CN109756979A - Transmit the method and communication equipment of information - Google Patents

Abstract

The embodiment of the present application provides a kind of method and communication equipment for transmitting information, this method comprises: determining the first running time-frequency resource, wherein first running time-frequency resource is the running time-frequency resource of uplink control channel, the uplink control channel is for carrying ascending control information to be transmitted, and first running time-frequency resource is in first time unit；Determine the second running time-frequency resource, wherein second running time-frequency resource is the running time-frequency resource of uplink data channels, the uplink data channels are for carrying upstream data to be transmitted, second running time-frequency resource is made of N number of sub- running time-frequency resource, N number of sub- running time-frequency resource is located at N number of time quantum, and first running time-frequency resource is Chong Die in time domain with second running time-frequency resource；According to the first time unit, transmitting uplink control information and upstream data.Above-mentioned technical proposal propose it is a kind of in the first running time-frequency resource with second running time-frequency resource in the case where time domain is Chong Die, the method for transmitting uplink control information and upstream data.

Description

Transmit the method and communication equipment of information

This application claims in submission on November 7th, 2017 Patent Office of the People's Republic of China, application No. is 201711086786.3, application name Referred to as the priority of the Chinese patent application of " method and communication equipment of transmission information ", entire contents are hereby incorporated by reference In the application.

Technical field

The present embodiments relate to fields of communication technology, and set more particularly, to the method and communication of transmission information It is standby.

Background technique

5th generation (5^thGeneration, 5G) communication technology introduces flexible dispatching technology.Therefore, it is sent by communication equipment By uplink control channel carry information time-domain resource (hereinafter referred to as uplink control channel time-domain resource) time-domain position It is variable with length.By the communication equipment send by Uplink Shared Channel carry information time-domain resource (hereinafter referred to as Uplink Shared Channel time-domain resource) time-domain position and length be also variable.Therefore, uplink control channel time-domain resource and upper The shared channel time domain resource of row is likely to occur overlapping.In the case, what kind of transmission plan is selected to transmit by upload control The information and be a urgent problem to be solved by the information that Uplink Shared Channel carries that channel carries.

Summary of the invention

The embodiment of the present application provides a kind of method and communication equipment for transmitting information, can reasonably transmit first uplink Information and/or second uplink information.

In a first aspect, the embodiment of the present application provides a kind of method for transmitting information, this method comprises: being provided according to the second time domain Source determines the object transmission scheme of the first uplink information and the second uplink information of being used for transmission, wherein first uplink information by Uplink control channel carries, which is carried by Uplink Shared Channel, where first uplink information first when Domain resource and second time-domain resource where second uplink information partly overlap in the time domain or all overlappings, this first when Domain resource includes at least one symbol, which includes at least one symbol；According to the object transmission scheme, transmission First uplink information and/or second uplink information.Based on the above-mentioned technical proposal, first time-domain resource and this second when In the case that domain resource is overlapped, communication equipment can select suitable object transmission scheme by second time-domain resource, in this way First uplink information and/or second uplink information can reasonably be transmitted.

With reference to first aspect, in the first possible implementation of the first aspect, second time-domain resource is by N number of son Time-domain resource composition, which is belonging respectively to N number of time slot or N number of mini time slot, in N number of sub- time-domain resource Each sub- time-domain resource is to belong to the second time-domain resource whole time-domain resource in 1 time slot or 1 mini time slot, N be greater than Or the positive integer equal to 1, this determines the mesh for being used for transmission the first uplink information and the second uplink information according to the second time-domain resource Mark transmission plan, comprising: determination can use period of the day from 11 p.m. to 1 a.m domain resource collection, and wherein the available period of the day from 11 p.m. to 1 a.m domain resource collection includes M available sons Time-domain resource, wherein this can be used sub- time-domain resource to belong to N number of sub- time-domain resource, and when the starting of sub- time-domain resource can be used in this The difference of the initial time and first time length that are no earlier than first time-domain resource is carved, and the starting of sub- time-domain resource can be used in this Moment be not later than first time-domain resource finish time and the second time span and, M is integer more than or equal to 0；Root According to the value of M, determine that the object transmission scheme is the first transmission plan, the second transmission plan, third transmission plan, the 4th transmission At least one of scheme, the 5th transmission plan, the 6th transmission plan and the 7th transmission plan.Above-mentioned technical proposal can basis The object transmission scheme can be determined with the number of sub- time-domain resource, can be different with the number of sub- time-domain resource, the object transmission side The range of case is also different.

The possible implementation of with reference to first aspect the first, in second of possible implementation of first aspect In, the value according to M, determine the object transmission scheme be the first transmission plan, the second transmission plan, third transmission plan, At least one of 4th transmission plan, the 5th transmission plan, the 6th transmission plan and the 7th transmission plan, comprising: M is equal to 1, Determine that the object transmission scheme is first transmission plan；M be equal to 0, determine the object transmission scheme be second transmission plan, At least one of the third transmission plan, the 4th transmission plan and the 5th transmission plan；And/or M is just whole greater than 1 Number determines that the object transmission scheme is at least one of the 6th transmission plan and the 7th transmission plan.Above-mentioned technical side Case can be according to that can determine the object transmission scheme with the number of sub- time-domain resource, can be different with the number of sub- time-domain resource, should The range of object transmission scheme is also different.

The possible implementation of second with reference to first aspect, in the third possible implementation of first aspect In, the determination object transmission scheme is second transmission plan, the third transmission plan, the 4th transmission plan and the 5th At least one of transmission plan, comprising: believed according to the ability information of terminal device, the ability information of the network equipment and priority At least one of breath determines that the object transmission scheme is second transmission plan, the third transmission plan, the 4th transmission side At least one of case and the 5th transmission plan, wherein the ability information of the terminal device is whether terminal device is supported together When in multiple channels send uplink information, the ability information of the network equipment is whether the network equipment is supported to receive simultaneously by same The uplink information that one terminal device is sent over multiple channels, the precedence information are used to indicate the preferential of first uplink information The priority of grade and the second uplink information.Through the above technical solutions, can use the ability information of terminal device, the network equipment Ability information and at least one of precedence information determine the object transmission scheme.

The third possible implementation with reference to first aspect, in the 4th kind of possible implementation of first aspect In, at least one of ability information, the ability information of the network equipment and the precedence information according to terminal device, determining should Object transmission scheme is in second transmission plan, the third transmission plan, the 4th transmission plan and the 5th transmission plan At least one, comprising: the terminal device support simultaneously multiple channels send uplink information, and/or, the network equipment support The uplink information sent over multiple channels by same terminal device is received simultaneously, determines that the object transmission scheme is second biography Transmission scheme；The priority of first uplink information is equal to the priority of second uplink information, determines that the object transmission scheme is The third transmission plan；The priority of first uplink information is greater than the priority of second uplink information, determines that the target passes Transmission scheme is the 4th transmission plan；And/or the priority of first uplink information is less than the preferential of second uplink information Grade determines that the object transmission scheme is the 5th transmission plan.

The possible implementation of with reference to first aspect the first is into the 4th kind of possible implementation of first aspect Any possible implementation, in the fifth possible implementation of the first aspect, first transmission plan are as follows: All or part of available period of the day from 11 p.m. to 1 a.m domain transmitted over resources first uplink information；Second transmission plan are as follows: this first when Domain transmitted over resources first uplink information；The third transmission plan are as follows: first uplink is transmitted in the third time-domain resource Information, the third time-domain resource are that first played in object time from the second time-domain resource finish time can be used in passing The time-domain resource of defeated first uplink information, wherein the object time is that the first time-domain resource finish time and the second time are long The sum of degree；4th transmission plan are as follows: transmit the first uplink information in first time-domain resource, and by second uplink information Information punching in overlapping time-domain resource or overlapping running time-frequency resource, the overlapping time-domain resource are first time-domain resource and should The time-domain resource being overlapped in second time-domain resource, the overlapping running time-frequency resource are that the first running time-frequency resource is be overlapped with the second running time-frequency resource Time-frequency domain resources, wherein first running time-frequency resource is the running time-frequency resource for being used for transmission first uplink information, second time-frequency Resource is the running time-frequency resource for being used for transmission second uplink information；5th transmission plan are as follows: in the 4th time-domain resource or First uplink information is transmitted on four running time-frequency resources, and by first uplink information in the overlapping time-domain resource or the overlapping In frequency resource information punching, the 4th time-domain resource be first time-domain resource in remove except the overlapping time-domain resource when Domain resource, the 4th running time-frequency resource are the running time-frequency resource removed except the overlapping running time-frequency resource in first running time-frequency resource；This Six transmission plans are as follows: specific available period of the day from 11 p.m. to 1 a.m domain transmitted over resources first uplink information in the resource collection of period of the day from 11 p.m. to 1 a.m domain can be used at this； 7th transmission plan are as follows: this can be used at least one of period of the day from 11 p.m. to 1 a.m domain resource collection can be used period of the day from 11 p.m. to 1 a.m domain transmitted over resources this first Uplink information.

The 5th kind of possible implementation with reference to first aspect, in the 6th kind of possible implementation of first aspect In, this is specific, and sub- time-domain resource can be used is that sub- time-domain resource can be used in first in the available period of the day from 11 p.m. to 1 a.m domain resource collection, alternatively, should It is specific to can be used sub- time-domain resource for the available of first carrying non-self-decodable redundancy versions in the available period of the day from 11 p.m. to 1 a.m domain resource collection Sub- time-domain resource.

The 5th kind of possible implementation with reference to first aspect, in the 7th kind of possible implementation of first aspect In, this at least one sub- time-domain resource can be used is that can all use sub- time-domain resource in the available period of the day from 11 p.m. to 1 a.m domain resource collection；Alternatively, This at least one can be used sub- time-domain resource be in the available period of the day from 11 p.m. to 1 a.m domain resource collection all carrying non-self-decodable redundancy versions can With sub- time-domain resource.

The 5th kind of possible implementation with reference to first aspect is into the 7th kind of possible implementation of first aspect Any possible implementation, in the 8th kind of possible implementation of first aspect, first transmission plan, second Transmission plan, third transmission plan, the 5th transmission plan, the 6th transmission plan and the 7th transmission plan further include, this second The second uplink information is transmitted in time-domain resource；And/or the 4th transmission plan further include that it is heavy to remove this in second time-domain resource The first uplink information is transmitted in time-domain resource except folded time-domain resource, alternatively, when second running time-frequency resource removes the overlapping First uplink information is transmitted on running time-frequency resource except frequency resource.

Second aspect, a kind of method for transmitting information of the embodiment of the present application, this method comprises: determination is used for transmission on first First time-domain resource of row information, wherein first uplink information is the carrying of uplink control channel uplink control channel, this first Time-domain resource includes N number of symbol, which belongs to a time slot；Determine the second time domain for being used for transmission the second uplink information Resource, wherein second uplink information is carried by Uplink Shared Channel Uplink Shared Channel, which includes M symbol Number, which belongs to a time slot；Time slot belonging to N number of symbol is identical as belonging to the M symbol and N number of symbol with The M symbol does not conflict and first time-domain resource and second time-domain resource are continuous time-domain resources, are determined for sending out Give the object transmission scheme of first uplink information He second uplink information.Above-mentioned technical proposal proposes one kind at first Domain resource and second time-domain resource are continuous time-domain resource, the method that can choose transmission plan.

In conjunction with second aspect, in the first possible implementation of the second aspect, the determination for send this first The object transmission scheme of uplink information and second uplink information, comprising: determine that the object transmission scheme is using first function Rate sends first uplink information and second uplink information to the network equipment, wherein first power be for send this first The power of uplink information.Above-mentioned technical proposal can preferentially guarantee to send first uplink information.

In conjunction with second aspect, in a second possible implementation of the second aspect, the determination for send this first The object transmission scheme of uplink information and second uplink information, comprising: according to total transmission energy, determine the object transmission scheme To abandon second uplink information and send first uplink information using the first power, or reduces by first power and use First power after reduction sends first uplink information and second uplink information, and wherein first power is for sending The power of first uplink information, wherein the total transmission energy be sent using first power first uplink information and this The energy of two uplink informations.Above-mentioned technical proposal can preferentially guarantee to send first uplink information.

In conjunction with second of possible implementation of second aspect, in the third possible implementation of second aspect In, this determines the object transmission scheme according to total transmission energy to abandon second uplink information and sending using the first power First uplink information, or reduce by first power and using first power after reduction send first uplink information and Second uplink information, comprising: the ratio of pre-determined threshold and the total transmission energy is greater than the first preset value, determines the object transmission Scheme is to abandon second uplink information and send first uplink information using first power；The pre-determined threshold and total hair Send the ratio of energy no more than first preset value, after determining the object transmission scheme to reduce by first power and using reduction First power send first uplink information and second uplink information.Above-mentioned technical proposal, which can preferentially guarantee to send, is somebody's turn to do First uplink information.

In conjunction with second aspect, in the fourth possible implementation of the second aspect, the determination for send this first The object transmission scheme of uplink information and second uplink information, comprising: determine that the object transmission scheme is using the second power First uplink information and second uplink information are sent to the network equipment, which is for sending second uplink letter The power of breath.Above-mentioned technical proposal can preferentially guarantee to send second uplink information.

In conjunction with second aspect, in a fifth possible implementation of the second aspect, the determination for send this first The object transmission scheme of uplink information and second uplink information, comprising: according to total transmission energy, determine the object transmission scheme To abandon first uplink information and send second uplink information using the second power, or reduces by second power and use Second power after reduction sends first uplink information and second uplink information, and wherein second power is for sending The power of second uplink information, wherein the total transmission energy be sent using first power first uplink information and this The energy of two uplink informations.Above-mentioned technical proposal can preferentially guarantee to send second uplink information.

In conjunction with the 5th kind of possible implementation of second aspect, in the 6th kind of possible implementation of second aspect In, this determines the object transmission scheme according to total transmission energy to abandon first uplink information and sending using the second power Second uplink information, or reduce by second power and using second power after reduction send first uplink information and Second uplink information, comprising: the ratio of pre-determined threshold and the total transmission energy is greater than the second preset value, determines the object transmission Scheme is to abandon first uplink information and send second uplink information using second power；The pre-determined threshold and total hair Send the ratio of energy no more than second preset value, after determining the object transmission scheme to reduce by second power and using reduction Second power send first uplink information and second uplink information.Above-mentioned technical proposal, which can preferentially guarantee to send, is somebody's turn to do Second uplink information.

The third aspect, the embodiment of the present application also provide a kind of communication equipment, which includes for realizing first party The unit of any possible implementation of face or first aspect.

Fourth aspect, the embodiment of the present application also provide a kind of communication equipment, which includes for realizing second party The unit of any possible implementation of face or second aspect.

5th aspect, the embodiment of the present application provide a kind of communication equipment, which includes: memory, for storing Program；Processor, for executing the described program of the memory storage, when described program is performed, the processor is used The method described in any possible implementation for executing first aspect or first aspect.Optionally, which is Chip or integrated circuit.

6th aspect, the embodiment of the present application provide a kind of communication equipment, which includes: memory, for storing Program；Processor, for executing the described program of the memory storage, when described program is performed, the processor is used The method described in any possible implementation for executing second aspect or second aspect.Optionally, which is Chip or integrated circuit.

7th aspect, the embodiment of the present application provide a kind of chip for executing first aspect or any of first aspect can Method described in the implementation of energy.

Eighth aspect, the embodiment of the present application provide a kind of chip, for executing any of second aspect or second aspect Possible implementation.

9th aspect, the embodiment of the present application provide a kind of method for transmitting information, this method comprises: determining the first time-frequency money Source, wherein first running time-frequency resource is the running time-frequency resource of uplink control channel, and the uplink control channel is to be transmitted for carrying Ascending control information, first running time-frequency resource is in first time unit；Determine the second running time-frequency resource, wherein second time-frequency provides Source is the running time-frequency resource of uplink data channels, and the uplink data channels are for carrying upstream data to be transmitted, second time-frequency Resource is made of N number of sub- running time-frequency resource, which is located at N number of time quantum, first running time-frequency resource with should Second running time-frequency resource is overlapped in time domain, and N is the positive integer more than or equal to 2；According to the first time unit, upload control is transmitted Information and upstream data.Above-mentioned technical proposal proposes a kind of Chong Die in time domain with second running time-frequency resource in the first running time-frequency resource In the case where, the method for transmitting uplink control information and upstream data.

In conjunction with the 9th aspect, in the first possible implementation of the 9th aspect, the first time unit is institute State one in N number of time quantum.It will be appreciated by persons skilled in the art that can according to from 0 to N-1 for it is described N number of when Between element number, can also be numbered according to from 1 to N for the N number of time quantum, can be according to continuous or discontinuous mode N number of time quantum number can also be that N number of time is single according to sequence from small to large or sequence from big to small Member number, certain N number of time quantum can also using other numberings, the application to this with no restriction.

In conjunction with the 9th aspect, in the first possible implementation of the 9th aspect, this is according to first time-domain resource The time quantum at place, transmitting uplink control information and upstream data, comprising: in first period of the day from 11 p.m. to 1 a.m frequency resource transmission upload control Information and the upstream data, wherein the first sub- running time-frequency resource is a sub- running time-frequency resource in N number of sub- running time-frequency resource, this The number of time quantum where one sub- running time-frequency resource is identical as the number of the first time unit.Based on the above-mentioned technical proposal, The first running time-frequency resource with second running time-frequency resource in the case where time domain is Chong Die, can be used uplink data channels occupancy when Frequency resource transmission ascending control information and upstream data, and without abandoning ascending control information.

In conjunction with the 9th aspect, in second of possible implementation of the 9th aspect, this according to the first time unit, Transmitting uplink control information and upstream data, comprising: the ascending control information is transmitted in the first running time-frequency resource, not in second period of the day from 11 p.m. to 1 a.m The frequency transmitted over resources upstream data, the sub- running time-frequency resource in the second running time-frequency resource in addition to the second sub- running time-frequency resource upload The defeated upstream data, the second sub- running time-frequency resource are a sub- running time-frequency resource in N number of sub- running time-frequency resource, and second period of the day from 11 p.m. to 1 a.m frequency provides The number of time quantum where source is identical as the number of the first time unit.Based on the above-mentioned technical proposal, in the first time-frequency Resource, in the case where time domain is Chong Die, may not need discarding ascending control information with second running time-frequency resource.

In conjunction with the 9th aspect, in the third possible implementation of the 9th aspect, this according to the first time unit, Transmitting uplink control information and upstream data, comprising: transmit the ascending control information and line number on this in M sub- running time-frequency resources According to wherein the M sub- running time-frequency resources belong to N number of sub- running time-frequency resource, the sub- running time-frequency resource of any of the M sub- running time-frequency resources The number of the time quantum at place is greater than or equal to the number of the first time unit, and M is more than or equal to 1 and to be less than N just Integer.Based on the above-mentioned technical proposal, in the first running time-frequency resource with second running time-frequency resource in the case where time domain is Chong Die, Ke Yiwu Ascending control information need to be abandoned.

In conjunction with the third possible implementation of the 9th aspect, in the 4th kind of possible implementation of the 9th aspect In, the ascending control information and the upstream data should be transmitted in M sub- running time-frequency resources, comprising: determine that the ascending control information exists Corresponding every layer of modulating-coding number of symbols is transmitted on the uplink data channels；According to the ascending control information in the upstream data The corresponding every layer of modulating-coding number of symbols of channel determines total modulating-coding number of symbols of the ascending control information, Total modulating-coding symbol of the ascending control information is divided into M part, transmits the M on the M sub- running time-frequency resources respectively Part, total modulating-coding number of symbols of the M part are equal to total modulating-coding number of symbols of the ascending control information.

In conjunction with the 4th kind of possible implementation of the 9th aspect, in the 5th kind of possible implementation of the 9th aspect In, the determination ascending control information transmits corresponding every layer of modulating-coding number of symbols on the uplink data channels, comprising: According to total available resources number of particles in the M sub- running time-frequency resources, determine that the ascending control information is believed in the upstream data Corresponding every layer of modulating-coding number of symbols is transmitted on road；Or

According to the available resources number of particles of a sub- running time-frequency resource in the M sub- running time-frequency resources, the uplink control is determined Information processed transmits corresponding every layer of modulating-coding number of symbols on the uplink data channels.

In conjunction with any of the above-described kind of possible implementation of the 9th aspect or the 9th aspect, the 6th kind at the 9th aspect can Can implementation in, this is according to the first time unit, and before transmitting uplink control information and upstream data, this method is also wrapped It includes: receiving object transmission scheme instruction information, object transmission scheme instruction information is used to indicate object transmission scheme；According to this Target protocol indicates information, determines the object transmission scheme；This is according to the first time unit, transmitting uplink control information and upper Row data, comprising: the ascending control information and the uplink are transmitted according to the first time unit based on the object transmission scheme Data.

In conjunction with the 9th aspect the 6th in possible implementation, the 9th aspect the 7th kind of possible implementation In, it is the first transmission plan or the second transmission plan that target protocol instruction information, which is used to indicate the object transmission scheme,；Or It is first transmission plan or third transmission plan that target protocol instruction information, which is used to indicate the object transmission scheme,；Or it should It is second transmission plan or the third transmission plan that target protocol instruction information, which is used to indicate the object transmission scheme, wherein should First transmission plan are as follows: in the 4th period of the day from 11 p.m. to 1 a.m frequency resource transmission ascending control information and the upstream data, wherein the 4th period of the day from 11 p.m. to 1 a.m Frequency resource is a sub- running time-frequency resource in N number of sub- running time-frequency resource, the volume of the time quantum where the 4th sub- running time-frequency resource It is number identical as the number of the first time unit；Second transmission plan are as follows: transmit upload control letter in the first running time-frequency resource Breath, not in the 5th period of the day from 11 p.m. to 1 a.m frequency transmitted over resources upstream data, in the second running time-frequency resource in addition to the 5th sub- running time-frequency resource The period of the day from 11 p.m. to 1 a.m frequency transmitted over resources upstream data, the 5th sub- running time-frequency resource is a sub- time-frequency money in N number of sub- running time-frequency resource The number in source, the time quantum where the 5th sub- running time-frequency resource is identical as the number of the first time unit；Third transmission Scheme are as follows: transmit the ascending control information and the upstream data in T sub- running time-frequency resources, wherein the T sub- running time-frequency resources belong to The number of N number of sub- running time-frequency resource, the time quantum where the sub- running time-frequency resource of any of the T sub- running time-frequency resource be greater than or Equal to the number of the first time unit, T is the positive integer more than or equal to 1 and less than N.

Tenth aspect, the embodiment of the present application also provide a kind of communication equipment, which includes for realizing the 9th side The unit of any possible implementation of face or the 9th aspect.

Tenth on the one hand, and the embodiment of the present application provides a kind of communication equipment, which includes: memory, for depositing Store up program；Processor, for executing the described program of memory storage, when described program is performed, the processor For executing method described in any possible implementation of the 9th aspect or the 9th aspect.Optionally, the communication equipment For chip or integrated circuit.

12nd aspect, the embodiment of the present application provide a kind of chip be used to execute it is any in terms of the 9th aspect or the 9th Method described in possible implementation.

The another aspect of the application provides a kind of computer readable storage medium, in the computer readable storage medium It is stored with instruction, when described instruction is run on computers, so that computer executes method described in above-mentioned various aspects.

The another aspect of the application provides a kind of computer program product comprising instruction, when the computer program product When running on computers, so that computer executes method described in above-mentioned various aspects.

Detailed description of the invention

Fig. 1 is the schematic flow chart according to the method for transmission information provided by the embodiments of the present application.

Fig. 2 is according to a kind of schematic diagram for the method for transmitting information provided by the embodiments of the present application.

Fig. 3 is the schematic diagram according to the method for another transmission information provided by the embodiments of the present application.

Fig. 4 is the schematic diagram according to the method for another transmission information provided by the embodiments of the present application.

Fig. 5 is the schematic diagram according to the method for another transmission information provided by the embodiments of the present application.

Fig. 6 is the schematic diagram according to the method for another transmission information provided by the embodiments of the present application.

Fig. 7 is the schematic flow chart according to another transmission method provided by the embodiments of the present application.

Fig. 8 is according to a kind of structural block diagram of communication equipment provided by the embodiments of the present application.

Fig. 9 is according to a kind of structural block diagram of communication equipment provided by the embodiments of the present application.

Figure 10 is the structural block diagram according to another communication equipment provided by the embodiments of the present application.

Figure 11 is the structural block diagram according to another communication equipment provided by the embodiments of the present application.

Figure 12 is the schematic flow chart according to the method for another transmission information provided by the embodiments of the present application.

Figure 13 is the structural block diagram according to another communication equipment provided by the embodiments of the present application.

Figure 14 is the structural block diagram according to another communication equipment provided by the embodiments of the present application.

Specific embodiment

Below in conjunction with attached drawing, technical solution in the embodiment of the present invention is described.

It should be understood that the technical solution of the embodiment of the present application can be applied to 5G network, newly eat dishes without rice or wine (new radio, NR), with And subsequent network etc..

So-called communication equipment can be terminal device in the embodiment of the present application.

So-called terminal device is referred to as access terminal, user equipment in the technical solution of the embodiment of the present application (user equipment, UE), subscriber unit, subscriber station, movement station, mobile station, remote station, remote terminal, mobile device, use Family terminal, terminal, wireless telecom equipment, user agent or user apparatus, the handheld device with wireless communication function, calculating are set In other processing equipments that are standby or being connected to radio modem, mobile unit, wearable device and future 5G network Terminal device.Terminal device can be through wireless access network (radio access network, RAN) and one or more core nets It is communicated, or distributed network can be accessed self-organizing or by way of exempting from authorization, terminal device can also pass through it Its mode accesses wireless network and is communicated, and terminal device can also directly be carried out wireless communication with other terminal devices, this Shen Embodiment please is not construed as limiting this.

So-called communication equipment is also possible to chip in the embodiment of the present application.

So-called communication equipment is also possible to the network equipment in the embodiment of the present application.

The so-called network equipment can be base station (gNB) in 5G communication system, future communications system in the embodiment of the present application Base station or the network equipment in system etc..

So-called uplink control channel can be Physical Uplink Control Channel (Physical in the embodiment of the present application Uplink Control Channel, PUCCH).

So-called Uplink Shared Channel is referred to as uplink data channels in the embodiment of the present application, can be physical uplink Shared channel (Physical Uplink Shared Channel, PUSCH).

Fig. 1 is the schematic flow chart according to the method for transmission information provided by the embodiments of the present application.Method shown in FIG. 1 It can be executed by communication equipment.

101, according to the second time-domain resource, determine the object transmission for being used for transmission the first uplink information and the second uplink information Scheme, wherein first uplink information is carried by uplink control channel, which is carried by Uplink Shared Channel, should The first time-domain resource where first uplink information and second time-domain resource where second uplink information portion in the time domain Divide overlapping or all overlapping, which includes at least one symbol, which includes at least one symbol Number.

102, according to the object transmission scheme, transmit first uplink information and/or second uplink information.

First time-domain resource and second time-domain resource partly overlap in the time domain to be referred to there are at least one symbol, should Symbol had not only belonged to first time-domain resource but also had belonged to second time-domain resource.

All overlapping refers to first time-domain resource and is somebody's turn to do in the time domain for first time-domain resource and second time-domain resource Second time-domain resource is identical.

All overlapping can also refer to first time-domain resource in the time domain for first time-domain resource and second time-domain resource It include first time-domain resource including second time-domain resource or second time-domain resource.

First uplink information can be ascending control information (Uplink Control Information, UCI), including Periodic channel status information (Periodic Channel State Information, P-CSI) report, semi-persistent channel shape State information (Semi-persistent Channel State Information, S-CSI) report, aperiodicity channel status (Aperiodic Channel State Information, A-CSI) report, hybrid automatic repeat-request (Hybrid Automatic Request reQuest, HARQ) in feedback information and scheduling request (Scheduling Request, SR) At least one.The unit of first time-domain resource is symbol.First time-domain resource may include continuous multiple symbols.By this The information of uplink control channel carrying can be to be sent in multiple time slots/mini time slot joint.In the case, each time slot/ The uplink information sent on the uplink control channel in mini time slot may be considered individual first uplink information.No The uplink information sent on same time slot/mini time slot uplink control channel can be handled in the same fashion.

At least one of second uplink information can be upstream data and A-CSI includes.Second time-domain resource Unit is symbol.Second time-domain resource may include continuous multiple symbols, also may include discontinuous multiple symbols.

What embodiment shown in FIG. 1 was discussed is first time-domain resource and second time-domain resource partly overlaps or whole How the object transmission scheme is determined in the case where overlapping.When first time-domain resource and not be overlapped second time-domain resource, such as What transmits first uplink information and in the range of second uplink information embodiment not shown in Fig. 1 discusses.

The communication equipment for executing method shown in Fig. 1 can be terminal device, the chip that can be arranged in terminal device, net Network equipment or the chip that can be arranged in the network equipment.

In the case that method shown in Fig. 1 is executed by terminal device or the chip that can be arranged in terminal device, art Language " transmission " refers to that communication equipment is sent to the network equipment.

In the case that method shown in Fig. 1 is executed by the network equipment or the chip that can be arranged in the network equipment, Term " transmission " refers to that communication equipment receiving terminal apparatus is sent.

For example, " determining in step 101 if method shown in FIG. 1 is executed by the network equipment and being used for transmission the first uplink letter Breath and the second uplink information object transmission scheme " refer to determining terminal device for send first uplink information and this second The object transmission scheme of uplink information.Similar, first uplink information and/or second uplink information are transmitted in step 102 Refer to and receives first uplink information and/or second uplink information that the terminal device is sent.

For the convenience of description, so-called first uplink information can refer to by uplink control channel carrying in following embodiment Information, the second uplink information can refer to the information carried by Uplink Shared Channel.

Second time-domain resource can be made of N number of sub- time-domain resource, when N number of sub- time-domain resource is belonging respectively to N number of Gap or N number of mini time slot, the sub- time-domain resource of each of N number of sub- time-domain resource are to belong in 1 time slot or 1 mini time slot Whole time-domain resources of second time-domain resource, N are the positive integer more than or equal to 1.

If the communication equipment is terminal device or the chip that can be arranged in terminal device, terminal device or can set First time-domain resource and second time domain money can be determined according to the instruction of the network equipment by setting the chip in terminal device Source.For example, receiving the time-domain resource instruction information of the network equipment in time slot n-5, time-domain resource instruction information is used for It indicates the 5th time slot after first time-domain resource is time slot n-5 and primary sign is 1.In this case, it is possible to determine this The initial position of one time-domain resource is second symbol of time slot n, and n is integer.For another example, the network is received in time slot n-5 The time-domain resource of equipment indicates that information, time-domain resource instruction information are used to indicate second time-domain resource as after time slot n-5 5th time slot and primary sign are 2.In this case, it is possible to determine that the initial position of second time-domain resource is the of time slot n Three symbols.

In addition, the network equipment also can indicate that the lasting number of time slot of time-domain resource.For example, time-domain resource instruction letter Breath, can be with other than the 5th time slot after can serve to indicate that second time-domain resource is time slot n-5 and primary sign are 2 Indicate that second time-domain resource continues 2 time slots.In this way, second time-domain resource may include two sub- time-domain resources, first The initial position of sub- time-domain resource is the third symbol of time slot n, and the initial position of the second sub-slots resource is the of time slot n+1 Two symbols.

In addition, the network equipment also can indicate that the lasting mini number of time slot of time-domain resource.For example, the time-domain resource refers to Show information in addition to can serve to indicate that second time-domain resource for the 5th mini time slot and primary sign after mini time slot n-5 Outside 2, it also can indicate that second time-domain resource continues 2 mini time slots.In this way, second time-domain resource may include two Sub- time-domain resource, the initial position of the first sub- time-domain resource are the third symbol of mini time slot n, and the second sub-slots resource rises Beginning position is the third symbol of mini time slot n+1.

In addition, the network equipment also can indicate that the lasting number of symbols of time-domain resource.For example, the network equipment can be with Indicate that the first time-domain resource persistence length is 5 symbols；The second time-domain resource persistence length is 2 symbols.

It is understood that if the communication equipment is the network equipment or the chip that can be arranged in the network equipment, The network equipment or the chip that can be arranged in the network equipment can voluntarily determine first time-domain resource and this second when Domain resource.

Optionally, in some embodiments, this is according to the second time-domain resource, determines and is used for transmission the first uplink information and the The object transmission scheme of two uplink informations, comprising: determination can use period of the day from 11 p.m. to 1 a.m domain resource collection, wherein the available period of the day from 11 p.m. to 1 a.m domain resource collection Sub- time-domain resource can be used including M, wherein this can be used sub- time-domain resource to belong to N number of sub- time-domain resource, and the available period of the day from 11 p.m. to 1 a.m The initial time of domain resource is no earlier than the initial time of first time-domain resource and the difference of first time length, and the available son The initial time of time-domain resource be not later than first time-domain resource finish time and the second time span and, M to be greater than or Integer equal to 0；According to the value of M, determine that the object transmission scheme is the first transmission plan, the second transmission plan, third biography At least one of transmission scheme, the 4th transmission plan, the 5th transmission plan, the 6th transmission plan and the 7th transmission plan.

The value of the first time length can for 0 and also according to terminal device from DSCH Downlink Shared Channel is received to generation The minimum processing time needed for HARQ feedback information and receive DSCH Downlink Shared Channel to feed back HARQ feedback information time slot data It calculates.

It should be right in the case where downlink data is enhancing mobile broadband (Enhanced Mobile Broadband eMBB) The maximum allowable delay for the HARQ feedback information answered can be 1 time slot or 14 symbols.It is magnanimity machine in downlink data In the case that class communicates (Massive Machine-Type Communication, mMTC), corresponding HARQ feedback information Maximum allowable delay can be 2 time slots or 28 symbols.It is that high reliability low time delay communicates (Ultra- in downlink data Reliable Low Latency Communication, URLLC) in the case where, the maximum of corresponding HARQ feedback information permits Perhaps delay can be 0 time slot or 0 symbol.

Second time span can be the maximum allowable delay transmission delay thresholding of first uplink information.This second when Between length can by the network equipment indicate or according to type of service etc. determine.

Optionally, in some embodiments, M is equal to 1.In this case, it is possible to determine the object transmission scheme be this One transmission plan.

Optionally, in further embodiments, M is equal to 0.In this case, it is possible to determine that the object transmission scheme is to be somebody's turn to do At least one of second transmission plan, the third transmission plan, the 4th transmission plan and the 5th transmission plan.

Optionally, in some embodiments, M is the positive integer greater than 1.In this case, it is possible to determine the object transmission Scheme is one in the 6th transmission plan and the 7th transmission plan.

That is, the communication equipment value according to M, determine that the object transmission scheme is the first transmission plan, the Two transmission plans, third transmission plan, the 4th transmission plan, the 5th transmission plan, the 6th transmission plan and the 7th transmission plan At least one of, comprising: the communication equipment in the case where determining that M is equal to 1, can determine the object transmission scheme be this One transmission plan；In the case where determining that M is equal to 0, it can determine that the object transmission scheme is second transmission plan, the third At least one of transmission plan, the 4th transmission plan and the 5th transmission plan；Determining that M is the positive integer greater than 1 In the case of, it can determine that the object transmission scheme is at least one of the 6th transmission plan and the 7th transmission plan.

Optionally, in some embodiments, in the case where M is the positive integer greater than 1, which can be according to pre- If rule or the network equipment indicate to determine that the object transmission scheme is the 6th transmission plan.

Optionally, in some embodiments, in the case where M is the positive integer greater than 1, which can be according to pre- If rule or the network equipment indicate to determine that the object transmission scheme is the 7th transmission plan.

Optionally, in some embodiments, in the case where M is the positive integer greater than 1, which can be according to pre- If rule or the network equipment indicate to determine that the object transmission scheme is the 6th transmission plan and the 7th transmission plan.

Optionally, in some embodiments, the determination object transmission scheme is second transmission plan, third transmission At least one of scheme, the 4th transmission plan and the 5th transmission plan, comprising: according to the ability information of terminal device, At least one of the ability information of the network equipment and precedence information determine that the object transmission scheme is the second transmission side At least one of case, the third transmission plan, the 4th transmission plan and the 5th transmission plan, wherein the terminal device Ability information be whether terminal device is supported to send uplink information in multiple channels simultaneously, the ability information of the network equipment is Whether the network equipment support to receive the uplink information sent over multiple channels by same terminal device simultaneously, priority letter Breath is used to indicate the priority of first uplink information and the priority of the second uplink information.

Optionally, in some embodiments, the precedence information can be specific grade including first priority and The specific grade of second priority.In this way, can directly according to the precedence information compare first priority and this second Priority.

Optionally, in further embodiments, the precedence information can be can indicate first priority and this The information of two priority.For example, the precedence information can be Block Error Rate (the Block Error of first uplink information Rate, BLER) and second uplink information Block Error Rate.In this way, can by comparing first uplink information Block Error Rate (with Lower abbreviation BLER1) and the Block Error Rate (hereinafter referred to as BLER2) of second uplink information come compare first priority and this second Priority.

For example, first priority is equal to second priority if BLER1 is equal to BLER2；If BLER1 is less than BLER2, then second priority is greater than first priority；If BLER1 is greater than BLER2, first priority be greater than this Two priority.

Optionally, in some embodiments, which can also include the first preset value and the second preset value.This Sample, can by comparing BLER1, BLER2, first preset value and this second compared with being arranged and first priority and this Two priority.

For example, first priority is greater than second priority if BLER1/BLER2 is less than first preset value；If BLER2/BLER1 is less than second preset value, then first priority is less than second priority；Otherwise, first priority Equal to second priority.

Optionally, in some embodiments, all or part of information in the precedence information can be by the network Equipment instruction.Correspondingly, all or part of information in the precedence information be also possible to it is pre-set.For example, BLER1 and BLER2 can be network equipment instruction, and first preset value and second preset value can be and preset 's.For another example, BLER1, BLER2, first preset value and second preset value can be indicated by the network equipment.

Optionally, in further embodiments, if the communication equipment is the terminal device, the determination object transmission side Case is one in second transmission plan, the third transmission plan, the 4th transmission plan and the 5th transmission plan, packet It includes: receiving the transmission plan instruction information that the network equipment is sent, transmission plan instruction information is used to indicate the object transmission side Case is one in second transmission plan, the third transmission plan, the 4th transmission plan and the 5th transmission plan；According to The transmission plan indicates information, determines the object transmission scheme.

Optionally, in further embodiments, the terminal device and the network equipment can also be negotiated mutually to determine the mesh Mark transmission plan is in second transmission plan, the third transmission plan, the 4th transmission plan and the 5th transmission plan One.

Optionally, in some embodiments, which supports to send uplink information over multiple channels simultaneously.Herein In the case of, it can determine that the object transmission scheme is second transmission plan.

Optionally, in some embodiments, which supports while receiving by same terminal device in multiple channels The uplink information of upper transmission.In this case, it is possible to determine that the object transmission scheme is second transmission plan.

Optionally, in some embodiments, the priority of first uplink information is equal to the preferential of second uplink information Grade.In this case, it is possible to determine that the object transmission scheme is the third transmission plan.

Optionally, in some embodiments, the priority of first uplink information is greater than the preferential of second uplink information Grade.In this case, it is possible to determine that the object transmission scheme is the 4th transmission plan.

Optionally, in some embodiments, the priority of first uplink information is less than the preferential of second uplink information Grade.In this case, it is possible to determine that the object transmission scheme is the 5th transmission plan.

In other words, which is determining terminal device support while sending uplink information over multiple channels And/or in the case that the network equipment supports the uplink information that reception is sent over multiple channels by same terminal device simultaneously, It can determine that the object transmission scheme is second transmission plan；The priority for determining first uplink information be equal to this second In the case where the priority of uplink information, it can determine that the object transmission scheme is the third transmission plan；Determine this first The priority of uplink information be greater than second uplink information priority in this case, can determine that the object transmission scheme is 4th transmission plan；It is less than this situation of the priority of second uplink information in the priority for determining first uplink information Under, it can determine that the object transmission scheme is the 5th transmission plan.

Optionally, in some embodiments, first transmission plan are as follows: sub- time-domain resource can be used in all or part of this Upper transmission first uplink information.

Optionally, in some embodiments, second transmission plan are as follows: this is transmitted in first time-domain resource on first Row information.

Optionally, in some embodiments, third transmission plan are as follows: this is transmitted in the third time-domain resource on first Row information, the third time-domain resource are that first played in object time from the second time-domain resource finish time can be used in The time-domain resource of first uplink information is transmitted, wherein the object time is the first time-domain resource finish time and the second time The sum of length.

Optionally, in some embodiments, the 4th transmission plan are as follows: transmit the first uplink in first time-domain resource Information, and information of second uplink information in overlapping time-domain resource or overlapping running time-frequency resource is punched, the overlapping time-domain Resource is first time-domain resource time-domain resource be overlapped with second time-domain resource, which is the first time-frequency The resource time-frequency domain resources be overlapped with the second running time-frequency resource, wherein first running time-frequency resource is to be used for transmission first uplink letter The running time-frequency resource of breath, second running time-frequency resource are the running time-frequency resource for being used for transmission second uplink information.

Optionally, in some embodiments, the 5th transmission plan are as follows: uploaded in the 4th time domain or the 4th running time-frequency resource Defeated first uplink information, and the information by first uplink information in the overlapping time-domain resource or the overlapping running time-frequency resource Punching, the 4th time-domain resource are the time domain except the time-domain resource removed in the overlapping time-domain resource in first time-domain resource Resource, the 4th running time-frequency resource are the running time-frequency resource removed except the overlapping running time-frequency resource in first running time-frequency resource.

Optionally, in some embodiments, the 6th transmission plan are as follows: this can be used it is specific in the resource collection of period of the day from 11 p.m. to 1 a.m domain can With period of the day from 11 p.m. to 1 a.m domain transmitted over resources first uplink information.

Optionally, in some embodiments, the 7th transmission plan are as follows: can be used in the resource collection of period of the day from 11 p.m. to 1 a.m domain at least at this One available period of the day from 11 p.m. to 1 a.m domain transmitted over resources first uplink information.

Optionally, in some embodiments, this specific sub- time-domain resource can be used is in the available period of the day from 11 p.m. to 1 a.m domain resource collection First can be used sub- time-domain resource.

Optionally, in some embodiments, this specific sub- time-domain resource can be used is in the available period of the day from 11 p.m. to 1 a.m domain resource collection First carrying non-self-decodable redundancy versions can be used sub- time-domain resource.

Optionally, in some embodiments, this at least one sub- time-domain resource can be used is the available period of the day from 11 p.m. to 1 a.m domain resource set Sub- time-domain resource can be all used in conjunction.

Optionally, in some embodiments, this at least one sub- time-domain resource can be used is the available period of the day from 11 p.m. to 1 a.m domain resource collection In all carrying non-self-decodable redundancy versions can be used sub- time-domain resource.

Optionally, in some embodiments, first transmission plan, the second transmission plan, third transmission plan, the 5th pass Transmission scheme, the 6th transmission plan and the 7th transmission plan further include transmitting the second uplink information in second time-domain resource.

Optionally, in some embodiments, the 4th transmission plan further includes removing the overlapping in second time-domain resource The first uplink information is transmitted in the time-domain resource except time-domain resource in running time-frequency resource or the overlapping time-domain resource, alternatively, Second running time-frequency resource removes and transmits first uplink information on the running time-frequency resource except the overlapping running time-frequency resource.

Assuming that the priority of first uplink information is higher than the priority of second uplink information.The then object transmission scheme For the 4th transmission plan, i.e., the first uplink information is transmitted in first time-domain resource, and by second uplink information in weight Folded time-domain resource or the information punching being overlapped on running time-frequency resource, remove the overlapping time-domain resource in second time-domain resource or are somebody's turn to do Transmit the second uplink information in the time-domain resource except time-domain resource in overlapping running time-frequency resource, the overlapping time-domain resource be this The one time-domain resource time-domain resource be overlapped with second time-domain resource, the overlapping running time-frequency resource are the first running time-frequency resource and second The time-frequency domain resources being overlapped in running time-frequency resource, wherein first running time-frequency resource is the time-frequency money for being used for transmission first uplink information Source, second running time-frequency resource are the running time-frequency resource for being used for transmission second uplink information.

For example, it is assumed that second uplink information is only Chong Die in time-domain resource with first uplink information, thus by this second Information punching of the uplink information in the overlapping time-domain resource.It is so-called by second uplink information in the embodiment of the present application Information punching in overlapping time-domain resource refers to only transmits first uplink information in superimposed symbols.Assuming that this is believed on first Breath information and second uplink information all transmit in a time slot, and the primary sign of second uplink information is symbol 2, is held Continue 8 symbols.That is, symbol 2,3,4,5,6,7,8,9 is used to pass in the case where first uplink information is not present Defeated second uplink information.Assuming that the primary sign of first uplink information is symbol 7, continue 2 symbols.That is, There is no in the case where second uplink information, symbol 7 and symbol 8 are used to transmit first uplink information.Due to depositing simultaneously In first uplink information and second uplink information, therefore symbol 7 and symbol 8 are the symbols of overlapping.In the case, will not The information of second uplink information is transmitted in symbol 7 and symbol 8, symbol 7 and symbol 8 are used for transmission first uplink information, former This information carried by symbol 7 and symbol 8 is no longer transmitted.Second uplink information can be transmitted in symbol 2,3,4,5,6,9.

Assuming that the priority of second uplink information is higher than the priority of first uplink information, then the object transmission scheme For the 5th transmission plan, i.e., first uplink information is transmitted in the 4th time domain, and by first uplink information in the overlapping Information punching in time-domain resource or the overlapping running time-frequency resource, transmits the second uplink information in second time-domain resource, should 4th time-domain resource is the time-domain resource except the time-domain resource removed in the overlapping running time-frequency resource in first time-domain resource.

For example, it is assumed that second uplink information is only Chong Die in time-domain resource with first uplink information, thus by this first Information punching of the uplink information in the overlapping time-domain resource.It is so-called by first uplink information in the embodiment of the present application Information punching in overlapping time-domain resource refers to only transmits second uplink information in superimposed symbols.Assuming that this is believed on first Breath information and second uplink information all transmit in a time slot, and the primary sign of second uplink information is symbol 2, is held Continue 8 symbols.That is, symbol 2,3,4,5,6,7,8,9 is used to pass in the case where first uplink information is not present Defeated second uplink information.Assuming that the primary sign of first uplink information is symbol 7, continue 2 symbols.That is, There is no in the case where second uplink information, symbol 7 and symbol 8 are used to transmit first uplink information.Due to depositing simultaneously In uplink information 2 and uplink information 3, therefore symbol 7 and symbol 8 are the symbols of overlapping.It in the case, will not be in 7 He of symbol Symbol 8 transmits the information of first uplink information, is no longer passed by first uplink information that symbol 7 and symbol 8 carry originally Defeated, symbol 7 and symbol 8 are still used for transmission second uplink information.In other words, first uplink is not transmitted in the case Information.

It is similar, if first frequency domain resource is Chong Die with second frequency domain resource and first time-domain resource and this second when Domain resource is also overlapped, then can be punched in the information on the running time-frequency resource of overlapping.Information punching in time-frequency domain resources can be with It is that unit is punched with resource block (Resource Block, RB).

Optionally, in further embodiments, this is according to the second time-domain resource, determine be used for transmission the first uplink information and The object transmission scheme of second uplink information, comprising: when determining belonging at least one symbol that second time-domain resource includes Gap number Q；According to the value of Q, the object transmission scheme is determined.

Optionally, in some embodiments, Q can be 1.In this case, it is possible to determine the first object transmission plan For one in the first transmission plan, the second transmission plan, third transmission plan and the 4th transmission plan.

Optionally, in further embodiments, which can be the positive integer greater than 1.In this respect, can according to this Time slot position belonging at least one symbol that one time-domain resource includes determines that the first object transmission plan is first transmission Scheme, second transmission plan, the third transmission plan, the 4th transmission plan, the 5th transmission plan, the 6th transmission plan, One in 7th transmission plan and the 8th transmission plan.

Communication equipment can elder generation Q value, in the case where Q=1, determine the first object transmission plan be this first pass One into the 4th transmission plan of transmission scheme；It, can be according to first time domain in the case where Q is the positive integer greater than 1 The time-domain position for at least one symbol that resource includes, determine the first object transmission plan be first transmission plan to this One in eight transmission plans.

As can be seen that the range of choice of first object transmission plan is also different in the case where the value of Q is different. In addition, if Q is the positive integer greater than 1, when determining the first object transmission plan, it is also necessary to consider the first time-domain resource packet Time-domain position belonging at least one symbol included.

It is to determine the range of the first object transmission plan according to whether the value of Q is 1 in above-described embodiment.It can manage Solution, can also determine the range of the first object transmission plan according to whether the value of Q is other values.For example, if Q Value is the positive integer less than or equal to 2, determines the first object transmission plan for first transmission plan to the 4th transmission One in scheme；If Q is the positive integer more than or equal to 3, at least one that can include according to first time-domain resource is accorded with Time-domain position belonging to number determines that the first object transmission plan is one of first transmission plan into the 8th transmission plan It is a.

In addition, the range of choice of the first object transmission plan can also be with corresponding change in above-described embodiment.For example, if Q Value be positive integer less than or equal to 2, determine that the first object transmission plan is first transmission plan or this second is passed Transmission scheme；If Q is the positive integer more than or equal to 3, can be according to belonging at least one symbol that first time-domain resource includes Time-domain position, determine that the first object transmission plan is one into the 4th transmission plan of first transmission plan.

Optionally, in some embodiments, time slot belonging at least one symbol which includes is the Q The last one time slot in a time slot.In this case, it is possible to determine the first object transmission plan be first transmission plan, One in second transmission plan, the third transmission plan and the 4th transmission plan.

Optionally, in further embodiments, time slot belonging at least one symbol which includes is Any one time slot in addition to the last one time slot in the Q time slot.In this case, it is possible to determine that available time slot collection merges According to the available time slot set, determine the first object transmission plan be first transmission plan, second transmission plan, this Three transmission plans, the 4th transmission plan, the 5th transmission plan, the 6th transmission plan, the 7th transmission plan and this One in eight transmission plans.

The communication equipment can first determine time slot belonging at least one symbol that first time-domain resource includes at the Q Position in time slot is determining that time slot belonging at least one symbol that first time-domain resource includes is in the Q time slot In the case where the last one time slot, the first object transmission plan can be determined for first transmission plan to the 4th transmission side One in case；Determining that time slot belonging at least one symbol that first time-domain resource includes is except in the Q time slot In the case where any one time slot other than the last one time slot, it can determine that available time slot collection merges according to the available time slot collection It closes, determines that the first object transmission plan is one of first transmission plan into the 8th transmission plan.

As can be seen that the situation that time slot position belonging at least one symbol for including in first time-domain resource is different Under, the range of choice of the first object transmission plan is also different.In addition, if first time-domain resource include at least one Time slot belonging to symbol is any one time slot in addition to the last one time slot in the Q time slot, is determining the first object When transmission plan, it is also necessary to consider available time slot.

Be in above-described embodiment time slot belonging at least one symbol that first time-domain resource includes be whether be the Q The last one time slot in time slot determines the range of the first object transmission plan.It is understood that acceptable basis should Time slot belonging at least one symbol that first time-domain resource includes be whether be that other time slot in the Q time slot come really The range of the fixed first object transmission plan.For example, if time slot belonging at least one symbol that first time-domain resource includes Whether to be a time slot in most latter two time slot in the Q time slot, determine the first object transmission plan be this first One into the 4th transmission plan of transmission plan；If time slot belonging at least one symbol that first time-domain resource includes Whether to be a time slot in the first two time slot in the Q time slot, it is available according to this can to determine that available time slot collection merges Time slot sets determine that the first object transmission plan is one of first transmission plan into the 8th transmission plan.

In addition, the range of choice of the first object transmission plan can also be with corresponding change in above-described embodiment.For example, if The case where time slot belonging at least one symbol that first time-domain resource includes is the last one time slot in the Q time slot Under, it can determine that the first object transmission plan is first transmission plan or second transmission plan；If first time domain provides Time slot belonging at least one symbol that source includes is any one time slot in addition to the last one time slot in the Q time slot In the case of, can determine that available time slot collection merges according to the available time slot set, determine the first object transmission plan be this One into the 4th transmission plan of one transmission plan.

Optionally, in some embodiments, which can be sky.In this case, it is possible to determine this One object transmission scheme is first transmission plan, second transmission plan, the third transmission plan and the 4th transmission plan In one.

Optionally, in further embodiments, which can be non-empty.In this case, it is possible to determine The first object transmission plan can be the 5th transmission plan, the 6th transmission plan, the 7th transmission plan and the 8th One in transmission plan.

The communication equipment can determine the available time slot set whether be it is empty, determining that the available time slot collection is combined into empty set In the case of, determine that the first object transmission plan is one of first transmission plan into the 4th transmission plan；In determination In the case that the available time slot collection is combined into nonempty set, determine the first object transmission plan be the 5th transmission plan to this One in eight transmission plans.

As can be seen that whether be empty set according to the available time slot set, the range of choice of the first object transmission plan It is different.

Optionally, in some embodiments, determine the first object transmission plan can for the 5th transmission plan, this One in six transmission plans, the 7th transmission plan and the 8th transmission plan can be it is true according to the instruction of the network equipment It is fixed.In other words, which can receive the instruction information of network equipment transmission, which is used to indicate at this Available time slot set can be that the first object transmission plan is the 5th transmission plan, the 6th transmission side in the case where non-empty Case, the 7th transmission plan or the 8th transmission plan.

Optionally, in further embodiments, determine that the first object transmission plan can be the 5th transmission plan, be somebody's turn to do One in 6th transmission plan, the 7th transmission plan and the 8th transmission plan can be according to preset rules determination. In other words, which can determine that the first object transmission plan is the 5th transmission plan, is somebody's turn to do according to preset rules One in 6th transmission plan, the 7th transmission plan and the 8th transmission plan.For example, if second uplink information includes Decodable redundancy versions and/or can not self-demarking code redundancy versions, then can determine the first object transmission plan be this Seven transmission plans or the 8th transmission plan.If second uplink information does not include decodable redundancy versions or can not self solve The redundancy versions of code can then determine that the first object transmission plan is the 5th transmission plan or the 6th transmission plan.

Optionally, in some embodiments, determine that the first object transmission plan is first transmission plan, second biography One in transmission scheme, the third transmission plan and the 4th transmission plan, comprising: according to business information and temporal information, really The fixed first object transmission plan is first transmission plan, second transmission plan, the third transmission plan and the 4th biography One in transmission scheme, wherein the business information include in the business demand information priorities information of uplink control channel at least One, which includes the first moment and the second moment, and the business demand information of the uplink control channel is used to indicate this Whether the first uplink information, which allows to postpone, sends, which is used to indicate the first priority and the second priority, this One priority is the priority of first uplink information, which is the priority of second uplink information, this first Moment is at the time of generating first uplink information, which is the initial time of second time-domain resource.

Optionally, in some embodiments, which is not later than second moment.In this case, it is possible to really The fixed first object transmission plan is first transmission plan.

For example, it is assumed that first uplink information and second uplink information are sent in time slot n, and first uplink is believed The primary sign of breath is S1, and the primary sign of second uplink information is S2.The terminal device is generating first uplink information Afterwards, the remaining time of the primary sign apart from first uplink information is t symbol.If S₁-t≤S₂, then first moment is not late In second moment.In other words, if S₁-t≤S₂, then before transmitting second uplink information, have enough time generate this first Uplink information.If S₁-t>S₂, then first moment is later than second moment.In other words, if S₁-t>S₂, then it is being transferred to Before two uplink informations, first uplink information is generated without enough time.

It is considered in above-mentioned technical proposal and handles the time necessary to generating first uplink information.

Optionally, in some embodiments, first uplink information allow to postpone to send and first moment be later than this Two moment and first priority are equal to second priority.In this case, it is possible to determine that the first object transmission plan is Second transmission plan.

Optionally, in some embodiments, first uplink information allow to postpone to send and first moment be later than this Two moment and first priority are greater than second priority.In this case, it is possible to determine that the first object transmission plan is The third transmission plan.

Optionally, in some embodiments, first uplink information allow to postpone to send and first moment be later than this Two moment and first priority are less than second priority.In this case, it is possible to determine that the first object transmission plan is 4th transmission plan.

Optionally, in some embodiments, which does not allow to postpone to send and first priority is greater than Or it is equal to second priority.In this case, it is possible to determine that the first object transmission plan is the third transmission plan.

Optionally, in some embodiments, which does not allow to postpone to send and first priority is less than Second priority.In this case, it is possible to determine that the first object transmission plan is the 4th transmission plan.

The communication equipment can first determine whether first uplink information allows to be delayed by transmission, and whether first moment is late In second moment, whether which is greater than two in second priority or all determines first object transmission Scheme.Specifically, the communication equipment is in the case where determining that first moment is not later than second moment, can determine this first Object transmission scheme is first transmission plan；Determining that first uplink information allows to postpone to send and first moment is later than In the case that second moment and first priority are equal to second priority, it can determine that the first object transmission plan is Second transmission plan；Determine first uplink information allow postpone send and first moment be later than second moment and should In the case that first priority is greater than second priority, it can determine that the first object transmission plan is the third transmission side Case；Determining that first uplink information allows to postpone to send and first moment is later than second moment and first priority is small In the case where second priority, it can determine that the first object transmission plan is the 4th transmission plan；Determine this In the case that one uplink information does not allow to postpone to send and first priority is greater than or equal to second priority, it can determine The first object transmission plan is the third transmission plan；Determine first uplink information do not allow postpone send and this first In the case that priority is less than second priority, it can determine that the first object transmission plan is the 4th transmission plan.

It is listed in above-described embodiment a variety of for determining that the first object transmission plan is that first transmission plan extremely should The rule of 4th transmission plan.It is understood that in some embodiments, it can be simultaneously using above-mentioned all rules, it can also Only using the part rule in above-mentioned rule.In addition, those skilled in the art are based on above-mentioned rule, can also determine to utilize Other rules for being used to determine the first object transmission plan.

Optionally, any one in the business demand information of the uplink control channel and the precedence information or whole It can be that the communication equipment is indicated to by the network equipment.It can not be with by the information that the network equipment is indicated to the communication equipment It is preset.Alternatively, the business demand information of the uplink control channel and the precedence information can be preset 's.

Optionally, in some embodiments, which can indicate the uplink control channel by display mode Business demand information and the precedence information.In further embodiments, which can indicate to be somebody's turn to do by implicit The business demand information and the precedence information of uplink control channel.For example, being pressed if the network equipment is sent to the communication equipment Contracting downstream grants (compact downlink grant), then do not allowed to postpone by the information that the uplink control channel carries；If That the network equipment is sent to the communication equipment is normal downstream grants (normal downlink grant), then by the uplink The information that control channel carries allows to postpone 1 time slot and sends.

Optionally, in some embodiments, the business demand information of the uplink control channel can be type of service.The industry Service type includes enhancing mobile broadband (Enhanced Mobile Broadband, eMBB), the communication of high reliability low time delay (Ultra-Reliable Low Latency Communication, URLLC), magnanimity machine type communication (Massive Machine-Type Communication, mMTC).Optionally, in some embodiments, if the type of service is URLLC, The information carried by the uplink control channel does not allow to postpone to send.If the type of service is eMBB or mMTC, should be by uplink The information that control channel carries allows to send.In this way, can be by determining that type of service is carried to determine by uplink control channel Information whether allow postpone send.

Further, which can also determine the number of time slot for allowing to postpone to send according to the type of service.Example Such as, if the type of service is eMBB, the number of time slot for allowing to postpone to send is 1；If the type of service is mMTC, allow to prolong The tardy number of time slot sent is 2.It is preset that this allows the number of time slot for postponing to send can be, and is also possible to by the net Network equipment is indicated to the communication equipment.

Optionally, in some embodiments, the business demand information of the uplink control channel, which can be, allows to postpone to send Number of time slot.For example, this allows to postpone to send if the information carried by the uplink control channel does not allow to postpone to send Number of time slot value be 0；If allowing to postpone to send T times by the information that the uplink control channel carries, this allows to postpone to send out The value of the number of time slot sent is T, and wherein T is the positive integer more than or equal to 1.In this way, can directly be believed according to the upload control The business demand information in road determines whether the information carried by the uplink control channel allows to postpone to send and allow to prolong simultaneously The tardy number of time slot sent.

Optionally, in some embodiments, the precedence information can be specific grade including first priority and The specific grade of second priority.In this way, can directly according to the precedence information compare first priority and this second Priority.

Optionally, in further embodiments, the precedence information can be can indicate first priority and this The information of two priority.For example, the precedence information can be Block Error Rate (the Block Error of first uplink information Rate, BLER) and second uplink information Block Error Rate.In this way, can by comparing first uplink information Block Error Rate (with Lower abbreviation BLER1) and the Block Error Rate (hereinafter referred to as BLER2) of second uplink information come compare first priority and this second Priority.

For example, first priority is equal to second priority if BLER1 is equal to BLER2；If BLER1 is less than BLER2, then second priority is greater than first priority；If BLER1 is greater than BLER2, first priority be greater than this Two priority.

Optionally, in some embodiments, which can also include the first preset value and the second preset value.This Sample, can by comparing BLER1, BLER2, first preset value and this second compared with being arranged and first priority and this Two priority.

For example, first priority is greater than second priority if BLER1/BLER2 is less than first preset value；If BLER2/BLER1 is less than second preset value, then first priority is less than second priority；Otherwise, first priority Equal to second priority.

Optionally, in some embodiments, all or part of information in the precedence information can be by the network Equipment instruction.Correspondingly, all or part of information in the precedence information be also possible to it is pre-set.For example, BLER1 and BLER2 can be network equipment instruction, and first preset value and second preset value can be and preset 's.For another example, BLER1, BLER2, first preset value and second preset value can be indicated by the network equipment.

Optionally, in some embodiments, which is periodic channel status information (Periodic Channel State Information, P-CSI) report or semi-persistent channel state information (Semi-persistent Channel State Information, S-CSI) report.In this case, it is possible to determine the in the available time slot set One time slot be first time-domain resource (i.e. first time-domain resource include at least one symbol belonging to time slot), this is available The last one time slot of time slot is the last one time slot in second time-domain resource.

Optionally, in some embodiments, which is hybrid automatic repeat-request (Hybrid Automatic Request reQuest, HARQ) feedback information or aperiodicity channel status (Aperiodic Channel State Information, A-CSI) it reports and is not later than second time-domain resource at the time of generating first uplink information Initial time.In this case, it is possible to determine that first time slot in the available time slot set is that first time-domain resource (i.e. should Time slot belonging at least one symbol that first time-domain resource includes), the last one time slot of the available time slot set be this M-th time slot after one time-domain resource, wherein M is the maximum number of time slot that first uplink information allows to postpone, and M is big In or equal to 1 positive integer.

Optionally, in some embodiments, which is the HARQ feedback information or A-CSI report and generates It is later than the initial time of second time-domain resource at the time of first uplink information.In this case, it is possible to when determining that this is available First time slot in gap set is first time-domain resource (described in at least one symbol that i.e. first time-domain resource includes Time slot), the last one time slot of the available time slot set is the m-th time slot after first time-domain resource.

Optionally, in some embodiments, the communication equipment can according to the type of the uplink information and generate this first At the time of uplink information, the available time slot set is determined.Specifically, determining first uplink channel information for P-CSI report Or in the case that S-CSI is reported, first time slot in the available time slot set can be determined for first time-domain resource (i.e. Time slot belonging at least one symbol that first time-domain resource includes), the last one time slot of the available time slot be this second The last one time slot in time-domain resource；Determine first uplink channel information be HARQ feedback information or A-CSI report and In the case where the initial time for being not later than second time-domain resource at the time of generating first uplink information, it can determine that this is available First time slot in time slot sets is first time-domain resource (belonging at least one symbol that i.e. first time-domain resource includes Time slot), the last one time slot of the available time slot set is the m-th time slot after first time-domain resource, wherein M be should First uplink information allows the maximum number of time slot postponed, and M is the positive integer more than or equal to 1；Determining first uplink Information is the HARQ feedback information or A-CSI report and is later than second time-domain resource at the time of generating first uplink information In the case where initial time, can determine first time slot in the available time slot set be first time-domain resource (i.e. this Time slot described in at least one symbol that one time-domain resource includes), the last one time slot of the available time slot set be this first M-th time slot after time-domain resource.

For example, it is assumed that first uplink information and second uplink information are sent in time slot n, and first uplink is believed The primary sign of breath is S1, and the primary sign of second uplink information is S2.The terminal device is generating first uplink information Afterwards, the remaining time of the primary sign apart from first uplink information is t symbol.If S₁-t≤S₂, then first uplink is generated The initial time of second time-domain resource is not later than at the time of information.In other words, if S₁-t≤S₂, then this is being transmitted on second Before row information, there is enough time to generate first uplink information.If S₁-t>S₂, then it is later than at the time of generating first uplink information The initial time of second time-domain resource.In other words, if S₁-t>S₂, then before being transferred to the second uplink information, without enough Time generates first uplink information.

Optionally, in some embodiments, first transmission plan are as follows: believe first uplink information and second uplink Breath is transmitted by the Uplink Shared Channel.

Optionally, in some embodiments, second transmission plan are as follows: determine whether using the first slot transmission this first Uplink information, wherein first time slot be first time-domain resource include at least one symbol belonging to time slot it is next when Gap.In this way, if first uplink information have little time with the second uplink information joint transmission, can be by first uplink information Postpone a time slot processing.Can also have so certain probability be successfully transmitted first uplink information and without to this first Uplink information or second uplink information punching.

Optionally, in some embodiments, third transmission plan are as follows: provide second uplink information in first time domain The information Chong Die at least one symbol that first time-domain resource includes in time slot belonging at least one symbol that source includes Punching.Although the partial information of second uplink information is perforated, still there is partial information to be delivered successfully.It in this way can be with Reduce the information for needing to retransmit.

Optionally, in some embodiments, the 4th transmission plan are as follows: provide first uplink information in first time domain The information Chong Die at least one symbol that first time-domain resource includes in time slot belonging at least one symbol that source includes Punching.Although the partial information of first uplink information is perforated, still there is partial information to be delivered successfully.It in this way can be with Reduce the information for needing to retransmit.

Optionally, in some embodiments, the 5th transmission plan are as follows: in first available time slot, receive the terminal and set By first available time slot in standby first uplink information and second uplink information sent by the Uplink Shared Channel The information of carrying.

Optionally, in some embodiments, the 6th transmission plan are as follows: in whole available time slots, receive the terminal device It is carried in first uplink information and second uplink information sent by the Uplink Shared Channel by the whole available time slot Information.

Optionally, in some embodiments, the 7th transmission plan are as follows: include at least one in second uplink information In the case where the redundancy version information of non-self-decodable, carry at least one non-self-decodable redundancy version information in first The time slot of the redundancy version information of a non-self-decodable receive that the terminal device sent by the Uplink Shared Channel this on first The redundancy version information of row information and first non-self-decodable only includes at least one self-demarking code in second uplink information Redundancy version information in the case where, carry at least one self-demarking code redundancy version information in first self-demarking code it is superfluous The time slot of remaining version information receive first uplink information that the terminal device is sent by the Uplink Shared Channel and this first A self-demarking code redundancy version information.The information of self-demarking code redundancy versions carried by Uplink Shared Channel can be evaded in this way.Drop The influence that low joint transmission first uplink information and second uplink information transmit second uplink information.

Optionally, in some embodiments, the 8th transmission plan are as follows: include at least one in second uplink information It is non-certainly in each of the redundancy version information of at least one non-self-decodable in the case where the redundancy version information of non-self-decodable Each time slot of decoded redundancy version information receives first uplink that the terminal device is sent by the Uplink Shared Channel The redundancy version information of information and each non-self-decodable, it is only superfluous including at least one self-demarking code in second uplink information In the case where remaining version information, the redundancy versions of each self-demarking code in the redundancy version information of at least one self-demarking code are believed Each time slot of breath receives first uplink information and each redundancy that the terminal device is sent by the Uplink Shared Channel Version information.The information of self-demarking code redundancy versions carried by Uplink Shared Channel can be evaded in this way.Reducing joint transmission should The influence that first uplink information and second uplink information transmit second uplink information.

According to actual needs, the particular content of above-mentioned first transmission plan to the 8th transmission plan can also be adjusted. It is just not listed one by one herein.It is passed further, it is to be appreciated that the selection range of first object transmission plan can be above-mentioned first Whole transmission plans of the transmission scheme into the 8th transmission plan.The selection range of the first object transmission plan is also possible to above-mentioned Fractional transmission scheme of first transmission plan into the 8th transmission plan.The selection range of the first object transmission plan can also be with It is fractional transmission scheme and other unlisted transmission plans of above-mentioned first transmission plan into the 8th transmission plan.

Optionally, in some embodiments, this determines whether that it includes: true that first uplink information is sent using the first time slot Fixed first time slot whether there is third uplink information, and wherein the third uplink information is carried by the Uplink Shared Channel；Determine knot Fruit determines the primary sign of first time-domain resource for 0 simultaneously to be (sending first uplink information using first time slot) Determine that the second object transmission scheme is first transmission plan, second transmission plan, the third transmission plan and the 4th biography One in transmission scheme；Definitive result is no (sending first uplink information without using first time slot) and first uplink Information does not allow to postpone to send, and abandons first uplink information；Definitive result be it is no (i.e. without using first time slot send this One uplink information) and first uplink information still allow for delay to send, determine the second time slot with the presence or absence of the 4th uplink information, Wherein the 4th uplink information is carried by the Uplink Shared Channel, which is next time slot of first time slot.

Determine that the second object transmission scheme is first transmission plan, second transmission plan, the third transmission plan The first object transmission plan is the first transmission side with determination with one specific determination process in the 4th transmission plan As soon as case, second transmission plan, the third transmission plan in the 4th transmission plan detailed process it is identical, herein It need not repeat.

It is taken if first uplink information still allows for delay to send and exist in next time slot by Uplink Shared Channel The information of band can then continue to determine that first transmission plan one into the 4th transmission plan is mesh in next time slot Mark transmission plan.Specific determination process and the determining first object transmission plan are first transmission plan, the second transmission side Case, the third transmission plan are identical with one detailed process in the 4th transmission plan.It need not just repeat herein.

In addition, every once adjudicated, whether which allows the number of time slot for postponing to send just to subtract 1.

Optionally, in some embodiments, the network is sent to by multiple common time slots in first uplink information to set In the case where standby, each common time slot in multiple common time slot carries first uplink information, and wherein the common time slot is The time slot of first uplink information and second uplink information is carried simultaneously.

The bit number for first uplink information that each common time slot carries is identical.Optionally, in some embodiments In, the bit number of first uplink carried by each common time slot in K common time slot is taken by a common time slot The 1/K of bit number with first uplink information, wherein K is the positive integer greater than 1.For example, it is assumed that the first uplink information packet Include 2 bits.First uplink information can be copied as into 8 bits.That is, in total including 4 the first uplink informations.If should The number of common time slot is 1, then the common time slot can carry the first uplink information of 8 bit.If the number of the common time slot Mesh is 2, then each common time slot may include the first uplink information of 4 bits.In other words, each common time slot can carry Two first uplink informations.Optionally, in some embodiments, optionally, in some embodiments, by K common time slot In the bit number of first uplink that carries of each common time slot with first uplink information carried by a common time slot Bit number it is identical.For example, it is assumed that the first uplink information includes 2 bits.First uplink information can be copied as to 8 ratios It is special.That is, in total including 4 the first uplink informations.If the number of the common time slot is 1, which can be taken The first uplink information with 8 bit.If the number of the common time slot is 2, each common time slot may include the of 8 bits One uplink information.In other words, each common time slot can carry two first uplink informations.

Technical scheme is described below in conjunction with specific embodiment.

Fig. 2 is according to a kind of schematic diagram for the method for transmitting information provided by the embodiments of the present application.

Start to send uplink information 1 in the symbol 1 of n-th of time slot as shown in Fig. 2, communication equipment is determined.Uplink information 1 by Uplink control channel carries.The uplink information 1 is HARQ feedback information.The uplink information 1 continues 5 symbols.The uplink information 1 First time length be 0, the second time span of the uplink information 1 is 1 time slot.

The communication equipment, which is determined, to be started to send uplink information 2 in the symbol 2 of n-th of time slot.The uplink information 2 is total to by uplink Enjoy channel carrying.The communication equipment determines that the uplink information 2 is only sent in n-th of time slot.The uplink information 2 continues 8 Symbol.

The communication equipment, which is determined, to be started to send uplink information 3 in the symbol 7 of n-th of time slot.Uplink information 3 is by upload control Channel carries.The uplink information 3 is A-CSI feedback information.The first time length of the uplink information 3 is 2 symbols, the uplink Second time span of information 3 is 0.The uplink information 3 continues 2 symbols.

As shown in Fig. 2, the time-domain resource of the uplink information 1 and the time-domain resource of the uplink information 2 partly overlap, the uplink The time-domain resource of information 2 and the time-domain resource of the uplink information 3 are completely overlapped.

Second time-domain resource can be made of N number of sub- time-domain resource, which is belonging respectively to N number of time slot, The sub- time-domain resource of each of N number of sub- time-domain resource is to belong to the second time-domain resource whole time-domain resource, N in 1 time slot For the positive integer more than or equal to 1.As can be seen that second time-domain resource includes 1 sub- time domain in embodiment shown in Fig. 2 Resource, the sub- time-domain resource are the symbol 2 in n-th of time slot to symbol 9.

This can be used sub- time-domain resource to belong to N number of sub- time-domain resource (hereinafter referred to as rule 1), and the available period of the day from 11 p.m. to 1 a.m domain money The initial time in source is no earlier than the initial time of first time-domain resource and the difference (hereinafter referred to as rule 2) of first time length, And this can be used the initial time of sub- time-domain resource to be not later than finish time and second time span of first time-domain resource (hereinafter referred to as rule 3)

For uplink information 1 and uplink information 2, according to rule 1, it can determine that the starting of sub- time-domain resource can be used in this Moment is the symbol 2 of n-th of time slot.According to rule 2, it can determine that this can be used the initial time of sub- time-domain resource to be no earlier than n-th The symbol 1 of a time slot.According to rule 3, it can determine that the initial time of the available time-domain resource is not later than the symbol of (n+1)th time slot Numbers 6.According to the determination of above three rule as a result, available period of the day from 11 p.m. to 1 a.m domain included by the available period of the day from 11 p.m. to 1 a.m domain resource collection can be determined Resource is 1 sub- time-domain resource that second time-domain resource includes.Therefore, the value of M is equal to 1.In the case, the object transmission It is first transmission plan that scheme, which can be the object transmission scheme, i.e., can be used sub- time-domain resource to upload in all or part of this Defeated first uplink information.It only include an available period of the day from 11 p.m. to 1 a.m domain since this can be used in the set of period of the day from 11 p.m. to 1 a.m domain, it can be available at this The transmitted over resources uplink information 1 in period of the day from 11 p.m. to 1 a.m domain is simultaneously transmitted in second time-domain resource (symbol 2 of i.e. n-th time slot to symbol 9) The uplink information 2.

For uplink information 2 and uplink information 3, according to rule 1, it can determine that the starting of sub- time-domain resource can be used in this Moment is the symbol 2 of n-th of time slot.According to rule 2, can determine that this can be used the initial time of sub- time-domain resource to be no earlier than is the The symbol 5 of n time slot.According to rule 3, it can determine that the initial time of the available time-domain resource is not later than the symbol of n-th of time slot Numbers 8.According to the determination of above three rule as a result, available period of the day from 11 p.m. to 1 a.m domain included by the available period of the day from 11 p.m. to 1 a.m domain resource collection can be determined Number be 0.That is, the value of M is equal to 0.In the case, the object transmission scheme can be second transmission plan, At least one of the third transmission plan, the 4th transmission plan and the 5th transmission plan.

Therefore, can according in the ability information of terminal device, the ability information of the network equipment and precedence information extremely Few one, determine the object transmission scheme be second transmission plan, the third transmission plan, the 4th transmission plan and this At least one of five transmission plans, wherein the ability information of the terminal device is whether terminal device is supported simultaneously multiple Channel sends uplink information, and whether the ability information of the network equipment is supported to receive simultaneously for the network equipment is set by same terminal The standby uplink information sent over multiple channels, the precedence information are used to indicate the priority and second of first uplink information The priority of uplink information.

Assuming that the terminal device is supported to send uplink information in multiple channels simultaneously, and/or, which supports simultaneously The uplink information sent over multiple channels by same terminal device is received, then the object transmission scheme is the second transmission side Case transmits first uplink information in first time-domain resource, transmit the second uplink information in second time-domain resource. In other words, uplink information 3 can be transmitted in the symbol 7 and symbol 8 of n-th of time slot, n-th of time slot symbol 2 to symbol Numbers 9 transmission uplink informations 2.

Assuming that the priority of first uplink information is equal to the priority of second uplink information, then the object transmission scheme For the third transmission plan, i.e., first uplink information is transmitted in the third time-domain resource, which is from this The first time domain money that can be used in transmitting first uplink information that second time-domain resource finish time played in object time Source, wherein the object time is the sum of the first time-domain resource finish time and the second time span.Due to the uplink information 3 Second time span is 0.Therefore, which is the first time-domain resource finish time.In the case, and when second Domain resource finish time is to the time-domain resource that not can be used in transmitting the uplink information 3 between the object time.In this situation Under, the uplink information 3 can not be sent, transmits uplink information 2 in symbol 2 to the symbol 9 of n-th of time slot.

Assuming that the priority of first uplink information is greater than the priority of second uplink information, then the object transmission scheme For the 4th transmission plan, i.e., the first uplink information is transmitted in first time-domain resource, and by second uplink information in weight Folded time-domain resource or the information punching being overlapped on running time-frequency resource, remove except the overlapping time-domain resource in second time-domain resource Time-domain resource on transmit the first uplink information, alternatively, when second running time-frequency resource removes except the overlapping running time-frequency resource Frequency transmitted over resources first uplink information, the overlapping time-domain resource are weight in first time-domain resource and second time-domain resource Folded time-domain resource, the overlapping running time-frequency resource are the first running time-frequency resource time-frequency domain resources be overlapped with the second running time-frequency resource, In first running time-frequency resource be the running time-frequency resource for being used for transmission first uplink information, second running time-frequency resource be used for transmission this The running time-frequency resource of second uplink information.

As shown in Fig. 2, uplink information 2 is only Chong Die in time-domain resource with uplink information 3, therefore uplink information 2 is heavy at this Information punching in folded time-domain resource.As shown in Fig. 2, in the case where uplink information 3 are not present, symbol 2,3,4,5,6, 7, it 8,9 is used to transmit the uplink information 2.In the case where uplink information 2 are not present, symbol 7 and symbol 8 are used to transmission and are somebody's turn to do Uplink information 3.It, will not be in the information of symbol 7 and the transmission of symbol 8 uplink information 2,7 He of symbol according to the 4th transmission plan Symbol 8 is used for transmission uplink information 3, and the uplink information 2 carried originally by symbol 7 and symbol 8 is no longer transmitted.Uplink information 2 can transmit in symbol 2,3,4,5,6,9.

Assuming that the priority of first uplink information is less than the priority of second uplink information, then the object transmission scheme For the 5th transmission plan, i.e., first uplink information is transmitted in the 4th time-domain resource or the 4th running time-frequency resource, and should Information punching of first uplink information in the overlapping time-domain resource or the overlapping running time-frequency resource, in second time-domain resource The second uplink information is transmitted, the 4th time-domain resource is the time domain removed except the overlapping time-domain resource in first time-domain resource Resource, the 4th running time-frequency resource are the running time-frequency resource removed except the overlapping running time-frequency resource in first running time-frequency resource.

As shown in Fig. 2, uplink information 2 is only Chong Die in time-domain resource with uplink information 3, therefore uplink information 2 is heavy at this Information punching in folded time-domain resource.As shown in Fig. 2, in the case where uplink information 3 are not present, symbol 2,3,4,5,6, 7, it 8,9 is used to transmit the uplink information 2.In the case where uplink information 2 are not present, symbol 7 and symbol 8 are used to transmission and are somebody's turn to do Uplink information 3.According to the 5th transmission plan, uplink information 3 will not be transmitted in symbol 7 and symbol 8, symbol 7 and symbol 8 are used for Send uplink information 2.Uplink information 2 can be transmitted in symbol 2,3,4,5,6,7,89, and uplink information 1 will not be transmitted.

Fig. 3 is the schematic diagram according to the method for another transmission information provided by the embodiments of the present application.

Start to send uplink information 1 in the symbol 1 of n-th of time slot as shown in figure 3, communication equipment is determined.Uplink information 1 by Uplink control channel carries.The uplink information 1 is HARQ feedback information.The uplink information 1 continues 5 symbols.The uplink information 1 First time length be 0, the second time span of the uplink information 1 is 1 time slot.

The communication equipment, which is determined, to be started to send uplink information 2 in the symbol 2 of n-th of time slot.The uplink information 2 is total to by uplink Enjoy channel carrying.The communication equipment determines that the uplink information 2 is only sent in n-th of time slot.The uplink information 2 continues 8 Symbol.

The communication equipment, which is determined, to be started to send uplink information 3 in the symbol 7 of n-th of time slot.Uplink information 3 is by upload control Channel carries.The uplink information 3 is HARQ feedback information.The first time length of the uplink information 3 is 0, the uplink information 3 The second time span be 1 time slot.The uplink information 3 continues 2 symbols.

The communication equipment determine for send the uplink information 1 and the uplink information 2 transmission plan detailed process and Embodiment shown in Fig. 2 is similar, need not just repeat herein.

For uplink information 2 and uplink information 3, according to rule 1, it can determine that the starting of sub- time-domain resource can be used in this Moment is the symbol 2 of n-th of time slot.According to rule 2, can determine that this can be used the initial time of sub- time-domain resource to be no earlier than is the The symbol 5 of n time slot.According to rule 3, it can determine that the initial time of the available time-domain resource is not later than the symbol of n-th of time slot Numbers 8.According to the determination of above three rule as a result, available period of the day from 11 p.m. to 1 a.m domain included by the available period of the day from 11 p.m. to 1 a.m domain resource collection can be determined Number be 0.That is, the value of M is equal to 0.In the case, the object transmission scheme can be second transmission plan, At least one of the third transmission plan, the 4th transmission plan and the 5th transmission plan.

Use the specific implementation and Fig. 2 of second transmission plan, the 4th transmission plan and the 5th transmission plan Shown in embodiment it is identical, need not just repeat herein.

It is as shown in Figure 3 ascending resource 1 in the symbol 3 of time slot n+1 to symbol 10, ascending resource 1 can be used in transmission Row information 3.Assuming that the priority of first uplink information is equal to the priority of second uplink information, then the object transmission scheme For the third transmission plan, i.e., first uplink information is transmitted in the third time-domain resource, which is from this The first time domain money that can be used in transmitting first uplink information that second time-domain resource finish time played in object time Source, wherein the object time is the sum of the first time-domain resource finish time and the second time span.Due to the uplink information 3 Second time span is 1 time slot.Therefore, the symbol 8 of object time time slot n+1.In the case, and the second time-domain resource Finish time to have between the object time can be used in transmit uplink information 3 time-domain resource.In this case, it is possible at this The symbol 3 of (n+1)th time slot to the time-domain resource between symbol 8 sends the uplink information 3, n-th of time slot symbol 2 to symbol Numbers 9 transmission uplink informations 2.

Fig. 4 is the schematic diagram according to the method for another transmission information provided by the embodiments of the present application.

As shown in figure 4, communication equipment, which is determined, sends uplink information 1 in n-th to n+3 time slot.It is originated in each time slot Character position is symbol 3, and persistence length is 8 symbols.The first time length of the uplink information 1 is 0, the uplink information 1 Second time span is 0 time slot.The uplink information 1 is carried by uplink control channel.The uplink information 1 is HARQ feedback letter Breath.

The communication equipment, which is determined, to be started to send uplink information 2 in the symbol 2 of n-th of time slot.The uplink information 2 continues 8 Symbol.The uplink information 2 is carried by Uplink Shared Channel.

The communication equipment, which is determined, to be started to send uplink information 3 in the symbol 3 of the n-th+2 time slots.The uplink information 3 continues 10 A symbol.The uplink information 2 is carried by Uplink Shared Channel.

It is sent as previously mentioned, can be by the information that the uplink control channel carries in multiple time slots/mini time slot joint. In the case, the uplink information sent on the uplink control channel in each time slot/mini time slot may be considered one Individual first uplink information.The uplink information sent on different time-gap/mini time slot uplink control channel can be according to phase Same mode is handled.Therefore, for uplink information 1, it is believed that be four uplink informations.It is therefore contemplated that n-th The uplink information 1 that a time slot is sent is uplink information 1a, is uplink information 1b in the uplink information 1 that (n+1)th time slot is sent, The uplink information 1 that the n-th+2 time slots are sent is uplink information 1c, is uplink information in the uplink information 1 that the n-th+3 time slots are sent 1d.As shown in figure 4, uplink information 1a time-domain resource is Chong Die with the time-domain resource of uplink information 2, the time-domain resource of uplink information 1c It is Chong Die with the time-domain resource of uplink information 3.Therefore it may only be necessary to consider how that determination is used for transmission uplink information 1a and uplink information 2 transmission plan, and it is used for transmission the transmission plan of uplink information 1c and uplink information 3.Uplink information 1b and uplink Information 1d can be transmitted directly.

For uplink information 1a and uplink information 2, according to rule 1, when can determine that the starting of sub- time-domain resource can be used in this Carve the symbol 2 for n-th of time slot.According to rule 2, it can determine that this can be used the initial time of sub- time-domain resource to be no earlier than n-th The symbol 4 of time slot.According to rule 3, the symbol that can be used the initial time of sub- time-domain resource to be not later than n-th of time slot can be determined 11.According to the determination of above three rule as a result, available period of the day from 11 p.m. to 1 a.m domain included by the available period of the day from 11 p.m. to 1 a.m domain resource collection can be determined Number be 0.That is, the value of M is equal to 0.In the case, the object transmission scheme can be second transmission plan, At least one of the third transmission plan, the 4th transmission plan and the 5th transmission plan.

It transmits in the mode and embodiment shown in Fig. 2 of uplink information 1a and uplink information 2 and transmits uplink information 2 and uplink The mode of information 3 is similar, need not just repeat herein.

For uplink information 1c and uplink information 3, according to rule 1, when can determine that the starting of sub- time-domain resource can be used in this Carve the symbol 3 for the n-th+2 time slots.According to rule 2, can determine this can be used the initial time of sub- time-domain resource be no earlier than n-th+ The symbol 3 of 2 time slots.According to rule 3, it can determine that this can be used the initial time of sub- time-domain resource to be not later than the n-th+2 time slots Symbol 10.In the embodiment shown in fig. 4, the time-domain resource for being used for transmission uplink information 3 includes 1 sub- time-domain resource, should Sub- time-domain resource is the symbol 3 in the n-th+2 to symbol 12.According to the determination of above three rule as a result, can determine that this can It is that this is used for transmission time-domain resource of uplink information 3 including 1 that sub- time-domain resource can be used included by the resource collection of period of the day from 11 p.m. to 1 a.m domain Sub- time-domain resource.Therefore, the value of M is equal to 1.In the case, it is to be somebody's turn to do which, which can be the object transmission scheme, First transmission plan, i.e., in all or part of available period of the day from 11 p.m. to 1 a.m domain transmitted over resources first uplink information.Since this is available Only include an available period of the day from 11 p.m. to 1 a.m domain in the set of period of the day from 11 p.m. to 1 a.m domain, therefore period of the day from 11 p.m. to 1 a.m domain transmitted over resources uplink information 1c can be used at this And the uplink information 2 is transmitted in the time-domain resource (symbol 3 to symbol 12) in i.e. the n-th+2 for being used for transmission uplink information 3.

Fig. 5 is the schematic diagram according to the method for another transmission information provided by the embodiments of the present application.

As shown in figure 5, communication equipment, which is determined, sends uplink information 1 in the symbol 6 of (n+1)th time slot.The uplink information 1 by Uplink control channel band.The uplink information 1 is P-CSI report.The uplink information 1 continues 3 symbols.P-CSI report and S-CSI The first time length and the second time span of report can be very big, such as can be multiple a time slots.Therefore, following embodiment In, the first time length of the uplink information 1 is 2 time slots, and the second time span of the uplink information 2 is 3 time slots.

The communication equipment, which is determined, to be started to send uplink information 2 in the symbol 7 of n-th of time slot.Uplink information 2 is by upload control Channel carries.The uplink information 2 is HARQ feedback information.The first time length of the uplink information 2 is 0, the uplink information 2 Second time span is 1 time slot.The uplink information 2 continues 2 symbols.

The communication equipment, which is determined, sends uplink information 3 in n-th to n+3 time slot.The character position originated in each time slot For symbol 1, persistence length is 10 symbols, which is carried by Uplink Shared Channel.

The communication equipment, which is determined, sends uplink information 4 in the symbol 1 of (n+1)th time slot.The uplink information 4 is by upload control Channel carries.The uplink information 4 is HARQ feedback information.The first time length of the uplink information 4 is 0, the uplink information 4 Second time span is 2 time slots.The uplink information 4 continues 4 symbols.

The time-domain resource for being used for transmission uplink information 3 can be made of 4 sub- time-domain resources, N number of sub- time-domain resource point Do not belong to 4 time slots, i.e. n-th of time slot, (n+1)th time slot, the n-th+2 time slots and the n-th+3 time slots.This 4 sub- time domain moneys The sub- time-domain resource in each of source includes 10 symbols.Specifically, the 1st sub- time-domain resource packet in 4 sub- time-domain resources The symbol 1 of n-th of time slot is included to symbol 10, the 2nd sub- time-domain resource in 4 sub- time-domain resources includes (n+1)th time slot Symbol 1 to symbol 10, the 3rd sub- time-domain resource in 4 sub- time-domain resources includes the symbol 1 of the n-th+2 time slots to symbol Numbers 10,4 sub- time-domain resources in 4 sub- time-domain resources include the symbol 1 of the n-th+3 time slots to symbol 10.

For uplink information 1 and uplink information 3, according to rule 1, can determine can be the with sub- time-domain resource initial time The symbol 1 of n time slot, the symbol 1 of (n+1)th time slot, the symbol 1 of 1 or the n-th+3 time slot of symbol of the n-th+2 time slots.According to Rule 2, can determine the symbol 6 that can be used the initial time of sub- time-domain resource to be no earlier than (n-1)th time slot.It, can according to rule 3 To determine the symbol 8 that can be used the initial time of sub- time-domain resource to be not later than the n-th+4 time slots.It is determined according to above three rule As a result, can determine this can be used the period of the day from 11 p.m. to 1 a.m domain resource collection include 4 sub- time-domain resource, i.e. the 1st sub- time-domain resource can be used To the 4th sub- time-domain resource.That is, the value of M is 4.In the case, which can the 6th transmission side At least one of case and the 7th transmission plan.

Assuming that the terminal device determines that the object transmission scheme is the 6th transmission plan, i.e., sub- time-domain resource can be used at this In set specific available period of the day from 11 p.m. to 1 a.m domain transmitted over resources first uplink information and the second uplink is transmitted in second time-domain resource Information, then the terminal device can be provided in the specific available period of the day from 11 p.m. to 1 a.m domain transmitted over resources uplink information 1 and in second time domain Source (symbol 1 of i.e. n-th time slot to symbol 10, the symbol 1 of (n+1)th time slot to symbol 10, the symbols 1 of the n-th+2 time slots to The symbol 1 of symbol 10 and the n-th+3 time slots is to symbol 10) transmit the uplink information 3.As previously mentioned, the specific available period of the day from 11 p.m. to 1 a.m domain Resource, which can be this, can be used first in the resource collection of period of the day from 11 p.m. to 1 a.m domain sub- time-domain resource can be used, and self solve alternatively, first carrying is non- Sub- time-domain resource can be used in code redundancy versions.

Assuming that the terminal device determines that the object transmission scheme is the 7th transmission plan, i.e., sub- time-domain resource can be used at this Available period of the day from 11 p.m. to 1 a.m domain transmitted over resources first uplink information of at least one of set and the is transmitted in second time-domain resource Two uplink informations, then the terminal device at least one can be used the period of the day from 11 p.m. to 1 a.m domain transmitted over resources uplink information 1 and at this at this Second time-domain resource (symbol 1 of i.e. n-th time slot to symbol 10, the symbol 1 of (n+1)th time slot to symbol 10, at the n-th+2 The symbol 1 of gap is to the symbol 1 of symbol 10 and the n-th+3 time slots to symbol 10) transmit the uplink information 3.As previously mentioned, this is at least It is that can all use sub- time-domain resource in the available period of the day from 11 p.m. to 1 a.m domain resource collection that one, which can be used sub- time-domain resource, alternatively, this is available All carrying non-self-decodable redundancy versions can be used sub- time-domain resource in the resource collection of period of the day from 11 p.m. to 1 a.m domain.

For example, it is assumed that the redundancy versions on n-th of time slot, (n+1)th time slot, the n-th+2 time slots and the n-th+3 time slots (Redundancy Version, RV) version is respectively that RV0, RV2, RV3 and RV1, wherein RV0 and RV3 being capable of self-demarking codes RV version, RV2 and RV1 are the RV versions of non-self-decodable.It is the 7th transmission plan and the available son in the object transmission scheme In time-domain resource set it is all carrying non-self-decodable redundancy versions sub- time-domain resource can be used in the case where, can be at (n+1)th The uplink information 1 is sent to the network equipment by time slot and the n-th+3 time slots.

Optionally, in some embodiments, for carrying the bit number and n-th+3 of uplink information 1 in (n+1)th time slot It is identical for carrying the bit number of uplink information 1 in a time slot.In addition, for carrying uplink information 1 in (n+1)th time slot Bit number be the uplink information 1 is mapped to the time slot that one is used to send uplink information 3 bit number 1/2.For example, Bit number in (n+1)th time slot for carrying the uplink information 1 is 10, for carrying this in the n-th+3 time slots The bit number of row information 1 is also 10.Assuming that RV1 is also the RV version for capableing of self-demarking code.In the case, only (n+1)th Time slot can carry the uplink information 1.In the case, for carrying the bit number of the uplink information 1 in (n+1)th time slot Mesh is 20.It is understood that due to increasing the number of time slot for carrying uplink information 1, (n+1)th time slot and n-th+ For carrying, the bit number of uplink information 3 is just corresponding to be reduced in 3 time slots.

For uplink information 2 and uplink information 3, according to rule 1, can determine can be the with sub- time-domain resource initial time The symbol 1 of n time slot, the symbol 1 of (n+1)th time slot, the symbol 1 of 1 or the n-th+3 time slot of symbol of the n-th+2 time slots.According to Rule 2, can determine the symbol 7 that can be used the initial time of sub- time-domain resource to be no earlier than n-th of time slot.It, can be with according to rule 3 Determine the symbol 8 that can be used the initial time of sub- time-domain resource to be not later than (n+1)th time slot.It is determined according to above three rule As a result, can determine that this can be used the period of the day from 11 p.m. to 1 a.m domain resource collection to include 1 and sub- time-domain resource, i.e. the 2nd sub- time-domain resource can be used.? That is the value of M is 1.In this case, it is first transmission plan that the object transmission scheme, which can be the object transmission scheme, I.e. in all or part of available period of the day from 11 p.m. to 1 a.m domain transmitted over resources first uplink information.Since this can be used in the set of period of the day from 11 p.m. to 1 a.m domain only Including an available period of the day from 11 p.m. to 1 a.m domain, therefore at this period of the day from 11 p.m. to 1 a.m domain transmitted over resources uplink information 2 can be used and in the 2nd period of the day from 11 p.m. to 1 a.m Domain resource (symbol 1 of i.e. (n+1)th time slot to symbol 10) transmits the uplink information 2.

For uplink information 3 and uplink information 4, according to rule 1, can determine can be the with sub- time-domain resource initial time The symbol 1 of n time slot, the symbol 1 of (n+1)th time slot, the symbol 1 of 1 or the n-th+3 time slot of symbol of the n-th+2 time slots.According to Rule 2, can determine the symbol 1 that can be used the initial time of sub- time-domain resource to be no earlier than (n+1)th time slot.It, can according to rule 3 To determine the symbol 4 that can be used the initial time of sub- time-domain resource to be not later than the n-th+3 time slots.It is determined according to above three rule As a result, can determine that this can be used the period of the day from 11 p.m. to 1 a.m domain resource collection to include three and can be used sub- time-domain resource, respectively the 2nd period of the day from 11 p.m. to 1 a.m domain money Source, the 3rd sub- time-domain resource and the 4th sub- time-domain resource.That is, the value of M is the positive integer greater than 1.In the case, the mesh Mark transmission plan can be at least one of the 6th transmission plan and the 7th transmission plan.

Assuming that the terminal device determines that the object transmission scheme is the 6th transmission plan, i.e., sub- time-domain resource can be used at this In set specific available period of the day from 11 p.m. to 1 a.m domain transmitted over resources first uplink information and the second uplink is transmitted in second time-domain resource Information, then the terminal device can be provided in the specific available period of the day from 11 p.m. to 1 a.m domain transmitted over resources uplink information 4 and in second time domain Source (symbol 1 of i.e. (n+1)th time slot to symbol 10, the symbol of the symbol 1 of the n-th+2 time slots to symbol 10 and the n-th+3 time slots 1 to symbol 10) transmit the uplink information 3.As previously mentioned, this specific can be used sub- time-domain resource to can be this sub- time-domain resource can be used First in set can be used sub- time-domain resource, alternatively, sub- time-domain resource can be used in first carrying non-self-decodable redundancy versions.

Assuming that the terminal device determines that the object transmission scheme is the 7th transmission plan, i.e., sub- time-domain resource can be used at this Available period of the day from 11 p.m. to 1 a.m domain transmitted over resources first uplink information of at least one of set and the is transmitted in second time-domain resource Two uplink informations, then the terminal device at least one can be used the period of the day from 11 p.m. to 1 a.m domain transmitted over resources uplink information 4 and at this at this Second time-domain resource (symbol 1 of i.e. (n+1)th time slot to symbol 10, the symbol 1 of the n-th+2 time slots to symbol 10 and the n-th+3 The symbol 1 of time slot is to symbol 10) transmit the uplink information 3.As previously mentioned, this at least one sub- time-domain resource can be used is that this can Sub- time-domain resource can be all used in the resource collection of period of the day from 11 p.m. to 1 a.m domain, alternatively, all carryings are non-in the available period of the day from 11 p.m. to 1 a.m domain resource collection Sub- time-domain resource can be used in self-demarking code redundancy versions.

For example, it is assumed that the RV version on (n+1)th time slot, the n-th+2 time slots and the n-th+3 time slots is respectively RV2, RV3 And RV1, wherein RV3 is the RV version for capableing of self-demarking code, and RV2 and RV1 are the RV versions of non-self-decodable.In the object transmission scheme For the available period of the day from 11 p.m. to 1 a.m domain of all carrying non-self-decodable redundancy versions in the 7th transmission plan and the available period of the day from 11 p.m. to 1 a.m domain resource collection In the case where resource, the uplink information 4 can be sent to the network equipment in (n+1)th time slot and the n-th+3 time slots.

Optionally, in some embodiments, for carrying the bit number and n-th+3 of uplink information 4 in (n+1)th time slot It is identical for carrying the bit number of uplink information 4 in a time slot.In addition, for carrying uplink information 4 in (n+1)th time slot Bit number be the uplink information 4 is mapped to the time slot that one is used to send uplink information 3 bit number 1/2.For example, Bit number in (n+1)th time slot for carrying the uplink information 4 is 10, for carrying this in the n-th+3 time slots The bit number of row information 4 is also 10.Assuming that RV1 is also the RV version for capableing of self-demarking code.In the case, only (n+1)th Time slot can carry the uplink information 4.In the case, for carrying the bit number of the uplink information 4 in (n+1)th time slot Mesh is 20.It is understood that due to increasing the bit for carrying uplink information 4, in (n+1)th time slot and the n-th+3 For carrying, the bit number of uplink information 3 is just corresponding to be reduced in time slot.

Fig. 6 is the schematic diagram according to the method for another transmission information provided by the embodiments of the present application.

Start to send uplink information 1, the uplink information 1 in the symbol 2 of n-th of time slot as shown in fig. 6, communication equipment is determined It is carried by uplink control channel.The uplink information 1 is HARQ feedback information.The first time length of the uplink information 1 is 0, should Second time span of uplink information 1 is 1 time slot.The uplink information 1 continues 4 symbols.

Communication equipment, which is determined, to be started to send uplink information 2 in the symbol 1 of n-th of time slot.The uplink information 2 occupies four fans Your time slot.The uplink information 2 is carried by Uplink Shared Channel.Each mini time slot includes 3 symbols.

The time-domain resource for being used for transmission uplink information 2 can be made of 4 sub- time-domain resources, 4 sub- time-domain resources point Do not belong to 4 mini time slots, the sub- time-domain resource of each of 4 sub- time-domain resources be belong in 1 mini time slot this second Whole time-domain resources of time-domain resource.As can be seen that second time-domain resource includes 4 sub- time domains in embodiment shown in fig. 6 Resource, the sub- time-domain resource of each of 4 sub- time-domain resources include 3 symbols.Specifically, in 4 sub- time-domain resources 1st sub- time-domain resource includes 2nd sub- time-domain resource of the symbol 1 of n-th of time slot to symbol 3, in 4 sub- time-domain resources For symbol 4 including n-th of time slot to symbol 6, the 3rd sub- time-domain resource in 4 sub- time-domain resources includes n-th of time slot For symbol 7 to symbol 9,4 sub- time-domain resources in 4 sub- time-domain resources include the symbol 10 of n-th of time slot to symbol 12.

For uplink information 1 and uplink information 2, according to rule 1, can determine can be with the initial time of sub- time-domain resource The symbol 1 of n-th of time slot, the symbol 4 of n-th of time slot, the symbol 7 of n-th of time slot, the symbol 10 of n-th of time slot.According to rule 2, it can determine the symbol 2 that can be used the initial time of sub- time-domain resource to be no earlier than n-th of time slot.According to rule 3, can determine This can be used the initial time of sub- time-domain resource to be not later than the symbol 5 of (n+1)th time slot.The knot determined according to above three rule Fruit can determine that this can be used the period of the day from 11 p.m. to 1 a.m domain resource collection to include three and can be used sub- time-domain resource, respectively the 2nd sub- time-domain resource, 3rd sub- time-domain resource and the 4th sub- time-domain resource.That is, the value of M is the positive integer greater than 1.In the case, the target Transmission plan can be at least one of the 6th transmission plan and the 7th transmission plan.

Assuming that the terminal device determines that the object transmission scheme is the 6th transmission plan, i.e., sub- time-domain resource can be used at this In set specific available period of the day from 11 p.m. to 1 a.m domain transmitted over resources first uplink information and the second uplink is transmitted in second time-domain resource Information, then the terminal device can be provided in the specific available period of the day from 11 p.m. to 1 a.m domain transmitted over resources uplink information 1 and in second time domain Source (symbol 1 of i.e. n-th time slot to symbol 3, the symbol 4 of n-th of time slot to symbol 6, the symbol 7 of n-th of time slot to symbol 9 With the symbol 10 of n-th of time slot to symbol 12) transmit the uplink information 2.As previously mentioned, this specific can be used sub- time-domain resource can be with It is that this can be used first in the resource collection of period of the day from 11 p.m. to 1 a.m domain sub- time-domain resource can be used, alternatively, first carrying non-self-decodable redundancy version Sub- time-domain resource can be used in this.

Assuming that the terminal device determines that the object transmission scheme is the 7th transmission plan, i.e., sub- time-domain resource can be used at this Available period of the day from 11 p.m. to 1 a.m domain transmitted over resources first uplink information of at least one of set and the is transmitted in second time-domain resource Two uplink informations, then the terminal device at least one can be used the period of the day from 11 p.m. to 1 a.m domain transmitted over resources uplink information 1 and at this at this Second time-domain resource (symbol 1 of i.e. n-th time slot to symbol 3, the symbol 4 of n-th of time slot to symbol 6, the symbol of n-th of time slot Numbers 7 to the symbol 10 of symbol 9 and n-th of time slot to symbol 12) transmit the uplink information 2.As previously mentioned, this at least one it is available Sub- time-domain resource is that can all use sub- time-domain resource in the available period of the day from 11 p.m. to 1 a.m domain resource collection, alternatively, the available period of the day from 11 p.m. to 1 a.m domain money All carrying non-self-decodable redundancy versions can be used sub- time-domain resource in the set of source.

For example, it is assumed that the symbol 1 of n-th of time slot is to symbol 3, the symbol 4 of n-th of time slot to symbol 6, n-th time slot Redundancy versions (Redundancy Version, RV) version on symbol 7 to the symbol 10 to symbol 23 of symbol 9 and n-th of time slot This is respectively RV0, RV2, RV3 and RV1, and wherein RV0 and RV3 is the RV version for capableing of self-demarking code, and RV2 and RV1 are non-self-decodable RV version.It is that all carryings are non-certainly in the 7th transmission plan and the available period of the day from 11 p.m. to 1 a.m domain resource collection in the object transmission scheme Decoding redundancy versions sub- time-domain resource can be used in the case where, can will in the 2nd sub- time-domain resource and the 3rd sub- time-domain resource The uplink information 1 is sent to the network equipment.

Optionally, in some embodiments, the 2nd sub- time-domain resource is used to carry the bit number and the 3rd of uplink information 1 It is identical for carrying the bit number of uplink information 1 in a sub- time-domain resource.In addition, for carrying in the 2nd sub- time-domain resource The bit number of uplink information 1 is that the uplink information 1 is mapped to the bit for being used to send the ascending resource of uplink information 2 The 1/2 of number.For example, the bit number in the 2nd sub- time-domain resource for carrying the uplink information 1 is the 10, the 3rd son Being used to carry the bit number of the uplink information 1 in time-domain resource is also 10.Assuming that RV1 is also the RV version for capableing of self-demarking code. In the case, only the 2nd sub- time-domain resource can carry the uplink information 4.In the case, the 2nd sub- time domain money Bit number in source for carrying the uplink information 1 is 20.It is understood that due to increasing for carrying uplink information 1 bit, for carrying the bit number of uplink information 2 with regard to corresponding in the 2nd sub- time-domain resource and the 3rd sub- time-domain resource It reduces.

Fig. 7 is the schematic flow chart according to another transmission method provided by the embodiments of the present application.Method shown in Fig. 7 can To be executed by communication equipment.

701, determine the first time-domain resource for being used for transmission the first uplink information, wherein first uplink information is uplink control Channel uplink control channel processed carries, which includes N number of symbol, which belongs to a time slot.

702, determine the second time-domain resource for being used for transmission the second uplink information, wherein second uplink information is total to by uplink It enjoys channel uplink and shares channel carrying, which includes M symbol, which belongs to a time slot；

703, time slot belonging to N number of symbol is identical as belonging to the M symbol and M symbol of N number of symbol and this does not rush Prominent and first time-domain resource and second time-domain resource are continuous time-domain resources, are determined for sending first uplink letter The object transmission scheme of breath and second uplink information.

The object transmission scheme is used to control the power control side for sending first uplink information and second uplink information Case.Using method shown in Fig. 7, the level of resources utilization can be promoted.

Optionally, in some embodiments, which is used to send first uplink information and second uplink information Object transmission scheme be determine the object transmission scheme be using the first power to the network equipment send first uplink information and Second uplink information, wherein first power is the power for sending first uplink information.In this way, in first uplink In the case that the priority of information is higher than second uplink information, it can preferentially guarantee the transmission power of first uplink information.

Optionally, in some embodiments, which is used to send first uplink information and second uplink information Object transmission scheme, comprising: according to total transmission energy, determine the object transmission scheme to abandon second uplink information and using First power sends first uplink information, or reduce by first power and using first power after reduction send this One uplink information and second uplink information, wherein first power is the power for sending first uplink information, wherein The total transmission energy is the energy that first uplink information and second uplink information are sent using first power.This always sends Energy W=P × (N'+M'), wherein P indicates first power, N ' be N number of symbol that first time-domain resource includes when Long, M ' is the duration for the M symbol that second time-domain resource includes.

Optionally, in some embodiments, this is according to total transmission energy, determine the object transmission scheme for abandon this second Uplink information simultaneously sends first uplink information using the first power, or reduce by first power and using after reducing this One power sends first uplink information and second uplink information, comprising: the ratio of pre-determined threshold and the total transmission energy is big In the first preset value, determine the object transmission scheme for abandon second uplink information and using first power send this first Uplink information；The ratio of the pre-determined threshold and the total transmission energy is not more than first preset value, determines the object transmission scheme To reduce by first power and sending first uplink information and second uplink information using first power after reduction.

Optionally, in some embodiments, which can be the gross energy of a time slot.Optionally, another In a little embodiments, which can be the gross energy of multiple symbols in a time slot.

Optionally, in some embodiments, which is used to send first uplink information and second uplink information Object transmission scheme, comprising: determine that the object transmission scheme is to send first uplink to the network equipment using the second power to believe Breath and second uplink information.In this way, in the case where the priority of first uplink information is lower than second uplink information, it can Preferentially to guarantee the transmission power of second uplink information.

Optionally, in some embodiments, which is used to send first uplink information and second uplink information Object transmission scheme, comprising: according to total transmission energy, determine the object transmission scheme to abandon first uplink information and using Second power sends second uplink information, or reduce by second power and using second power after reduction send this One uplink information and second uplink information, wherein second power is the power for sending second uplink information, wherein The total transmission energy is the energy that first uplink information and second uplink information are sent using first power.This always sends Energy W=P × (N'+M'), wherein P indicates second power, N ' be N number of symbol that first time-domain resource includes when Long, M ' is the duration for the M symbol that second time-domain resource includes.

Optionally, in some embodiments, this is according to total transmission energy, determine the object transmission scheme for abandon this first Uplink information simultaneously sends second uplink information using the second power, or reduce by second power and using after reducing this Two power send first uplink information and second uplink information, comprising: the ratio of pre-determined threshold and the total transmission energy is big In the second preset value, determine the object transmission scheme for abandon first uplink information and using second power send this second Uplink information；The ratio of the pre-determined threshold and the total transmission energy is not more than second preset value, determines the object transmission scheme To reduce by second power and sending first uplink information and second uplink information using second power after reduction.

Optionally, in some embodiments, which can be the gross energy of a time slot.Optionally, another In a little embodiments, which can be the gross energy of multiple symbols in a time slot.

Optionally, in some embodiments, exempt from the uplink information for authorizing the Uplink Shared Channel of (Grant-Free) to carry Priority be higher than based on scheduling (Grant-based) uplink control channel priority.

Optionally, in some embodiments, which is carried by the uplink control channel based on scheduling, this Two uplink informations are carried by the Uplink Shared Channel for exempting from authorization.In the case, object transmission scheme can be using the second function Rate sends first uplink information and second uplink information to the network equipment.

Optionally, in some embodiments, which is carried by the uplink control channel based on scheduling, this Two uplink informations are carried by the Uplink Shared Channel for exempting from authorization.In this case, object transmission scheme, which can be, sends energy according to total Amount determines the object transmission scheme to abandon first uplink information and sending second uplink information using the second power, or Person reduces by second power and sends first uplink information and second uplink information using second power after reduction.

Optionally, in some embodiments, the priority of the uplink control channel based on scheduling is higher than based on the upper of scheduling The priority of the shared channel of row.

Optionally, in some embodiments, which is carried by the uplink control channel based on scheduling, this Two uplink informations are carried by the Uplink Shared Channel based on scheduling.In the case, object transmission scheme can be using first Power sends first uplink information and second uplink information to the network equipment.

Optionally, in some embodiments, which is carried by the uplink control channel based on scheduling, this Two uplink informations are carried by the Uplink Shared Channel based on scheduling.It is sent in this case, object transmission scheme can be according to total Energy determines that the object transmission scheme is to abandon second uplink information and send first uplink information using the first power, Or it reduces by first power and sends first uplink information and second uplink information using first power after reduction.

Optionally, in some embodiments, exempt from the uplink information for authorizing the Uplink Shared Channel of (Grant-Free) to carry Priority be lower than based on scheduling (Grant-based) uplink control channel priority.

Optionally, in some embodiments, which is carried by the uplink control channel based on scheduling, this Two uplink informations are carried by the Uplink Shared Channel for exempting from authorization.In the case, object transmission scheme can be using the first function Rate sends first uplink information and second uplink information to the network equipment.

Optionally, in some embodiments, which is carried by the uplink control channel based on scheduling, this Two uplink informations are carried by the Uplink Shared Channel for exempting from authorization.In this case, object transmission scheme, which can be, sends energy according to total Amount determines the object transmission scheme to abandon second uplink information using the first power and sending first uplink information, or It reduces by first power and sends first uplink information and second uplink information using first power after reduction.

Optionally, in some embodiments, the priority of the uplink control channel based on scheduling is lower than based on the upper of scheduling The priority of the shared channel of row.

Optionally, in some embodiments, which is carried by the uplink control channel based on scheduling, this Two uplink informations are carried by the Uplink Shared Channel based on scheduling.In the case, object transmission scheme can be using second Power sends first uplink information and second uplink information to the network equipment.

Optionally, in some embodiments, which is carried by the uplink control channel based on scheduling, this Two uplink informations are carried by the Uplink Shared Channel based on scheduling.It is sent in this case, object transmission scheme can be according to total Energy determines that the object transmission scheme is to abandon first uplink information and send second uplink information using the second power, Or it reduces by second power and sends first uplink information and second uplink information using second power after reduction.

Fig. 8 is according to a kind of structural block diagram of communication equipment provided by the embodiments of the present application.Communication equipment as shown in Figure 8 800 include processing unit 801 and transmission unit 802.

Processing unit 801, for determining and being used for transmission the first uplink information and the second uplink letter according to the second time-domain resource The object transmission scheme of breath, wherein first uplink information is carried by uplink control channel, which is total to by uplink Channel carrying is enjoyed, second time domain money where the first time-domain resource and second uplink information where first uplink information Source partly overlaps in the time domain or all overlappings, which includes at least one symbol, the second time-domain resource packet Include at least one symbol.

Transmission unit 802, the object transmission scheme for being determined according to processing unit 801 transmit first uplink letter Breath and/or second uplink information.

The concrete function and beneficial effect of processing unit 801 and transmission unit 802, may refer to embodiment shown in FIG. 1, It need not just repeat herein.

Processing unit 801 can be realized that transmission unit 802 can be realized by transceiver by processor.

Fig. 9 is according to a kind of structural block diagram of communication equipment provided by the embodiments of the present application.As shown in figure 9, communication equipment 900 include processing unit 901 and transmission unit 902.

Processing unit 901, for determining the first time-domain resource for being used for transmission the first uplink information, wherein on described first Row information is the carrying of uplink control channel uplink control channel, and first time-domain resource includes N number of symbol, N number of symbol Belong to a time slot.

Processing unit 901 is also used to determine the second time-domain resource for being used for transmission the second uplink information, wherein described second Uplink information is carried by Uplink Shared Channel Uplink Shared Channel, and second time-domain resource includes M symbol, the M symbol Number belong to a time slot；

It is identical and described N number of as belonging to the M symbol to be also used to time slot belonging to N number of symbol for processing unit 901 First time-domain resource that symbol does not conflict with the M symbol and described and second time-domain resource are that continuous time domain provides Source determines the object transmission scheme for sending first uplink information and second uplink information.

Transmission unit 902, the object transmission scheme for being determined according to processing unit 901, sending to the network equipment should First uplink information and/or second uplink information.

The concrete function and beneficial effect of processing unit 901 and transmission unit 902, may refer to embodiment shown in Fig. 7, It need not just repeat herein.

Processing unit 901 can be realized that transmission unit 902 can be realized by transceiver by processor.

Figure 10 is the structural block diagram according to another communication equipment provided by the embodiments of the present application.Communication as shown in Figure 10 is set Standby 1000 include memory 1001 and processor 1002.

Memory 1001, for storing program.

Processor 1002, for executing the program of the storage of memory 1001, when program is performed, so that communication equipment 1000 may be implemented the method that above-mentioned Fig. 1 embodiment provides.

It can will be realized some or all of in method shown in FIG. 1 by software using communication equipment 1000.

Memory 1001 can be physically separate unit, can also integrate with processor 1002.

Optionally, when passing through software realization some or all of in method shown in FIG. 1, communication equipment 1000 can also be with Only include processor 1002.Memory 1001 for storing program is located at except device 1000, processor 1002 by circuit/ Electric wire is connect with memory 1001, for reading and executing the program stored in memory 1001.

Processor 1002 can be central processing unit (central processing unit, CPU), network processing unit The combination of (network processor, NP) or CPU and NP.

Processor 1002 can further include hardware chip.Above-mentioned hardware chip can be specific integrated circuit (application-specific integrated circuit, ASIC), programmable logic device (programmable Logic device, PLD) or combinations thereof.Above-mentioned PLD can be Complex Programmable Logic Devices (complex Programmable logic device, CPLD), field programmable gate array (field-programmable gate Array, FPGA), Universal Array Logic (generic array logic, GAL) or any combination thereof.

Memory 1001 may include volatile memory (volatile memory), such as random access memory (random-access memory, RAM)；Memory 1001 also may include nonvolatile memory (non-volatile ), such as flash memory (flash memory), hard disk (hard disk drive, HDD) or solid state hard disk memory (solid-state drive, SSD)；Memory 1001 can also include the combination of the memory of mentioned kind.

Figure 11 is the structural block diagram according to another communication equipment provided by the embodiments of the present application.Communication as shown in figure 11 is set Standby 1100 include memory 1101 and processor 1102.

Memory 1101, for storing program.

Processor 1102, for executing the program of the storage of memory 1101, when program is performed, so that communication equipment 1100 may be implemented the method that above-mentioned Fig. 7 embodiment provides.

It can will be realized some or all of in method shown in Fig. 7 by software using communication equipment 1100.

Memory 1101 can be physically separate unit, can also integrate with processor 1102.

Optionally, when passing through software realization some or all of in method shown in Fig. 7, communication equipment 1100 can also be with Only include processor 1102.Memory 1101 for storing program is located at except device 1100, processor 1102 by circuit/ Electric wire is connect with memory 1101, for reading and executing the program stored in memory 1101.

Processor 1102 can be central processing unit (central processing unit, CPU), network processing unit The combination of (network processor, NP) or CPU and NP.

Processor 1102 can further include hardware chip.Above-mentioned hardware chip can be specific integrated circuit (application-specific integrated circuit, ASIC), programmable logic device (programmable Logic device, PLD) or combinations thereof.Above-mentioned PLD can be Complex Programmable Logic Devices (complex Programmable logic device, CPLD), field programmable gate array (field-programmable gate Array, FPGA), Universal Array Logic (generic array logic, GAL) or any combination thereof.

Memory 1101 may include volatile memory (volatile memory), such as random access memory (random-access memory, RAM)；Memory 1101 also may include nonvolatile memory (non-volatile ), such as flash memory (flash memory), hard disk (hard disk drive, HDD) or solid state hard disk memory (solid-state drive, SSD)；Memory 1101 can also include the combination of the memory of mentioned kind.

The another aspect of the application provides a kind of computer readable storage medium, in the computer readable storage medium It is stored with instruction, when described instruction is run on computers, so that computer executes above-mentioned method as shown in Figure 1.

The another aspect of the application provides a kind of computer readable storage medium, in the computer readable storage medium It is stored with instruction, when described instruction is run on computers, so that computer executes above-mentioned method as shown in Figure 7.

The another aspect of the application provides a kind of computer program product comprising instruction, when the computer program product When running on computers, so that computer executes method as shown in Figure 1.

The another aspect of the application provides a kind of computer program product comprising instruction, when the computer program product When running on computers, so that computer executes method as shown in Figure 7.

Figure 12 is the schematic flow chart according to the method for another transmission information provided by the embodiments of the present application.Shown in Figure 12 Method can be executed by communication equipment.

1201, determine the first running time-frequency resource, wherein first running time-frequency resource is the running time-frequency resource of uplink control channel, on this Row control channel is for carrying ascending control information to be transmitted, and first running time-frequency resource is in first time unit.

1202, determine the second running time-frequency resource, wherein second running time-frequency resource is the running time-frequency resource that uplink data channels occupy, The uplink data channels are for carrying upstream data to be transmitted, which is made of N number of sub- running time-frequency resource, the N A sub- running time-frequency resource is located at N number of time quantum, and first running time-frequency resource is Chong Die in time domain with second running time-frequency resource, and N is Positive integer more than or equal to 2.

1203, according to the first time unit, transmitting uplink control information and upstream data.

Embodiment shown in Figure 12 provides a kind of time-domain resource and uplink data channels in uplink control channel occupancy Occupancy time-domain resource overlapping in the case where, how the method for transmitting uplink control information and upstream data.

So-called time quantum can be time slot, mini time slot, subframe etc. in the embodiment of the present application.First running time-frequency resource In first time unit, and second running time-frequency resource occupies N number of running time-frequency resource.Therefore, if first running time-frequency resource with should Second running time-frequency resource is overlapped in time domain, then the first time unit is a time quantum in N number of time quantum.

First running time-frequency resource is located in a time quantum, and the time-domain resource of first running time-frequency resource can be the time One or more symbols in unit, or it is also possible to whole symbols that the time quantum includes.In N number of sub- running time-frequency resource Each of sub- running time-frequency resource be also possible to one or more symbols in a time quantum, or be also possible to the time quantum Interior whole symbols.

Optionally, in some embodiments, this is according to the first time unit, transmitting uplink control information and upper line number According to, comprising: in first period of the day from 11 p.m. to 1 a.m frequency resource transmission ascending control information and the upstream data, wherein the first sub- running time-frequency resource is A sub- running time-frequency resource in N number of sub- running time-frequency resource, the number of the time quantum where the first sub- running time-frequency resource and this The number of one time quantum is identical.

Further, which does not transmit the ascending control information on first running time-frequency resource.

Further, the modulating-coding symbol of the ascending control information determines that method can be consistent with the prior art, herein It is just not white to repeat.

For example, it is assumed that the time quantum is time slot, it is assumed that second running time-frequency resource includes 4 time quantums, 4 times Unit is respectively time slot 1, time slot 2, time slot 3 and time slot 4.First running time-frequency resource is Chong Die in time domain with second running time-frequency resource. That is, the first time unit can be any one time slot of time slot 1 into time slot 4.Assuming that the first time unit is Time slot 2.In the case, which can be with the first period of the day from 11 p.m. to 1 a.m frequency resource transmission ascending control information and upstream data.This One sub- running time-frequency resource is a sub- running time-frequency resource in N number of sub- running time-frequency resource that second running time-frequency resource includes, and first son Time slot where running time-frequency resource is time slot where the first running time-frequency resource, i.e. time slot 2.The communication equipment is not passed in first running time-frequency resource The defeated ascending control information.In other words, in the case, the communication equipment can use by uplink data channels occupy when Frequency resource simultaneous transmission upstream data and ascending control information.In addition, the communication equipment can be still using remaining period of the day from 11 p.m. to 1 a.m frequency Resource transmission upstream data.That is, it is time slot that the communication equipment, which can use the time-domain resource in N number of sub- running time-frequency resource, 1, time slot 3 and the corresponding period of the day from 11 p.m. to 1 a.m frequency resource transmission of time slot 4 are originally just in the upstream data of these period of the day from 11 p.m. to 1 a.m frequency transmitted over resources.

So-called uplink control channel can be used for carrying ascending control information to be transmitted in Figure 12 embodiment.Figure 12 is real Applying so-called uplink data channels in example can be used for carrying ascending control information to be transmitted.That is, upload control is believed Breath can be carried by the uplink control channel.Upstream data can be carried by uplink data channels.But in some embodiments, Ascending control information can also be carried by uplink data channels.For example, in above-described embodiment, the corresponding sub- running time-frequency resource of time slot 2 Both carrying upstream data was also used for for carrying ascending control information.

Optionally, in some embodiments, this is according to the first time unit, transmitting uplink control information and upper line number According to, comprising: the ascending control information is transmitted in the first running time-frequency resource, not in second period of the day from 11 p.m. to 1 a.m frequency transmitted over resources upstream data, The period of the day from 11 p.m. to 1 a.m frequency transmitted over resources upstream data in the second running time-frequency resource in addition to the second sub- running time-frequency resource, second period of the day from 11 p.m. to 1 a.m Frequency resource is a sub- running time-frequency resource in N number of sub- running time-frequency resource, the number of the time quantum where the second sub- running time-frequency resource It is identical as the number of the first time unit.

For example, it is assumed that the time quantum is time slot, it is assumed that second running time-frequency resource includes 4 time quantums, 4 times Unit is respectively time slot 1, time slot 2, time slot 3 and time slot 4.First running time-frequency resource is Chong Die in time domain with second running time-frequency resource. That is, the first time unit can be any one time slot of time slot 1 into time slot 4.Assuming that the first time unit is Time slot 2.In the case, which can be with the first running time-frequency resource transmitting uplink control information.The communication equipment is not Two period of the day from 11 p.m. to 1 a.m frequency resource transmission upstream datas.The second sub- running time-frequency resource is that N number of period of the day from 11 p.m. to 1 a.m frequency that second running time-frequency resource includes provides A sub- running time-frequency resource in source, and time slot where the second sub- running time-frequency resource is time time slot where the first running time-frequency resource, i.e., Time slot 2.In other words, in the case, which clashes in first running time-frequency resource and second running time-frequency resource Time quantum only transmit the ascending control information.In addition, the communication equipment can be passed still using remaining sub- running time-frequency resource Defeated upstream data.That is, it is time slot 1, time slot 3 that the communication equipment, which can use time-domain resource in N number of sub- running time-frequency resource, With the period of the day from 11 p.m. to 1 a.m frequency resource transmission of time slot 4 upstream data.

Optionally, in some embodiments, this is according to the first time unit, transmitting uplink control information and upper line number According to, comprising: the ascending control information and the upstream data are transmitted in M sub- running time-frequency resources, wherein the M sub- running time-frequency resources belong to The number of N number of sub- running time-frequency resource, the time quantum where the sub- running time-frequency resource of any of the M sub- running time-frequency resource be greater than or Equal to the number of the first time unit, M is the positive integer more than or equal to 1 and less than N.

For example, it is assumed that the time quantum is time slot, it is assumed that second running time-frequency resource includes 4 time quantums, 4 times Unit is respectively time slot 1, time slot 2, time slot 3 and time slot 4.First running time-frequency resource is Chong Die in time domain with second running time-frequency resource. That is, the first time unit can be any one time slot of time slot 1 into time slot 4.Assuming that the first time unit is Time slot 2.In the case, which can be time slot 2 into time slot 4 in the time-domain resource in 4 sub- running time-frequency resources One or more period of the day from 11 p.m. to 1 a.m frequency resource transmissions ascending control information and the upstream data.

Optionally, in some embodiments, which determines M sub- running time-frequency resources, and the M sub- running time-frequency resources are should The period of the day from 11 p.m. to 1 a.m frequency that the number of time quantum where in N number of sub- running time-frequency resource is greater than or equal to the number of the first time unit provides Source.It include the feelings that the corresponding redundancy versions of a sub- running time-frequency resource are non-self-decodable redundancy versions in the M sub- running time-frequency resources Under condition, it can determine that the sub- running time-frequency resource of third is first corresponding non-self-decodable redundancy versions in the M sub- running time-frequency resources Sub- running time-frequency resource；It does not include the corresponding redundancy versions of a sub- running time-frequency resource in the M sub- running time-frequency resources is that non-self-decodable is superfluous In the case where remaining version, it can determine that the sub- running time-frequency resource of the third is first sub- running time-frequency resource in the M sub- running time-frequency resources. The communication equipment can be in the third period of the day from 11 p.m. to 1 a.m frequency transmitted over resources ascending control information and the upstream data.The communication equipment can Not transmit the ascending control information on first time-frequency.The communication equipment can also remove in N number of sub- running time-frequency resource should Other period of the day from 11 p.m. to 1 a.m frequency transmitted over resources upstream data other than second sub- running time-frequency resource.

For example, it is assumed that the time quantum is time slot, it is assumed that second running time-frequency resource includes 4 time quantums, 4 times Unit is respectively time slot 1, time slot 2, time slot 3 and time slot 4, and the sub- running time-frequency resource in four time slots respectively corresponds self-demarking code redundancy version Sheet, non-self-decodable redundancy versions, self-demarking code redundancy versions, non-self-decodable redundancy versions.First running time-frequency resource and this second when Frequency resource is overlapped in time domain.That is, the first time unit can be any one time slot of time slot 1 into time slot 4.Assuming that The first time unit is time slot 2.In the case, the M sub- running time-frequency resources are time-domain resource in 4 sub- running time-frequency resources Positioned at three sub- running time-frequency resources of time slot 2 to time slot 4.In the case, which can be in three sub- running time-frequency resources In the 1st sub- running time-frequency resource transmit the ascending control information and the upstream data, i.e. 2 place period of the day from 11 p.m. to 1 a.m frequency transmitted over resources of time slot The ascending control information and the upstream data.Assuming that the first time unit is time slot 3.In the case, the M sub- time-frequency money Source is 2 sub- running time-frequency resources that time-domain resource is located at time slot 3 to time slot 4 in 4 sub- running time-frequency resources.In the case, should Communication equipment can transmit the ascending control information and line number on this in the 2nd sub- running time-frequency resource in 2 sub- running time-frequency resources According to i.e. 4 place period of the day from 11 p.m. to 1 a.m frequency transmitted over resources ascending control information of time slot and the upstream data.

Optionally, in some embodiments, the ascending control information and line number on this should be transmitted in M sub- running time-frequency resources According to, comprising: determine that the ascending control information transmits corresponding every layer of modulating-coding number of symbols on the uplink data channels；Root Corresponding every layer of modulating-coding number of symbols is transmitted on the uplink data channels according to the ascending control information and determines the uplink control Total modulating-coding symbol of the ascending control information is divided into M part by total modulating-coding number of symbols of information processed, respectively The M part is transmitted on the M sub- running time-frequency resources, total modulating-coding number of symbols of the M part is equal to the upload control Total modulating-coding number of symbols of information.

Optionally, in some embodiments, total modulating-coding symbol of ascending control information is divided into M part can be Total modulating-coding symbol of the ascending control information is divided into M part of non-overlap.

Optionally, in some embodiments, the determination ascending control information transmits correspondence on the uplink data channels Every layer of modulating-coding number of symbols, comprising: according to total available resources number of particles in the M sub- running time-frequency resource, determine The ascending control information transmits corresponding every layer of modulating-coding number of symbols on the uplink data channels.Designated herein is available Resource particle is a running time-frequency resource unit, corresponding 1 subcarrier of frequency domain span, corresponding 1 orthogonal frequency division multiplexing of time domain span (Orthogonal Frequency Division Multiplexing, OFDM) symbol.Certainly, the time-frequency of the resource particle Span can also be by other definition, such as frequency domain span is 12 subcarriers, 1 RB in other words, time domain span be 1 time slot, Mini time slot, subframe etc..In other words, it can be determined according to total available resources number of particles in the M sub- running time-frequency resources The uplink can control information and transmit the RE number occupied on the uplink data channels.

Optionally, in further embodiments, the determination ascending control information transmits pair on the uplink data channels The every layer of modulating-coding number of symbols answered, comprising: according to the available resources of a sub- running time-frequency resource in the M sub- running time-frequency resources Number of particles determines that the ascending control information transmits corresponding every layer of modulating-coding number of symbols on the uplink data channels.

Total available resources number of particles in the M sub- running time-frequency resources refers to that M sub- time-domain resources included all may be used With the resource particle number for including in sub- time-domain resource.For example, it is assumed that M is equal to 2, each sub- time-domain resource includes 168 available Resource particle.In the case, total available resources number of particles in the M sub- running time-frequency resources is 336.

The available resources number of particles of a sub- running time-frequency resource in the M sub- running time-frequency resources is a sub- time-domain resource packet The available resources number of particles included.For example, it is assumed that M is equal to 2, each sub- time-domain resource includes 168 available resources particles.Herein In the case of, the available resources number of particles of a sub- running time-frequency resource in the M sub- running time-frequency resources is 168.

It is understood that if M is equal to 1, the available resources grain of a sub- running time-frequency resource in the M sub- running time-frequency resources Subnumber mesh is equal to total available resources number of particles in the M sub- running time-frequency resources.

Optionally, in some embodiments, method shown in Figure 12 can also comprise determining that the 6th sub- time-domain resource, should 6th sub- time-domain resource belongs to N number of sub- time-domain resource, and carrying comes from L sub- time-domain resources in the 6th sub- time-domain resource The corresponding ascending control information of uplink control channel, should from the uplink control channel in L sub- time-domain resources it is corresponding on Row control information belongs to same type, and L is the positive integer more than or equal to 2.In the 6th period of the day from 11 p.m. to 1 a.m domain transmitted over resources uplink control The modulating-coding symbol of information processed, the modulating-coding symbol of all ascending control informations are in the L sub- time-domain resources Ascending control information modulating-coding symbol concatenation.

Optionally, in some embodiments, before step 1203, this method further include: receive object transmission scheme and refer to Show information, object transmission scheme instruction information is used to indicate object transmission scheme；Information is indicated according to the target protocol, is determined The object transmission scheme.In the case, this is according to the first time unit, transmitting uplink control information and upstream data, packet It includes: the ascending control information and the upstream data is transmitted according to the first time unit based on the object transmission scheme.

Optionally, in some embodiments, it is first that target protocol instruction information, which is used to indicate the object transmission scheme, Transmission plan or the second transmission plan.For example, the object transmission scheme is first biography when target protocol instruction information is 1 Transmission scheme；When the target protocol indicates that information is 0, which is second transmission plan.For another example, the target protocol When indicating that information is 0, which is first transmission plan；When the target protocol indicates that information is 1, which is passed Transmission scheme is second transmission plan.For another example, when target protocol instruction information is affirmative (positive), the object transmission side Case is first transmission plan；When the target protocol indicates that information is negative (negative), the object transmission scheme be this Two transmission plans.It will be appreciated by persons skilled in the art that object transmission scheme instruction information indicates object transmission scheme Mode can also be the other modes in addition to example above, as long as the object transmission scheme instruction information can indicate difference Transmission plan.

Optionally, in further embodiments, it is to be somebody's turn to do that target protocol instruction information, which is used to indicate the object transmission scheme, First transmission plan or third transmission plan.For example, when target protocol instruction information is 1, the object transmission scheme be this One transmission plan；When the target protocol indicates that information is 0, which is the third transmission plan.For another example, the target When scheme indicates that information is 0, which is first transmission plan；When the target protocol indicates that information is 1, the mesh Mark transmission plan is the third transmission plan.For another example, when target protocol instruction information is affirmative (positive), which is passed Transmission scheme is first transmission plan；When the target protocol indicates that information is negative (negative), which is The third transmission plan.It will be appreciated by persons skilled in the art that object transmission scheme instruction information indicates object transmission The mode of scheme can also be the other modes in addition to example above, as long as object transmission scheme instruction information can indicate Different transmission plans.

Optionally, in further embodiments, it is to be somebody's turn to do that target protocol instruction information, which is used to indicate the object transmission scheme, Second transmission plan or the third transmission plan.For example, the object transmission scheme is should when target protocol instruction information is 1 Third transmission plan；When the target protocol indicates that information is 0, which is second transmission plan.For another example, the mesh When mark scheme indicates that information is 0, which is the third transmission plan；It, should when the target protocol indicates that information is 1 Object transmission scheme is second transmission plan.For another example, when target protocol instruction information is affirmative (positive), the target Transmission plan is the third transmission plan；When the target protocol indicates that information is negative (negative), the object transmission scheme For second transmission plan.It will be appreciated by persons skilled in the art that object transmission scheme instruction information instruction target passes The mode of transmission scheme can also be the other modes in addition to example above, as long as object transmission scheme instruction information can refer to Show different transmission plans.

Optionally, in further embodiments, it is that target protocol instruction information, which is used to indicate the object transmission scheme, One transmission plan, the second transmission plan or third transmission plan.For example, the target passes when target protocol instruction information is 00 Transmission scheme is first transmission plan；When the target protocol indicates that information is 01, which is the second transmission side Case；When the target protocol indicates that information is 10, which is the third transmission plan.For another example, which refers to When showing that information is 11, which is first transmission plan；When the target protocol indicates that information is 10, which is passed Transmission scheme is second transmission plan；When the target protocol indicates that information is 01, which is the third transmission side Case.

First transmission plan are as follows: in the 4th period of the day from 11 p.m. to 1 a.m frequency resource transmission ascending control information and the upstream data, wherein 4th sub- running time-frequency resource is a sub- running time-frequency resource in N number of sub- running time-frequency resource, where the 4th sub- running time-frequency resource when Between unit number it is identical as the number of the first time unit.Further, which can also include, not at this The ascending control information is transmitted on first running time-frequency resource.

Second transmission plan are as follows: the ascending control information is transmitted in the first running time-frequency resource, not in the 5th sub- running time-frequency resource Upper transmission upstream data, period of the day from 11 p.m. to 1 a.m frequency transmitted over resources in the second running time-frequency resource in addition to the 5th sub- running time-frequency resource is on this Row data, the 5th sub- running time-frequency resource are a sub- running time-frequency resource in N number of sub- running time-frequency resource, the 5th sub- running time-frequency resource place Time quantum number it is identical as the number of the first time unit.

The third transmission plan are as follows: transmit the ascending control information and the upstream data in T sub- running time-frequency resources, wherein should T sub- running time-frequency resources belong to N number of sub- running time-frequency resource, where the sub- running time-frequency resource of any of the T sub- running time-frequency resources when Between unit number be greater than or equal to the first time unit number, T be more than or equal to 1 and be less than N positive integer.

Optionally, in some embodiments, reception object transmission scheme instruction information includes: reception high-level signaling, should High-level signaling carries object transmission scheme instruction information；Alternatively, receiving descending control signaling, which carries should Object transmission scheme indicates information.

Figure 13 is according to a kind of structural block diagram of communication equipment provided by the embodiments of the present application.As shown in figure 13, communication is set Standby 1300 include processing unit 1301 and transmission unit 1302.

Processing unit 1301, for determining the first running time-frequency resource, wherein first running time-frequency resource is uplink control channel Running time-frequency resource, the uplink control channel is for carrying ascending control information to be transmitted, and first running time-frequency resource is the In one time quantum.

Processing unit 1301 is also used to determine the second running time-frequency resource, wherein second running time-frequency resource is upstream data letter The running time-frequency resource in road, the uplink data channels are for carrying upstream data to be transmitted, and second running time-frequency resource is by N number of son Running time-frequency resource composition, N number of sub- running time-frequency resource are located at N number of time quantum, first running time-frequency resource and described second Running time-frequency resource is overlapped in time domain, and N is the positive integer more than or equal to 2.

Communication unit 1302, for transmitting the ascending control information and the upstream data according to the first time unit.

The concrete function and beneficial effect of processing unit 1301 and communication unit 1302, may refer to implementation shown in Figure 12 Example, need not just repeat herein.

Processing unit 1301 can be realized that communication unit 1302 can be realized by transceiver by processor.

Figure 14 is the structural block diagram according to another communication equipment provided by the embodiments of the present application.Communication as shown in figure 14 is set Standby 1400 include memory 1401 and processor 1402.

Memory 1401, for storing program.

Processor 1402, for executing the program of the storage of memory 1401, when program is performed, so that communication equipment 1400 may be implemented the method that above-mentioned Figure 12 embodiment provides.

It can will be realized some or all of in method shown in Figure 12 by software using communication equipment 1400.

Memory 1401 can be physically separate unit, can also integrate with processor 1402.

Optionally, when passing through software realization some or all of in method shown in FIG. 1, communication equipment 1400 can also be with Only include processor 1402.Memory 1401 for storing program is located at except device 1400, processor 1402 by circuit/ Electric wire is connect with memory 1401, for reading and executing the program stored in memory 1401.

Processor 1402 can be central processing unit (central processing unit, CPU), network processing unit The combination of (network processor, NP) or CPU and NP.

Processor 1402 can further include hardware chip.Above-mentioned hardware chip can be specific integrated circuit (application-specific integrated circuit, ASIC), programmable logic device (programmable Logic device, PLD) or combinations thereof.Above-mentioned PLD can be Complex Programmable Logic Devices (complex Programmable logic device, CPLD), field programmable gate array (field-programmable gate Array, FPGA), Universal Array Logic (generic array logic, GAL) or any combination thereof.

Memory 1401 may include volatile memory (volatile memory), such as random access memory (random-access memory, RAM)；Memory 1401 also may include nonvolatile memory (non-volatile ), such as flash memory (flash memory), hard disk (hard disk drive, HDD) or solid state hard disk memory (solid-state drive, SSD)；Memory 1401 can also include the combination of the memory of mentioned kind.

The another aspect of the application provides a kind of computer readable storage medium, in the computer readable storage medium It is stored with instruction, when described instruction is run on computers, so that computer executes above-mentioned method as shown in figure 12.

The another aspect of the application provides a kind of computer program product comprising instruction, when the computer program product When running on computers, so that computer executes method as shown in figure 12.

Those of ordinary skill in the art may be aware that list described in conjunction with the examples disclosed in the embodiments of the present disclosure Member and algorithm steps can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are actually It is implemented in hardware or software, the specific application and design constraint depending on technical solution.Professional technician Each specific application can be used different methods to achieve the described function, but this realization is it is not considered that exceed The scope of the present invention.

It is apparent to those skilled in the art that for convenience and simplicity of description, the system of foregoing description, The specific work process of device and unit, can refer to corresponding processes in the foregoing method embodiment, and details are not described herein.

In several embodiments provided herein, it should be understood that disclosed systems, devices and methods, it can be with It realizes by another way.For example, the apparatus embodiments described above are merely exemplary, for example, the unit It divides, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components It can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, it is shown or The mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, the indirect coupling of device or unit It closes or communicates to connect, can be electrical property, mechanical or other forms.

The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme 's.

It, can also be in addition, the functional units in various embodiments of the present invention may be integrated into one processing unit It is that each unit physically exists alone, can also be integrated in one unit with two or more units.

It, can be with if the function is realized in the form of SFU software functional unit and when sold or used as an independent product It is stored in a computer readable storage medium.Based on this understanding, technical solution of the present invention is substantially in other words The part of the part that contributes to existing technology or the technical solution can be embodied in the form of software products, the meter Calculation machine software product is stored in a storage medium, including some instructions are used so that a computer equipment (can be a People's computer, server or network equipment etc.) it performs all or part of the steps of the method described in the various embodiments of the present invention. And storage medium above-mentioned includes: that USB flash disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), arbitrary access are deposited The various media that can store program code such as reservoir (RAM, Random Access Memory), magnetic or disk.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain Lid is within protection scope of the present invention.Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (17)

1. a kind of method for transmitting information, which is characterized in that the described method includes:

The first running time-frequency resource is determined, wherein first running time-frequency resource is the running time-frequency resource of uplink control channel, the uplink control Channel processed is for carrying ascending control information to be transmitted, and first running time-frequency resource is in first time unit；

The second running time-frequency resource is determined, wherein second running time-frequency resource is the running time-frequency resource of uplink data channels, the upper line number It is believed that road is for carrying upstream data to be transmitted, second running time-frequency resource is made of N number of sub- running time-frequency resource, N number of son Running time-frequency resource is located at N number of time quantum, and first running time-frequency resource is Chong Die in time domain with second running time-frequency resource, and N is Positive integer more than or equal to 2；

According to the first time unit, the ascending control information and the upstream data are transmitted.

2. the method as described in claim 1, which is characterized in that it is described according to the first time unit, transmit upload control Information and upstream data, comprising:

Ascending control information and the upstream data described in the first period of the day from 11 p.m. to 1 a.m frequency resource transmission, wherein the first sub- running time-frequency resource For a sub- running time-frequency resource in N number of sub- running time-frequency resource, the number of the time quantum where the first sub- running time-frequency resource It is identical as the number of the first time unit.

3. the method as described in claim 1, which is characterized in that it is described according to the first time unit, transmit upload control Information and upstream data, comprising:

The ascending control information is transmitted in the first running time-frequency resource, not the upstream data described in the second period of the day from 11 p.m. to 1 a.m frequency transmitted over resources, Upstream data described in period of the day from 11 p.m. to 1 a.m frequency transmitted over resources in the second running time-frequency resource in addition to the described second sub- running time-frequency resource, described Two sub- running time-frequency resources are a sub- running time-frequency resource in N number of sub- running time-frequency resource, and the time where the second sub- running time-frequency resource is single The number of member is identical as the number of the first time unit.

4. the method as described in claim 1, which is characterized in that it is described according to the first time unit, transmit upload control Information and upstream data, comprising:

The ascending control information and the upstream data are transmitted in M sub- running time-frequency resources, wherein the M sub- running time-frequency resource categories In the number of the time quantum where N number of sub- running time-frequency resource, the sub- running time-frequency resource of any of the M sub- running time-frequency resources More than or equal to the number of the first time unit, M is the positive integer more than or equal to 1 and less than N.

5. method as claimed in claim 4, which is characterized in that described to transmit the upload control letter in M sub- running time-frequency resources Breath and the upstream data, comprising:

Determine that the ascending control information transmits corresponding every layer of modulating-coding number of symbols on the uplink data channels；

It is true that corresponding every layer of modulating-coding number of symbols is transmitted on the uplink data channels according to the ascending control information Total modulating-coding number of symbols of the fixed ascending control information, by total modulating-coding symbol of the ascending control information point For M part, the M part, total modulating-coding symbol of the M part are transmitted on the M sub- running time-frequency resources respectively Number mesh is equal to total modulating-coding number of symbols of the ascending control information.

6. method as claimed in claim 5, which is characterized in that the determination ascending control information is in the upstream data The corresponding every layer of modulating-coding number of symbols of channel, comprising:

According to total available resources number of particles in the M sub- running time-frequency resources, determine the ascending control information described Corresponding every layer of modulating-coding number of symbols is transmitted on uplink data channels；Or

According to the available resources number of particles of a sub- running time-frequency resource in the M sub- running time-frequency resources, the uplink control is determined Information processed transmits corresponding every layer of modulating-coding number of symbols on the uplink data channels.

7. such as method described in any one of claims 1 to 6, which is characterized in that it is described according to the first time unit, it passes Before defeated ascending control information and upstream data, the method also includes:

It receives object transmission scheme and indicates that information, the object transmission scheme instruction information are used to indicate object transmission scheme；

Information is indicated according to the target protocol, determines the object transmission scheme；

It is described according to the first time unit, transmitting uplink control information and upstream data, comprising:

The ascending control information and the uplink are transmitted according to the first time unit based on the object transmission scheme Data.

8. the method for claim 7, which is characterized in that the target protocol instruction information is used to indicate the target and passes Transmission scheme is the first transmission plan or the second transmission plan；Or

It is that first transmission plan or third are transmitted that the target protocol instruction information, which is used to indicate the object transmission scheme, Scheme；Or

It is second transmission plan or the third that the target protocol instruction information, which is used to indicate the object transmission scheme, Transmission plan,

Wherein first transmission plan are as follows: the ascending control information described in the 4th period of the day from 11 p.m. to 1 a.m frequency resource transmission and the upper line number According to, wherein the 4th sub- running time-frequency resource is a sub- running time-frequency resource in N number of sub- running time-frequency resource, the 4th period of the day from 11 p.m. to 1 a.m frequency The number of time quantum where resource is identical as the number of the first time unit；

Second transmission plan are as follows: the ascending control information is transmitted in the first running time-frequency resource, not in the 5th sub- running time-frequency resource The upper transmission upstream data, the period of the day from 11 p.m. to 1 a.m frequency transmitted over resources in the second running time-frequency resource in addition to the 5th sub- running time-frequency resource The upstream data, the 5th sub- running time-frequency resource are a sub- running time-frequency resource in N number of sub- running time-frequency resource, the 5th period of the day from 11 p.m. to 1 a.m The number of time quantum where frequency resource is identical as the number of the first time unit；

The third transmission plan are as follows: the ascending control information and the upstream data are transmitted in T sub- running time-frequency resources, wherein The T sub- running time-frequency resources belong to N number of sub- running time-frequency resource, the sub- running time-frequency resource of any of the T sub- running time-frequency resources The number of the time quantum at place is greater than or equal to the number of the first time unit, and T is more than or equal to 1 and less than N's Positive integer.

9. a kind of communication equipment, which is characterized in that the communication equipment includes:

Processing unit, for determining the first running time-frequency resource, wherein the time-frequency that first running time-frequency resource is uplink control channel provides Source, the uplink control channel is for carrying ascending control information to be transmitted, and first running time-frequency resource is single at the first time In member；

The processing unit is also used to determine the second running time-frequency resource, wherein second running time-frequency resource is uplink data channels Running time-frequency resource, the uplink data channels are for carrying upstream data to be transmitted, and second running time-frequency resource is by N number of period of the day from 11 p.m. to 1 a.m frequency Resource composition, N number of sub- running time-frequency resource are located at N number of time quantum, first running time-frequency resource and second time-frequency Resource is overlapped in time domain, and N is the positive integer more than or equal to 2；

Communication unit, for transmitting the ascending control information and the upstream data according to the first time unit.

10. communication equipment as claimed in claim 9, which is characterized in that the communication unit is specifically used in first period of the day from 11 p.m. to 1 a.m frequency Ascending control information described in resource transmission and the upstream data, wherein the first sub- running time-frequency resource is N number of period of the day from 11 p.m. to 1 a.m frequency A sub- running time-frequency resource in resource, the number of the time quantum where the first sub- running time-frequency resource and the first time are single The number of member is identical.

11. communication equipment as claimed in claim 9, which is characterized in that the communication unit is specifically used for providing in the first time-frequency The ascending control information is transmitted in source, not the upstream data described in the second period of the day from 11 p.m. to 1 a.m frequency transmitted over resources, in the second running time-frequency resource Upstream data described in period of the day from 11 p.m. to 1 a.m frequency transmitted over resources in addition to the described second sub- running time-frequency resource, the second sub- running time-frequency resource are N A sub- running time-frequency resource in a sub- running time-frequency resource, the number of the time quantum where the second sub- running time-frequency resource and described the The number of one time quantum is identical.

12. communication equipment as claimed in claim 9, which is characterized in that the communication unit is specifically used in M sub- time-frequencies Ascending control information described in resource transmission and the upstream data, wherein the M sub- running time-frequency resources belong to N number of period of the day from 11 p.m. to 1 a.m frequency Resource, the number of the time quantum where the sub- running time-frequency resource of any of the M sub- running time-frequency resources are greater than or equal to described The number of first time unit, M are the positive integer more than or equal to 1 and less than N.

13. communication equipment as claimed in claim 12, which is characterized in that the processing unit is also used to determine the uplink Control information transmits corresponding every layer of modulating-coding number of symbols on the uplink data channels, is believed according to the upload control Breath transmits corresponding every layer of modulating-coding number of symbols on the uplink data channels and determines the total of the ascending control information Modulating-coding number of symbols, total modulating-coding symbol of the ascending control information is divided into M part；

The communication unit, specifically for transmitting the M part, the M part on the M sub- running time-frequency resources respectively Total modulating-coding number of symbols be equal to the ascending control information total modulating-coding number of symbols.

14. communication equipment as claimed in claim 13, which is characterized in that the processing unit is specifically used for according to the M Total available resources number of particles in sub- running time-frequency resource, determines that the ascending control information is uploaded in the uplink data channels Defeated corresponding every layer of modulating-coding number of symbols；Or according to a sub- running time-frequency resource in the M sub- running time-frequency resource can With resource particle number, determine that the ascending control information transmits corresponding every layer of modulating-coding on the uplink data channels Number of symbols.

15. the communication equipment as described in any one of claim 9 to 14, which is characterized in that the communication unit is also used to connect It receives object transmission scheme and indicates that information, the object transmission scheme instruction information are used to indicate object transmission scheme；

The processing unit is also used to indicate information according to the target protocol, determines the object transmission scheme；

The communication unit is specifically used for being based on the object transmission scheme, according to the first time unit, transmits on described Row control information and the upstream data.

16. communication equipment as claimed in claim 15, which is characterized in that the target protocol instruction information is used to indicate described Object transmission scheme is the first transmission plan or the second transmission plan；Or

It is that first transmission plan or third are transmitted that the target protocol instruction information, which is used to indicate the object transmission scheme, Scheme；Or

It is second transmission plan or the third that the target protocol instruction information, which is used to indicate the object transmission scheme, Transmission plan,

Wherein first transmission plan are as follows: the ascending control information described in the 4th period of the day from 11 p.m. to 1 a.m frequency resource transmission and the upper line number According to, wherein the 4th sub- running time-frequency resource is a sub- running time-frequency resource in N number of sub- running time-frequency resource, the 4th period of the day from 11 p.m. to 1 a.m frequency The number of time quantum where resource is identical as the number of the first time unit；

Second transmission plan are as follows: the ascending control information is transmitted in the first running time-frequency resource, not in the 5th sub- running time-frequency resource The upper transmission upstream data, the period of the day from 11 p.m. to 1 a.m frequency transmitted over resources in the second running time-frequency resource in addition to the 5th sub- running time-frequency resource The upstream data, the 5th sub- running time-frequency resource are a sub- running time-frequency resource in N number of sub- running time-frequency resource, the 5th period of the day from 11 p.m. to 1 a.m The number of time quantum where frequency resource is identical as the number of the first time unit；

The third transmission plan are as follows: the ascending control information and the upstream data are transmitted in T sub- running time-frequency resources, wherein The T sub- running time-frequency resources belong to N number of sub- running time-frequency resource, the sub- running time-frequency resource of any of the T sub- running time-frequency resources The number of the time quantum at place is greater than or equal to the number of the first time unit, and T is more than or equal to 1 and less than N's Positive integer.

17. a kind of computer readable storage medium, which is characterized in that instruction is stored in the computer readable storage medium, When described instruction is run on computers, so that computer perform claim requires 1 to the side described in any one of claim 8 Method.