CN109067512B - Method for transmitting signals, relevant apparatus and system - Google Patents
Method for transmitting signals, relevant apparatus and system Download PDFInfo
- Publication number
- CN109067512B CN109067512B CN201811255012.3A CN201811255012A CN109067512B CN 109067512 B CN109067512 B CN 109067512B CN 201811255012 A CN201811255012 A CN 201811255012A CN 109067512 B CN109067512 B CN 109067512B
- Authority
- CN
- China
- Prior art keywords
- bit
- configuration
- scheduling request
- state
- indicate
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0048—Allocation of pilot signals, i.e. of signals known to the receiver
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/12—Arrangements for detecting or preventing errors in the information received by using return channel
- H04L1/16—Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
- H04L1/18—Automatic repetition systems, e.g. Van Duuren systems
- H04L1/1806—Go-back-N protocols
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/12—Arrangements for detecting or preventing errors in the information received by using return channel
- H04L1/16—Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
- H04L1/18—Automatic repetition systems, e.g. Van Duuren systems
- H04L1/1812—Hybrid protocols; Hybrid automatic repeat request [HARQ]
-
- 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
- H04L5/0001—Arrangements for dividing the transmission path
- H04L5/0003—Two-dimensional division
- H04L5/0005—Time-frequency
- H04L5/0007—Time-frequency the frequencies being orthogonal, e.g. OFDM(A), DMT
- H04L5/0008—Wavelet-division
-
- 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
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/0453—Resources in frequency domain, e.g. a carrier in FDMA
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
Landscapes
- Engineering & Computer Science (AREA)
- Signal Processing (AREA)
- Computer Networks & Wireless Communication (AREA)
- Mobile Radio Communication Systems (AREA)
Abstract
It is used to indicate the scheduling request of the first scheduling request configuration association, the first scheduling configuration is at least one scheduling request configuration in multiple scheduling request configurations;The terminal generates hybrid automatic repeat-request bit;Terminal sends hybrid automatic repeat-request bit and the first bit on a time quantum.Above scheme can support more scheduling requests to configure, and adapt to the multi-service scene in future communication systems.
Description
Technical field
This application involves wireless communication technology field more particularly to method for transmitting signals, relevant apparatus and system.
Background technique
In the system of LTE-A, as shown in Figure 1, terminal device never dispatches resource to the process for sending up channel
Can include: the time of the scheduling request to be sent such as UE (scheduling request, SR), UE send SR, and eNB receives SR and produces
Raw scheduling authorization, eNB send scheduling authorization, and UE receives scheduling authorization, and UE sends up channel, if the data volume of UE is not yet
It has been sent that, UE also waits next scheduling authorization.
In lte-a system, as shown in Fig. 2, if terminal device uses PUCCH format 3/PUCCH format 4/PUCCH lattice
The subframe of the hybrid automatic repeat-request (Hybrid Automatic Repeat reQuest, HARQ) of formula 5 is allocated to high level
The subframe of the SR of terminal is the same subframe, then scheduling request bit is 1 bit.If instead not being the same subframe, adjust
Degree request bit is 0 bit.The scheduling request bit of this 1 bit is added to behind a string of continuous HARQ bits.Tool
Body, when the bit status of this 1 bit is 1, indicate the scheduling request (positive SR) of affirmative, scheduling certainly is asked
Asking indicates that current terminal has upstream data or the demand network equipment to terminal distribution based on the resource being used for transmission.Compare when this 1
When special bit status is 0, indicate that the scheduling request (negative SR) of negative, the scheduling request of negative indicate current terminal
The resource for not having upstream data or being used for transmission without terminal distribution.
In the 5th generation mobile wireless technology (NR) system, there are a variety of types of service, and multiple business type is corresponding
Different business demands, such as uRLLC require the short time-delay high reliability i.e. transmission success in 1ms, and eMBB requires spectrum efficiency
High but do not have delay requirement, mMTC requires periodical low-power to send etc..For different business, terminal device needs to request
The resource of different attribute (Numerology/TTI), to meet the business demand of different business.
But the scheduling request bit of this 1 bit in LTE-A does not support the multi-service scene of the following 5G, now urgently
It need to solve the problems, such as this.
Summary of the invention
This application provides method for transmitting signals, relevant apparatus and systems, and more scheduling requests can be supported to configure, and adapt to future
Multi-service scene in communication system.
In a first aspect, applying this application provides a kind of method for transmitting signals in terminal equipment side, this method comprises: eventually
End equipment generates the first bit and hybrid automatic repeat-request bit, and sends mixed automatic retransfer on a time quantum and ask
Ask bit and the first bit.Wherein, the first bit can serve to indicate that the scheduling request of the first scheduling request configuration association, first
Scheduling request configuration can be at least one scheduling request configuration in multiple scheduling request configurations.
Second aspect is applied this application provides a kind of method for transmitting signals in network equipment side, this method comprises: net
Network equipment receives hybrid automatic repeat-request bit and the first bit from terminal device on a time quantum, and according to
First bit determines the scheduling request of the first scheduling request configuration association.Wherein, the first bit can serve to indicate that the first scheduling
The scheduling request of configuration association is requested, the configuration of the first scheduling request can be at least one of multiple scheduling request configurations scheduling
Request configuration.
The method for implementing first aspect and second aspect description, can support more scheduling requests to configure, adapt to future communications system
Multi-service scene in system.
In the method that first aspect and second aspect describe, the first bit, that is, SR bit.Scheduling request is configured below
Referred to as SR configures (i.e. SR configuration).
With reference to first aspect or second aspect, below first introduction define the several ways of the quantity of above-mentioned multiple SR configurations.
(1) quantity of mode one, above-mentioned multiple SR configurations are equal to the quantity of whole SR configuration.I.e. above-mentioned multiple SR configurations can
To be whole SRs configuration of the network equipment dynamic configuration to terminal, it is also possible to the network equipment by high-level signaling and is allocated to terminal
Whole SR configuration, be also possible to other terminal equipment configurations to terminal whole SR configure.
The efficiency that terminal device reports whole associated SR of SR configuration can be improved in mode one.
(2) quantity of mode two, above-mentioned multiple SR configurations are equal to the quantity of the SR configuration on a time quantum.I.e.
Above-mentioned multiple SR configuration can be network equipment dynamic configuration and configure to the SR on a time quantum of terminal, can also be with
It is that the network equipment is configured by the SR on a time quantum that high-level signaling is allocated to terminal, is also possible to other terminals
It is allocated to the SR configuration on a time quantum of terminal.
Mode two only reports actual disposition to be associated with to the SR configuration on a time quantum of terminal
SR, the expense of SR bit can be reduced.
(3) quantity of mode three, above-mentioned multiple SR configurations are equal to the quantity of the SR configuration on multiple time quantums.On i.e.
The SR configuration on multiple time quantums that multiple SR configurations can be network equipment dynamic configuration to terminal is stated, net is also possible to
Network equipment is configured by the SR on multiple time quantums that high-level signaling is allocated to terminal, is also possible to other terminals and is allocated to
The SR configuration on multiple time quantums of terminal.Multiple time quantums be include the terminal send hybrid automatic repeat-request ratio
One time quantum of special and described first bit.
Mode three only reports actual disposition associated to the SR configuration on multiple time quantums of terminal
SR can reduce the expense of SR bit.
(4) mode four, the association that the quantity of above-mentioned multiple SR configurations is equal on one or more time quantums are mutually same as above
The quantity of the SR configuration of row control channel attribute.I.e. above-mentioned multiple SR configuration can be network equipment dynamic configuration and exist to terminal
The SR configuration of the identical uplink control channel attribute of association on one or more time quantums, can be the network equipment and passes through high level
The SR of association identical uplink control channel attribute of the signal deployment to terminal on one or more time quantums is configured, can be with
It is that the SR of the identical uplink control channel attribute of association on one or more time quantums that other terminals are allocated to terminal matches
It sets.
Mode four, which can be distinguished, reports the SR configuration for being associated with different uplink control channel attributes, cleverer
It is living.The expense of SR bit can also be reduced for different uplink control channel attributes.
With reference to first aspect or second aspect, the design scheme of SR bit provided by the present application is described below.
A bit in one: SR bit of scheme (i.e. the first bit) is used to indicate aforementioned at least one SR configuration (i.e. the
One SR configuration) in a SR configuration association scheduling request.It should be understood that the bit pair in the first SR configuration and SR bit
It answers.Specifically, a SR configures a bit in corresponding SR bit.At this moment, the amount of bits OSR of SR bit is equal to and is allocated to
The quantity of multiple SR configuration (the multiple SR configuration referred in aforementioned invention principle) of terminal, this is the amount of bits of SR bit
A kind of OSR mode relevant to the quantity that multiple SR are configured.
Specifically, the corresponding relationship of bit can be by network equipment dynamic configuration in SR configuration and SR bit, it can also be by
The network equipment is configured by high-level signaling.The corresponding relationship may include that B SR configuration and this B SR configure corresponding B
A bit.In this way, terminal device can determine aforementioned at least one SR configuration (i.e. the first SR configuration) according to the corresponding relationship
Corresponding bit in SR bit.Here, B is positive integer.In the application, the network equipment or high-level signaling can be configured
The corresponding relationship be known as the first corresponding relationship.
It is not limited to a SR and configures the bit corresponded in SR bit.In scheme one, a SR configuration can also be right
Answer multiple bits in SR bit.The SR of multiple one SR configuration association of bit indication can be used.At this moment, the ratio of SR bit
Special quantity OSR is equal to the number of SR configuration (the multiple SRs that in aforementioned invention principle refer to configure) of the network equipments configuration to terminal
The integral multiple of amount, this is the amount of bits OSR of SR bit relevant to the quantity that network equipments configuration is configured to the SR of terminal another
A kind of mode.
The technical effect of scheme one: supporting reporting for more SR, and may be implemented flexibly to report multiple and different SR
The associated SR of configuration.
The bit status of two: SR bit of scheme (the first bit) is used to indicate aforementioned at least one SR configuration (i.e. the first SR
Configuration) associated scheduling request.The shape of SR (positive SR or the negative SR) and SR bit of first SR configuration association
State is corresponding.
Optionally, it is negative SR that the first state of SR bit, which is used to indicate the SR of the first SR configuration association,.It is optional
, the SR that at least one state except the first state of SR bit is used to indicate the first SR configuration association is positive SR.
Optionally, any one state except the first state of SR bit is not used in any in the SR of the first SR configuration association of instruction
One SR is negative SR.
Specifically, the corresponding relationship of the state of SR and SR bit can be by network equipments configuration, it can also be by high-level signaling
Configuration.The network equipment or the corresponding relationship of high-level signaling configuration may include that the SR and this P SR of P SR configuration association match
Set the corresponding Q state of associated SR.In this way, terminal can determine aforementioned at least one SR configuration according to the corresponding relationship
The corresponding state of (i.e. the first SR configuration) associated SR.Here, Q >=3, Q are positive integers, and P >=2, P are positive integers.In the application,
The corresponding relationship that the network equipment or high-level signaling configure can be known as the second corresponding relationship.
In scheme two, the amount of bits OSR of SR bit can be with are as follows: OSR=ceil (log2 (1+
Nconfiguration)), wherein Nconfiguration indicates that the SR configuration for being allocated to terminal (mentions in aforementioned invention principle
And multiple SR configuration) quantity, ceil expression round up.This is the amount of bits OSR and network equipments configuration of SR bit
The relevant another way of quantity configured to the SR of terminal.
It optionally, can be using the index of the associated SR configuration of a positive SR as maximum value, rope
Drawing and being less than the associated SR of SR configuration of the maximum value is positive SR.In this way, terminal device need to only pass through
The state of the corresponding SR bit of this positive SR can indicate that multiple SR configuration are associated
positive SR。
For example, it is assumed that the state of SR bit is that " 100 " are used to indicate the associated positive of SR configuration#3
SR.So, it regard the index " 3 " of SR configuration#3 as maximum value, index is less than the SR of " 3 "
The SR that configuration#2, SR configuration#1, SR configuration#0 are respectively associated also is
positive SR.Example is used only for explaining the application, should not constitute restriction.
It optionally, can be using the index of the associated SR configuration of a positive SR as minimum value, rope
Drawing and being greater than the associated SR of SR configuration of the minimum value is positive SR.In this way, terminal device need to only pass through
The state of the corresponding SR bit of this positive SR can indicate that multiple SR configuration are associated
positive SR。
For example, it is assumed that the state of SR bit is that " 001 " is used to indicate the associated positive of SR configuration#1
SR.So, it regard the index " 1 " of SR configuration#1 as minimum value, index is greater than the SR of " 1 "
The SR that configuration#2, SR configuration#3 are respectively associated also is positive SR.Example is used only for
It explains the application, restriction should not be constituted.
The technical effect of scheme two: aforementioned at least one SR configuration (i.e. the first SR configuration) is indicated by less bit
Respective associated SR, it is possible to reduce the transmission success of uplink control channel can be improved in the information content of uplink control channel carrying
Rate.
In conjunction with above-described embodiment one or above-described embodiment two, in some optional implementations and SR bit together
The amount of bits of the HARQ of transmission is greater than or equal to X, and X >=2, X are positive integers.In this way, can avoid influencing the few HARQ's of bit
Transmission success rate.Because the amount of bits of HARQ is bigger, the reliability for the transmission design for being HARQ is higher.In other words,
When the amount of bits of HARQ is less, be not suitable for the SR bit of the more bits of addition behind HARQ bit.
In conjunction with above-described embodiment one or above-described embodiment two, in some optional implementations, current time unit
Length be greater than or equal to Y symbol, Y >=1, Y are positive integers.In this way, can avoid influencing in the length of short time unit
The transmission success rate of uplink control channel.Because the time span of current time zone resource is longer, uplink control in current time unit
The transmission power of channel processed is higher, and reliability is higher.In other words, when the time span of current time unit is fewer, currently
Uplink control channel on time quantum is not suitable for the SR bit of the more bits of carrying.
The third aspect, this application provides a kind of terminal device, which may include multiple functional modules, be used for phase
Side provided by method provided by the execution first aspect answered or any one in the possible embodiment of first aspect
Method.
Fourth aspect, this application provides a kind of network equipment, which may include multiple functional modules, be used for phase
Side provided by method provided by the execution second aspect answered or any one in the possible embodiment of second aspect
Method.
5th aspect, this application provides a kind of terminal devices, for executing the method for transmitting signals of first aspect description.
The terminal can include: memory and the processor coupled with the memory, transceiver, in which: the transceiver is used for
It is communicated with other communication equipments (such as network equipment).The memory is used to store the method for transmitting signals of first aspect description
Realize code, the processor is for executing the program code stored in the memory, i.e., provided by execution first aspect
Any one provided method in method or the possible embodiment of first aspect.
6th aspect, this application provides a kind of network equipments, for executing the method for transmitting signals of first aspect description.
The network equipment can include: memory and the processor coupled with the memory, transceiver, in which: the transceiver
For being communicated with other communication equipments (such as terminal).The memory is used to store the method for transmitting signals of first aspect description
Realize code, the processor is for executing the program code stored in the memory, i.e., provided by execution first aspect
Any one provided method in method or the possible embodiment of first aspect.
7th aspect, this application provides a kind of chip, the chip may include input interface, output interface, at least one
Processor and at least one processor, at least one processor are used for store code, at least one described processor is used for
The code in the memory is executed, when the code is performed, the chip realizes method provided by first aspect, or
Any one provided method in the possible embodiment of person's first aspect.
Eighth aspect, this application provides a kind of chip, the chip may include input interface, output interface, at least one
Processor and at least one processor, at least one processor are used for store code, at least one described processor is used for
The code in the memory is executed, when the code is performed, the chip realizes method provided by second aspect, or
Any one provided method in the possible embodiment of person's second aspect.
9th aspect, this application provides a kind of device, the devices can include: processor, and it is coupled in the processing
One or more interfaces of device.Wherein: the processor is described for generating the first bit and hybrid automatic repeat-request bit
First bit is used to indicate the scheduling request of the first scheduling request configuration association, and the first scheduling request configuration is multiple scheduling
At least one scheduling request configuration in request configuration;The interface is used to export first bit that the processor generates
With the hybrid automatic repeat-request bit.
Specifically, the processor can be used for calling method for transmitting signals provided by first aspect from memory, or
The realization program of any one provided method for transmitting signals in the possible embodiment of person's first aspect, and execute the journey
The instruction that sequence includes.The interface can be used for exporting the processing result of the processor.
Tenth aspect, this application provides a kind of device, the devices can include: processor, and it is coupled in the processing
One or more interfaces of device.Wherein: the processor is used to determine first according to the first bit from terminal device
The scheduling request of scheduling request configuration association;First bit is that mixing from terminal device is received on a time quantum
It is received when closing automatic repeat request bit;The first scheduling request configuration is at least one in multiple scheduling request configurations
A scheduling request configuration;First bit is used to indicate the scheduling request of the first scheduling request configuration association;The interface is used
In the scheduling request for exporting the first scheduling request configuration association that the processor determines.
Specifically, the processor can be used for calling method for transmitting signals provided by second aspect from memory, or
The realization program of any one provided method for transmitting signals in the possible embodiment of person's second aspect, and execute the journey
The instruction that sequence includes.The interface can be used for exporting the processing result of the processor.
Tenth on the one hand, and this application provides a kind of wireless communication systems, including terminal device and the network equipment, in which:
The terminal can be used for executing in the possible embodiment of method for transmitting signals or first aspect provided by first aspect
Any one provided method for transmitting signals;The network equipment can be used for executing signal transmission side provided by second aspect
Any one provided method for transmitting signals in method or the possible embodiment of aspect
Specifically, the terminal device can be the terminal device that the third aspect or the 5th aspect describe, the network is set
The standby network equipment that can be fourth aspect or the 6th aspect and describe.
12nd aspect, provides a kind of computer readable storage medium, realization is stored on the readable storage medium storing program for executing
Letter provided by any one in the possible embodiment of method for transmitting signals or first aspect provided by first aspect
The program code of number transmission method, the program code include method for transmitting signals or first provided by operation first aspect
Any one provided method for transmitting signals in the possible embodiment of aspect executes instruction.
13rd aspect, provides a kind of computer readable storage medium, realization is stored on the readable storage medium storing program for executing
Letter provided by any one in the possible embodiment of method for transmitting signals or second aspect provided by second aspect
The program code of number transmission method, the program code include method for transmitting signals or second provided by operation second aspect
Any one provided method for transmitting signals in the possible embodiment of aspect executes instruction.
Detailed description of the invention
Technical solution in ord to more clearly illustrate embodiments of the present application or in background technique below will be implemented the application
Attached drawing needed in example or background technique is illustrated.
Fig. 1 is the flow diagram of the upstream scheduling process in LTE;
Fig. 2 is the schematic diagram of the HARQ and SR bit transmitted together in the PUCCH for carry in LTE several formats;
Fig. 3 be this application involves wireless communication system configuration diagram;
Fig. 4 is the hardware structure schematic diagram for the terminal that one embodiment of the application provides;
Fig. 5 is the hardware structure schematic diagram for the network equipment that one embodiment of the application provides;
Fig. 6 is the schematic diagram of multiple SR configurations provided by the present application;
Fig. 7 is the flow diagram of method for transmitting signals provided by the present application;
Fig. 8 is the signal that the network equipments configuration that one embodiment of the application provides is configured to multiple SR of terminal device
Figure;
Fig. 9 is that the network equipments configuration that another embodiment of the application provides is shown to what multiple SR of terminal device were configured
It is intended to;
Figure 10 is that the network equipments configuration that the further embodiment of the application provides is configured to multiple SR of terminal device
Schematic diagram;
Figure 11 is that the network equipments configuration that the further embodiment of the application provides is configured to multiple SR of terminal device
Schematic diagram;
Figure 12 is that the network equipments configuration that the further embodiment of the application provides is configured to multiple SR of terminal device
Schematic diagram;
Figure 13 A-13E is the schematic diagram of the positional relationship of several HARQ and SR bits provided by the present application;
Figure 14 A-14B is two kinds of SR bits provided by the present application schematic diagram corresponding with SR configuration
Figure 15 is the wireless communication system of the offer of the application, the functional block diagram of terminal device and the network equipment;
Figure 16 is a kind of structural schematic diagram of device of the offer of the application;
Figure 17 is the structural schematic diagram of another device of the offer of the application.
Specific embodiment
The term that presently filed embodiment part uses is only used for explaining the specific embodiment of the application, rather than
It is intended to limit the application.
Fig. 3 show this application involves wireless communication system.The wireless communication system can be global mobile communication
(Global System of Mobile communication, GSM) system, CDMA (Code Division
Multiple Access, CDMA) system, wideband code division multiple access (Wideband Code Division Multiple Access
Wireless, WCDMA) system, General Packet Radio Service (General Packet Radio Service, GPRS) system,
Universal Mobile Communication System (Universal Mobile Telecommunications System, UMTS), long term evolution
(Long Term Evolution, LTE) system, is also possible to the 5th third-generation mobile communication (the 5th of the following evolution
Generation, 5G) system, (NR) system of newly eating dishes without rice or wine, machine and machine communication (Machine to Machine, M2M) system
Deng.As shown in figure 3, wireless communication system 100 can include: one or more network equipments 101, one or more terminal devices
103 and core net 115.Wherein:
Terminal device 103 is referred to as user equipment (User Equipment, UE), access terminal, subscriber unit, use
Family station, movement station, mobile station, remote station, remote terminal, mobile device, user terminal, terminal, wireless telecom equipment, Yong Hudai
Reason or user apparatus.Terminal device 103 can be in WLAN (Wireless Local Area Networks, WLAN)
Website (STAION, ST), can 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) equipment, calculates equipment or company at the handheld device with wireless communication function
It is connected to other processing equipments, mobile unit, wearable device and the next generation communication system of radio modem, for example,
The public land of terminal device 103 or the following evolution in 5th Dai Tongxin (fifth-generation, 5G) network is mobile
Terminal device 103 in network (Public Land Mobile Network, PLMN) network is new wireless (New Radio, NR)
Terminal device 103 in communication system etc..
Non-limiting as example, in embodiments of the present invention, which can also be wearable device.It can
Wearable device is referred to as wearable intelligent equipment, is to carry out intelligentized design to daily wearing using wearable technology, open
Issue the general name for the equipment that can be dressed, such as glasses, gloves, wrist-watch, dress ornament and shoes.Wearable device is directly through body
On, or it is integrated into the clothes of user or a kind of portable device of accessory.Wearable device is not only a kind of hardware device,
It is even more interacted by software support and data interaction, cloud to realize powerful function.Broad sense wearable intelligent equipment includes
Function is complete, size is big, can not depend on smart phone realizes complete or partial function, such as: smartwatch or intelligent glasses
Deng, and only it is absorbed in certain a kind of application function, it needs to be used cooperatively with other equipment such as smart phone, such as all kinds of carry out signs
The Intelligent bracelet of monitoring, intelligent jewellery etc..
It waits in addition, the network equipment 101 can be the network equipment 101 for the equipment with mobile device communication, the network equipment
101 can be the access point (Access Point, AP) in WLAN, base station (the Base Transceiver in GSM or CDMA
Station, BTS), it is also possible to the base station (NodeB, NB) in WCDMA, can also be the evolved base station in LTE
(Evolutional Node B, eNB or eNodeB) perhaps relay station or access point or mobile unit, wearable device with
And in the network equipment 101 in future 5G network or the network equipment 101 in the PLMN network of the following evolution or NR system
Base station (new generation Node B, gNodeB) of new generation etc..
In addition, in embodiments of the present invention, the network equipment 101 provides service for cell, terminal device 103 passes through the cell
The transfer resource (for example, frequency domain resource, in other words, frequency spectrum resource) used is communicated with the network equipment 101, which can be with
It is the corresponding cell of the network equipment 101 (such as base station), cell may belong to macro base station, also may belong to cell (small
Cell) corresponding base station, cell here may include: urban cells (Metro cell), Microcell (Micro cell),
Picocell (Pico cell), Femto cell (Femto cell) etc., these cells are small with coverage area, emit function
The low feature of rate, suitable for providing the data transport service of high-speed.
In addition, can there are multiple cells to work on carrier wave in LTE system or NR system with frequency simultaneously, in certain particular fields
Under scape, it is also assumed that above-mentioned carrier wave is equal with the concept of cell.Such as carrier wave polymerization (Carrier Aggregation,
CA the carrier index that secondary carrier can be carried simultaneously when configuring secondary carrier for UE) under scene and work are in the auxiliary small of the secondary carrier
The cell ID (Cell Indentify, Cell ID) in area, in such a case, it is possible to think the concept etc. of carrier wave and cell
Together, for example one cell of one carrier wave of UE access and access is equivalent.
In embodiments of the present invention, the network equipment 101 (or terminal 103) can work in licensed band or exempt from licensed band
On.
It should be noted that the wireless communication system 100 shown in Fig. 3 is used for the purpose of more clearly illustrating the skill of the application
Art scheme does not constitute the restriction to the application, those of ordinary skill in the art it is found that with the network architecture differentiation and new industry
The appearance for scene of being engaged in, technical solution provided by the present application are equally applicable for similar technical problem.
The terminal device 200 of some embodiments of the present application offer is shown with reference to Fig. 4, Fig. 4.As shown in figure 4, terminal is set
Standby 200 can include: one or more terminal handlers 201, memory 202, communication interface 203, receiver 205, transmitter
206, coupler 207, antenna 208, user interface 202 and input/output module (including audio input output module 210, are pressed
Key input module 211 and display 212 etc.).These components can be connected by bus 204 or other modes, and Fig. 4 is to pass through
For bus connection.Wherein:
Communication interface 203 can be used for terminal device 200 and other communication equipments, such as the network equipment, be communicated.Specifically
, the network equipment can be the network equipment 300 shown in fig. 5.Specifically, communication interface 203 can be long term evolution
(LTE) (4G) communication interface is also possible to 5G or the following communication interface newly eated dishes without rice or wine.It is not limited to wireless communication interface, terminal
Equipment 200 can be configured with wired communication interface 203, such as local area access networks (Local Access Network, LAN)
Interface.
Transmitter 206 can be used for carrying out transmitting processing, such as signal modulation to the signal that terminal handler 201 exports.It connects
Receiving device 205 can be used for carrying out the received mobile communication signal of antenna 208 reception processing, such as signal demodulation.The application's
In some embodiments, transmitter 206 and receiver 205 can regard a radio modem as.In terminal device 200, hair
Emitter 206 and the quantity of receiver 205 may each be one or more.Antenna 208 can be used for the electromagnetic energy in transmission line
The electromagnetic wave being converted into free space, or the electromagnetic energy electromagnetic wave in free space being converted into transmission line.Coupling
Device 207 is used to the mobile communication signal that antenna 208 receives being divided into multichannel, distributes to multiple receivers 205.
In addition to transmitter 206 shown in Fig. 4 and receiver 205, terminal device 200 may also include other communication components, example
Such as GPS module, bluetooth (Bluetooth) module, Wireless Fidelity (Wireless Fidelity, Wi-Fi) module etc..It is unlimited
In the wireless communication signals of above-mentioned statement, terminal device 200 can also support other wireless communication signals, such as satellite-signal,
Short-wave signal etc..It is not limited to wirelessly communicate, terminal device 200 can be configured with wired network interface (such as LAN interface)
Support wire communication.
The input/output module can be used for realizing the interaction between terminal device 200 and user/external environment, can be main
Including including audio input output module 210, keyboard input module 211 and display 212 etc..Specifically, the input is defeated
Module may also include that camera, touch screen and sensor etc. out.Wherein, the input/output module is connect by user
Mouth 209 is communicated with terminal handler 201.
Memory 202 is coupled with terminal handler 201, for storing various software programs and/or multiple groups instruction.Specifically
, memory 202 may include the memory of high random access, and may also comprise nonvolatile memory, such as one or
Multiple disk storage equipments, flash memory device or other non-volatile solid-state memory devices.Memory 202 can store an operating system
(following abbreviation systems), such as the embedded OSs such as ANDROID, IOS, WINDOWS or LINUX.Memory 202 is also
It can store network communication program, which can be used for and one or more optional equipments, one or more terminals
Equipment, one or more network equipments are communicated.Memory 202 can also store user interface program, the user interface journey
Sequence can be shown by patterned operation interface by the content image of application program is true to nature, and pass through menu, dialogue
The input controls such as frame and key receive user and operate to the control of application program.
In some embodiments of the present application, one or more embodiments that memory 202 can be used for storing the application are mentioned
Realization program of the method for transmitting signals of confession in 200 side of terminal device.What one or more embodiments about the application provided
The realization of method for transmitting signals, please refers to subsequent embodiment.
Terminal handler 201 can be used for reading and executing computer-readable instruction.Specifically, terminal handler 201 can be used
In the method for transmitting signals that one or more embodiments of the program that calling is stored in memory 212, such as the application provide
Realization program in 200 side of terminal device, and execute the instruction that the program includes.
It should be understood that terminal device 200 can be the terminal 103 in the wireless communication system 100 shown in Fig. 3, it can be real
It applies as mobile device, mobile station (mobile station), mobile unit (mobile unit), radio-cell, remote unit,
User agent, mobile client etc..
It should be noted that terminal device 200 shown in Fig. 4 is only a kind of implementation of the embodiment of the present application, it is practical
In, terminal device 200 can also include more or fewer components, here with no restriction.
The network equipment 300 of some embodiments of the present application offer is shown with reference to Fig. 5, Fig. 5.As shown in figure 5, network is set
Standby 300 can include: one or more network equipment processors 301, communication interface 303, transmitter 305, receive memory 302
Device 306, coupler 307 and antenna 308.These components can be connected by bus 304 or other formulas, and Fig. 5 by bus to be connected
It is connected in example.Wherein:
Communication interface 303 can be used for the network equipment 300 and other communication equipments, such as terminal device or other networks are set
It is standby, it is communicated.Specifically, the terminal device can be terminal device 200 shown in Fig. 4.Specifically, communication interface 303
Communication interface 203 can be long term evolution (LTE) (4G) communication interface, is also possible to 5G or the following communication newly eated dishes without rice or wine connects
Mouthful.It is not limited to wireless communication interface, the network equipment 300 can be configured with wired communication interface 303 to support wire communication,
Such as the backhaul link between a network equipment 300 and other network equipments 300 can be wire communication connection.
Transmitter 305 can be used for carrying out transmitting processing, such as signal tune to the signal that network equipment processor 301 exports
System.Receiver 306 can be used for carrying out reception processing to the received mobile communication signal of antenna 308.Such as signal demodulation.In this Shen
In some embodiments please, transmitter 305 and receiver 306 can regard a radio modem as.In the network equipment 300
In, the quantity of transmitter 305 and receiver 306 may each be one or more.Antenna 308 can be used for the electricity in transmission line
Magnetic energy is converted into the electromagnetic wave in free space, or the electromagnetic wave in free space is converted into the electromagnetic energy in transmission line.
Coupler 307 can be used for mobile communication number being divided into multichannel, distribute to multiple receivers 306.
Memory 302 is coupled with network equipment processor 301, for storing various software programs and/or multiple groups instruction.Tool
Body, memory 302 may include the memory of high random access, and may also comprise nonvolatile memory, such as one
Or multiple disk storage equipments, flash memory device or other non-volatile solid-state memory devices.Memory 302 can store operation system
It unites (following abbreviation systems), such as the embedded OSs such as uCOS, VxWorks, RTLinux.Memory 302 can also store
Network communication program, which can be used for and one or more optional equipments, one or more terminal devices, and one
Or multiple network equipments are communicated.
Network equipment processor 301 can be used for carrying out wireless channel management, implementation calling and the foundation of communication link and tear open
It removes, and provides cell switching control etc. for the user in this control zone.Specifically, network equipment processor 301 can include: pipe
Reason/communication module (Administration Module/Communication Module, AM/CM) (for speech channel exchange and
The center of information exchange), basic module (Basic Module, BM) (for complete call treatment, signaling processing, radio resource
Management, the management of Radio Link and circuit maintenance function), code conversion and submultiplex unit (Transcoder and
SubMultiplexer, TCSM) (for completing multiplexing and demultiplexing and code conversion function) etc..
In the embodiment of the present application, network equipment processor 301 can be used for reading and executing computer-readable instruction.Specifically
, network equipment processor 301 can be used for calling the program being stored in memory 302, such as the one or more of the application
The method for transmitting signals that embodiment provides and executes the instruction that the program includes in the realization program of 300 side of the network equipment.
It should be understood that the network equipment 300 can be the base station 101 in the wireless communication system 100 shown in Fig. 3, it can be real
It applies as base transceiver station, wireless transceiver, a basic service set (BSS), an extended service set (ESS), NodeB,
ENodeB, access point or TRP etc..
It should be noted that the network equipment 300 shown in fig. 5 is only a kind of implementation of the embodiment of the present application, it is practical
In, the network equipment 300 can also include more or fewer components, here with no restriction.
Based on aforementioned wireless communication system 100, terminal device 200 and the corresponding embodiment of the network equipment 300, originally
Application provides a kind of method for transmitting signals.It is described in detail below.
Firstly, the application in order to facilitate understanding, be described below this application involves basic conception.
(1) scheduling request configuration (scheduling request configuration, hereinafter referred to as SR configuration)
SR configuration can be network equipment dynamic configuration to terminal, is also possible to the network equipment and is configured by high-level signaling
To terminal.High-level signaling can refer to the signaling that upper protocol levels issue, and upper protocol levels are each agreement of physical layer or more
At least one protocol layer in layer.Wherein, upper protocol levels are specifically as follows at least one of following protocol layer: media access
Control (Medium Access Control, MAC) layer, wireless spread-spectrum technology (Radio Link Control, RLC) layer, grouping
Data convergence agreement (Packet Data Convergence Protocol, PDCP) layer, wireless heterogeneous networks (Radio
Resource Control, RRC) layer and Non-Access Stratum (Non Access Stratum, NAS) etc..
It should be understood that first scheduling request of SR configuration association include it is following at least one:
1, SR configuration may be used to indicate the time-domain position and/or frequency domain position of the first scheduling request.For example, this SR is configured
Indicate the first scheduling request transmissible time cycle, i.e. the corresponding time-domain position of this time period is that transmittable first scheduling is asked
The time-domain position asked.This transmissible subcarrier spacing of the first scheduling request of SR configuration instruction, i.e. this subcarrier spacing are corresponding
Subcarrier size is the subcarrier of transmittable first scheduling request
Table 1-1, table 1-2, table 1-3 illustratively show 3 SR configuration.
SR configures call number | Time-domain position |
SR configuration#0 | Every 2ms is primary |
SR configuration#1 | Every 7 symbols are primary |
SR configuration#2 | Every 1 time slot is primary |
Table 1-1
SR configures call number | Frequency domain position |
SR configuration#0 | Physical Resource Block 1 |
SR configuration#1 | Physical Resource Block 2 |
SR configuration#2 | Physical Resource Block 1 |
Table 1-2
Table 1-3
Therein, it can be seen that multiple SR configurations can indicate identical time-domain position, different time domain positions can also indicate that
It sets.Multiple SR configurations can indicate identical frequency domain position, can also indicate that different frequency domain positions.
2, SR configuration may be used to indicate the length of time quantum shared by the uplink control channel of the first scheduling request of carrying
The size of degree and/or subcarrier spacing.For example, the time shared by the uplink control channel of this first scheduling request of SR configuration instruction
The length of unit is 2 symbols, i.e. the first scheduling request can be sent on the uplink control channel of 2 symbols.
Table 2-1, table 2-2, table 2-3 illustratively show 3 SR configuration.
SR configures call number | The length of time quantum shared by uplink control channel |
SR configuration#0 | 1ms subframe |
SR configuration#1 | 7 symbols |
SR configuration#2 | 1 time slot |
Table 2-1
SR configures call number | The size of subcarrier spacing shared by uplink control channel |
SR configuration#0 | 15khz |
SR configuration#1 | 60khz |
SR configuration#2 | 30khz |
Table 2-2
Table 2-3
Therein, it can be seen that multiple SR configurations can indicate the length of time quantum shared by identical uplink control channel
Degree, can also indicate that the length of time quantum shared by different uplink control channels.Multiple SR configurations can indicate identical
The size of subcarrier spacing shared by uplink control channel can also indicate that between subcarrier shared by different uplink control channels
Every size.
3, SR configuration may be used to indicate the attribute of the first scheduling request requested resource (Numerology/TTI/ patrolled
Collect channel).Different SR configuration pins are to different business, because demand of the different business to the attribute of resource is different.Specifically,
The attribute of the requested frequency domain resource of first scheduling request is the first Numerology (such as the first subcarrier spacing
(subcarrier spacing, SCS)) and/or the attribute of the requested time-domain resource of the first scheduling request be single at the first time
Member and/or the requested logic channel of the first scheduling request are that the first logic channel and/or the first scheduling request are requested
The priority of logic channel is the second priority.
Table 3-1, table 3-2, table 3-3, table 3-4 illustratively show 3 SR configuration.
Table 3-1
Table 3-2
Table 3-3
Table 3-4
Therein, it can be seen that multiple SR configurations can indicate the attribute of identical requested time-domain resource, can also refer to
Show the attribute of different requested time-domain resources.Multiple SR configurations can indicate the category of identical requested frequency domain resource
Property, it can also indicate that the attribute of different requested frequency domain resources.
It should be noted that above 3 SR configuration are directed to the requirement of different business respectively.It can see
Out, if the time of business demand is lower, then the requested lesser SR of time quantum can be configured to terminal
Configuration, otherwise can be beaten to terminal configuration.
Above-mentioned example is used only for explaining present invention principle, should not constitute restriction.
(2) scheduling request bit (scheduling request bit, hereinafter referred to as SR bit)
SR bit is used to indicate the SR that terminal device reports, which SR configuration of specific indicating terminal to report
Associated SR, and these the associated SR of SR configuration reported are positive SR or negative SR.
SR bit can be one or more bits.In this application, the quantity of SR bit is greater than or equal to 2.SR bit
Amount of bits can to SR configure quantity it is related.
Optionally, SR bit and HARQ bit carry in the same uplink control channel in the application.
Specifically, the quantity that terminal can be configured according to SR, determines the amount of bits of SR bit.Optionally, SR bit
Amount of bits can be equal to the quantity of SR configuration.Optionally, the amount of bits of SR bit can be equal to 1 quantity configured plus SR
With 2 to round up again after the logarithm at bottom.The correlation between quantity that amount of bits and SR about SR bit configure can
With reference to subsequent embodiment one, embodiment two, which is not described herein again.
For example, it is assumed that SR configuration#0 and the SR configuration#1 in table 3 above -4 are in time slot #
SR configuration on 0.
So, when time slot #0 arrives, terminal can indicate to be allocated to using 2 bit terminal on time slot #0
The associated SR of SR configuration a, wherein bit (such as high position bit) is used to indicate the pass SR configuration#0
The SR of connection is positive SR or negative SR, another bit (such as low level bit) is used to indicate SR
The associated SR of configuration#1 is positive SR or negative SR.That is, this 2 bit, that is, SR bits, one
Bit corresponds to a SR configuration.
So, when time slot #0 arrives, terminal can still indicate to be allocated to using 2 bit terminal on time slot #0
The associated SR of SR configuration, when this 2 bit be " 01 " when, indicate terminal device only report SR on time slot #0
The associated positive SR of configuration#1, does not report the associated SR of SR configuration#0.As this 2 bit
When for " 10 ", indicate that terminal device only reports the associated positive SR of SR configuration#0 on time slot #0, not on
Report the associated SR of SR configuration#1.When this 2 bit are " 00 ", indicate that terminal device had both reported on time slot #0
The associated negative SR of SR configuration#0, also reports the associated negative of SR configuration#1
SR。
(3) time quantum
In the application, the length of a time quantum can arbitrarily be set, here with no restriction.
For example, 1 time quantum may include one or more subframes.
Alternatively, 1 time quantum may include one or more time slots.
Alternatively, 1 time quantum may include one or more mini time slots.
Alternatively, 1 time quantum may include one or more symbols.
Alternatively, 1 time quantum may include one or more Transmission Time Intervals (Transmission Time
Interval, TTI).
Alternatively, 1 time quantum may include one or more short transmission time interval (short Transmission
Time Interval, sTTI).
Alternatively, 1 time quantum can correspond to a time mode, if first time mode is 2 symbols or 3 symbols
Transmission Time Interval, second mode be 7 symbols Transmission Time Interval.
Wherein, mini time slot includes one or more symbols, and mini time slot is less than or equal to time slot, and time slot here can be
Mini time slot in the system of 60kHz subcarrier spacing, the mini time slot being also possible in the system of 15kHz subcarrier spacing,
The embodiment of the present invention is with no restrictions.
Wherein, time slot includes one or more symbols, and time slot here can be in the system of 60kHz subcarrier spacing
Time slot, the time slot being also possible in the system of 15kHz subcarrier spacing, the embodiment of the present invention is with no restrictions.
Wherein, TTI is the parameter generally used in current communication system (for example, LTE system), is referred in Radio Link
The thread of middle schedule data transmission.In the prior art, it is generally recognized that 1TTI=1ms.That is, a TTI is a subframe
(subframe) in other words, the size of two time slots (slot), it is the base of wireless resource management (scheduling etc.) administered time
Our unit.
(4) hybrid automatic repeat-request (Hybrid Automatic Repeat reQuest, HARQ) bit, below letter
Claim HARQ bit
HARQ bit for feedback terminal decode one or more downlink datas as a result, can be affirmative acknowledgement ACK or
Negative response NACK, ACK indicate that decoding terminals are correct, and NACK indicates decoding terminals mistake.Specifically, can be terminal for HARQ
Bit feedback is also possible to terminal for HARQ bit feedback to other terminals to the network equipment.Further, if terminal is fed back
Be negative response, then receive HARQ bit equipment can the data to decoding terminals mistake carry out retransmit be used to help terminal
It is properly received downlink data.
Above-mentioned example is used only for explaining the application, should not constitute restriction.SR bit can be discussed in detail in subsequent embodiment
Amount of bits and be allocated to terminal SR configuration quantity between correlation, here first do not repeat.
Secondly, the broad inventive concept of the application can include: terminal device selects at least one SR from multiple SR configuration
Configuration.Then, terminal sends hybrid automatic repeat-request bit and SR bit on a time quantum, and the SR bit is for referring to
Show that this at least one SR configures respectively associated SR.Correspondingly, the network equipment can receive HARQ bit and SR ratio from terminal
Spy, and the SR that terminal device reports is determined according to the SR bit.In this way, terminal device can indicate that terminal device reports be
The negative SR of the positive SR of which SR configuration association and/or which SR configuration association.The application can support more SR
Configuration adapts to the multi-service scene in 5G future.
In the application, SR bit can be known as to the first bit, at least one above-mentioned SR can be configured and be known as the first SR
Configuration.Above-mentioned at least one SR configuration can be network equipments configuration to terminal device in current time unit (at i.e. one
Between unit) on SR configuration.Here, current time unit can be terminal device be ready for sending HARQ bit and SR bit when
Between unit.In the application, positive SR is that terminal device indicates that current terminal has upstream data or the demand network equipment to eventually
The resource that end distribution is used for transmission, the resource of transmission can be network equipment scheduling, be also possible to predetermined.
Negative SR is that terminal device indicates the money that current terminal device does not have upstream data or is used for transmission without terminal distribution
Source.It is understood that receiving device can if receiving device receives only the positive SR of a SR configuration association
It is negative SR with the SR configuration in addition to this SR configuration thought at least one SR configuration.Receiving device can be
The network equipment or terminal.
In the application, the network equipment can also configure the time quantum where above-mentioned multiple SR configurations.Here, SR configures institute
Time quantum, that is, terminal device can report the SR configuration association SR time quantum.In other words, in a time
There is SR configuration on unit, illustrates that terminal device can report the SR of the SR configuration association on the time quantum.It is understood that
Be be allocated to terminal SR configuration can indicate the time quantum.
Fig. 6 illustratively shows 3 SR configuration (SR configuration#0, SR of network equipments configuration
Configuration#1, SR configuration#2) where time quantum.As shown in fig. 6, SR configuration#
Time quantum where 0 is symbol #0, symbol #2, symbol #4 and symbol #6, this illustrates that terminal device can be on this 4 symbols
Send the associated SR of SR configuration#0.Example is used only for explaining the embodiment of the present application, should not constitute restriction.
It should be understood that although terminal device reports the time quantum of SR to configure by network equipments configuration or by high-level signaling
Or it is by terminal equipment configuration, still, due to generating the behavior that SR is terminal device, the network equipment only knows at one
It might have the SR of which SR configuration association on specific time quantum, in this case it is not apparent that terminal device is single in this specific time
That actually report in member is the SR of which SR configuration association.In order to allow the network equipment to know terminal device in this specific time
The SR of which SR configuration association is actually reported on unit, terminal device needs to send SR bit to the network equipment.
For example, in the example of fig. 6, terminal device can determine only to report SR on symbol #0 according to actual needs
The associated SR of configuration#0 does not report the associated SR of SR configuration#1.Terminal device is sent out to the network equipment
The SR bit " 10 " of 2 bit is sent, in this way, the network equipment can know terminal device according to the SR bit " 10 " of this 2 bit
It is practical on symbol #0 only to report the associated SR of SR configuration#0, do not report SR configuration#1 associated
SR。
For example, in the example of fig. 6, terminal device can determine to report SR on symbol #0 according to actual needs
The associated SR of configuration#0 and report the associated SR of SR configuration#1.Wherein, high-order bit " 1 " is for referring to
Show that the associated SR of SR configuration#0 is positive SR or negative SR, low level bit " 0 " is used to indicate SR
The associated SR of configuration#1 is that positive SR is negative SR.In this way, the network equipment is according to this 2 bit's
SR bit " 10 " can know that terminal device actually reports the associated SR of SR configuration#0 and upper on symbol #0
Report the associated SR of SR configuration#1.Example is used only for explaining the application, should not constitute restriction.
In the application, the amount of bits of SR bit can be configured with above-mentioned network equipments configuration to multiple SR of terminal device
Quantity it is related, subsequent implementation regular meeting illustrates this correlation, does not repeat first here.Optionally, the number of multiple SR configurations
Amount is greater than or equal to 2.The several ways for defining the quantity of above-mentioned multiple SR configurations are first introduced below.
(1) quantity of mode one, above-mentioned multiple SR configurations are equal to the quantity of whole SR configuration.I.e. above-mentioned multiple SR configurations can
To be whole SRs configuration of the network equipment dynamic configuration to terminal, it is also possible to the network equipment by high-level signaling and is allocated to terminal
Whole SR configuration, be also possible to other terminal equipment configurations to terminal whole SR configure.
For example, as shown in figure 8, network equipments configuration is configured that SR configuration# to whole SR of terminal device
0,SR configuration#1,SR configuration#2.In other words, network equipments configuration is matched to whole SR of terminal
The quantity set is 3.From figure 8, it is seen that the portion in whole SR configurations can be respectively adopted on each time quantum (symbol)
Divide SR configuration.That the first bit is used to indicate is the SR of at least one SR configuration association in whole SR configurations.For example, symbol #0
Upper to use SR configuration#0 and SR configuration#1, what the first bit was used to indicate is in whole SR configurations
The associated SR of SR configuration#0 and/or SR configuration#1.SR is used on symbol #1
Configuration#2, that the first bit is used to indicate is the associated SR of SR configuration#2 in whole SR configurations.
Example is used only for explaining the application, should not constitute restriction.
The efficiency that terminal device reports whole associated SR of SR configuration can be improved in mode one.For example, such as Fig. 8
It is shown, though the corresponding time quantum of SR configuration#2 on symbol #1, without on symbol #0, but terminal device
The associated SR of SR configuration#2 can also be notified to the network equipment on symbol #0, avoid waiting for symbol #1 and just lead to
Know the associated SR of SR configuration#2, improves efficiency.Example is used only for explaining the application, should not constitute restriction.
(2) quantity of mode two, above-mentioned multiple SR configurations are equal to the quantity of the SR configuration on a time quantum.I.e.
Above-mentioned multiple SR configuration can be network equipment dynamic configuration and configure to the SR on a time quantum of terminal, can also be with
It is that the network equipment is configured by the SR on a time quantum that high-level signaling is allocated to terminal, is also possible to other terminals
It is allocated to the SR configuration on a time quantum of terminal.
For example, as shown in figure 9, network equipments configuration is configured that SR to the SR on symbol #0 of terminal device
Configuration#0 and SR configuration#1.In other words, network equipments configuration is to terminal on symbol #0
The quantity of multiple SR configurations is 2, and that the first bit is used to indicate is SR configuration#0 and SR
The SR of SR configuration association in configuration#1.In another example as shown in figure 9, network equipments configuration according with to terminal device
SR configuration on number #1 can be with are as follows: SR configuration#2.In other words, network equipments configuration is to terminal in symbol #1
On SR configuration quantity be 1, that the first bit is used to indicate is the SR of SR configuration association in SR configuration#1.
Example is used only for explaining the application, should not constitute restriction.
In mode two, the SR configuration on a time quantum for being allocated to terminal may include being associated with different upload controls
The SR of channel attribute is configured.About the uplink control channel attribute of SR configuration association, the explanation in following manner four can refer to, this
In first do not explain.
Mode two only reports actual disposition to be associated with to the SR configuration on a time quantum of terminal
SR, the expense of SR bit can be reduced.For example, as shown in figure 8, having SR configuration#0 and SR on symbol #0
Configuration#1, terminal device can notify SR configuration#0 and SR using 2 bits
The respective associated SR of configuration#1.There was only SR configuration#2 on symbol #1, terminal device uses 1
Bit can notify the associated SR of SR configuration#2.Example is used only for explaining the application, should not constitute restriction.
(3) quantity of mode three, above-mentioned multiple SR configurations are equal to the quantity of the SR configuration on multiple time quantums.On i.e.
The SR configuration on multiple time quantums that multiple SR configurations can be network equipment dynamic configuration to terminal is stated, net is also possible to
Network equipment is configured by the SR on multiple time quantums that high-level signaling is allocated to terminal, is also possible to other terminals and is allocated to
The SR configuration on multiple time quantums of terminal.Multiple time quantums be include the terminal send hybrid automatic repeat-request ratio
One time quantum of special and described first bit.
For example, as shown in Figure 10, network equipments configuration is configured that SR to the SR on symbol #0 of terminal device
Configuration#0 and SR configuration#1, network equipments configuration are matched to the SR on symbol #1 of terminal device
It is set to: SR configuration#2.In other words, network equipments configuration is matched to the SR on symbol #0 and symbol #2 of terminal
It sets in total are as follows: SR configuration#0, SR configuration#1, configuration#2, network equipments configuration are given
The quantity of the SR configuration on symbol #0 and symbol #1 of terminal is 3, and that the first bit is used to indicate is SR
The SR of SR configuration association in configuration#0, SR configuration#1 and SR configuration#2.Example is only
It is only used for explaining the application, restriction should not be constituted.
In the example in Figure 10, this multiple time quantum is continuous.Without being limited thereto, this multiple time quantum is also possible to
It is discontinuous.For example, as shown in figure 11, network equipments configuration is configured that SR to the SR on symbol #0 of terminal device
Configuration#0 and SR configuration#1, network equipments configuration are matched to the SR on symbol #2 of terminal device
It is set to: SR configuration#1.In other words, network equipments configuration is matched to the SR on symbol #0 and symbol #2 of terminal
It sets in total are as follows: SR configuration#0 and SR configuration#1, network equipments configuration is to terminal in symbol #0
Quantity with the SR configuration on symbol #2 is 2, and that the first bit is used to indicate is SR configuration#0 and SR
The SR of SR configuration association in configuration#1.Example is used only for explaining the application, should not constitute restriction.
In mode three, the SR configuration on multiple time quantums for being allocated to terminal may include being associated with different upload controls
The SR of channel attribute is configured.About the uplink control channel attribute of SR configuration association, the explanation in following manner four can refer to, this
In first do not explain.
It is same as mode two, mode three only reports actual disposition to the SR on multiple time quantums of terminal
The associated SR of configuration, can reduce the expense of SR bit.
(4) mode four, the association that the quantity of above-mentioned multiple SR configurations is equal on one or more time quantums are mutually same as above
The quantity of the SR configuration of row control channel attribute.I.e. above-mentioned multiple SR configuration can be network equipment dynamic configuration and exist to terminal
The SR configuration of the identical uplink control channel attribute of association on one or more time quantums, can be the network equipment and passes through high level
The SR of association identical uplink control channel attribute of the signal deployment to terminal on one or more time quantums is configured, can be with
It is that the SR of the identical uplink control channel attribute of association on one or more time quantums that other terminals are allocated to terminal matches
It sets.
Here, the uplink control channel attribute of SR configuration association is the attribute for carrying the uplink control channel of SR.Uplink control
The attribute of channel processed may include at least one of following: the length or upload control for the time quantum that uplink control channel occupies
The quantity of the time quantum of channel occupancy or the minimum number bits of the format of uplink control channel or uplink control channel carrying
Or maximum number bits.
Firstly, by taking single time quantum (such as time quantum is a symbol) as an example.
For example, as shown in figure 12, network equipments configuration is configured that SR to the SR on symbol #0 of terminal device
Configuration#0, SR configuration#1 and SR configuration#3.Wherein, SR configuration#
0 is associated with identical uplink control channel attribute with SR configuration#1, which is 1
Symbol.The length for carrying the time quantum of the associated SR of SR configuration#0 is 1 symbol, carries SR
The length of the time quantum of the associated SR of configuration#1 is also 1 symbol.Wherein, SR configuration#3 is closed
The uplink control channel attribute of connection is 1 mini time slot (mini-slot) (i.e. 4 symbols), i.e. carrying SR
The length of the time quantum of the associated SR of configuration#3 is 4 symbols or 1 mini slot.
In the illustration in fig 12, from the point of view of the uplink control channel attribute of 1 symbol, network equipments configuration is to terminal device
The SR on symbol #0 be configured that SR configuration#0 and SR configuration#1, do not include SR
configuration#3.That is uplink control channel category of the network equipments configuration to 1 symbol of association on symbol #0 of terminal
Property the quantity of SR configuration be 2, then that the first bit is used to indicate at this time is SR configuration#0 and SR
The SR of SR configuration association in configuration#1.
In the illustration in fig 12, from the point of view of the uplink control channel attribute of 1 mini-slot, network equipments configuration is to eventually
The SR on symbol #0 of end equipment is configured that SR configuration#3, does not include SR configuration#0 and SR
configuration#1.That is upload control of the network equipments configuration to 1 mini-slot of association on symbol #0 of terminal
The quantity of the SR configuration of channel attribute is 1, then what the first bit was used to indicate at this time is in SR configuration#3
The SR of SR configuration association.
Above-mentioned example is used only for explaining the application, should not constitute restriction.
Secondly, by taking multiple time quantums (such as time quantum is a symbol) as an example.
In another example as shown in figure 12, network equipments configuration is configured to the SR on symbol #0- symbol #4 of terminal device
Are as follows: SR configuration#0, SR configuration#1, SR configuration#2 and SR
configuration#3.Wherein, SR configuration#0, SR configuration#1 and SR configuration#
The identical uplink control channel attribute of 2 associations, the identical uplink control channel attribute are 1 symbol.Wherein, SR
The associated uplink control channel attribute of configuration#3 is 1 mini-slot (mini-slot) (i.e. 4 symbols).
In the illustration in fig 12, from the point of view of the uplink control channel attribute of 1 symbol, network equipments configuration is to terminal device
The SR on symbol #0- symbol #4 be configured that SR configuration#0, SR configuration#1 and SR
Configuration#2 does not include SR configuration#3.I.e. network equipments configuration is to terminal in symbol #0- symbol #
The quantity of the SR configuration of the uplink control channel attribute of 1 symbol of association on 4 is 3, then the first bit is for referring at this time
What is shown is SR configuration association in SR configuration#0, SR configuration#1 and SR configuration#2
SR。
In the illustration in fig 12, from the point of view of the uplink control channel attribute of 1 mini-slot, network equipments configuration is to eventually
The SR on symbol #0- symbol #4 of end equipment is configured that SR configuration#3, does not include SR
Configuration#0, SR configuration#1 and SR configuration#2.I.e. network equipments configuration is to terminal
The quantity of the SR configuration of the uplink control channel attribute of 1 mini-slot of association on symbol #0- symbol #4 is 1, then
That the first bit is used to indicate is the SR of SR configuration association in SR configuration#3 at this time.
Above-mentioned example is used only for explaining the application, should not constitute restriction.In mode four, multiple time quantums be can be
Continuously, it is also possible to continuous.
Mode four is only carried out so that uplink control channel attribute is the length for the time quantum that uplink control channel occupies as an example
Explanation, other uplink control channel attributes are processed similarly,
Quantity such as the time quantum of uplink control channel occupancy is identical, such as is 2 time quantums, then it is assumed that on being
The attribute of row control channel is identical.It is on the contrary then, attribute is different.
Format such as uplink control channel is identical, such as is the uplink control channel of the first format, then it is assumed that is uplink
The attribute of control channel is identical.It is on the contrary then, attribute is different.
The minimum number bits carried such as uplink control channel are identical, such as 2bit, then it is assumed that are uplink control channels
Attribute it is identical.It is on the contrary then, attribute is different.
The maximum number bits carried such as uplink control channel are identical, such as 2bit, then it is assumed that are uplink control channels
Attribute it is identical.It is on the contrary then, attribute is different.
The identical or different operation of attribute, it is similar with the mode of length of time quantum that uplink control channel occupies, i.e.,
The quantity of the SR configuration of same alike result is that multiple SR configure quantity, therefore which is not described herein again.
Mode four, which can be distinguished, reports the SR configuration for being associated with different uplink control channel attributes, cleverer
It is living.
In the application, SR bit can include but is not limited to following several with positional relationship of the HARQ bit in bit sequence
Kind:
(1) the first positional relationship: as shown in FIG. 13A, SR bit is adjacent with HARQ bit, and SR bit is added to HARQ
Behind bit.
(2) second of positional relationship: as shown in Figure 13 B, SR bit is adjacent with HARQ bit, and HARQ bit is added to SR
Behind bit.Because the capacity of uplink control channel is restricted, when the total amount for transmitting information is greater than maximum capacity, it is necessary to
Subsequent information is abandoned, the information first arranged in this way can be protected, therefore when SR bit is even more important, first be arranged
SR bit can play the role of protecting SR bit.
(3) the third positional relationship: as shown in fig. 13 c, between SR bit and HARQ bit between be separated with other bits, SR ratio
Spy is added to behind HARQ bit.It, can when the importance for having information is higher than SR bit, but is less than or equal to HARQ bit
To arrange herein.The beneficial effect of arrangement is equal to (2), and important information first arranges.
(4) the 4th kinds of positional relationships: as illustrated in figure 13d, between SR bit and HARQ bit between be separated with other bits, HARQ
Bit is added to behind SR bit.It, can when the importance for having information is higher than HARQ bit, but is less than or equal to SR bit
To arrange herein.The beneficial effect of arrangement is equal to (2), and important information first arranges.
(5) the 5th kinds of positional relationships: as shown in figure 13e, SR bit is added to behind first part's HARQ bit, the
Two part HARQ bits are added to behind SR bit.The benefit of such mode is when upper where HARQ bit and SR bit
When the occupied frequency domain resource of row control channel allows to change, for example, on the first symbol uplink control channel in the first frequency domain
In resource, uplink control channel at this time puts part HARQ and partial SR bit in the second frequency domain resource on the second symbol
Wherein in a frequency domain resource, remaining HARQ and remaining SR bit are placed in another frequency domain resource, improve partial information
Reception accuracy rate.
Figure 13 A-13E merely illustrates the cascade connection in the original bit sequence of SR bit and HARQ bit before encoding.
Here, the application is not particularly limited other bits in (3) and (4), any other bit before can be coding.
Time quantum in the application can be symbol (symbol), time slot (slot), mini-slot (mini-slot) or son
Frame (subframe).The definition of these time quantums can refer to LTE standard, but be not limited to LTE standard, future communications standard
In may be different about the definition of these time quantums.
Based on above-mentioned broad inventive concept, illustrate the overall procedure of method for transmitting signals provided by the present application below.Such as Fig. 7
It is shown, method for transmitting signals provided by the present application can include:
S101, terminal device generate the first bit.Here, the first bit, that is, above-mentioned SR bit, can serve to indicate that first
The scheduling request of scheduling request configuration association.The configuration of first scheduling request can be network equipments configuration to the multiple of terminal device
At least one scheduling request configuration in scheduling request configuration.
Specifically, terminal device generate the first bit may include it is following at least one: 1. determine the first bits bit
Quantity carries out channel coding to the first bit;2. determining the bit status of the first bit, the attribute according to the resource that need to be requested is true
Fixed first bit.
At least one scheduling request configuration in above-mentioned multiple scheduling request configurations can be network equipment dynamic configuration,
Alternatively, what the network equipment was configured by high-level signaling.Here, high-level signaling can be media access control (Media Access
Control, MAC) layer or wireless heterogeneous networks (Radio Resource Control, RRC) layer signaling.At least one above-mentioned tune
Degree request configuration can be network equipment dynamic configuration and give at least one of multiple scheduling requests configuration of terminal device scheduling
Request configuration, alternatively, the configuration of at least one above-mentioned scheduling request can be the network equipment and be allocated to terminal by high-level signaling
At least one scheduling request configuration in multiple scheduling request configurations.
Explanation about at least one scheduling request and above-mentioned multiple scheduling request configurations reference may also be made to foregoing invention
Principal portion, which is not described herein again.
S102, terminal device generate hybrid automatic repeat-request bit.Hybrid automatic repeat-request bit is for feeding back end
End equipment decode one or more downstream data channels as a result, can be affirmative acknowledgement ACK or negative response NACK, ACK table
Show that decoding terminals are correct, NACK indicates decoding terminals mistake.It should be understood that if terminal feedback is negative response,
The network equipment can retransmit the data of decoding terminals mistake.
Specifically, terminal device generate HARQ bit may include it is following at least one: determine the bit number of HARQ bit,
Channel coding is carried out to HARQ bit, the bit status of HARQ bit is determined, HARQ is determined according to the reception condition of downlink data
Bit.
S103, terminal device send hybrid automatic repeat-request bit and the first bit on a time quantum.Accordingly
, the network equipment can receive the hybrid automatic repeat-request bit and first from terminal device on a time quantum
Bit.
S104, the network equipment can determine the scheduling request of the first scheduling request configuration association according to first bit.
In one implementation, the design scheme of the SR bit provided with reference to subsequent embodiment one, the network equipment can be with
Associated SR (the positive SR of the corresponding SR configuration of each bit is determined according to the state of each bit in the first bit
Or negative SR).
For example, it is assumed that the possible state of each bit and each bit may corresponding SR configurations such as table in the first bit
Shown in 5.If the first bit of actual transmissions is " 0XXX ", the network equipment can determine the first scheduling request configuration association
Scheduling request be the associated negative SR of SR configuration#0.If the first bit of actual transmissions is
" X1XX ", then the network equipment can determine that the scheduling request of the first scheduling request configuration association is SR configuration#1
Associated positive SR.Example is used only for explaining the application, should not constitute restriction.
In another implementation, the design scheme of the SR bit provided with reference to subsequent embodiment one, the network equipment can
To determine the corresponding SR of the state (positive SR or negative SR) according to the state of the first bit.
For example, it is assumed that the possible state of each bit and each bit may corresponding SR configurations such as table in the first bit
Shown in 6-1.If the first bit of actual transmissions is " 001 ", the network equipment can determine the first scheduling request configuration association
Scheduling request be the associated positive SR of SR configuration#0.If the first bit of actual transmissions is
" 000 ", then the network equipment can determine that the scheduling request of the first scheduling request configuration association is SR configuration#0/1/
The SR of 2/3 associated negative SR, i.e. whole SR configuration association are negative SR.
It is not limited to shown in Fig. 7, S101 and S102 in timing successively can be other situations, such as S102 is first held
It goes, is performed after S101, the application is with no restriction.
It is discussed in detail below by multiple embodiments and how to design SR bit.
(1) embodiment one
In the present embodiment, a bit in the SR bit (i.e. the first bit) is used to indicate at least one aforementioned SR and matches
Set the scheduling request of a SR configuration association in (i.e. the first SR configuration).It should be understood that in the first SR configuration and SR bit
Bit it is corresponding.Specifically, a SR configures a bit in corresponding SR bit.At this moment, the amount of bits O of SR bitSRDeng
The quantity of (the multiple SR configuration referred in aforementioned invention principle) is configured in the multiple SR for being allocated to terminal, this is SR bit
Amount of bits OSRA kind of mode relevant to the quantity of multiple SR configuration.About the multiple SR configuration referred in aforementioned invention principle
Quantity definition, can refer to aforementioned invention principal portion, which is not described herein again.
The SR that a bit in SR bit is used to indicate a SR configuration association in the first SR configuration is positive
SR or negative SR.Specifically, a bit in SR bit is used to indicate the corresponding SR configuration association of the bit
SR be positive SR or negative SR.For example, it is assumed that a bit in SR bit corresponds to SR
Configuration#0, table 4 show the bit and the indicative significance of the bit.
Table 4
Wherein, the column of the left side one of table 4 indicate the state (" 0 " or " 1 ") of the bit, and the column of the right one of table 2 indicate the bit
The SR of instruction.When the state of the bit is " 0 ", indicate that the SR of the bit indication is that SR configuration#0 is associated
negative SR.When the state of the bit is " 1 ", indicate that the SR of the bit indication is SR configuration#0 association
Positive SR.Table 4 is used only for explaining the application, in practical application the SR of the state and the bit indication of the bit it
Between corresponding relationship can with shown in table 4 on the contrary, here with no restriction.
Below with 4 bit (OSR=4) for SR bit, embodiment one is described in detail.
It is assumed that 4 bits in SR bit respectively correspond 4 different SR configuration:SR
Configuration#3, SR configuration#2, SR configuration#1 and SR configuration#0.
Optionally, as shown in Figure 14 A, 4 bits in SR bit can be according to the side from high order bit to low-order bit
To successively respectively corresponding: SR configuration#3, SR configuration#2, SR configuration#1, SR
configuration#0.Optionally, as shown in Figure 14B, 4 bits in SR bit can be according to from low-order bit to a high position
The direction of bit successively respectively corresponds: SR configuration#3, SR configuration#2, SR
configuration#1、SR configuration#0。
Be not limited to 4 bits shown in Figure 14 A-14B, in SR bit can also correspond to otherwise 4 it is different
SR configuration, here with no restriction.
Specifically, the corresponding relationship of bit can be by network in SR configuration and SR bit shown in similar Figure 14 A or Figure 14 B
Equipment dynamic configuration can also be configured by the network equipment by high-level signaling.The corresponding relationship may include B SR configuration, and
This B SR configures corresponding B bit.In this way, terminal device can determine aforementioned at least one according to the corresponding relationship
A SR configures (i.e. the first SR configuration) corresponding bit in SR bit.Here, B is positive integer.In the application, it can incite somebody to action
The network equipment or the corresponding relationship of high-level signaling configuration are known as the first corresponding relationship.
Assuming that 4 bits and 4 SR configuration in SR bit use corresponded manner shown in figure 14 A, table 5
Illustratively show the indicative significance of each bit in SR bit.
Table 5
1st row of table 5 and the 2nd row indicate the instruction of the 1st bit and the bit of the high order bit side in SR bit
Meaning.Wherein, when the state of the bit is " 0 ", indicate that the SR of the bit indication is that SR configuration#0 is associated
The associated SR of SR configuration#0 that negative SR, i.e. terminal are reported is the scheduling request of negative.When the bit
When state is " 1 ", indicate that the SR of the bit indication is the associated positive SR of SR configuration#0, i.e., in terminal
The associated SR of SR configuration#0 of report is the scheduling request of affirmative.The meaning of X is nothing in the 1st row and the 2nd row at this time
State by other bits is 0 or 1, does not affect the corresponding relationship for the 1st bit and SR configuration#0,
The 1st bit is nor affected on to indicate that the associated SR of SR configuration#0 is positive SR or negative
SR.Similar, every 2 row of residue of table 3 indicates the indicative significance of bit and the bit in SR bit, no longer superfluous here
It states.
In the example of table 5, if the bit status of SR bit is the SR that " 0011 " indicates instruction are as follows: SR
The associated negative SR of configuration#0, associated negative SR of SR configuration#1, SR
The associated positive SR of the associated positive SR of configuration#2, SR configuration#3.I.e. terminal is set
It is standby actually to report 2 associated SR and SR configuration#3 of positive SR:SR configuration#2 associated
positive SR.It is similar, when other more bit values in SR bit are " 1 ", indicate terminal device it is practical report it is multiple
The associated positive SR of other SR configuration.Particularly, when the bit status of SR bit is " 1111 ", expression
SR bit could support up terminal device while reporting 4 associated positive SR of different SR configuration.
It is not limited to a SR and configures the bit corresponded in SR bit.In example 1, SR configuration can also be with
Multiple bits in corresponding SR bit.The SR of multiple one SR configuration association of bit indication can be used.At this moment, SR bit
Amount of bits OSR(the multiple SR referred in aforementioned invention principle are configured) is configured to the SR of terminal equal to network equipments configuration
The integral multiple of quantity, this is the amount of bits O of SR bitSRIt is relevant to the quantity that network equipments configuration is configured to the SR of terminal another
A kind of mode.The definition of quantity about the multiple SR configuration referred in aforementioned invention principle, can refer to aforementioned invention principle portion
Point, which is not described herein again.
For example, 2 bits of higher bit position side are used to indicate SR in SR bit in the example of table 3
The associated SR of configuration#0.When the state of 2 bits is " 00 ", indicate that the SR of this 2 bit indications is SR
The associated negative SR of configuration#0.When 2 bits state be non-zero status (" 01 " or " 10 " or
" 11 ") when, indicate that the SR of this 2 bit indications is the associated postive SR of SR configuration#0.Example is only
A kind of implementation provided by the present application, can also be different in practical application, should not constitute restriction.In this way, multiple non-zero status can
It is used to indicate the attribute (such as TTI) of the uplink control channel of multiple available carrying SR, to notify the network equipment therefrom to select one
A attribute adapts to the scene that SR manages more uplink control channel attributes.
From the aforegoing it can be seen that the design scheme for the SR bit that embodiment one provides can support reporting for more SR, and can be with
Realization flexibly reports multiple and different associated SR of SR configuration.
(2) embodiment two
In the present embodiment, the bit status of SR bit (the first bit) is used to indicate aforementioned at least one SR configuration (i.e. the
One SR configuration) associated scheduling request.The SR (positive SR or negative SR) and SR bit of first SR configuration association
State it is corresponding.
Optionally, it is negative SR that the first state of SR bit, which is used to indicate the SR of the first SR configuration association,.
Optionally, at least one state except the first state of SR bit is used to indicate the SR of the first SR configuration association and is
positive SR。
Optionally, any one state except the first state of SR bit is not used in the SR of the first SR configuration association of instruction
Any one of SR be negative SR.
Specifically, only having a state (such as nought state) and the first SR configuration association in multiple states of SR bit
Negative SR is corresponding, i.e., the SR that only state is used to indicate the first SR configuration association is negative SR.
It is understood that, at least one state except only state is not used in instruction the first SR configuration association
Any one of SR SR is negative SR.At least one state and the first SR except only state configure
In at least one SR configuration association positive SR it is corresponding, that is, be used to indicate at least one SR configuration association
positive SR.In the application, which can be described as first state.
It is assumed that SR bit is 3 bits, the state of this 3 bits is used to indicate 4 difference SR configuration and closes
The SR of connection.Table 4 illustratively shows the indicative significance of each state of SR bit.
The state of bit | The indicative significance of bit |
000 | The associated negative SR of SR configuration#0/1/2/3 |
001 | The associated positive SR of SR configuration#0 |
010 | The associated positive SR of SR configuration#1 |
011 | The associated positive SR of SR configuration#2 |
100 | The associated positive SR of SR configuration#3 |
101 | Retain |
110 | Retain |
111 | Retain |
Table 6-1
The state of bit | The indicative significance of bit |
000 | The associated negative SR of SR configuration#0/1/2/3 |
001 | The associated positive SR of SR configuration#0 |
010 | The associated positive SR of SR configuration#1 |
011 | The associated positive SR of SR configuration#2 |
100 | The associated positive SR of SR configuration#3 |
101 | The associated positive SR of SR configuration#0 and SR configuration#1 |
110 | The associated positive SR of SR configuration#2 and SR configuration#3 |
111 | The associated positive SR of SR configuration#0/1/2/3 |
Table 6-2
Wherein, when the state of SR bit is " 000 ", indicate that the associated SR of SR configuration#0/1/2/3 is
negative SR.At least one state indicates that at least one SR configuration is associated in other states of SR bit
Positive SR, for details, reference can be made to table 6-1 and 6-2.
From the aforegoing it can be seen that the design scheme that embodiment two provides SR bit can be realized through less bit before indicating
State at least one SR configuration (i.e. the first SR configuration) respectively associated SR, it is possible to reduce the information content of uplink control channel carrying,
The transmission success rate of uplink control channel can be improved.
Specifically, the corresponding relationship of the state of SR and SR bit shown in similar table 6-1 and 6-2 can be moved by the network equipment
State configuration can also be configured by the network equipment by high-level signaling.The corresponding relationship may include the SR of P SR configuration association, with
And the corresponding Q state of SR of this P SR configuration association.In this way, terminal can according to the corresponding relationship, determine it is aforementioned at least
The corresponding state of one SR configuration (i.e. the first SR configuration) associated SR.Here, Q >=3, Q are positive integers, and P >=2, P are just whole
Number.In the application, which can be known as to the second corresponding relationship.
In example 2, the amount of bits OSR of SR bit can be with are as follows: OSR=ceil (log2 (1+
Nconfiguration)), wherein Nconfiguration indicates that the SR configuration for being allocated to terminal (mentions in aforementioned invention principle
And multiple SR configuration) quantity, ceil expression round up.This is the amount of bits OSR and network equipments configuration of SR bit
The relevant another way of quantity configured to the SR of terminal.Quantity about the multiple SR configuration referred in aforementioned invention principle
Definition, can refer to aforementioned invention principal portion, which is not described herein again.
In example 2, a state of SR bit can be used for indicating that multiple SR configuration are associated
SR。
For example, the state " 101 " in table 6-2 be used to indicate the associated positive SR of SR configuration#0 and
The associated positive SR of SR configuration#1.In other words, when SR bit is " 101 ", what terminal device reported
It is the associated positive SR of SR configuration#0 associated positive SR and SR configuration#1.This
When can immediately, the equivalent associated negative SR and SR of SR configuration#2 that also report
The associated negative SR of configuration#3.Similar, the state " 110 " in table 6-2 may be used to indicate SR
The associated positive SR of configuration#3 associated positive SR and SR configuration#2.In table 6-2
State " 111 " may be used to indicate the associated positive SR of SR configuration#3, SR configuration#2 pass
Positive SR, the SR configuration#1 of connection associated positive SR and SR configuration#0 are associated
positive SR.Example is used only for explaining the application, should not constitute restriction.
It optionally, can be using the index of the associated SR configuration of a positive SR as maximum value, rope
Drawing and being less than the associated SR of SR configuration of the maximum value is positive SR.In this way, terminal device need to only pass through
The state of the corresponding SR bit of this positive SR can indicate that multiple SR configuration are associated
positive SR。
For example, it is assumed that the state of SR bit is that " 100 " are used to indicate the associated positive of SR configuration#3
SR.So, it regard the index " 3 " of SR configuration#3 as maximum value, index is less than the SR of " 3 "
The SR that configuration#2, SR configuration#1, SR configuration#0 are respectively associated also is
positive SR.Example is used only for explaining the application, should not constitute restriction.
It optionally, can be using the index of the associated SR configuration of a positive SR as minimum value, rope
Drawing and being greater than the associated SR of SR configuration of the minimum value is positive SR.In this way, terminal device need to only pass through
The state of the corresponding SR bit of this positive SR can indicate that multiple SR configuration are associated
positive SR。
For example, it is assumed that the state of SR bit is that " 001 " is used to indicate the associated positive of SR configuration#1
SR.So, it regard the index " 1 " of SR configuration#1 as minimum value, index is greater than the SR of " 1 "
The SR that configuration#2, SR configuration#3 are respectively associated also is positive SR.Example is used only for
It explains the application, restriction should not be constituted.
In conjunction with above-described embodiment one or above-described embodiment two, in some optional implementations and SR bit together
The amount of bits of the HARQ of transmission is greater than or equal to X, and X >=2, X are positive integers.In this way, can avoid influencing the few HARQ's of bit
Transmission success rate.Because the amount of bits of HARQ is bigger, the reliability for the transmission design for being HARQ is higher.In other words,
When the amount of bits of HARQ is less, be not suitable for the SR bit of the more bits of addition behind HARQ bit.
In conjunction with above-described embodiment one or above-described embodiment two, in some optional implementations, current time unit
Length be greater than or equal to Y symbol, Y >=1, Y are positive integers.In this way, can avoid influencing in the length of short time unit
The transmission success rate of uplink control channel.Because the time span of current time zone resource is longer, uplink control in current time unit
The transmission power of channel processed is higher, and reliability is higher.In other words, when the time span of current time unit is fewer, currently
Uplink control channel on time quantum is not suitable for the SR bit of the more bits of carrying.
The application is shown referring to Figure 15, Figure 15, and a kind of wireless communication system, terminal and the network equipment are provided.Wireless communication
System 10 includes: terminal 400 and the network equipment 500.Wherein, terminal 400 can be the terminal 200 in Fig. 4 embodiment, and network is set
Standby 500 can be the wireless communication system of Fig. 3 description for the network equipment 300 in Fig. 5 embodiment, wireless communication system 10
100.It describes separately below.
As shown in figure 15, terminal 400 can include: generation unit 401 and transmission unit 403.Wherein:
Generation unit 401 can be used for for generating the first bit.First bit may be used to indicate the configuration of the first scheduling request
Associated scheduling request, at least one scheduling request that the configuration of the first scheduling request can be in multiple scheduling request configurations are matched
It sets.
Generation unit 401 can also be used to generate hybrid automatic repeat-request bit.
Transmission unit 403 can also be used to send hybrid automatic repeat-request bit and the first ratio on a time quantum
It is special.
In the application, the quantity of above-mentioned multiple scheduling request configurations can be equal to the scheduling on said one time quantum
Request the quantity of configuration.The quantity of above-mentioned multiple scheduling request configurations can also be equal to the quantity of whole scheduling request configurations.
Specifically, the first bit can indicate the scheduling request of the first scheduling request configuration association by following manner:
First way, a bit in the first bit may be used to indicate a scheduling in the configuration of the first scheduling request
Request the scheduling request of configuration association.
, can be with specific reference to previous embodiment one about first way, which is not described herein again.
The second way, the first state of the first bit may be used to indicate the scheduling request of the first scheduling request configuration association
For the scheduling request of negative, at least one state except the first state of the first bit, which may be used to indicate the first scheduling, is asked
The scheduling request for seeking configuration association is the scheduling request affirmed, any one state except the first state of the first bit does not have to
In the scheduling request that any one of the instruction associated scheduling request of the first scheduling request scheduling request is negative.
, can be with specific reference to previous embodiment two about the second way, which is not described herein again.
Specifically, the amount of bits of the first bit can be related to the quantity that the multiple scheduling request configures.Specifically may be used
To pass through following manner correlation:
A kind of relevant way, when SR bit uses the design scheme of above-described embodiment one, the amount of bits OSR of SR bit
The quantity of above-mentioned multiple SR configurations can be equal to.
Another relevant way, when SR bit uses the design scheme of above-described embodiment two, the amount of bits of SR bit
OSR can be with are as follows: OSR=ceil (log2 (1+Nconfiguration)), wherein Nconfiguration expression is allocated to terminal
SR configuration (referred in aforementioned invention principle multiple SR configuration) quantity, ceil expression rounds up.
The amount of bits of first bit technical advantages relevant to the quantity that the multiple scheduling request configures are Ke Yitong
This mode predetermined is crossed, so that the network equipment and terminal device determine the ratio of the first bit before the transmission of the first bit
Special quantity, so that there is no the amount of bits cognitive dissonances of the first bit for the network equipment and terminal device, to keep away
The case where having exempted from the first bit reception failure caused due to cognitive dissonance.
In some optional implementations and the amount of bits of HARQ that SR bit is sent together is greater than or equal to X, X
>=2, X are positive integers.In this way, can avoid influencing the transmission success rate of the few HARQ of bit.Because the amount of bits of HARQ is got over
Greatly, the reliability for the transmission design of HARQ is higher.In other words, when the amount of bits of HARQ is less, behind HARQ bit
Be not suitable for the SR bit of the more bits of addition.
In some optional implementations, the length of said one time quantum is greater than or equal to Y symbol, Y >=1, Y
It is positive integer.In this way, can avoid influencing the transmission success rate of the uplink control channel in the length of short time unit.Because
The time span of current time zone resource is longer, and the transmission power of uplink control channel is higher in current time unit, reliability
It is higher.In other words, when the time span of current time unit is fewer, the uplink control channel in current time unit is not suitable for
Carry the SR bit of more bits.
It should be understood that the specific implementation for each functional unit for including about terminal 400 can refer to aforementioned each implementation
Example, which is not described herein again.
As shown in figure 15, the network equipment 500 can include: receiving unit 501 and determination unit 503.Wherein:
Receiving unit 501 can be used for the hybrid automatic repeat-request ratio that receiving terminal apparatus is sent on a time quantum
Special and the first bit.First bit may be used to indicate the scheduling request of the first scheduling request configuration association, and the first scheduling request is matched
Set at least one scheduling request configuration that can be in multiple scheduling request configurations.
Determination unit 503 can be used for determining the scheduling request of the first scheduling request configuration association according to the first bit.
In the application, the quantity of above-mentioned multiple scheduling request configurations can be equal to the scheduling on said one time quantum
Request the quantity of configuration.The quantity of above-mentioned multiple scheduling request configurations can also be equal to the quantity of whole scheduling request configurations.
Specifically, the first bit can indicate the scheduling request of the first scheduling request configuration association by following manner:
First way, a bit in the first bit may be used to indicate a scheduling in the configuration of the first scheduling request
Request the scheduling request of configuration association.In this way, determination unit 503 can be used for it is true according to the state of each bit in the first bit
Determine the associated SR (positive SR or negative SR) of the corresponding SR configuration of each bit.
, can be with specific reference to previous embodiment one about first way, which is not described herein again.
The second way, the first state of the first bit may be used to indicate the scheduling request of the first scheduling request configuration association
For the scheduling request of negative, at least one state except the first state of the first bit, which may be used to indicate the first scheduling, is asked
The scheduling request for seeking configuration association is the scheduling request affirmed, any one state except the first state of the first bit does not have to
In the scheduling request that any one of the instruction associated scheduling request of the first scheduling request scheduling request is negative.In this way, really
The state that order member 503 can be used for the first bit determines the corresponding SR of the state (positive SR or negative SR).
, can be with specific reference to previous embodiment two about the second way, which is not described herein again.
Specifically, the amount of bits of the first bit can be related to the quantity that the multiple scheduling request configures.Specifically may be used
To pass through following manner correlation:
A kind of relevant way, when SR bit uses the design scheme of above-described embodiment one, the amount of bits O of SR bitSR
The quantity of above-mentioned multiple SR configurations can be equal to.
Another relevant way, when SR bit uses the design scheme of above-described embodiment two, the amount of bits of SR bit
OSRIt can be with are as follows: OSR=ceil (log2(1+Nconfiguration)), wherein NconfigurationIndicate the SR configuration for being allocated to terminal
The quantity of (the multiple SR configuration referred in aforementioned invention principle), ceil expression round up.
In some optional implementations and the amount of bits of HARQ that SR bit is sent together is greater than or equal to X, X
>=2, X are positive integers.In this way, can avoid influencing the transmission success rate of the few HARQ of bit.Because the amount of bits of HARQ is got over
Greatly, the reliability for the transmission design of HARQ is higher.In other words, when the amount of bits of HARQ is less, behind HARQ bit
Be not suitable for the SR bit of the more bits of addition.
In some optional implementations, the length of said one time quantum is greater than or equal to Y symbol, Y >=1, Y
It is positive integer.In this way, can avoid influencing the transmission success rate of the uplink control channel in the length of short time unit.Because
The time span of current time zone resource is longer, and the transmission power of uplink control channel is higher in current time unit, reliability
It is higher.In other words, when the time span of current time unit is fewer, the uplink control channel in current time unit is not suitable for
Carry the SR bit of more bits.
It should be understood that the specific implementation for each functional unit for including about the network equipment 500 can refer to it is aforementioned each
Embodiment, which is not described herein again.
A kind of structural schematic diagram of device provided by the present application is shown referring to Figure 16, Figure 16.As shown in figure 16, device 50
Can include: processor 501, and it is coupled in one or more interfaces 502 of processor 501.Optionally, device 50 can also wrap
Include memory 503.Optionally, device 50 can be a kind of chip.Wherein:
Processor 501 can be used for reading and executing computer-readable instruction.In the specific implementation, processor 501 can be wrapped mainly
Include controller, arithmetic unit and register.Wherein, controller is mainly responsible for Instruction decoding, and to instruct corresponding operation to issue control
Signal processed.Arithmetic unit is mainly responsible for execution fixed point or the operation of floating-point arithmetic operator, shifting function and logical operation etc., can also be with
Execute address arithmetic and conversion.Register is mainly responsible for the register operand for saving and temporarily storing in execution process instruction in
Between operating result etc..In the specific implementation, the hardware structure of processor 501 can be specific integrated circuit (Application
Specific Integrated Circuits, ASIC) framework, MIPS framework, ARM framework or NP framework etc..Processor
501 can be monokaryon, be also possible to multicore.
Memory 503 can be used for store comprising computer can instruction fetch program code, it may also be used for storage processor 501
Input/output data.
Input/output interface 502 can be used for inputting data to be processed to processor 501, and can be outward at output
Manage the processing result of device 501.In the specific implementation, interface 502 can be universal input output (General Purpose Input
Output, GPIO) interface, it can be connected with multiple peripheral equipments (such as display (LCD), camera, radio-frequency module).It connects
Mouth 502 can also include multiple independent interfaces, such as Ethernet interface, LCD interface, Camera interface etc., be each responsible for not
With the communication between peripheral equipment and processor 501.
In the application, what processor 501 can be used for that one or more embodiments of the application is called to provide from memory
Method for transmitting signals and executes the instruction that the program includes in the realization program of terminal side.Interface 502 can be used for output processor
501 implementing result.In the application, interface 503 can be specifically used for the processing result of output processor 501.Specifically, processor
501 can be used for generating the first bit and hybrid automatic repeat-request bit, and interface 503 can be used for exporting the first bit and mixing certainly
Dynamic retransmission request bit.Related description about the first bit can refer to previous embodiment, and which is not described herein again.About the application
One or more embodiments provide method for transmitting signals can refer to foregoing individual embodiments, which is not described herein again.
It should be noted that processor 501, the corresponding function of interface 502 can both be realized by hardware design, it can also
To be realized by software design, can also be realized by way of software and hardware combining, here with no restriction.
Referring to Figure 17, Figure 17 shows a kind of structural schematic diagrams of device provided by the present application.As shown in figure 17, device 60
Can include: processor 601, and it is coupled in one or more interfaces 602 of processor 601.Optionally, device 60 can also wrap
Include memory 603.Optionally, device 60 can be a kind of chip.Wherein:
Processor 601 can be used for reading and executing computer-readable instruction.In the specific implementation, processor 601 can be wrapped mainly
Include controller, arithmetic unit and register.Wherein, controller is mainly responsible for Instruction decoding, and to instruct corresponding operation to issue control
Signal processed.Arithmetic unit is mainly responsible for execution fixed point or the operation of floating-point arithmetic operator, shifting function and logical operation etc., can also be with
Execute address arithmetic and conversion.Register is mainly responsible for the register operand for saving and temporarily storing in execution process instruction in
Between operating result etc..In the specific implementation, the hardware structure of processor 601 can be specific integrated circuit (Application
Specific Integrated Circuits, ASIC) framework etc..Processor 601 can be monokaryon, be also possible to multicore
's.
Memory 603 can be used for store comprising computer can instruction fetch program code, it may also be used for storage processor 601
Input/output data.
Input/output interface 602 can be used for inputting data to be processed to processor 601, and can be outward at output
Manage the processing result of device 601.
In the application, what processor 601 can be used for that one or more embodiments of the application is called to provide from memory
Method for transmitting signals and executes the instruction that the program includes in the realization program of network equipment side.Interface 602 can be used for exporting place
Manage the implementing result of device 601.Specifically, processor 601 can be used for determining the according to the first bit from terminal device
The scheduling request of one scheduling request configuration association, interface 602 can be used for the first scheduling request configuration that output processor 601 determines
Associated scheduling request.Related description about the first bit, the configuration of the first scheduling request etc. can refer to previous embodiment, here
It repeats no more.The method for transmitting signals that one or more embodiments about the application provide can refer to foregoing individual embodiments,
Which is not described herein again.
It should be noted that processor 601, the corresponding function of interface 602 can both be realized by hardware design, it can also
To be realized by software design, can also be realized by way of software and hardware combining, here with no restriction.
To sum up, implement technical solution provided by the present application, more scheduling requests can be supported to configure, adapt in future communication systems
Multi-service scene.
Those of ordinary skill in the art will appreciate that realizing all or part of the process in above-described embodiment method, the process
Relevant hardware can be instructed to complete by computer program, which can be stored in computer-readable storage medium, should
Program is when being executed, it may include such as the process of above-mentioned each method embodiment.And storage medium above-mentioned includes: ROM or deposits at random
Store up the medium of the various program storage codes such as memory body RAM, magnetic or disk.
Claims (24)
1. a kind of method for transmitting signals characterized by comprising
Terminal device generates the first bit, and first bit is used to indicate the scheduling request of the first scheduling request configuration association,
The first scheduling request configuration is at least one scheduling request configuration in multiple scheduling request configurations;
The terminal device generates hybrid automatic repeat-request bit;
The terminal device sends the hybrid automatic repeat-request bit and first bit on a time quantum.
2. the method according to claim 1, wherein the hybrid automatic repeat-request bit and first ratio
For spy in bit sequence, the bit sequence further includes CSI bit, wherein the hybrid automatic repeat-request bit is described
Before first bit, first bit is before the CSI bit.
3. method according to claim 1 or 2, which is characterized in that first bit is used to indicate the first scheduling request
The scheduling request of configuration association, comprising:
The scheduling request that the first state of first bit is used to indicate the first scheduling request configuration association is negative
Scheduling request, at least one state except the first state of first bit are used to indicate first scheduling request
The scheduling request of configuration association is the scheduling request of affirmative, any one shape except the first state of first bit
State, which is not used in, indicates that any one of the associated scheduling request of the first scheduling request scheduling request is that the scheduling of negative is asked
It asks.
4. according to the method described in claim 3, it is characterized in that, the first state of first bit is nought state.
5. according to the method described in claim 3, it is characterized in that, the first state of first bit is used to indicate institute
The scheduling request for stating multiple scheduling request configuration associations is all the scheduling request of negative.
6. according to the method described in claim 3, it is characterized in that, except the first state of first bit at least
The scheduling request that one state is used to indicate the first scheduling request configuration association is the scheduling request affirmed, comprising:
At least one described state except the first state includes 001,010,011 and 100 four state, and described 001,
The call number of the associated first scheduling request configuration of the scheduling request of 010,011 and 100 affirmative indicated respectively is incremental.
7. method according to claim 1 or 2, which is characterized in that the quantity of the multiple scheduling request configuration is equal to
The quantity of scheduling request configuration on one time quantum;Alternatively, the quantity of the multiple scheduling request configuration is equal to entirely
The quantity of ministry dispatching request configuration.
8. method according to claim 1 or 2, which is characterized in that the bit number of the hybrid automatic repeat-request bit
Amount is greater than or equal to X, and X >=2, X are positive integers.
9. method according to claim 1 or 2, which is characterized in that the amount of bits of first bit with it is the multiple
The quantity of scheduling request configuration is related.
10. according to the method described in claim 9, it is characterized in that, the amount of bits of first bit is equal to ceil (log2
(1+N)), wherein ceil indicates the operation that rounds up, and N is the quantity of the multiple scheduling request configuration.
11. method according to claim 1 or 2, which is characterized in that the amount of bits of first bit is greater than or equal to
2。
12. a kind of communication equipment characterized by comprising
Generation unit, for generating the first bit, first bit is used to indicate the scheduling of the first scheduling request configuration association
Request, the first scheduling request configuration are at least one scheduling request configurations in multiple scheduling request configurations;
The generation unit is also used to generate hybrid automatic repeat-request bit;
Transmission unit, for sending the hybrid automatic repeat-request bit and first bit on a time quantum.
13. equipment according to claim 12, which is characterized in that the hybrid automatic repeat-request bit and described first
For bit in bit sequence, the bit sequence further includes CSI bit, wherein the hybrid automatic repeat-request bit is in institute
Before stating the first bit, first bit is before the CSI bit.
14. equipment according to claim 12 or 13, which is characterized in that first bit is used to indicate the first scheduling and asks
Seek the scheduling request of configuration association, comprising:
The scheduling request that the first state of first bit is used to indicate the first scheduling request configuration association is negative
Scheduling request, at least one state except the first state of first bit are used to indicate first scheduling request
The scheduling request of configuration association is the scheduling request of affirmative, any one shape except the first state of first bit
State, which is not used in, indicates that any one of the associated scheduling request of the first scheduling request scheduling request is that the scheduling of negative is asked
It asks.
15. equipment according to claim 14, which is characterized in that the first state of first bit is zero shape
State.
16. equipment according to claim 14, which is characterized in that the first state of first bit is used to indicate
The scheduling request of the multiple scheduling request configuration association is all the scheduling request of negative.
17. equipment according to claim 14, which is characterized in that except the first state of first bit extremely
The scheduling request that a few state is used to indicate the first scheduling request configuration association is the scheduling request of affirmative, comprising:
At least one state except the first state includes 001,010,011 and 100 four state, and described 001,010,
The call number of the associated first scheduling request configuration of the scheduling request of 011 and 100 affirmatives indicated respectively is incremental.
18. equipment according to claim 12 or 13, which is characterized in that the quantity of the multiple scheduling request configuration is equal to
The quantity of scheduling request configuration on one time quantum;Alternatively, the quantity of the multiple scheduling request configuration is equal to
The quantity of whole scheduling request configurations.
19. equipment according to claim 12 or 13, which is characterized in that the bit of the hybrid automatic repeat-request bit
Quantity is greater than or equal to X, and X >=2, X are positive integers.
20. equipment according to claim 12 or 13, which is characterized in that the amount of bits of first bit and described more
The quantity of a scheduling request configuration is related.
21. equipment according to claim 20, which is characterized in that the amount of bits of first bit is equal to ceil
(log2 (1+N)), wherein ceil indicates the operation that rounds up, and N is the quantity of the multiple scheduling request configuration.
22. equipment according to claim 12 or 13, which is characterized in that the amount of bits of first bit is greater than or waits
In 2.
23. a kind of chip, which is characterized in that the chip includes input interface, output interface, at least one processor and at least
One memory, at least one processor are used for store code, at least one described processor is for executing the storage
Code in device, when the code is performed, the chip realizes method of any of claims 1-11.
24. a kind of computer readable storage medium, be stored on the readable storage medium storing program for executing realize it is any in claim 1-11
The program code of method described in, the program code include the execution for running method of any of claims 1-11
Instruction.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201811255012.3A CN109067512B (en) | 2017-09-08 | 2017-09-08 | Method for transmitting signals, relevant apparatus and system |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201811255012.3A CN109067512B (en) | 2017-09-08 | 2017-09-08 | Method for transmitting signals, relevant apparatus and system |
CN201780016039.4A CN109757131B (en) | 2017-09-08 | 2017-09-08 | Signal transmission method, related device and system |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201780016039.4A Division CN109757131B (en) | 2017-09-08 | 2017-09-08 | Signal transmission method, related device and system |
Publications (2)
Publication Number | Publication Date |
---|---|
CN109067512A CN109067512A (en) | 2018-12-21 |
CN109067512B true CN109067512B (en) | 2019-09-13 |
Family
ID=64765566
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201811255012.3A Active CN109067512B (en) | 2017-09-08 | 2017-09-08 | Method for transmitting signals, relevant apparatus and system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN109067512B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109757131A (en) * | 2017-09-08 | 2019-05-14 | 华为技术有限公司 | Method for transmitting signals, relevant apparatus and system |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110035549B (en) * | 2018-01-12 | 2021-03-09 | 电信科学技术研究院有限公司 | Transmission method, terminal and base station |
WO2021088264A1 (en) * | 2019-11-08 | 2021-05-14 | Oppo广东移动通信有限公司 | Configuration information determination method and apparatus, and terminal |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106793105A (en) * | 2016-08-26 | 2017-05-31 | 北京展讯高科通信技术有限公司 | The transmission method of ascending control information, device and user terminal |
CN106797646A (en) * | 2014-10-13 | 2017-05-31 | 高通股份有限公司 | Dispatch request pattern for strengthening component carrier |
WO2019047193A1 (en) * | 2017-09-08 | 2019-03-14 | 华为技术有限公司 | Signal transmission method, related device and system |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8327214B2 (en) * | 2009-08-26 | 2012-12-04 | Ntt Docomo, Inc. | Method and apparatus for the joint design and operation of ARQ protocols with user scheduling for use with multiuser MIMO in the downlink of wireless systems |
-
2017
- 2017-09-08 CN CN201811255012.3A patent/CN109067512B/en active Active
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106797646A (en) * | 2014-10-13 | 2017-05-31 | 高通股份有限公司 | Dispatch request pattern for strengthening component carrier |
CN106793105A (en) * | 2016-08-26 | 2017-05-31 | 北京展讯高科通信技术有限公司 | The transmission method of ascending control information, device and user terminal |
WO2019047193A1 (en) * | 2017-09-08 | 2019-03-14 | 华为技术有限公司 | Signal transmission method, related device and system |
Non-Patent Citations (2)
Title |
---|
"PUCCH Resource Allocation for HARQ-ACK and SR";HUAWEI 等;《3GPP TSG RAN WG1 Meeting #89 R1-1706960》;20170519;全文 * |
"Reusing PUCCH Format 3 to Multiplex CSI Reports for DL CoMP";HTC 等;《3GPP TSG-RAN WG1 #70bis R1-124350》;20121012;第1、3、4部分 * |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109757131A (en) * | 2017-09-08 | 2019-05-14 | 华为技术有限公司 | Method for transmitting signals, relevant apparatus and system |
CN109757131B (en) * | 2017-09-08 | 2021-07-16 | 华为技术有限公司 | Signal transmission method, related device and system |
Also Published As
Publication number | Publication date |
---|---|
CN109067512A (en) | 2018-12-21 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN110166214A (en) | The method and communication equipment of transmitting feedback information | |
US20220407629A1 (en) | Data transmission method and device | |
CN107682099A (en) | The selection of sequential is confirmed in radio communication | |
WO2021143111A1 (en) | Method and apparatus for transmitting uplink control information | |
US11006438B2 (en) | Signal transmission method, related apparatus, and system | |
EP4142413A1 (en) | Sidelink feedback method and terminal device | |
CN107295459A (en) | Communication system, communication device, base station and method for D2D communication | |
CN109067512B (en) | Method for transmitting signals, relevant apparatus and system | |
CN109309928A (en) | D2D chain circuit detecting method, relevant apparatus and system | |
WO2019029463A1 (en) | Method and device for receiving control information and sending control information | |
CN110167174A (en) | A kind of relay transmission method and device | |
KR102422609B1 (en) | Indicating contiguous resource allocation | |
CN114788204B (en) | Method, device and equipment for determining state of HARQ (hybrid automatic repeat request) process | |
JP7419553B2 (en) | Feedback resource determination method and feedback resource determination device | |
CN114762421B (en) | Method for determining hybrid automatic repeat request information, terminal device and network device | |
CN112399574B (en) | Wireless communication method and device and communication equipment | |
WO2019023912A1 (en) | Response feedback method, terminal, and network device | |
WO2021134578A1 (en) | Multi-hop transmission method, and device | |
CN115175350A (en) | Resource allocation method and communication device | |
EP4436291A1 (en) | Communication method and communication apparatus | |
US20240323961A1 (en) | Communication method and communication apparatus | |
WO2024027812A1 (en) | Sidelink communication method and communication apparatus | |
WO2024022486A1 (en) | Communication method and apparatus, storage medium, network device, and terminal device | |
WO2024002004A1 (en) | Indication method and apparatus for reference signal | |
WO2023039811A1 (en) | Communication method and communication apparatus |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |