Local Loop, WLL) stand, personal digital assistant
(Personal Digital Assistant, PDA), the handheld device with wireless communication function calculate equipment or are connected to
Other processing equipments of radio modem, mobile unit, wearable device, terminal device in the following 5G network or not
Carry out the terminal device etc. in the Public Land Mobile Network network (Public Land Mobile Network, PLMN) of evolution,
The embodiment of the present application does not limit this.
The network equipment in the embodiment of the present application can be for the equipment with terminal equipment in communication, which can be with
It is global system for mobile telecommunications (Global System for Mobile communication, GSM) system or CDMA (Code
Division Multiple Access, CDMA) in base station (Base Transceiver Station, BTS), be also possible to
In wideband code division multiple access (Wideband Code Division Multiple Access, WCDMA) system base station (NodeB,
NB), can also be the evolved base station (Evolutional NodeB, eNB or eNodeB) in LTE system, can also be cloud without
Wireless controller or the network equipment under line access network (Cloud Radio Access Network, CRAN) scene
It can be relay station, access point, mobile unit, wearable device and the network equipment or the following evolution in future 5G network
PLMN network in the network equipment etc., the embodiment of the present application does not limit.
Fig. 1 is a kind of schematic diagram of possible application scenarios of the embodiment of the present application.Communication system shown in FIG. 1 includes net
Network equipment and terminal device, terminal device can transmit various UCI to the network equipment, in order to which base station can be carried out according to UCI
The management of radio resource and scheduling decision.It should be understood that illustrating only a terminal device and network equipment composition in Fig. 1
Communication system, in fact, the embodiment of the present application can also be applied to the communication system being made of multiple terminal devices and the network equipment
System, wherein each terminal device can according to need to the network equipment and transmit respective UCI.
In existing LTE system, terminal device is only configured with authorization running time-frequency resource, when terminal device needs to pass through authorization
Frequency resource sends UCI to the network equipment, that is to say, that terminal device can only use more single running time-frequency resource to the network equipment
Transmit UCI.Therefore, the embodiment of the present application proposes a kind of method of new transmitting uplink control information, in this application, terminal
Device configuration has authorization running time-frequency resource and exempts to authorize running time-frequency resource, and therefore, end equipment running time-frequency resource and can be exempted to authorize from authorization
Running time-frequency resource used in flexible choice transmission UCI in running time-frequency resource, to improve the flexibility of terminal device transmission UCI.
It is described in detail below with reference to method of the Fig. 2 to the transmitting uplink control information of the embodiment of the present application.
Fig. 2 is the schematic flow chart of the method for the transmitting uplink control information of the embodiment of the present application.The method of Fig. 2 can be with
It is executed by terminal device.The method 200 of Fig. 2 includes:
210, terminal device determines destination channel from multiple channels, wherein multiple channel includes exempting from authorization physically
Row shared channel (Grant Free Physical Uplink Shared Channel, GF-PUSCH) and GB-PUSCH.
Optionally, terminal device can arbitrarily select a channel to believe as target from GF-PUSCH and GB-PUSCH
Road.
Optionally, terminal device can also select destination channel from multiple channels according to the instruction of the network equipment.
Specifically, terminal device receives the first instruction information that the network equipment is sent, and terminal device is true from multiple channels
The channel that sets the goal includes: terminal device chooses GF-PUSCH or GB-PUSCH work according to the first instruction information from multiple channels
For destination channel.Wherein, first instruction information be used to indicate terminal device preferentially selected from multiple channels GF-PUSCH or
GB-PUSCH is as destination channel.
It should be understood that in above-mentioned multiple channels other than comprising GB-PUSCH and GF-PUSCH, it can also be comprising physically
Row control channel (Physical Uplink Control Channel, PUCCH), that is to say, that terminal device is in addition to that can select
Except data channel is selected as destination channel, it is also an option that control channel is as destination channel.
220, terminal device sends UCI to the network equipment by the destination channel.
In the application, terminal device can be in the case where being configured with GF-PUSCH and GF-PUSCH, from multiple channels
Flexible choice destination channel sends UCI, and is only capable of in the scheme of the prior art sending UCI's by GB-PUSCH and PUCCH
Mode is compared, and can select the resource of transmission UCI for greater flexibility.
It should be understood that above-mentioned first instruction information is that instruction terminal device selects GF-PUSCH or GB- from multiple channels
As destination channel, (that is the first instruction information instruction is terminal device from the GF-PUSCH in multiple channels to PUSCH
With selection target channel in GB-PUSCH), and further pointing out terminal device is preferential selection GF-PUSCH or preferential choosing
GB-PUSCH is selected (to be equivalent to as destination channel and indicate the priority of GB-PUSCH and GF-PUSCH).
Optionally, above-mentioned first instruction information can be carried on RRC signaling that the network equipment is sent to terminal device or
It, therefore, can be by RRC signaling and Downlink Control Information (downlink control information, DCI) in DCI
Middle increase by one new field indicates the first instruction information.
Above-mentioned first instruction information both preferentially can select GF-PUSCH as mesh using instruction terminal equipment from multiple channels
Mark channel (priority for being equivalent to GF-PUSCH is higher than GB-PUSCH), can also indicate that terminal device is preferential from multiple channels
Select GB-PUSCH as destination channel (priority for being equivalent to GB-PUSCH is higher than GF-PUSCH).Below with reference to one He of example
Embodiment two is respectively described in detail both of these case.
The priority of example one: GF-PUSCH is higher than GB-PUSCH
In example one, when the priority of GF-PUSCH is higher than GB-PUSCH, UCI and terminal are transmitted according to terminal device
Equipment transmits the relationship of upstream data, terminal device can be determined to the mode of destination channel is divided into two kinds from multiple channels.
When mode one: UCI is transmitted on a data channel, it is necessary to be transmitted together with upstream data
In mode one, terminal device will be selected according to whether the first instruction information and terminal device send upstream data
Select destination channel.
Specifically, terminal device is chosen GF-PUSCH or GB-PUSCH according to the first instruction information from multiple channels and is made
For destination channel, comprising: terminal device determines whether to send upstream data in GF-PUSCH;If the line number in GF-PUSCH transmission
According to terminal device chooses GF-PUSCH as destination channel;If not sending upstream data in GF-PUSCH, terminal device determination is
It is no that upstream data is sent on GB-PUSCH;If sending upstream data in GB-PUSCH, terminal device chooses GB-PUSCH conduct
Destination channel.
It should be understood that in mode one, if terminal device neither sends upstream data on GB-PUSCH, also not in GF-
Upstream data is sent on PUSCH, then terminal device sends UCI on uplink control channel PUCCH.
In mode one, when UCI is transmitted on a data channel, the necessary same transmitting uplink data of UCI, otherwise UCI can only
It is transmitted on PUCCH.Therefore, it when terminal device neither sends upstream data on GF-PUSCH, is not also sent out on GB-PUSCH
When sending upstream data, terminal device chooses PUCCH as destination channel.
It is described in detail below with reference to Fig. 3 to how terminal device in mode one sends UCI to the network equipment.
As shown in figure 3, terminal device is to network equipment transmission UCI, detailed process is as follows:
310, terminal device needs to send UCI to the network equipment in current time slots;
320, terminal device is determined whether current time slots have upstream data to be sent;
If 330, current time slots there are upstream data need it is to be sent, terminal device determines whether there is GF-
PUSCH data;
340, if there is GF-PUSCH data, then, terminal device sends UCI on GF-PUSCH;
350, if there is no GF-PUSCH data, then, terminal device sends UCI on GB-PUSCH;
If 360, upstream data is not present in current time slots, terminal device sends UCI on PUCCH.
It should be understood that terminal device determines whether there is GF-PUSCH data and is equivalent in current time slots needs in step 330
In the case where sending upstream data, terminal device determines whether the upstream data sends on GF-PUSCH again, GF- here
PUSCH data refer to the upstream data sent on GF-PUSCH in needs.
By taking above-mentioned detailed process shown in Fig. 3 as an example, when above-mentioned first instruction information is carried in RRC signaling, the RRC
The specific format of signaling is as follows:
Wherein, PUCCH-ConfigDedicated is that the dedicated PUCCH of terminal device configures message, it includes multiple words
Section, the meaning of each field are as follows: the value of simultaneousPUCCH-PUSCH field is false, indicates terminal device not
Energy simultaneous transmission PUCCH and PUSCH, therefore, terminal device can only transmit whole UCI on PUSCH;UCIonPUSCH be with
The relevant field of data channel, the value of subfield PriorityOnPUSCHwithGrant are true, indicate terminal device
GB-PUSCH is preferentially selected in selection target channel.
It should be understood that in above-mentioned RRC signaling, a field can also be set it is used to indicate UCI and transmit on a data channel
When, it is necessary to it is transmitted together with upstream data.
Optionally, in mode one, terminal device both can be on data channel (GF-PUSCH or GB-PUSCH) both
Whole UCI to be transmitted is sent to the network equipment, the part in whole UCI to be transmitted can also be only sent to the network equipment
The UCI of UCI, remainder can be transmitted on PUCCH.
Specifically, as shown in figure 4, terminal device is to network equipment transmission UCI, detailed process is as follows:
410, terminal device needs to send UCI to the network equipment in current time slots;
420, terminal device is determined whether current time slots have upstream data to be sent;
If 430, current time slots have upstream data to need to be sent, terminal device determines whether there is GF-
PUSCH data;
440, if there is GF-PUSCH data, then, terminal device sends whole UCI or part on GF-PUSCH
UCI;
450, if there is no GF-PUSCH data, then, terminal device sends whole UCI or portion on GB-PUSCH
Divide UCI;
If 460, upstream data is not present in current time slots, terminal device sends whole UCI on PUCCH.
It should be understood that whole UCI refer to that terminal device will currently be transferred to the network equipment in step 450 and step 460
Whole UCI.
By taking above-mentioned process shown in Fig. 4 as an example, when above-mentioned first instruction information is carried in RRC signaling, the RRC signaling
Specific format it is as follows:
Wherein, PUCCH-ConfigDedicated is that the dedicated PUCCH of terminal device configures message, it includes multiple words
Section, the meaning of each field are as follows: the value of simultaneousPUCCH-PUSCH field is true, indicates that terminal device can
With simultaneous transmission PUCCH and PUSCH, therefore, terminal device can on PUSCH hop UCI, and transmitted on PUCCH
Another part UCI;UCIonPUSCH is field relevant to data channel, subfield PriorityOnPUSCHwithGrant
Value be false, indicate that terminal device will not preferentially select GB-PUSCH in selection target channel, that is, preferential selection
GF-PUSCH。
It should be understood that in above-mentioned RRC signaling, a field can also be set it is used to indicate UCI and transmit on a data channel
When, it is necessary to it is transmitted together with upstream data.
Mode two: UCI can be transmitted individually on a data channel
In mode two, terminal device does not need to judge whether have upstream data on GF-PUSCH, but directly by GF-
PUSCH transmits UCI as destination channel, and by GF-PUSCH.
Specifically, terminal device is chosen GF-PUSCH or GB-PUSCH according to the first instruction information from multiple channels and is made
For the destination channel, specifically include: terminal device chooses the GF-PUSCH as the destination channel.
It should be understood that in mode two, it is subsequent in GF-PUSCH after terminal has chosen GF-PUSCH as destination channel
UCI both can be individually transmitted on GF-PUSCH when upper transmission UCI, can also on GF-PUSCH simultaneous transmission UCI and uplink
Data.
The priority of example two: GB-PUSCH is higher than GF-PUSCH
It is similar with example one, in example two, when the priority of GB-PUSCH is higher than GF-PUSCH, according to terminal device
The relationship of UCI and terminal device transmission upstream data are transmitted, terminal device can be determined into destination channel from multiple channels
Mode is divided into two kinds.
When mode three: UCI is transmitted on a data channel, it is necessary to be transmitted together with upstream data.
In mode three, terminal device will be selected according to whether the first instruction information and terminal device send upstream data
Select destination channel.
Specifically, terminal device is chosen GF-PUSCH or GB-PUSCH according to the first instruction information from multiple channels and is made
For the destination channel, specifically include: terminal device determines whether to send upstream data in GB-PUSCH;If being sent out in GB-PUSCH
Upstream data is sent, terminal device chooses GB-PUSCH as destination channel;If not sending upstream data in GB-PUSCH, terminal is set
It is standby to determine whether to send upstream data on GF-PUSCH;If sending upstream data in GF-PUSCH, terminal device chooses GF-
PUSCH is as destination channel.
In mode three, when UCI is transmitted on a data channel, the necessary same transmitting uplink data of UCI, otherwise UCI can only
It is transmitted on PUCCH.Therefore, it when terminal device neither sends upstream data on GB-PUSCH, is not also sent out on GF-PUSCH
When sending upstream data, terminal device chooses PUCCH as destination channel.
It is described in detail below with reference to Fig. 5 to how terminal device in mode three sends UCI to the network equipment.
As shown in figure 5, terminal device is to network equipment transmission UCI, detailed process is as follows:
510, terminal device needs to send UCI to the network equipment in current time slots;
520, terminal device is determined whether current time slots have upstream data to be sent;
If 530, current time slots have upstream data to need to be sent, terminal device determines whether GB-PUSCH
Data;
540, if there is GB-PUSCH data, then, terminal device sends UCI on GB-PUSCH;
550, if there is no GB-PUSCH data, then, terminal device sends UCI on GF-PUSCH;
If 560, upstream data is not present in current time slots, terminal device sends UCI on PUCCH.
It should be understood that in step 530, terminal device determines whether there is GB-PUSCH data and is equivalent in current time slots need
In the case where sending upstream data, terminal device determines whether the upstream data sends on GB-PUSCH again, GB- here
PUSCH data refer to the upstream data for needing to send on GB-PUSCH.
In addition, in mode three, terminal device both can on data channel (GF-PUSCH or GB-PUSCH) both to
The network equipment sends whole UCI to be transmitted, only can also send the part UCI in whole UCI to be transmitted to the network equipment,
The UCI of remainder can be transmitted on PUCCH.
Specifically, as shown in fig. 6, terminal device is to network equipment transmission UCI, detailed process is as follows:
610, terminal device needs to send UCI to the network equipment in current time slots;
620, terminal device is determined whether current time slots have upstream data to be sent;
If 630, current time slots have upstream data to need to be sent, terminal device determines whether there is GB-
PUSCH data;
640, if there is GB-PUSCH data, then, terminal device sends whole UCI or part on GB-PUSCH
UCI;
650, if there is no GB-PUSCH data, then, terminal device sends whole UCI or portion on GF-PUSCH
Divide UCI;
If 660, current time slots be not present upstream data, terminal device sent on PUCCH whole UCI or
Part UCI;
Mode four: UCI can be transmitted individually on a data channel
In mode four, terminal device does not need to judge whether have upstream data on GB-PUSCH, but directly by GB-
PUSCH transmits UCI as destination channel, and by GB-PUSCH.
Specifically, terminal device is chosen GF-PUSCH or GB-PUSCH according to the first instruction information from multiple channels and is made
For the destination channel, specifically include: terminal device chooses the GB-PUSCH as the destination channel.
It should be understood that in mode four, it is subsequent in GB-PUSCH after terminal has chosen GB-PUSCH as destination channel
UCI both can be individually transmitted on GB-PUSCH when upper transmission UCI, can also on GB-PUSCH simultaneous transmission UCI and uplink
Data.
It should be understood that terminal device is described above can determine according to the precedence information of the first instruction information instruction
Destination channel, in fact, terminal device can also determine destination channel in other manners, for example, terminal device is direct
Destination channel is determined according to the type for the UCI currently to be sent.
Optionally, as one embodiment, in above-mentioned steps 210, terminal device determines destination channel from multiple channels
Specifically include: terminal device chooses GF-PUSCH or GB-PUSCH as destination channel according to the type of UCI.
Terminal device can select to can be improved transmission with the data channel of the type matching of UCI according to the type of UCI
The effect of UCI.
Optionally, when terminal device is according to the type of UCI, GF-PUSCH or GB-PUSCH is as destination channel for selection
When, the relationship of UCI and terminal device transmission upstream data are transmitted according to terminal device, it can be by terminal device according to the class of UCI
Type chooses GF-PUSCH or GB-PUSCH as destination channel and is divided into two kinds of situations, right below with reference to example three and example four
Both of these case is described in detail.
Example three: UCI can be transmitted individually on a data channel
It should be understood that UCI is not necessarily intended to same upstream data and sends together, therefore, when terminal device has determined in example three
After the type of UCI, physical uplink data channel corresponding to the UCI type can be directly chosen as destination channel.
Optionally, terminal device determines destination channel from multiple channels, comprising: belongs to the first kind in the type of UCI
In the case where, terminal device chooses GF-PUSCH as the destination channel;The case where the type of UCI belongs to Second Type
Under, terminal device chooses GB-PUSCH as the destination channel;Wherein, the above-mentioned first kind and Second Type difference.
Specifically, it as shown in fig. 7, terminal device is according to the type selection target channel of UCI, and is sent in destination channel
The detailed process of UCI includes:
710, terminal device needs to send UCI to the network equipment in current time slots;
720, terminal device determines the type of UCI;
730, in the case where the type of UCI belongs to the first kind, UCI is sent on GF-PUSCH;
740, in the case where the type of UCI belongs to Second Type, UCI is sent on GB-PUSCH.
When example four: UCI is transmitted on a data channel, it is necessary to be transmitted together with upstream data
It should be understood that, if UCI is transmitted on a data channel, must be transmitted together with upstream data in example four,
That is, after the type according to UCI has determined UCI corresponding data channel, it is also necessary to judge the corresponding data of UCI again
Whether there is upstream data to need on channel to be sent, if there is no needing upstream data to be sent, then, UCI can be
It is transmitted on PUCCH.
Optionally, terminal device determines destination channel from multiple channels, specifically includes: belonging to first in the type of UCI
In the case where type, terminal device determines whether to send upstream data in GF-PUSCH;If sending upstream data in GF-PUSCH,
The terminal device chooses the GF-PUSCH as the destination channel;And the case where the type of UCI belongs to Second Type
Under, terminal device determines whether to send upstream data in GB-PUSCH;If sending upstream data, terminal device choosing in GB-PUSCH
Take GB-PUSCH as destination channel.
Specifically, it as shown in figure 8, terminal device is according to the type selection target channel of UCI, and is sent in destination channel
The detailed process of UCI includes:
810, terminal device needs to send UCI to the network equipment in current time slots;
820, terminal device determines the type of UCI;
830, in the case where the type of UCI belongs to the first kind, terminal device determines whether to send on GF-PUSCH
Upstream data;
840, in the case that terminal device, which is determined, sends upstream data on GF-PUSCH, terminal device is in GF-PUSCH
Upper transmission UCI;
850, in the case that terminal device, which determines, sends upstream data not on GF-PUSCH, terminal device is in PUCCH
Upper transmission UCI;
860, in the case where the type of UCI belongs to Second Type, terminal device determines whether to send on GB-PUSCH
Upstream data;
870, in the case that terminal device, which is determined, sends upstream data on GB-PUSCH, terminal device is in GB-PUSCH
Upper transmission UC;
880, in the case that terminal device, which determines, sends upstream data not on GB-PUSCH, terminal device is in PUCCH
Upper transmission UCI.
Optionally, in example three and example four, the UCI of the first kind includes the UCI for needing periodicity sending, the second class
The UCI of type includes the UCI without periodicity sending.
Specifically, the UCI of the above-mentioned first kind includes periodic channel state information CSI, and the UCI of Second Type includes
Acyclic channel state information (Channel State Information, CSI), ACK, at least one in nack message
Kind.
Periodic information is similar with the configuration mode for exempting from authorization resources, is suitble to transmit on GF-PUSCH, and aperiodic
The information of property, such as ACK/NACK is generally corresponding with dynamic dispatching, is suitble to transmit on GB-PUSCH.
Optionally, as one embodiment, when terminal equipment configuration has multiple GF-PUSCH, the above method 200 further include:
Terminal device receives the second indication information that the network equipment is sent, which is used to indicate can in multiple GF-PUSCH
The target GF-PUSCH of the UCI is sent to the network equipment for the terminal device.
It should be understood that second indication information can be carried on the RRC signaling or DCI that the network equipment is sent to terminal device
In, therefore, second indication information can be indicated by increasing a new field in RRC signaling and DCI.
It, both can be according to the instruction of the network equipment from multiple it should be understood that when terminal equipment configuration has multiple GF-PUSCH
The target GF-PUSCH used when determining transmission UCI in GF-PUSCH, can also be determined multiple GF- by terminal device itself
Target GF-PUSCH is determined in PUSCH.
In addition, terminal device can be by GF-PUSCH data when terminal equipment configuration has multiple GF-PUSCH
Different sequences is added to indicate whether some GF-PUSCH sends UCI.Specifically, as shown in figure 9, when terminal device transmission
GF-PUSCH data indicate when including First ray not only to have been included upstream data in the GF-PUSCH data but also had included UCI;And when eventually
The GF-PUSCH data of end equipment transmission indicate only to include upstream data in the GF-PUSCH data when including the second sequence, without
Include UCI.In addition, in Fig. 9, when UCI and upstream data transmit together, UCI and upstream data occupy different time domain money
Source.In fact, as shown in Figure 10, when UCI and upstream data transmit together, UCI can also occupy different from upstream data
Frequency domain resource.That is, when passing through GF-PUSCH transmission UCI, UCI and upstream data either time division multiplexing,
It is also possible to frequency division multiplexing.It should be understood that between First ray and the second sequence and upstream data both can using time division multiplexing or
Frequency division multiplexing can be used.
Above-mentioned First ray and the second sequence can be different reference signal (Reference Signal, RS) sequence,
For example, First ray can be RS1, the second sequence can be RS2, and the network equipment passes through after receiving GF-PUSCH data
RS sequence is detected to judge whether comprising UCI in GF-PUSCH data, if the network equipment is in the GF-PUSCH data received
In detect RS1, then, the network equipment be judged as in GF-PUSCH comprising UCI (at this time GF-PUSCH data include upstream data
And UCI);And if the network equipment detects RS2 in the GF-PUSCH data received, the network equipment is judged as GF-
PUSCH does not include UCI (GF-PUSCH data only include upstream data at this time).
When having multiple GF-PUSCH there are terminal equipment configuration, terminal device in GF-PUSCH data by being added not
Whether same sequence enables the network equipment to identify in GF-PUSCH channel comprising UCI, enables the network equipment to GF-
The data transmitted on PUSCH are correctly parsed.
Optionally, when sending UCI on GF-PUSCH when terminal device, upper line number can be only sent on GF-PUSCH
According to can also both send upstream data on GF-PUSCH or send UCI, in order to distinguish both of these case, terminal device can also
By sending different demodulated reference signals (Demodulation Reference Signal, DMRS) to the network equipment
Instruction GF-PUSCH channel only sends UCI and had still not only sent UCI but also sent upstream data.
Specifically, it is indicated when terminal device to what the network equipment was sent is DMRS1 in the GF-PUSCH data only comprising UCI
And upstream data is not included;And when terminal device sent to the network equipment be DMRS2 when indicate that the GF-PUSCH data had both been wrapped
It again include upstream data containing UCI.
The network equipment can determine the case where terminal device sends UCI according to the DMRS that detected, and avoid the network equipment
There is mistake when identifying GF-PUSCH data.
The method of the transmission UCI of the embodiment of the present application is carried out from the angle of terminal device above in association with Fig. 2 to Figure 10
Detailed description is described the method for the transmission UCI of the embodiment of the present application from the angle of the network equipment below with reference to Figure 11,
It should be understood that hereinafter from the method for the transmission UCI of the embodiment of the present application of the angle of network equipment description and above from terminal
The method of the transmission UCI of the embodiment of the present application of the angle description of equipment is corresponding, for sake of simplicity, appropriate below omit weight
Multiple description.
Figure 11 is the schematic flow chart of the method for the transmitting uplink control information of the embodiment of the present application.The method of Figure 11 can
To be executed by the network equipment.The method 1100 of Figure 11 includes:
1110, the network equipment determines destination channel from multiple channels, and the multiple channel includes exempting to authorize physical uplink
Shared channel GF-PUSCH and authorization Physical Uplink Shared Channel GB-PUSCH.
It should be understood that in step 1110, terminal device can be using mode identical with terminal device come from multiple channels
Middle determining destination channel.Specifically, terminal device can arbitrarily be selected from GF-PUSCH and GB-PUSCH a channel as
Destination channel, and instruction information is sent to the network equipment, wherein the instruction information is used to indicate which channel terminal device selects
As destination channel, after the network equipment receives the instruction information, destination channel can be determined according to the instruction information, from
And the destination channel that the destination channel that the network equipment is determined is determined with terminal device is consistent.
In addition, the network equipment and terminal device (can also specifically can be communication according to the rule and mode made an appointment
Rule specified in standard or agreement or mode) to determine destination channel from multiple channels.
Optionally, the network equipment can be according to priority (GF-PUSCH and the GB-PUSCH of GF-PUSCH and GB-PUSCH
Priority can be predetermined) from GF-PUSCH and GB-PUSCH determine destination channel.
In addition, the network equipment can also send the first instruction information to terminal device, which is used to indicate
Terminal device preferentially selects GF-PUSCH or GB-PUSCH as destination channel from multiple channels.In this way, terminal device exists
After receiving the first instruction information, it can preferentially be selected from multiple channels according to the priority of GF-PUSCH and GB-PUSCH
GF-PUSCH or GB-PUSCH are as destination channel.
Optionally, in the network equipment before the UCI that destination channel receiving terminal apparatus is sent, the above method 1100 is also wrapped
Include: the network equipment sends the first instruction information to terminal device, which is used to indicate terminal device from multiple letters
GF-PUSCH or GB-PUSCH are preferentially chosen in road as destination channel.
Optionally, above-mentioned first instruction information can be carried on RRC signaling that the network equipment is sent to terminal device or
In DCI, therefore, the first instruction information can be indicated by increasing a new field in RRC signaling and DCI.
It should be understood that can also include PUCCH in above-mentioned multiple channels other than comprising GB-PUSCH and GF-PUSCH,
That is, terminal device is other than it can choose data channel as destination channel, it is also an option that control channel conduct
Destination channel.
1120, the UCI that the network equipment is sent from destination channel receiving terminal apparatus.
In the application, the network equipment can be in the case where being configured with GF-PUSCH and GF-PUSCH, from multiple channels
Flexible choice destination channel sends UCI, and is only capable of in the scheme of the prior art sending UCI's by GB-PUSCH and PUCCH
Mode is compared, and can select the resource of transmission UCI for greater flexibility.
Optionally, as one embodiment, when the first instruction information is specifically used for instruction terminal equipment from multiple channels
When preferential selection GF-PUSCH is as destination channel, the network equipment determines destination channel from multiple channels, comprising: the network equipment
Determine whether that upstream data transmits on GF-PUSCH;If there is upstream data to transmit on GF-PUSCH, the network equipment is chosen
GF-PUSCH is as destination channel;If transmitting on GF-PUSCH without upstream data, the network equipment determines whether line number
It is transmitted according on the GB-PUSCH;If there is upstream data to transmit on GB-PUSCH, the network equipment chooses GB-PUSCH conduct
Destination channel.It should be understood that in this case, when UCI is transmitted on a data channel, it is necessary to be transmitted together with upstream data.
Specifically, when the priority of GF-PUSCH is higher, terminal device will also whether there is uplink according to GF-PUSCH
Data determine destination channel.Terminal device determines mesh in the mode of this determining destination channel and the mode one of example above one
The mode for marking channel is similar.It is not described in detail herein.
Optionally, as one embodiment, when the first instruction information is specifically used for instruction terminal equipment from multiple channels
When preferential selection GB-PUSCH is as destination channel, the network equipment determines destination channel from multiple channels, comprising: the network equipment
Determine whether that upstream data transmits on GB-PUSCH;If there is upstream data to transmit on GB-PUSCH, the network equipment is chosen
GB-PUSCH is as destination channel;If transmitting on GB-PUSCH without upstream data, the network equipment determines whether line number
It is transmitted according on GF-PUSCH;If there is upstream data to transmit on GF-PUSCH, the network equipment chooses GF-PUSCH as target
Channel.It should be understood that in this case, when UCI is transmitted on a data channel, it is necessary to be transmitted together with upstream data.
Specifically, when the priority of GB-PUSCH is higher, terminal device will also whether there is uplink according to GB-PUSCH
Data determine destination channel.Terminal device determines mesh in the mode of this determining destination channel and the mode three of example above two
The mode for marking channel is similar.It is not described in detail herein.
Optionally, when UCI can be transmitted individually on a data channel, the network equipment can directly according to GF-PUSCH with
The precedence information of GB-PUSCH directly determines destination channel.
Specifically, when UCI can be transmitted individually on a data channel, if the first instruction information is used to indicate terminal and sets
It is standby that GF-PUSCH is preferentially chosen from multiple channels as destination channel, then, the network equipment determines target from multiple channels
Channel, comprising: the network equipment chooses GF-PUSCH as destination channel.In this case the network equipment determines the side of destination channel
Formula determines that the mode of destination channel is similar with terminal device in the mode two of example above one.It is not described in detail herein.
And if the first instruction information is specifically used for instruction terminal equipment preferentially chooses GB-PUSCH work from multiple channels
For destination channel, then, the network equipment determines destination channel from multiple channels, comprising: the network equipment is chosen GB-PUSCH and made
For destination channel.In this case the network equipment determines terminal device in the mode of destination channel and the mode four of example above two
Determine that the mode of destination channel is similar.It is not described in detail herein.
Optionally, the network equipment, can also be directly according to UCI other than determining destination channel according to precedence information
Content determine destination channel.It should be understood that the content that can set the network equipment and terminal device in advance in advance all in accordance with UCI is come
Determine destination channel.
Optionally, as one embodiment, the network equipment determines destination channel from multiple channels, comprising: the network equipment
According to the type of the UCI, the GF-PUSCH or GB-PUSCH is chosen as the destination channel.
The network equipment can select to can be improved transmission with the data channel of the type matching of UCI according to the type of UCI
The effect of UCI.
Optionally, the network equipment determines destination channel from multiple channels, comprising: belongs to the first kind in the type of UCI
In the case where, the network equipment chooses GF-PUSCH as destination channel;In the case where the type of UCI belongs to Second Type, net
Network equipment chooses GB-PUSCH as destination channel, wherein the first kind is different with the Second Type.It should be understood that this
When the network equipment when determining destination channel regardless of whether there is upstream data, but mesh is directly determined according to the type of UCI
Channel is marked, in this case, the network equipment determines that destination channel determines the side of destination channel with terminal device in example above three
Formula is similar.It is not described in detail herein.
Optionally, the network equipment determines destination channel from multiple channels, comprising: belongs to the first kind in the type of UCI
In the case where, the network equipment determines whether that upstream data transmits on GF-PUSCH;If there is upstream data on GF-PUSCH
Transmission, the network equipment choose GF-PUSCH as destination channel;In the case where the type of UCI belongs to Second Type, network is set
It is standby to determine whether that upstream data transmits on GB-PUSCH;If there is upstream data to transmit on GB-PUSCH, network equipment choosing
Take GB-PUSCH as destination channel;Wherein, the first kind and Second Type difference.It should be understood that the network equipment is in determination at this time
It needs to have considered whether upstream data when destination channel, at this point, the network equipment is the type according to UCI and whether has a upper line number
According to destination channel is determined, in this case, the network equipment determines that terminal device determines mesh in destination channel and example above four
The mode for marking channel is similar.It is not described in detail herein.
Optionally, the UCI of the above-mentioned first kind includes the UCI for needing periodicity sending, and the UCI of Second Type includes being not required to
Want the UCI of periodicity sending.
Specifically, the UCI of the above-mentioned first kind includes periodic channel state information CSI, and the UCI of Second Type includes
Acyclic channel state information (Channel State Information, CSI), ACK, at least one in nack message
Kind.
Periodic information is similar with the configuration mode for exempting from authorization resources, is suitble to transmit on GF-PUSCH, and aperiodic
The information of property, such as ACK/NACK is generally corresponding with dynamic dispatching, is suitble to transmit on GB-PUSCH.
Optionally, as one embodiment, when terminal equipment configuration has multiple GF-PUSCH, the above method 1100 is also wrapped
Include: the network equipment sends second indication information to terminal device, and second indication information is used to indicate in multiple GF-PUSCH and can use
The target GF-PUSCH of UCI is sent to the network equipment in terminal device.
It should be understood that second indication information can be carried on the RRC signaling or DCI that the network equipment is sent to terminal device
In, therefore, second indication information can be indicated by increasing a new field in RRC signaling and DCI.
Detailed retouch has been carried out above in association with method of the Fig. 1 to Figure 11 to the transmitting uplink control information of the embodiment of the present application
It states, is described below with reference to terminal device and the network equipment of the Figure 12 to Figure 15 to the embodiment of the present application.It should be understood that Figure 12 is extremely
Terminal device in Figure 15 with the above method 200 be it is corresponding, the network equipment of the Figure 12 into Figure 15 is with the above method 1100
It is corresponding.Terminal device and the network equipment of the Figure 12 into Figure 15 can execute the above method 200 and method 1100 respectively.In order to
Succinctly, repetitive description is suitably omitted below.
Figure 12 is the schematic block diagram of the terminal device of the embodiment of the present application.The terminal device 1200 of Figure 12 includes:
Determining module 1210, for determining destination channel from multiple channels, the multiple channel includes exempting to authorize physics
Uplink Shared Channel GF-PUSCH and authorization Physical Uplink Shared Channel GB-PUSCH;
Transceiver module 1220, for sending ascending control information UCI to the network equipment by the destination channel.
In the application, terminal device can be in the case where being configured with GF-PUSCH and GF-PUSCH, from multiple channels
Flexible choice destination channel sends UCI, and is only capable of in the scheme of the prior art sending UCI's by GB-PUSCH and PUCCH
Mode is compared, and can select the resource of transmission UCI for greater flexibility.
Optionally, as one embodiment, which is characterized in that the transceiver module 1220 is also used to: receiving the network
The first instruction information that equipment is sent, it is excellent from the multiple channel that the first instruction information is used to indicate the terminal device
The GF-PUSCH or the GB-PUSCH are first chosen as the destination channel;The determining module 1210 is specifically used for:
It is chosen from the multiple channel described in the GF-PUSCH or GB-PUSCH conduct according to the first instruction information
Destination channel.
Optionally, as one embodiment, the first instruction information is specifically used for indicating the terminal device from described
The GF-PUSCH is preferentially chosen in multiple channels as the destination channel, the determining module 1210 is specifically used for: determining
Whether in GF-PUSCH transmission upstream data;If sending upstream data in the GF-PUSCH, the GF-PUSCH is chosen
As the destination channel.
Optionally, as one embodiment, the determining module 1210 is specifically used for: if not sending in the GF-PUSCH
Upstream data, it is determined whether send upstream data in the GB-PUSCH;If sending upstream data in the GB-PUSCH, choose
The GB-PUSCH is as the destination channel.
Optionally, as one embodiment, the first instruction information is specifically used for indicating the terminal device from described
The GB-PUSCH is preferentially chosen in multiple channels as the destination channel, the determining module 1210 is specifically used for: determining
Whether in GB-PUSCH transmission upstream data;If sending upstream data in the GB-PUSCH, the GB-PUSCH is chosen
As the destination channel.
Optionally, as one embodiment, the determining module 1210 is specifically used for: if not sending in the GB-PUSCH
Upstream data, it is determined whether send upstream data on the GF-PUSCH;If sending upstream data, choosing in the GF-PUSCH
Take the GF-PUSCH as the destination channel.
Optionally, as one embodiment, the first instruction information is used to indicate the terminal device from the multiple
The GF-PUSCH is preferentially chosen in channel as the destination channel, the determining module 1210 is specifically used for: described in selection
GF-PUSCH is as the destination channel.
Optionally, as one embodiment, the first instruction information is used to indicate the terminal device from the multiple
The GB-PUSCH is preferentially chosen in channel as the destination channel, the determining module 1210 is specifically used for: described in selection
GB-PUSCH is as the destination channel.
Optionally, as one embodiment, the determining module 1210 is specifically used for: according to the type of the UCI, choosing
The GF-PUSCH or the GB-PUSCH are as the destination channel.
Optionally, as one embodiment, the determining module 1210 is specifically used for: belonging in the type of the UCI
In the case where one type, the GF-PUSCH is chosen as the destination channel;Belong to Second Type in the type of the UCI
In the case of, the GB-PUSCH is chosen as the destination channel;Wherein, the first kind is different with the Second Type.
Optionally, as one embodiment, the type of the UCI includes the first kind and Second Type, the first kind
Type is different with the Second Type, and the determining module 1210 is specifically used for: belonging to the feelings of the first kind in the type of the UCI
Under condition, it is determined whether send upstream data in the GF-PUSCH;If in GF-PUSCH transmission upstream data, described in selection
GF-PUSCH is as the destination channel.
Optionally, as one embodiment, the determining module 1210 is also used to: belonging to second in the type of the UCI
In the case where type, it is determined whether send upstream data in the GB-PUSCH;If sending upstream data in the GB-PUSCH,
The GB-PUSCH is chosen as the destination channel;Wherein, the first kind is different with the Second Type.
Optionally, as one embodiment, the UCI of the first kind includes the UCI for needing periodicity sending, and described
The UCI of two types includes the UCI without periodicity sending.
Optionally, as one embodiment, the UCI of the first kind includes periodic channel state information CSI, institute
The UCI for stating Second Type includes acyclic CSI, informing receives (Acknowledge, ACK), informing does not receive (Non-
At least one of Acknowledge, NACK) information.
Optionally, as one embodiment, the terminal equipment configuration has multiple GF-PUSCH, the transceiver module 1220
It is also used to: receiving the second indication information that the network equipment is sent, the second indication information is used to indicate the multiple GF-
It can be used for the target GF-PUSCH that the terminal device sends the UCI to the network equipment in PUSCH.
Figure 13 is the schematic block diagram of the network equipment of the embodiment of the present application.The network equipment 1300 of Figure 13 includes:
Determining module 1310, for determining destination channel from multiple channels, the multiple channel includes exempting to authorize physics
Uplink Shared Channel GF-PUSCH and authorization Physical Uplink Shared Channel GB-PUSCH;
Transceiver module 1320, the ascending control information UCI for being sent from the destination channel receiving terminal apparatus.
In the application, the network equipment can be in the case where being configured with GF-PUSCH and GF-PUSCH, from multiple channels
Flexible choice destination channel sends UCI, and is only capable of in the scheme of the prior art sending UCI's by GB-PUSCH and PUCCH
Mode is compared, and can select the resource of transmission UCI for greater flexibility.
Optionally, as one embodiment, the terminal is received from the destination channel in the transceiver module 1320 and is set
Before the UCI that preparation is sent, the transceiver module 1320 is also used to: Xiang Suoshu terminal device sends the first instruction information, and described the
One instruction information is used to indicate the terminal device and preferentially chooses the GF-PUSCH or GB- from the multiple channel
PUSCH is as the destination channel.
Optionally, as one embodiment, the first instruction information is specifically used for indicating the terminal device from described
The GF-PUSCH is preferentially chosen in multiple channels as the destination channel, the determining module 1310 is specifically used for: determining
Whether there is upstream data to transmit on the GF-PUSCH;If thering is upstream data to transmit on the GF-PUSCH, described in selection
GF-PUSCH is as the destination channel.
Optionally, as one embodiment, the first instruction information is specifically used for indicating the terminal device from described
The GF-PUSCH is preferentially chosen in multiple channels as the destination channel, the determining module 1310 is specifically used for: if not having
There is upstream data to transmit on the GF-PUSCH, it is determined whether to there is upstream data to transmit on the GB-PUSCH;If on having
Row data are transmitted on the GB-PUSCH, choose the GB-PUSCH as the destination channel.
Optionally, as one embodiment, the first instruction information is specifically used for indicating the terminal device from described
The GB-PUSCH is preferentially chosen in multiple channels as the destination channel, the determining module 1310 is specifically used for: determining
Whether there is upstream data to transmit on the GB-PUSCH;If thering is upstream data to transmit on the GB-PUSCH, described in selection
GB-PUSCH is as the destination channel.
Optionally, as one embodiment, the determining module 1310 is specifically used for: if without upstream data described
It is transmitted on GB-PUSCH, it is determined whether there is upstream data to transmit on the GF-PUSCH;If there is upstream data in the GF-
It is transmitted on PUSCH, chooses the GF-PUSCH as the destination channel
Optionally, as one embodiment, the first instruction information is used to indicate the terminal device from the multiple
The GF-PUSCH is preferentially chosen in channel as the destination channel, the determining module 1310 is specifically used for: described in selection
GF-PUSCH is as the destination channel.
Optionally, as one embodiment, the first instruction information is used to indicate the terminal device from the multiple
The GB-PUSCH is preferentially chosen in channel as the destination channel, the determining module 1310 is specifically used for: described in selection
GB-PUSCH is as the destination channel.
Optionally, as one embodiment, the determining module 1310 is specifically used for: according to the type of the UCI, choosing
The GF-PUSCH or the GB-PUSCH are as the destination channel.
Optionally, as one embodiment, the determining module 1310 is specifically used for: belonging in the type of the UCI
In the case where one type, the GF-PUSCH is chosen as the destination channel;Belong to Second Type in the type of the UCI
In the case of, the GB-PUSCH is chosen as the destination channel, wherein the first kind is different with the Second Type.
Optionally, as one embodiment, the determining module 1310 is specifically used for: belonging in the type of the UCI
In the case where one type, it is determined whether there is upstream data to transmit on the GF-PUSCH;If there is upstream data in the GF-
It is transmitted on PUSCH, chooses the GF-PUSCH as the destination channel.
Optionally, as one embodiment, the determining module 1310 is specifically used for: belonging in the type of the UCI
In the case where two types, it is determined whether there is upstream data to transmit on the GB-PUSCH;If there is upstream data in the GB-
It is transmitted on PUSCH, chooses the GB-PUSCH as the destination channel;Wherein, the first kind and the Second Type
It is different.
Optionally, as one embodiment, which is characterized in that the UCI of the first kind includes needing periodicity sending
UCI, the UCI of the Second Type includes the UCI for not needing periodicity sending.
Optionally, as one embodiment, the UCI of the first kind includes periodic channel state information CSI, institute
The UCI for stating Second Type includes at least one of acyclic CSI, ACK, nack message.
Optionally, as one embodiment, the terminal equipment configuration has multiple GF-PUSCH, the transceiver module 1320
Be also used to: Xiang Suoshu terminal device sends second indication information, and the second indication information is used to indicate the multiple GF-
It can be used for the target GF-PUSCH that the terminal device sends the UCI to the network equipment in PUSCH.
Figure 14 is the schematic block diagram of the terminal device of the embodiment of the present application.The terminal device 1400 of Figure 14 includes:
Memory 1410, for storing program.
Processor 1420, the journey for executing the program stored in the memory 1410, in the memory 1410
Sequence is performed, and the processor 1420 is specifically used for: destination channel is determined from multiple channels, the multiple channel includes exempting from
Authorize Physical Uplink Shared Channel GF-PUSCH and authorization Physical Uplink Shared Channel GB-PUSCH;
Transceiver 1430, for sending ascending control information UCI to the network equipment by the destination channel.
Optionally, as one embodiment, which is characterized in that the transceiver 1430 is also used to: receiving the network and set
The first instruction information that preparation is sent, it is preferential from the multiple channel that the first instruction information is used to indicate the terminal device
The GF-PUSCH or the GB-PUSCH are chosen as the destination channel;The processor 1420 is specifically used for: according to
The first instruction information chooses the GF-PUSCH or the GB-PUSCH as the target from the multiple channel
Channel.
Optionally, as one embodiment, the first instruction information is specifically used for indicating the terminal device from described
The GF-PUSCH is preferentially chosen in multiple channels as the destination channel, the processor 1420 is specifically used for: determination is
It is no to send upstream data in the GF-PUSCH;If sending upstream data in the GF-PUSCH, chooses the GF-PUSCH and make
For the destination channel.
Optionally, as one embodiment, the processor 1420 is specifically used for: if not in the GF-PUSCH transmission
Row data, it is determined whether send upstream data in the GB-PUSCH;If sending upstream data in the GB-PUSCH, institute is chosen
GB-PUSCH is stated as the destination channel.
Optionally, as one embodiment, the first instruction information is specifically used for indicating the terminal device from described
The GB-PUSCH is preferentially chosen in multiple channels as the destination channel, the processor 1420 is specifically used for: determination is
It is no to send upstream data in the GB-PUSCH;If sending upstream data in the GB-PUSCH, chooses the GB-PUSCH and make
For the destination channel.
Optionally, as one embodiment, the processor 1420 is specifically used for: if not in the GB-PUSCH transmission
Row data, it is determined whether send upstream data on the GF-PUSCH;If sending upstream data in the GF-PUSCH, choose
The GF-PUSCH is as the destination channel.
Optionally, as one embodiment, the first instruction information is used to indicate the terminal device from the multiple
The GF-PUSCH is preferentially chosen in channel as the destination channel, the processor 1420 is specifically used for: choosing the GF-
PUSCH is as the destination channel.
Optionally, as one embodiment, the first instruction information is used to indicate the terminal device from the multiple
The GB-PUSCH is preferentially chosen in channel as the destination channel, the processor 1420 is specifically used for: choosing the GB-
PUSCH is as the destination channel.
Optionally, as one embodiment, the processor 1420 is specifically used for: according to the type of the UCI, choosing institute
GF-PUSCH or the GB-PUSCH are stated as the destination channel.
Optionally, as one embodiment, the processor 1420 is specifically used for: belonging to first in the type of the UCI
In the case where type, the GF-PUSCH is chosen as the destination channel;Belong to the feelings of Second Type in the type of the UCI
Under condition, the GB-PUSCH is chosen as the destination channel;Wherein, the first kind is different with the Second Type.
Optionally, as one embodiment, the type of the UCI includes the first kind and Second Type, the first kind
Type is different with the Second Type, and the processor 1420 is specifically used for: the case where the type of the UCI belongs to the first kind
Under, it is determined whether upstream data is sent in the GF-PUSCH;If in GF-PUSCH transmission upstream data, described in selection
GF-PUSCH is as the destination channel.
Optionally, as one embodiment, the processor 1420 is also used to: belonging to the second class in the type of the UCI
In the case where type, it is determined whether send upstream data in the GB-PUSCH;If sending upstream data, choosing in the GB-PUSCH
Take the GB-PUSCH as the destination channel;Wherein, the first kind is different with the Second Type.
Optionally, as one embodiment, the UCI of the first kind includes the UCI for needing periodicity sending, and described
The UCI of two types includes the UCI without periodicity sending.
Optionally, as one embodiment, the UCI of the first kind includes periodic channel state information CSI, institute
The UCI for stating Second Type includes acyclic CSI, informing receives (Acknowledge, ACK), informing does not receive (Non-
At least one of Acknowledge, NACK) information.
Optionally, as one embodiment, the terminal equipment configuration has multiple GF-PUSCH, and the transceiver 1430 is also
For: the second indication information of the network equipment transmission is received, the second indication information is used to indicate the multiple GF-
It can be used for the target GF-PUSCH that the terminal device sends the UCI to the network equipment in PUSCH.
Figure 15 is the schematic block diagram of the network equipment of the embodiment of the present application.The network equipment 1500 of Figure 15 includes:
Memory 1510, for storing program.
Processor 1520, the journey for executing the program stored in the memory 1510, in the memory 1410
Sequence is performed, and the processor 1520 is specifically used for: destination channel is determined from multiple channels, the multiple channel includes exempting from
Authorize Physical Uplink Shared Channel GF-PUSCH and authorization Physical Uplink Shared Channel GB-PUSCH;
Transceiver 1530, the ascending control information UCI for being sent from the destination channel receiving terminal apparatus.
In the application, the network equipment can be in the case where being configured with GF-PUSCH and GF-PUSCH, from multiple channels
Flexible choice destination channel sends UCI, and is only capable of in the scheme of the prior art sending UCI's by GB-PUSCH and PUCCH
Mode is compared, and can select the resource of transmission UCI for greater flexibility.
Optionally, as one embodiment, the terminal device is received from the destination channel in the transceiver 1530
Before the UCI of transmission, the transceiver 1530 is also used to: Xiang Suoshu terminal device sends the first instruction information, and described first refers to
Show that information is used to indicate the terminal device and preferentially chooses the GF-PUSCH or GB- from the multiple channel
PUSCH is as the destination channel.
Optionally, as one embodiment, the first instruction information is specifically used for indicating the terminal device from described
The GF-PUSCH is preferentially chosen in multiple channels as the destination channel, the processor 1520 is specifically used for: determination is
It is no to there is upstream data to transmit on the GF-PUSCH;If there is upstream data to transmit on the GF-PUSCH, the GF- is chosen
PUSCH is as the destination channel.
Optionally, as one embodiment, the first instruction information is specifically used for indicating the terminal device from described
The GF-PUSCH is preferentially chosen in multiple channels as the destination channel, the processor 1520 is specifically used for: if not having
Upstream data transmits on the GF-PUSCH, it is determined whether has upstream data to transmit on the GB-PUSCH;If there is uplink
Data are transmitted on the GB-PUSCH, choose the GB-PUSCH as the destination channel.
Optionally, as one embodiment, the first instruction information is specifically used for indicating the terminal device from described
The GB-PUSCH is preferentially chosen in multiple channels as the destination channel, the processor 1520 is specifically used for: determination is
It is no to there is upstream data to transmit on the GB-PUSCH;If there is upstream data to transmit on the GB-PUSCH, the GB- is chosen
PUSCH is as the destination channel.
Optionally, as one embodiment, the processor 1520 is specifically used for: if without upstream data in the GB-
It is transmitted on PUSCH, it is determined whether there is upstream data to transmit on the GF-PUSCH;If there is upstream data in the GF-PUSCH
Upper transmission chooses the GF-PUSCH as the destination channel
Optionally, as one embodiment, the first instruction information is used to indicate the terminal device from the multiple
The GF-PUSCH is preferentially chosen in channel as the destination channel, the processor 1520 is specifically used for: choosing the GF-
PUSCH is as the destination channel.
Optionally, as one embodiment, the first instruction information is used to indicate the terminal device from the multiple
The GB-PUSCH is preferentially chosen in channel as the destination channel, the processor 1520 is specifically used for: choosing the GB-
PUSCH is as the destination channel.
Optionally, as one embodiment, the processor 1520 is specifically used for: according to the type of the UCI, choosing institute
GF-PUSCH or the GB-PUSCH are stated as the destination channel.
Optionally, as one embodiment, the processor 1520 is specifically used for: belonging to first in the type of the UCI
In the case where type, the GF-PUSCH is chosen as the destination channel;Belong to the feelings of Second Type in the type of the UCI
Under condition, the GB-PUSCH is chosen as the destination channel, wherein the first kind is different with the Second Type.
Optionally, as one embodiment, the processor 1520 is specifically used for: belonging to first in the type of the UCI
In the case where type, it is determined whether there is upstream data to transmit on the GF-PUSCH;If there is upstream data in the GF-
It is transmitted on PUSCH, chooses the GF-PUSCH as the destination channel.
Optionally, as one embodiment, the processor 1520 is specifically used for: belonging to second in the type of the UCI
In the case where type, it is determined whether there is upstream data to transmit on the GB-PUSCH;If there is upstream data in the GB-
It is transmitted on PUSCH, chooses the GB-PUSCH as the destination channel;Wherein, the first kind and the Second Type
It is different.
Optionally, as one embodiment, which is characterized in that the UCI of the first kind includes needing periodicity sending
UCI, the UCI of the Second Type includes the UCI for not needing periodicity sending.
Optionally, as one embodiment, the UCI of the first kind includes periodic channel state information CSI, institute
The UCI for stating Second Type includes at least one of acyclic CSI, ACK, nack message.
Optionally, as one embodiment, the terminal equipment configuration has multiple GF-PUSCH, and the transceiver 1530 is also
For: Xiang Suoshu terminal device sends second indication information, and the second indication information is used to indicate the multiple GF-PUSCH
In can be used for the target GF-PUSCH that the terminal device sends the UCI to the network equipment.
This application provides a kind of terminal device, the terminal device includes storage medium and central processing unit, described to deposit
Storage media can be non-volatile memory medium, and computer executable program, the centre are stored in the storage medium
Reason device is connect with the non-volatile memory medium, and executes the computer executable program to realize the embodiment of the present application
The method of transmitting uplink control information.
This application provides a kind of network equipment, the network equipment includes storage medium and central processing unit, described to deposit
Storage media can be non-volatile memory medium, and computer executable program, the centre are stored in the storage medium
Reason device connect with the non-volatile memory medium, and execute the computer executable program to realize the embodiment of the present application
Transmitting uplink control information method.
This application provides a kind of chip, the chip includes processor and communication interface, the communication interface be used for
External devices are communicated, the method that the processor is used to execute the transmitting uplink control information of the embodiment of the present application.
Optionally, as a kind of implementation, the chip can also include memory, be stored with finger in the memory
It enables, the processor is for executing the instruction stored on the memory, and when executed, the processor is used for
The method for executing the transmitting uplink control information of the embodiment of the present application.
Optionally, as a kind of implementation, the integrated chip is on the terminal device.
This application provides a kind of chip, the chip includes processor and communication interface, the communication interface be used for
External devices are communicated, the method that the processor is used to execute the transmitting uplink control information of the embodiment of the present application.
Optionally, as a kind of implementation, the chip can also include memory, be stored with finger in the memory
It enables, the processor is for executing the instruction stored on the memory, and when executed, the processor is used for
The method for executing the transmitting uplink control information of the embodiment of the present application.
Optionally, as a kind of implementation, the integrated chip is on network devices.
This application provides a kind of computer readable storage medium, the computer-readable medium storage is executed for equipment
Program code, said program code includes the finger for the method for executing the transmitting uplink control information of the embodiment of the present application
It enables.
This application provides a kind of computer readable storage medium, the computer-readable medium storage is executed for equipment
Program code, said program code includes the finger for the method for executing the transmitting uplink control information of the embodiment of the present application
It enables.
Those of ordinary skill in the art may be aware that list described in conjunction with the examples disclosed in the embodiments of the present disclosure
Member and algorithm steps can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are actually
It is implemented in hardware or software, the specific application and design constraint depending on technical solution.Professional technician
Each specific application can be used different methods to achieve the described function, but this realization is it is not considered that exceed
Scope of the present application.
It is apparent to those skilled in the art that for convenience and simplicity of description, the system of foregoing description,
The specific work process of device and unit, can refer to corresponding processes in the foregoing method embodiment, and details are not described herein.
In several embodiments provided herein, it should be understood that disclosed systems, devices and methods, it can be with
It realizes by another way.For example, the apparatus embodiments described above are merely exemplary, for example, the unit
It divides, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components
It can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, it is shown or
The mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, the indirect coupling of device or unit
It closes or communicates to connect, can be electrical property, mechanical or other forms.
The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit
The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple
In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme
's.
It, can also be in addition, each functional unit in each embodiment of the application can integrate in one processing unit
It is that each unit physically exists alone, can also be integrated in one unit with two or more units.
It, can be with if the function is realized in the form of SFU software functional unit and when sold or used as an independent product
It is stored in a computer readable storage medium.Based on this understanding, the technical solution of the application is substantially in other words
The part of the part that contributes to existing technology or the technical solution can be embodied in the form of software products, the meter
Calculation machine software product is stored in a storage medium, including some instructions are used so that a computer equipment (can be a
People's computer, server or network equipment etc.) execute each embodiment the method for the application all or part of the steps.
And storage medium above-mentioned includes: that USB flash disk, mobile hard disk, read-only memory (Read-Only Memory, ROM), arbitrary access are deposited
The various media that can store program code such as reservoir (Random Access Memory, RAM), magnetic or disk.
The above, the only specific embodiment of the application, but the protection scope of the application is not limited thereto, it is any
Those familiar with the art within the technical scope of the present application, can easily think of the change or the replacement, and should all contain
Lid is within the scope of protection of this application.Therefore, the protection scope of the application should be based on the protection scope of the described claims.
Claims (38)
1. a kind of method of transmitting uplink control information characterized by comprising
Terminal device determines destination channel from multiple channels, and the multiple channel includes exempting to authorize Physical Uplink Shared Channel
GF-PUSCH and authorization Physical Uplink Shared Channel GB-PUSCH;
Terminal device sends ascending control information UCI to the network equipment by the destination channel.
2. the method as described in claim 1, which is characterized in that the method also includes:
The terminal device receives the first instruction information that the network equipment is sent, and the first instruction information is used to indicate institute
State that terminal device preferentially chooses the GF-PUSCH from the multiple channel or the GB-PUSCH believes as the target
Road;
The terminal device determines destination channel from multiple channels, comprising:
The terminal device chooses the GF-PUSCH or described according to the first instruction information from the multiple channel
GB-PUSCH is as the destination channel.
3. method according to claim 2, which is characterized in that the first instruction information is specifically used for indicating that the terminal is set
It is standby the GF-PUSCH preferentially to be chosen from the multiple channel as the destination channel,
The terminal device chooses the GF-PUSCH or described according to the first instruction information from the multiple channel
GB-PUSCH is as the destination channel, comprising:
The terminal device determines whether to send upstream data in the GF-PUSCH;
If sending upstream data in the GF-PUSCH, the terminal device is chosen the GF-PUSCH and is believed as the target
Road.
4. method as claimed in claim 3, which is characterized in that the terminal device is according to the first instruction information from described
The GF-PUSCH or the GB-PUSCH are chosen in multiple channels as the destination channel, comprising:
If not sending upstream data in the GF-PUSCH, the terminal device determines whether to send uplink in the GB-PUSCH
Data;
If sending upstream data in the GB-PUSCH, the terminal device is chosen the GB-PUSCH and is believed as the target
Road.
5. method according to claim 2, which is characterized in that the first instruction information is specifically used for indicating that the terminal is set
It is standby the GB-PUSCH preferentially to be chosen from the multiple channel as the destination channel,
The terminal device chooses the GF-PUSCH or described according to the first instruction information from the multiple channel
GB-PUSCH is as the destination channel, comprising:
The terminal device determines whether to send upstream data in the GB-PUSCH;
If sending upstream data in the GB-PUSCH, the terminal device is chosen the GB-PUSCH and is believed as the target
Road.
6. method as claimed in claim 5, which is characterized in that the terminal device is according to the first instruction information from described
The GF-PUSCH or the GB-PUSCH are chosen in multiple channels as the destination channel, comprising:
If not sending upstream data in the GB-PUSCH, the terminal device determines whether to send uplink in the GF-PUSCH
Data;
If sending upstream data in the GF-PUSCH, the terminal device is chosen the GF-PUSCH and is believed as the target
Road.
7. the method as described in claim 1, which is characterized in that the terminal device determines destination channel from multiple channels,
Include:
In the case where the type of the UCI belongs to the first kind, the terminal device determines whether to send out in the GF-PUSCH
Send upstream data;
If sending upstream data in the GF-PUSCH, the terminal device is chosen the GF-PUSCH and is believed as the target
Road.
8. the method for claim 7, which is characterized in that the terminal device determines destination channel from multiple channels,
Further include:
In the case where the type of the UCI belongs to Second Type, the terminal device determines whether to send out in the GB-PUSCH
Send upstream data;
If sending upstream data in the GB-PUSCH, the terminal device is chosen the GB-PUSCH and is believed as the target
Road;
Wherein, the first kind is different with the Second Type.
9. method according to claim 8, which is characterized in that the UCI of the first kind includes needing periodicity sending
UCI, the UCI of the Second Type include the UCI without periodicity sending.
10. method as claimed in any one of claims 1-9 wherein, which is characterized in that the terminal equipment configuration has multiple GF-
PUSCH, the method also includes:
The terminal device receives the second indication information that the network equipment is sent, and the second indication information is used to indicate institute
Stating can be used for the target GF-PUSCH that the terminal device sends the UCI to the network equipment in multiple GF-PUSCH.
11. a kind of method of transmitting uplink control information characterized by comprising
The network equipment determines destination channel from multiple channels, and the multiple channel includes exempting to authorize Physical Uplink Shared Channel
GF-PUSCH and authorization Physical Uplink Shared Channel GB-PUSCH;
The ascending control information UCI that the network equipment is sent from the destination channel receiving terminal apparatus.
12. method as claimed in claim 11, which is characterized in that receive terminal from the destination channel in the network equipment
Before the UCI that equipment is sent, the method also includes:
The network equipment sends the first instruction information to the terminal device, and the first instruction information is used to indicate the end
End equipment preferentially chooses the GF-PUSCH or the GB-PUSCH as the destination channel from the multiple channel.
13. method as claimed in claim 12, which is characterized in that the first instruction information is specifically used for indicating the terminal
Equipment preferentially chooses the GF-PUSCH as the destination channel from the multiple channel,
The network equipment determines destination channel from multiple channels, comprising:
The network equipment determines whether that upstream data transmits on the GF-PUSCH;
If there is upstream data to transmit on the GF-PUSCH, the network equipment chooses the GF-PUSCH as the target
Channel.
14. method as claimed in claim 13, which is characterized in that the first instruction information is specifically used for indicating the terminal
Equipment preferentially chooses the GF-PUSCH as the destination channel from the multiple channel,
The network equipment determines destination channel from multiple channels, comprising:
If transmitting on the GF-PUSCH without upstream data, the network equipment determines whether upstream data described
It is transmitted on GB-PUSCH;
If there is upstream data to transmit on the GB-PUSCH, the network equipment chooses the GB-PUSCH as the target
Channel.
15. method as claimed in claim 12, which is characterized in that the first instruction information is specifically used for indicating the terminal
Equipment preferentially chooses the GB-PUSCH as the destination channel from the multiple channel,
The network equipment determines destination channel from multiple channels, comprising:
The network equipment determines whether that upstream data transmits on the GB-PUSCH;
If there is upstream data to transmit on the GB-PUSCH, the network equipment chooses the GB-PUSCH as the target
Channel.
16. method as claimed in claim 15, which is characterized in that the network equipment determines target letter from multiple channels
Road, comprising:
If transmitting on the GB-PUSCH without upstream data, the network equipment determines whether upstream data described
It is transmitted on GF-PUSCH;
If there is upstream data to transmit on the GF-PUSCH, the network equipment chooses the GF-PUSCH as the target
Channel.
17. method as claimed in claim 11, which is characterized in that the network equipment determines target letter from multiple channels
Road, comprising:
In the case where the type of the UCI belongs to the first kind, the network equipment is chosen described in the GF-PUSCH conduct
Destination channel;
In the case where the type of the UCI belongs to Second Type, the network equipment is chosen described in the GB-PUSCH conduct
Destination channel;
Wherein, the first kind is different with the Second Type.
18. method as claimed in claim 17, which is characterized in that the UCI of the first kind includes needing periodicity sending
UCI, the UCI of the Second Type includes the UCI for not needing periodicity sending.
19. the method as described in any one of claim 11-18, which is characterized in that the terminal equipment configuration has multiple GF-
PUSCH, the method also includes:
The network equipment sends second indication information to the terminal device, and the second indication information is used to indicate described more
It can be used for the target GF-PUSCH that the terminal device sends the UCI to the network equipment in a GF-PUSCH.
20. a kind of terminal device characterized by comprising
Determining module, for determining destination channel from multiple channels, the multiple channel includes exempting to authorize physical uplink shared
Channel GF-PUSCH and authorization Physical Uplink Shared Channel GB-PUSCH;
Transceiver module, for sending ascending control information UCI to the network equipment by the destination channel.
21. terminal device as claimed in claim 20, which is characterized in that the transceiver module is also used to:
Receive the first instruction information that the network equipment is sent, the first instruction information be used to indicate the terminal device from
The GF-PUSCH or the GB-PUSCH are preferentially chosen in the multiple channel as the destination channel;
The determining module is specifically used for:
The GF-PUSCH or the GB-PUSCH conduct are chosen from the multiple channel according to the first instruction information
The destination channel.
22. terminal device as claimed in claim 21, which is characterized in that the first instruction information is specifically used for described in instruction
Terminal device preferentially chooses the GF-PUSCH as the destination channel from the multiple channel,
The determining module is specifically used for:
Determine whether to send upstream data in the GF-PUSCH;
If sending upstream data in the GF-PUSCH, the GF-PUSCH is chosen as the destination channel.
23. terminal device as claimed in claim 22, which is characterized in that the determining module is specifically used for:
If not sending upstream data in the GF-PUSCH, it is determined whether send upstream data in the GB-PUSCH;
If sending upstream data in the GB-PUSCH, the GB-PUSCH is chosen as the destination channel.
24. terminal device as claimed in claim 21, which is characterized in that the first instruction information is specifically used for described in instruction
Terminal device preferentially chooses the GB-PUSCH as the destination channel from the multiple channel,
The determining module is specifically used for:
Determine whether to send upstream data in the GB-PUSCH;
If sending upstream data in the GB-PUSCH, the GB-PUSCH is chosen as the destination channel.
25. terminal device as claimed in claim 24, which is characterized in that the determining module is specifically used for:
If not sending upstream data in the GB-PUSCH, it is determined whether send upstream data on the GF-PUSCH;
If sending upstream data in the GF-PUSCH, the GF-PUSCH is chosen as the destination channel.
26. terminal device as claimed in claim 20, which is characterized in that the determining module is specifically used for:
In the case where the type of the UCI belongs to the first kind, it is determined whether send upstream data in the GF-PUSCH;
If sending upstream data in the GF-PUSCH, the GF-PUSCH is chosen as the destination channel.
27. terminal device as claimed in claim 26, which is characterized in that the determining module is also used to:
In the case where the type of the UCI belongs to Second Type, it is determined whether send upstream data in the GB-PUSCH;
If sending upstream data in the GB-PUSCH, the GB-PUSCH is chosen as the destination channel;
Wherein, the first kind is different with the Second Type.
28. terminal device as claimed in claim 27, which is characterized in that the UCI of the first kind includes needing periodicity
The UCI of transmission, the UCI of the Second Type include the UCI without periodicity sending.
29. the terminal device as described in any one of claim 20-28, which is characterized in that the terminal equipment configuration has more
A GF-PUSCH, the transceiver module are also used to:
The second indication information that the network equipment is sent is received, the second indication information is used to indicate the multiple
It can be used for the target GF-PUSCH that the terminal device sends the UCI to the network equipment in GF-PUSCH.
30. a kind of network equipment characterized by comprising
Determining module, for determining destination channel from multiple channels, the multiple channel includes exempting to authorize physical uplink shared
Channel GF-PUSCH and authorization Physical Uplink Shared Channel GB-PUSCH;
Transceiver module, the ascending control information UCI for being sent from the destination channel receiving terminal apparatus.
31. the network equipment as claimed in claim 30, which is characterized in that received in the transceiver module from the destination channel
Before the UCI that the terminal device is sent, the transceiver module is also used to:
The first instruction information is sent to the terminal device, the first instruction information is used to indicate the terminal device from described
The GF-PUSCH or the GB-PUSCH are preferentially chosen in multiple channels as the destination channel.
32. the network equipment as claimed in claim 31, which is characterized in that the first instruction information is specifically used for described in instruction
Terminal device preferentially chooses the GF-PUSCH as the destination channel from the multiple channel,
The determining module is specifically used for:
Determine whether that upstream data transmits on the GF-PUSCH;
If there is upstream data to transmit on the GF-PUSCH, the GF-PUSCH is chosen as the destination channel.
33. the network equipment as claimed in claim 32, which is characterized in that the first instruction information is specifically used for described in instruction
Terminal device preferentially chooses the GF-PUSCH as the destination channel from the multiple channel,
The determining module is specifically used for:
If being transmitted on the GF-PUSCH without upstream data, it is determined whether there is upstream data to upload in the GB-PUSCH
It is defeated;
If there is upstream data to transmit on the GB-PUSCH, the GB-PUSCH is chosen as the destination channel.
34. the network equipment as claimed in claim 31, which is characterized in that the first instruction information is specifically used for described in instruction
Terminal device preferentially chooses the GB-PUSCH as the destination channel from the multiple channel,
The determining module is specifically used for:
Determine whether that upstream data transmits on the GB-PUSCH;
If there is upstream data to transmit on the GB-PUSCH, the GB-PUSCH is chosen as the destination channel.
35. the network equipment as claimed in claim 34, which is characterized in that the determining module is specifically used for:
If being transmitted on the GB-PUSCH without upstream data, it is determined whether there is upstream data to upload in the GF-PUSCH
It is defeated;
If there is upstream data to transmit on the GF-PUSCH, the GF-PUSCH is chosen as the destination channel.
36. the network equipment as claimed in claim 30, which is characterized in that the determining module is specifically used for:
In the case where the type of the UCI belongs to the first kind, the GF-PUSCH is chosen as the destination channel;
In the case where the type of the UCI belongs to Second Type, the GB-PUSCH is chosen as the destination channel;
Wherein, the first kind is different with the Second Type.
37. the network equipment as claimed in claim 36, which is characterized in that the UCI of the first kind includes needing periodicity
The UCI of transmission, the UCI of the Second Type include the UCI for not needing periodicity sending.
38. the network equipment as described in any one of claim 30-37, which is characterized in that the terminal equipment configuration has more
A GF-PUSCH, the transceiver module are also used to:
Second indication information is sent to the terminal device, the second indication information is used to indicate in the multiple GF-PUSCH
It can be used for the target GF-PUSCH that the terminal device sends the UCI to the network equipment.
Priority Applications (3)
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CN201710686614.3A CN109391421B (en) | 2017-08-11 | 2017-08-11 | Method for transmitting uplink control information, terminal equipment and network equipment |
CN202210121877.0A CN114630433A (en) | 2017-08-11 | 2017-08-11 | Method for transmitting uplink control information, terminal equipment and network equipment |
PCT/CN2018/099285 WO2019029547A1 (en) | 2017-08-11 | 2018-08-08 | Method for transmitting uplink control information, terminal device, and network device |
Applications Claiming Priority (1)
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CN201710686614.3A CN109391421B (en) | 2017-08-11 | 2017-08-11 | Method for transmitting uplink control information, terminal equipment and network equipment |
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CN202210121877.0A Division CN114630433A (en) | 2017-08-11 | 2017-08-11 | Method for transmitting uplink control information, terminal equipment and network equipment |
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CN109391421A true CN109391421A (en) | 2019-02-26 |
CN109391421B CN109391421B (en) | 2022-02-18 |
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CN201710686614.3A Active CN109391421B (en) | 2017-08-11 | 2017-08-11 | Method for transmitting uplink control information, terminal equipment and network equipment |
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Cited By (2)
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CN111835481A (en) * | 2019-08-02 | 2020-10-27 | 维沃移动通信有限公司 | Uplink transmission method, terminal and network side equipment |
CN114285534A (en) * | 2020-09-28 | 2022-04-05 | 维沃移动通信有限公司 | Transmission information determining method, device and terminal |
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US20190082456A1 (en) * | 2017-09-08 | 2019-03-14 | Electronics And Telecommunications Research Institute | Method for transmitting and receiving uplink data channel, and apparatus thereof |
CN111586850B (en) * | 2019-02-15 | 2023-09-19 | 大唐移动通信设备有限公司 | Transmission method, receiving method, terminal and network equipment |
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Also Published As
Publication number | Publication date |
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CN114630433A (en) | 2022-06-14 |
WO2019029547A1 (en) | 2019-02-14 |
CN109391421B (en) | 2022-02-18 |
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