CN109803397A

CN109803397A - Determine the method and apparatus for exempting from the time-domain resource of authorized transmissions

Info

Publication number: CN109803397A
Application number: CN201711147567.1A
Authority: CN
Inventors: 徐修强; 陈雁; 张立清; 王轶; 杜颖钢; 曹昱
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2017-11-17
Filing date: 2017-11-17
Publication date: 2019-05-24
Anticipated expiration: 2037-11-17
Also published as: CN109803397B

Abstract

The application provides a kind of method of the time-domain resource of determination for exempting from authorized transmissions, comprising: terminal device obtains the first time domain period and the second time domain period for exempting from authorized transmissions resource, wherein the first time domain period is P₁A time quantum, the second time domain period are P₂A time quantum, wherein P₁More than or equal to P₂；The terminal device obtains the quantity k for exempting from authorized transmissions resource in the first time domain period；The terminal device determines the index for exempting from the time quantum where authorized transmissions resource for exempting from authorized transmissions according to the quantity k for exempting from authorized transmissions resource in the first time domain period, the second time domain period and the first time domain period.It can support to realize and exempt from authorized transmissions resource not overlappingly within the two neighboring period for terminal equipment configuration.

Description

Determine the method and apparatus for exempting from the time-domain resource of authorized transmissions

Technical field

This application involves the communications fields, and more particularly, to a kind of determination for exempting from the time-domain resource of authorized transmissions Method and apparatus.

Background technique

Uplink exempts from authorized transmissions as a kind of i.e. come the method for transmitting uplink data walked, i.e., when the data arrives, terminal Equipment does not need to send scheduling request (Scheduling Request, SR) to the network equipment to request the network equipment to distribute uplink Transfer resource, and wait the network equipment send authorization message after to the network equipment send upstream data, but directly use net The pre-assigned resource of network equipment and specified configured transmission etc. send upstream data to the network equipment.Compared to it is traditional based on The transmission method of " request-authorization ", uplink, which exempts from this method for transmitting uplink data i.e. to walk of authorized transmissions, to be had significantly Beneficial effect, for example, uplink, which exempts from authorized transmissions, can significantly reduce the power consumption of signaling overheads, propagation delay time and terminal device.

Exempt from authorized transmissions in uplink, the network equipment needs to exempt from authorization resources in advance for terminal device distribution, specifically includes For terminal device allocation of transmission resources and configured transmission etc..Wherein, configured transmission specifically include that exempt from authorization resources period, when The offset parameter of domain resource, the period for exempting from authorization resources, the offset parameter of time-domain resource, time-domain resource distribution, frequency domain resource point Match, the specific demodulated reference signal configuration information of user, modulating-coding strategy/transport block size, number of repetition and power control it is related Parameter etc..

The method that authorized transmissions resource is exempted from a kind of configuration of binary cycle exists in the prior art, i.e. the network equipment is terminal device There are two types of the time domain periods for the authorized transmissions resource tool of exempting from of distribution, wherein exempts from authorized transmissions resource using long time domain period assignment First in group exempts from authorized transmissions resource, other exempted from authorization using what short time domain period assignment was exempted from authorized transmissions resource group and passed Defeated resource.In the existing this configuration method for exempting from authorized transmissions resource, it may appear that it is previous exempt from authorized transmissions resource group with The latter exempts from overlapping phenomenon occur between authorized transmissions resource group, provides so as to cause in the authorized transmissions of exempting from for determining terminal device Complexity when time quantum where source is very high.

Summary of the invention

The application provides a kind of method of the time-domain resource of determination for exempting from authorized transmissions, can support to realize adjacent two Exempt from authorized transmissions resource not overlappingly in a period for terminal equipment configuration.

In a first aspect, providing a kind of method of the time-domain resource of determination for exempting from authorized transmissions, comprising: terminal device obtains Take the first time domain period and the second time domain period for exempting from authorized transmissions resource, wherein the first time domain period is P₁A time Unit, the second time domain period are P₂A time quantum, wherein P₁More than or equal to P₂；The terminal device obtains described the The quantity k for exempting from authorized transmissions resource in one time domain period；The terminal device is according to the first time domain period, described second The quantity k for exempting from authorized transmissions resource in time domain period and the first time domain period is determined for exempting from exempting from for authorized transmissions The index of time quantum where authorized transmissions resource.

Optionally, terminal device determines that the network equipment exempts from scheduling transmission resources for its distribution according only to the second time domain period Quantity k.

Specifically, terminal device is after the first kind in the current first time domain period exempts from authorized transmissions resource, according to Two time domain period P₂Determine that the second class exempts from the quantity of authorized transmissions resource, when the second determining class exempt from authorized transmissions resource be located at work as When in next first time domain period in preceding first time domain period, ignores or abandon and determining be located at the current first time domain period The second class exempts from authorized transmissions resource in next first time domain period.

Exempt from the quantity k of authorized transmissions resource by determining, and according to the first time domain period, the second time domain period and this The quantity k for exempting from authorized transmissions resource in one time domain period, determine for exempt from authorized transmissions exempt from authorized transmissions resource where The index of time quantum can be realized and exempt from authorized transmissions resource not overlappingly within the two neighboring period for terminal equipment configuration.

With reference to first aspect, in a kind of possible implementation of first aspect, the terminal device is according to described The quantity k for exempting from authorized transmissions resource in one time domain period, the second time domain period and the first time domain period, determine described in Exempt from the index of the time quantum where authorized transmissions resource, comprising: the terminal device exempts from authorized transmissions resource institute according to first The index of time quantum, the first time domain period, in the second time domain period and the first time domain period Exempt from the quantity k of authorized transmissions resource, exempts from the index of the time quantum where authorized transmissions resource described in determination.

Exempt from the quantity k of authorized transmissions resource by determining, and according to the first time quantum exempted from where authorized transmissions resource Index, the first time domain period, the quantity k for exempting from authorized transmissions resource in the second time domain period and the first time domain period, It determines the index for exempting from the time quantum where authorized transmissions resource for exempting from authorized transmissions, can be realized in the two neighboring period Inside exempt from authorized transmissions resource not overlappingly for terminal equipment configuration.

It with reference to first aspect, is specially to be confused in the time quantum in a kind of possible implementation of first aspect In the case where your time slot, the method also includes: the terminal device obtains the format information of the mini time slot, described mini The format information of time slot includes at least: the number for the orthogonal frequency division multiplex OFDM symbol for including in each mini time slot and The position of the starting OFDM symbol of each mini time slot in each time slot, or include: each mini time slot every The position of starting OFDM symbol in a time slot and the position for terminating OFDM symbol；Exempt to authorize in the first time domain period The quantity k of transfer resource is the format according to the first time domain period, the second time domain period and the mini time slot What information determined.

Second aspect provides a kind of method of the time-domain resource of determination for exempting from authorized transmissions, comprising: the network equipment obtains Take the quantity k for exempting from authorized transmissions resource in the first time domain period for exempting from authorized transmissions resource；The network equipment is according to First time domain period exempted to exempt from authorized transmissions money in the second time domain period and the first time domain period of authorized transmissions resource The quantity k in source is determined for receiving the index for exempting from the time quantum where authorized transmissions resource for exempting from authorization data, wherein institute Stating for the first time domain period is P₁A time quantum, the second time domain period are P₂A time quantum, wherein P₁It is greater than or equal to P₂。

In conjunction with second aspect, in a kind of possible implementation of second aspect, the network equipment is according to described One time domain period exempted to exempt from authorized transmissions resource in the second time domain period and the first time domain period of authorized transmissions resource Quantity k, determine for receiving the index for exempting from the time quantum where authorized transmissions resource for exempting from authorization data, comprising: described The network equipment is according to the first index for exempting from the time quantum where authorized transmissions resource, the first time domain period, described second The quantity k for exempting from authorized transmissions resource in time domain period and the first time domain period is determined and is exempted from authorization data for receiving The index for exempting from the time quantum where authorized transmissions resource.

It is specially to be confused in the time quantum in a kind of possible implementation of second aspect in conjunction with second aspect In the case where your time slot, the method also includes: the network equipment determines the format information of the mini time slot, described mini The format information of time slot includes at least: the number for the orthogonal frequency division multiplex OFDM symbol for including in each mini time slot and The position of the starting OFDM symbol of each mini time slot in each time slot, or include: each mini time slot every The position of starting OFDM symbol in a time slot and the position for terminating OFDM symbol；Exempt to authorize in the first time domain period The quantity k of transfer resource is the format according to the first time domain period, the second time domain period and the mini time slot What information determined.

The third aspect provides a kind of terminal device, comprising: processing module exempts from the of authorized transmissions resource for obtaining One time domain period and the second time domain period, wherein the first time domain period is P₁A time quantum, the second time domain period For P₂A time quantum, wherein P₁More than or equal to P₂；The processing module is also used to, and is obtained in the first time domain period The quantity k for exempting from authorized transmissions resource；The processing module is also used to, according to the first time domain period, it is described second when The quantity k for exempting from authorized transmissions resource in domain period and the first time domain period, determines for exempting from authorized transmissions Exempt from the index of the time quantum where authorized transmissions resource.

In conjunction with the third aspect, in a kind of possible implementation of the third aspect, the processing module is also used to, according to The first index for exempting from the time quantum where authorized transmissions resource, the first time domain period, the second time domain period And the quantity k for exempting from authorized transmissions resource in the first time domain period, it determines for exempting to exempt from described in authorized transmissions The index of time quantum where authorized transmissions resource.

It is specially to be confused in the time quantum in a kind of possible implementation of the third aspect in conjunction with the third aspect In the case where your time slot, the processing module is also used to, and obtains the format information of the mini time slot, the lattice of the mini time slot Formula information includes at least: the number for the orthogonal frequency division multiplex OFDM symbol for including in each mini time slot and each described The position of the starting OFDM symbol of mini time slot in each time slot, or include: each mini time slot in each time slot Starting OFDM symbol position and terminate OFDM symbol position；Correspondingly, described in the first time domain period is exempted from The quantity k of authorized transmissions resource is according to the first time domain period, the second time domain period and the mini time slot What format information determined.

Fourth aspect provides a kind of network equipment, comprising: processing module exempts from the of authorized transmissions resource for obtaining The quantity k for exempting from authorized transmissions resource in one time domain period；The processing module is also used to, according to the first time domain period, Exempt from authorized transmissions resource described in the second time domain period and the first time domain period for exempting from authorized transmissions resource Quantity k is determined for receiving the index for exempting from the time quantum where authorized transmissions resource for exempting from authorization data, wherein described the One time domain period was P₁A time quantum, the second time domain period are P₂A time quantum, wherein P₁More than or equal to P₂。

In conjunction with fourth aspect, in a kind of possible implementation of fourth aspect, the processing module is also used to, according to The first index for exempting from the time quantum where authorized transmissions resource, the first time domain period, the second time domain period and The quantity k for exempting from authorized transmissions resource in the first time domain period is determined and is exempted from authorization data for receiving and exempt to authorize The index of time quantum where transfer resource.

It is specially to be confused in the time quantum in a kind of possible implementation of fourth aspect in conjunction with fourth aspect In the case where your time slot, the processing module is also used to, and determines the format information of the mini time slot, the lattice of the mini time slot Formula information includes at least: the number for the orthogonal frequency division multiplex OFDM symbol for including in each mini time slot and each described The position of the starting OFDM symbol of mini time slot in each time slot, or include: each mini time slot in each time slot Starting OFDM symbol position and terminate OFDM symbol position；Correspondingly, described in the first time domain period is exempted from The quantity k of authorized transmissions resource is according to the first time domain period, the second time domain period and the mini time slot What format information determined.

Any possible implementation into fourth aspect with reference to first aspect, the one of first aspect to fourth aspect In kind possible implementation, it is described according to the first index for exempting from the time quantum where authorized transmissions resource, it is described first when The quantity k for exempting from authorized transmissions resource in domain period, the second time domain period and the first time domain period, determine described in Exempt from the index of the time quantum where authorized transmissions resource, comprising: determine that Y are exempted to authorize according to any one following relational expression The index of time quantum where transfer resource:

- TU_index=Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂, or,

- TU_index=[Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂] mod X, or,

- TU_index=Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂+F₂, or,

- TU_index=[Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂+F₂] mod X,

Wherein,

-F₂For corrected parameter, F₂Value it is associated with the value of Y,

- Y is nonnegative integer, for indicating to exempt from the serial number of authorized transmissions resource,

- X is preset nonnegative integer,

- Starting_index is the first index for exempting from the time quantum where authorized transmissions resource,

- TU_index be including it is described it is first exempt from authorized transmissions resource including any one exempt from authorized transmissions resources where Time quantum index.

Any possible implementation into fourth aspect with reference to first aspect, the one of first aspect to fourth aspect In the possible implementation of kind, when the quantity k for exempting from authorized transmissions resource in the first time domain period is according to described first What domain period and the second time domain period determined.

Exempt from the quantity k of authorized transmissions resource by determining according to the first time domain period and the second time domain period, and according to head A index for exempting from the time quantum where authorized transmissions resource, the first time domain period, the second time domain period and first time domain The quantity k for exempting from authorized transmissions resource in period determines that the time exempted from where authorized transmissions resource for exempting from authorized transmissions is single The index of member can be realized and exempt from authorized transmissions resource not overlappingly within the two neighboring period for terminal equipment configuration.

Any possible implementation into fourth aspect with reference to first aspect, the one of first aspect to fourth aspect In the possible implementation of kind, it is described according to the first time domain period and the second time domain period, it determines in the first time domain period The quantity k for exempting from authorized transmissions resource, comprising:

The quantity k for exempting from authorized transmissions resource in the first time domain period is determined according to following relational expressions:

K=ceil (P₁/P₂)。

Any possible implementation into fourth aspect with reference to first aspect, the one of first aspect to fourth aspect It is described according to the first time domain period and the second time domain period in the possible implementation of kind, it determines in the first time domain period The quantity k for exempting from authorized transmissions resource, comprising: determined in the first time domain period according to following relational expressions and exempt from authorized transmissions The quantity k of resource:

K=floor [(P₁-T)/P₂]+1

Wherein, T exempts from the time quantum that authorized transmissions resource includes by any one in the first time domain period Quantity.

By exempting from authorized transmissions resource according to the determination of the first time domain period, the second time domain period and transmission time element length Quantity k, and according to the first index for exempting from the time quantum where authorized transmissions resource, the first time domain period, the second time domain week The quantity k for exempting from authorized transmissions resource in phase and the first time domain period is determined and is exempted from authorized transmissions for exempt from authorized transmissions The index of time quantum where resource can be realized and exempt to authorize for terminal equipment configuration not overlappingly within the two neighboring period Transfer resource.

K=min [ceil (P₁/P₂),N]

Wherein, N represents maximum iterative transfer times, and the maximum iterative transfer times are not receive network equipment transmission The forward direction network equipment of feedback information send the maximum times of same upstream data, N >=1.

By exempting from authorized transmissions resource according to the first time domain period, the second time domain period and maximum iterative transfer times determination Quantity k, and according to the first index for exempting from the time quantum where authorized transmissions resource, the first time domain period, the second time domain week The quantity k for exempting from authorized transmissions resource in phase and the first time domain period is determined and is exempted from authorized transmissions for exempt from authorized transmissions The index of time quantum where resource can be realized and exempt to authorize for terminal equipment configuration not overlappingly within the two neighboring period Transfer resource.

K=min [floor [(P₁-T)/P₂]+1,N]

Wherein, T exempts from the time quantum that authorized transmissions resource includes by any one in the first time domain period Quantity, N represent maximum iterative transfer times, and N represents maximum iterative transfer times, and the maximum iterative transfer times are not receive The forward direction network equipment of the feedback information sent to the network equipment sends the maximum times of same upstream data, N >=1.

By according to the first time domain period, the second time domain period, transmission time element length and maximum iterative transfer times It determines and exempts from the quantity k of authorized transmissions resource, and when according to the first index for exempting from the time quantum where authorized transmissions resource, first The quantity k for exempting from authorized transmissions resource in domain period, the second time domain period and the first time domain period is determined for exempting to authorize The index for exempting from the time quantum where authorized transmissions resource of transmission can be realized within the two neighboring period not overlappingly for eventually Authorized transmissions resource is exempted from end equipment configuration.

Any possible implementation into fourth aspect with reference to first aspect, the one of first aspect to fourth aspect In kind possible implementation, the time quantum includes at least any one in following time quantum: radio frames, subframe, Time slot, orthogonal frequency division multiplex OFDM symbol.

5th aspect, provides a kind of terminal device, the terminal device includes memory and processor, which is used for Store instruction, the processor are used to execute the instruction of memory storage, and the execution to the instruction stored in the memory So that the processor executes the method in the possibility implementation in either first aspect or first aspect face.

6th aspect, provides a kind of computer readable storage medium, is stored thereon with computer program, described program is located Manage the method realized in the possibility implementation in either first aspect or first aspect face when device executes.

7th aspect, provides a kind of computer program product, which includes: computer program generation Code, when the computer program code by terminal device and processing module or processor run when so that terminal device executes The method for stating first aspect.

Eighth aspect provides a kind of communication chip, wherein being stored with instruction, when it runs on the terminal device, makes Obtain the method that the communication chip executes above-mentioned first aspect.

9th aspect, provides a kind of network equipment, the network equipment includes memory and processor, which is used for Store instruction, the processor are used to execute the instruction of memory storage, and the execution to the instruction stored in the memory So that the processor executes the method in the possibility implementation in either second aspect or second aspect face.

Tenth aspect, provides a kind of computer readable storage medium, is stored thereon with computer program, described program is located Manage the method realized in the possibility implementation in either second aspect or second aspect face when device executes.

On the one hand tenth, provides a kind of computer program product, which includes: computer program generation Code, when the computer program code is run by the processing module of the network equipment or processor, so that network equipment execution is above-mentioned The method of second aspect.

12nd aspect, provides a kind of communication chip, wherein it is stored with instruction, when it runs on network devices, So that the method that the communication chip executes above-mentioned second aspect.

Detailed description of the invention

Fig. 1 is the system architecture schematic diagram of the embodiment of the present application.

Fig. 2 is the schematic flow of the method for time-domain resource of the determination provided by the embodiments of the present application for exempting from authorized transmissions Figure.

Fig. 3 is the schematic resource map for exempting from authorized transmissions resource based on binary cycle configuration of the embodiment of the present application.

Fig. 4 is a kind of schematic resource map for exempting from authorized transmissions resource of the embodiment of the present application.

Fig. 5 is the schematic resource map of another kind for exempting from authorized transmissions resource of the embodiment of the present application.

Fig. 6 is another schematic resource map for exempting from authorized transmissions resource of the embodiment of the present application.

Fig. 7 is another schematic resource map for exempting from authorized transmissions resource of the embodiment of the present application.

Fig. 8 is another schematic resource map for exempting from authorized transmissions resource of the embodiment of the present application.

Fig. 9 is the schematic resource map for the mini time slot for including in the time slot of the embodiment of the present application.

Figure 10 is the schematic resource map of another kind for the mini time slot for including in the time slot of the embodiment of the present application.

Figure 11 is another the schematic resource map for the mini time slot for including in the time slot of the embodiment of the present application.

Figure 12 is another the schematic resource map for the mini time slot for including in the time slot of the embodiment of the present application.

Figure 13 is another the schematic resource map for the mini time slot for including in the time slot of the embodiment of the present application.

Figure 14 is a kind of schematic resource map for the mini time slot for including in the radio frames of the embodiment of the present application.

Figure 15 is the schematic resource map of another kind for the mini time slot for including in the radio frames of the embodiment of the present application.

Figure 16 is a kind of schematic resource map for the OFDM symbol for including in the radio frames of the embodiment of the present application.

Figure 17 is the schematic resource map of another kind for the OFDM symbol for including in the radio frames of the embodiment of the present application.

Figure 18 is a kind of schematic resource map for exempting from authorized transmissions resource of the carrying data packet of the embodiment of the present application.

Figure 19 is the schematic resource distribution of another kind for exempting from authorized transmissions resource of the carrying data packet of the embodiment of the present application Figure.

Figure 20 is another schematic resource distribution for exempting from authorized transmissions resource of the carrying data packet of the embodiment of the present application Figure.

Figure 21 is another the schematic resource map for the OFDM symbol for including in the radio frames of the embodiment of the present application.

Figure 22 is the schematic block diagram of the communication device of the embodiment of the present application.

Figure 23 is the schematic block diagram of the communication equipment of the embodiment of the present application.

Specific embodiment

Below in conjunction with attached drawing, the technical solution in the application is described.

The technical solution of the embodiment of the present application can be applied to various wireless communication systems, such as: the 5th following generation (5th Generation, 5G) system or new wireless (New Radio, NR) etc..

Terminal device in the embodiment of the present application is that a kind of equipment with radio transmission-receiving function can be deployed in land, Including indoor or outdoors, hand-held, wearing or vehicle-mounted；(such as steamer) can also be deployed on the water surface；It can also dispose in the sky (such as on aircraft, balloon and satellite etc.).The terminal device can be mobile phone (mobile phone), tablet computer (Pad), Computer, virtual reality (Virtual Reality, VR) terminal device, augmented reality (Augmented with radio transmission-receiving function Reality, AR) terminal device, the wireless terminal in Industry Control (industrial control), unmanned (self Driving the wireless terminal in wireless terminal, tele-medicine (remote medical), smart grid (smart in) Grid the wireless terminal in wireless terminal, transportation safety (transportation safety), smart city (smart in) City the wireless terminal in wireless terminal, wisdom family (smart home), cellular phone, wireless phone, session initiation in) Agreement (Session Initiation Protocol, SIP) phone, wireless local loop (Wireless Local Loop, WLL it) stands, personal digital assistant (Personal Digital Assistant, PDA), hand-held with wireless communication function set It is standby, calculate equipment or be connected to other processing equipments of radio modem, mobile unit, wearable device, the following 5G net Terminal device in network or the Public Land Mobile Network network of the following evolution (Public Land Mobile Network, PLMN terminal device in) etc..Embodiments herein to application scenarios without limitation.Terminal device is referred to as sometimes It is user equipment (user equipment, UE), access terminal equipment, UE unit, the station UE, movement station, mobile station, remote station, remote Journey terminal device, mobile device, UE terminal device, terminal device, terminal (terminal), wireless telecom equipment, UE agency or UE device etc..

The network equipment in the embodiment of the present application can be for the equipment with terminal equipment in communication, which can be with It is any one equipment with radio transmission-receiving function, including but not limited to: base station is (for example, base station NodeB, evolved base station ENodeB, the base station in the 5th generation (the fifth generation, 5G) communication system, the base station in future communication systems or Access node, wireless relay nodes, wireless backhaul node in the network equipment, WiFi system) etc..The network equipment can also be cloud Wireless controller under Radio Access Network (cloud radio access network, CRAN) scene.The network equipment may be used also To be the network equipment in 5G network or the network equipment in future evolution network；It can also be wearable device or mobile unit Deng.The network equipment 100 can also be small station, transmission node (transmission reference point, TRP) etc..Certainly Do not apply without being limited thereto.

The application in order to facilitate understanding introduces the several elements that can be introduced in the description of the present application herein first:

Fig. 1 is the schematic diagram of the wireless communication system of the embodiment of the present application.As shown in Figure 1, the communication system 100 includes net Network equipment 102, the network equipment 102 may include 1 antenna or mutiple antennas for example, 104,106,108,110,112 and of antenna 114.In addition, the network equipment 102 can additionally include transmitter chain and receiver chain, those of ordinary skill in the art can be managed Solution, they, which may each comprise, sends and receives relevant multiple components (such as processor, modulator, multiplexer, demodulation to signal Device, demultiplexer or antenna etc.).

The network equipment 102 can be communicated with multiple terminal devices (such as terminal device 116 and terminal device 122).However, It is appreciated that the network equipment 102 can be with any number of terminal device similar to terminal device 116 or terminal device 122 Communication.Terminal device 116 and 122 can be any one terminal device described above.

As shown in Figure 1, terminal device 116 is communicated with antenna 112 and 114, wherein antenna 112 and 114 passes through forward link (also referred to as downlink) 118 to terminal device 116 send information, and by reverse link (also referred to as uplink) 120 from Terminal device 116 receives information.In addition, terminal device 122 is communicated with antenna 104 and 106, before wherein antenna 104 and 106 passes through Information is sent to link 124 to terminal device 122, and information is received from terminal device 122 by reverse link 126.

In addition, the communication system 100 can be PLMN network or D2D network or M2M network or other networks, figure 1 is the rough schematic view of citing, can also include other network equipments in network, not drawn in Fig. 1.

Fig. 2 is the schematic of the method 200 of time-domain resource of the determination provided by the embodiments of the present application for exempting from authorized transmissions Flow chart.Terminal device in Fig. 2 can be the terminal device in the terminal device 116,122 in Fig. 1；The network equipment can be The network equipment 102 in Fig. 1.Certainly, in real system, the quantity of the network equipment and terminal device can be not limited to this implementation The citing of example or other embodiments, repeats no more below.This method 200 at least includes the following steps.

201, terminal device, which obtains, exempts from the first time domain period and the second time domain period of authorized transmissions resource, wherein this One time domain period was P₁A time quantum, the second time domain period are P₂A time quantum, wherein P₁More than or equal to P₂。

Specifically, the network equipment for terminal device distribution exempt from authorized transmissions resource when, can based on binary cycle (for example, First time domain period and the second time domain period) it is that terminal equipment configuration exempts from authorized transmissions resource, include in the first time domain period P₁A time quantum includes P in the second time domain period₂A time quantum, wherein P₁More than or equal to P₂。

For example, the network equipment exempts from authorized transmissions resource by the first time domain period for the terminal equipment configuration first kind, and It is that the second class of terminal equipment configuration exempts from authorized transmissions resource by the second time domain period, as shown in Figure 3, that is, in the network equipment For exempting from authorized transmissions resource for terminal equipment configuration, the first kind exempts from authorized transmissions resource with the first time domain period P₁It repeats Existing, the second class exempts from authorized transmissions resource with the second time domain period P₂Repeat, the first time domain period P₁First of interior appearance exempts from Authorized transmissions resource is that the first kind exempts from authorized transmissions resource, in the first time domain period P₁After interior first is exempted from authorized transmissions resource By the second time domain period P₂The authorized transmissions resource of exempting from configured is that the second class exempts from authorized transmissions resource.

Optionally, the first kind in the first time domain period exempts from a certain data packet of the authorized transmissions resource for terminal device Transmission for the first time, the second class in the first time domain period exempts from authorized transmissions resource and transmitted for the first time for the non-of the data packet, because This, which is also referred to as the period for exempting from authorized transmissions resource for being used to transmit for the first time, the second time domain period It can be referred to as the non-period for exempting from authorized transmissions resource transmitted for the first time.

Terminal device is determining that the network equipment is its distribution when exempting from authorized transmissions resource, it is necessary first to which acquisition exempts to award with this The relevant parameter information of transfer resource is weighed, for example, obtaining the first time domain period P for exempting from authorized transmissions resource₁With the second time domain Period P₂, and exempt from the relevant parameter information of authorized transmissions resource according to this, determine that the network equipment passes for the authorization of exempting from of its distribution Defeated resource.

Optionally, it includes the first time domain period P which, which removes,₁With the second time domain period P₂In addition, it can also at least wrap Any one included in maximum iterative transfer times N and the first time domain period exempts from the time quantum that authorized transmissions resource is included Quantity T, maximum iterative transfer times N be do not receive the network equipment transmission feedback information the forward direction network equipment send The same maximum number of upstream data, N >=1.In repeating transmission, what homogeneous did not transmitted can be the identical of same upstream data Redundancy versions are also possible to the different redundancy versions of same data.

It should be noted that the maximum iterative transfer times N is the maximum weight including transmitting for the first time comprising upstream data Multiple the number of transmissions.

Optionally, what the first time domain period and any one in the second time domain period exempted from that authorized transmissions resource includes is any One time quantum can be orthogonal frequency division multiplexing (Orthogonal Frequency Division Multiplexing, OFDM) any one in symbol, mini time slot (mini-slot), time slot and subframe.

Optionally, above-mentioned parameter information can inform terminal device by any one following mode from the network equipment: to Terminal device sends high-level signaling (for example, wireless heterogeneous networks (Radio Resource Control, RRC) signaling) or L1/ L2 signaling is (for example, Downlink Control Information (Downlink Control Information, DCI) or media access control control Element (Medium Access Control Control Element, MAC CE)) in any one；Alternatively, can also be by Arranged in advance between the network equipment and terminal device, for example, being provided by standard；Alternatively, the parameter information can also take it is silent Recognize value, the embodiment of the present application is not particularly limited this.

202, the terminal device obtain in the first time domain period by the first time domain period P1 and the second time domain period P2 The quantity k for exempting from authorized transmissions resource of configuration.

Specifically, in 201, terminal device has determined the first time domain period P for exempting from authorized transmissions resource₁With the second time domain Period P₂, in 202, terminal device needs to further determine that the number for exempting from authorized transmissions resource for including in the first time domain period Measure k.

In the present embodiment, the authorized transmissions resource of exempting from for including in the first time domain period refers to by based on first time domain Period P₁Configuration exempts from authorized transmissions resource and based on the second time domain period P₂Authorized transmissions resource is exempted from configuration.This k are exempted from Authorization resources include 1 based on the first time domain period assignment exempt from authorized transmissions resource and (k-1) is a was based on for the second time domain period Authorized transmissions resource is exempted from configuration.

203, the terminal device is according in the first time domain period, the second time domain period and the first time domain period Exempt from the quantity k of authorized transmissions resource, determines the index for exempting from the time quantum where authorized transmissions resource for exempting from authorized transmissions.

Specifically, in 202, terminal device has determined the number for exempting from authorized transmissions resource for including in the first time domain period K is measured, in 203, terminal device is exempted from according in the first time domain period, the second time domain period and the first time domain period The quantity k of authorized transmissions resource determines the index for exempting from the time quantum where authorized transmissions resource for exempting from authorized transmissions.

Therefore, in the embodiment of the present application, by determining the quantity k for exempting from authorized transmissions resource in the first time domain period, And terminal device is made to exempt from authorized transmissions resource according in the first time domain period, the second time domain period and the first time domain period Quantity k, determine the index for exempting from the time quantum where authorized transmissions resource for exempting from authorized transmissions, can be realized adjacent Exempt from authorized transmissions resource not overlappingly in two the first time domain periods for terminal equipment configuration.

The method for determining the quantity k for exempting from authorized transmissions resource for including in the first time domain period to terminal device below carries out It is discussed in detail.

It is non-limiting as example, when exempting from authorized transmissions resource comprising one with any one in the first time domain period Between the method for determining the quantity k for exempting from authorized transmissions resource for including in the first time domain period is illustrated for unit.

Method 1

Terminal device is according to the first time domain period P₁With the second time domain period P₂Determine that the authorization of exempting from the first time domain period passes The quantity k of defeated resource.

Specifically, which determines in the first time domain period according to following relational expressions exempts from authorized transmissions resource Quantity k:

K=ceil (P₁/P₂) (1)

Wherein, ceil expression rounds up.

For example, the first time domain period P₁The quantity for the time quantum for including is 5, the time quantum that the second time domain period included Quantity be 2, then according to relational expression 1 determine the first time domain period in the quantity k for exempting from authorized transmissions resource are as follows:

K=ceil (5/2)=3

Determine that the quantity for exempting from authorized transmissions resource in the first time domain period is 3, the distribution for exempting from authorized transmissions resource is shown It is intended to as shown in Figure 4.

Method 2

Terminal device is according to the first time domain period P₁, the second time domain period P₂And it is any one in the first time domain period A quantity T for exempting from the time quantum that authorized transmissions resource is included is determined in the first time domain period and is exempted from authorized transmissions resource Quantity k.

Specifically, terminal device determines the number for exempting from authorized transmissions resource in the first time domain period according to following relational expressions Measure k:

K=floor [(P₁-T)/P₂]+1 (2)

Wherein, floor indicates to be rounded downwards.

For example, the first time domain period P₁The quantity for the time quantum for including is 8, the time quantum that the second time domain period included Quantity be 3, then according to relational expression 1 determine the first time domain period in the quantity k for exempting from authorized transmissions resource are as follows:

K=floor [(8-1)/3]+1=3

Determine that the quantity for exempting from authorized transmissions resource in the first time domain period is 3, the distribution for exempting from authorized transmissions resource is shown It is intended to as shown in Figure 5.

Method 3

Terminal device according to the first time domain period, the second time domain period and maximum iterative transfer times N determine this first The quantity k for exempting from authorized transmissions resource in the time domain period.

K=min [ceil (P₁/P₂),N] (3)

Wherein, the effect of min function is to return to given parameters [ceil (P₁/P₂), N] in minimum value.

For example, the first time domain period P₁The quantity for the time quantum for including is 8, the time quantum that the second time domain period included Quantity be 2, maximum iterative transfer times N be 4, then according to relational expression 1 determine the first time domain period in exempt from authorized transmissions money The quantity k in source are as follows:

K=min [ceil (8/2), N]=4

Determine that the quantity for exempting from authorized transmissions resource in the first time domain period is 4, the distribution for exempting from authorized transmissions resource is shown It is intended to as shown in Figure 6.

Method 4

Terminal device exempts to award according to any one in the first time domain period, the second time domain period, the first time domain period The quantity T for the time quantum that power transfer resource is included and maximum iterative transfer times N, determined in the first time domain period Exempt from the quantity k of authorized transmissions resource.

K=min [floor [(P₁-T)/P₂]+1,N] (4)

For example, the first time domain period P₁The quantity for the time quantum for including is 10, and the time that the second time domain period included is single The quantity of member is 2, and maximum iterative transfer times N is 4, then is determined in the first time domain period according to relational expression 1 and exempt from authorized transmissions The quantity k of resource are as follows:

K=min [floor [(10-1)/2]+1, N]=4

Determine that the quantity for exempting from authorized transmissions resource in the first time domain period is 4, the distribution for exempting from authorized transmissions resource is shown It is intended to as shown in Figure 7.

For the above method 3 and method 4, relational expression (3) can also be substituted with the N in relational expression (4) by other parameters, example Such as, relational expression (3) can be substituted with the N in relational expression (4) by L, and the first kind that L was used to indicate within the first time domain period is exempted to award L-1 the second classes are configured after power transfer resource exempts from authorized transmissions resource.

For relational expression (3), shown in alternative forms such as relational expression (5):

K=min [ceil (P₁/P₂),L] (5)

For relational expression (4), shown in alternative forms such as relational expression (6):

K=min [floor [(P₁-T)/P₂]+1,L] (6)

Optionally, parameter L can inform terminal device by any one following mode from the network equipment: the network equipment to Terminal device sends any one in high-level signaling (for example, RRC signaling) or L1/L2 signaling (for example, DCI) or MAC CE； Alternatively, can also be by being arranged in advance between the network equipment and terminal device；Alternatively, the parameter information can also take default Value, the embodiment of the present application are not particularly limited this.

Method 5

Terminal device determines the network equipment for the quantity k for exempting from scheduling transmission resources of its distribution according to the second time domain period.

For example, as shown in figure 8, the first time domain period P₁The quantity for the time quantum for including is 8, and the second time domain period included Time quantum quantity be 3, terminal device is determined and is only capable of in a first time domain period according to the size in the second time domain period Exempt from authorization resources comprising 2 the second classes, then terminal device ignores or abandon next first positioned at the current first time domain period The second class exempts from authorized transmissions resource in the time domain period, wherein the second class that terminal device is ignored or abandoned exempts from authorized transmissions resource As shown in Figure 8.

It should be noted that the relational expression listed in the above method is merely illustrative, not to the embodiment of the present application It constitutes and limits.

It is non-limiting as example, when exempting from authorized transmissions resource comprising one with any one in the first time domain period Between unit, and the time quantum be mini time slot (mini-slot) for determine the first time domain period in include exempt to authorize The method of the quantity k of transfer resource is illustrated.

It should be noted that any one within the first time domain period exempts from any one that authorized transmissions resource is included When time quantum is mini time slot, the lattice of mini time slot are also predefined other than above-mentioned parameter information to be obtained in terminal device The format information of formula information, the mini time slot includes at least: the orthogonal frequency division multiplex OFDM symbol for including in each mini time slot Number and each mini time slot starting OFDM symbol in each time slot position, or including each mini time slot every The position of the end OFDM symbol of the position of starting OFDM symbol in a time slot and each mini time slot in each time slot.

The format information of mini time slot is determined to terminal device below and determines according to the format information of mini time slot The several method for the quantity k for exempting from authorized transmissions resource for including in one time domain period is illustrated.

Method one

The network equipment pre-defines the format of a variety of mini time slots, and by the lattice of mini time slot corresponding with the mini time slot Formula number is issued to terminal device, so that terminal device determines the format of mini time slot.

Wherein, the format of each mini time slot represents a kind of distribution situation of the mini time slot in time slot, the distribution It may is that the number for the orthogonal frequency division multiplex OFDM symbol for including in each mini time slot and each mini time slot are every The position of starting OFDM symbol in a time slot；Or the position of the starting OFDM symbol of each mini time slot in each time slot with And the position of the end OFDM symbol of each mini time slot in each time slot.

Format one

As shown in table 1, the format information of mini-slot includes at least following information: the starting OFDM of each mini-slot The symbolic number that the index of symbol, each mini-slot are occupied.

Table 1

Wherein, the first row in table 1 indicates the format number of mini-slot, and the network equipment is true in notice terminal device institute When the format of fixed mini-slot, format number need to be only issued to terminal device.Secondary series in table 1 indicates one X (wherein, X is greater than 1 positive integer) a mini-slot is contained in slot, and indicates i-th of mini-slot in slot In starting OFDM symbol index be I_i(0≤I_i≤ 13,1≤i≤X), the third column in table 1 indicate each mini-slot institute The OFDM symbol number of occupancy, wherein n_i(0≤n_i≤ 14,1≤i≤X) indicate that starting OFDM symbol index is I_iI-th The occupied OFDM symbol number of mini-slot.

For example, the format of corresponding mini-slot is as shown in table 2 as the format number B=2 of mini-slot in table 1, The distribution schematic diagram of mini-slot in a corresponding slot is as shown in Figure 9.

Table 2

Format two

As shown in table 3, the format information of mini-slot includes at least following information: the starting OFDM of each mini-slot The symbolic number that the index of symbol, each mini-slot are occupied.

Table 3

Wherein, the first row in table 3 indicates the format number of mini-slot, and the network equipment is true in notice terminal device institute When the format of fixed mini-slot, format number need to be only issued to terminal device.Secondary series in table 3 indicates one Comprising X (X is greater than 1 positive integer) a mini-slot in slot, and indicate starting of i-th of mini-slot in slot The index of OFDM symbol is I_i(0≤Ii≤13,1≤i≤X), the third column in table 3 indicate the symbol that each mini-slot is occupied Number, i.e., the OFDM symbol number that all X mini-slot are occupied all is n.

For example, the format of corresponding mini-slot is as shown in table 4 as the format number B=2 of mini-slot in table 3, The distribution schematic diagram of mini-slot in a corresponding slot is as shown in Figure 10.

Table 4

Format three

As shown in table 5, the format information of mini-slot includes at least following information: the starting OFDM of each mini-slot The index of the end OFDM symbol of the index of symbol, each mini-slot.

The format of mini-slot is numbered	Originate the index of OFDM symbol	Terminate the index of OFDM symbol
			B	I₁, I₂..., I_X	E₁, E₂..., E_X

Table 5

Wherein, the first row in table 5 indicates the format number of mini-slot, and the network equipment is true in notice terminal device institute When the format of fixed mini-slot, format number need to be only issued to terminal device.Secondary series in table 5 indicates in slot Comprising X (X is greater than 1 positive integer) a mini-slot, and indicate starting OFDM symbol of i-th of mini-slot in slot Number index be I_i, (0≤Ii≤13,1≤i≤X), the third column in table 5 indicate the end OFDM symbol of each mini-slot Index, wherein E_i(0≤E_i≤ 14,1≤i≤X) indicate that the index of starting OFDM symbol is I_iI-th mini-slot Terminate the index of OFDM symbol.

For example, the format of corresponding mini-slot is as shown in table 6 as the format number B=2 of mini-slot in table 5, The distribution schematic diagram of mini-slot in a corresponding slot is as shown in figure 11.

The format of mini-slot is numbered	Originate the index of OFDM symbol	Terminate the index of OFDM symbol
			2	2,6,10	4,8,12

Table 6

Format four

As shown in table 7, the format information of mini-slot includes at least following information: the starting OFDM of each mini-slot The index of the end OFDM symbol of the index of symbol, each mini-slot.The rope of the starting OFDM symbol of first mini-slot The symbolic number drawn and occupied, and, it is adjacent in period that mini-slot repeats in a slot or a slot Interval between two mini-slot.

Table 7

Wherein, the first row in table 7 indicates the format number of mini-slot, and the network equipment is true in notice terminal device institute When the format of fixed mini-slot, format number need to be only issued to terminal device.Secondary series in table 7 indicates first The index of starting OFDM symbol of the mini-slot in slot is I_symbol(0≤I_symbol≤ 13), the third in table 7, which arranges, indicates The occupied symbolic number of mini-slot is n_symbo(0≤n_symbol≤ 14), the 4th column in table 7 indicate mini-slot in slot Interval between the period inside repeated or two neighboring mini-slot.

For example, as the format number B=2 of mini-slot in table 7, and the 4th column in table 7 indicate mini-slot one When the period repeated in a slot, the format of corresponding mini-slot is as shown in table 8, in a corresponding slot The distribution schematic diagram of mini-slot is as shown in figure 12.

Table 8

For another example as the format number B=2 of mini-slot in table 7, and the 4th column in table 7 indicate in a slot When interval between two neighboring mini-slot, the format of corresponding mini-slot is as shown in table 9, in a corresponding slot Mini-slot distribution schematic diagram it is as shown in figure 13.

Table 9

In the above method one, the format of mini time slot can be provided that the network equipment determines the lattice of mini-slot by standard Formula, and it will be issued to terminal device with the format of mini-slot number, so that terminal device determines mini- according to the number The format of slot.It's not limited to that for the embodiment of the present application.

For example, the network equipment can also directly configure format of the mini-slot in slot, and by the mini- of configuration The specific format information (for example, format information described in aforementioned table) of slot is sent to end by any one following signaling End equipment: high-level signaling (for example, RRC signaling) or L1/L2 signaling (such as DCI) or MAC CE；

Alternatively, format of the mini-slot in slot can also be arranged by the network equipment with terminal device in advance (that is, the standard convention followed by the network equipment and terminal device), or take the format of default.

Terminal device, can be further after format information of the network equipment for the mini time slot of its configuration has been determined Determine the quantity k for exempting from authorized transmissions resource for including in the first time domain period.

Specifically, the format number of the first time domain period, the second time domain period, mini time slot is informed terminal by the network equipment Equipment.For example, the network equipment informs that terminal device the first time domain period includes 7 mini time slots, the second time domain period including 2 Mini time slot, and inform that the format of the mini time slot of terminal device is each two OFDM symbols of mini Time Slot Occupancy, then terminal Equipment determines the quantity k for exempting from authorized transmissions resource for including in the first time domain period according to relational expression (1) are as follows:

K=ceil (7/2)=4

It should be noted that if the network equipment does not indicate that the size in the first time domain period, terminal are set to terminal device It is standby determine exempt from the quantity of authorized transmissions resource when, the size in the first time domain period of default be include in a time slot it is mini when The quantity of gap.

Method two

The network equipment authorizes time-domain resource allocation of parameters to issue mini-slot format information, the lattice of mini-slot by exempting from Formula information is used to indicate mini-slot format that is selected or determining.

Optionally, the format information of the mini time slot includes at least: the orthogonal frequency division multiplexing for including in each mini time slot The position of the starting OFDM symbol of the number of OFDM symbol and each mini time slot in each time slot, or including each mini The end OFDM symbol of the position and each mini time slot of the starting OFDM symbol of time slot in each time slot in each time slot Number position.

Specifically, the network equipment is by issuing the offset parameter of time-domain resource, and the offset parameter of the time-domain resource is for referring to Show the first index for exempting from the time quantum (for example, slot) where authorized transmissions resource of configuration, or is used to indicate initialization and exempts from The index of the time quantum of authorized transmissions resource.

For example, the position that terminal device thinks the slot indicated by the offset parameter of time-domain resource, thereafter complete It is configured on portion slot and exempts from authorized transmissions resource, and whole mini- in the slot as indicated by mini-slot format information Slot has been each configured to exempt from authorized transmissions resource.

For another example the network equipment is by issuing the time domain period for exempting from authorized transmissions resource, which, which refers to, is configured with Exempt from the period that the slot of authorized transmissions resource repeats in the time domain, terminal device thinks the offset parameter institute from time-domain resource The position of the slot of instruction starts, only in case the period indicated by the time domain period of authorization resources occur slot on be configured with Exempt from authorized transmissions resource, and whole mini-slot in the slot as indicated by mini-slot format are each configured to exempt from authorization biography Defeated resource.

It should be noted that the format number or parameters of above-mentioned mini time slot can be by the network equipments by following Any one mode informs terminal device: the network equipment sends high-level signaling (for example, RRC signaling) or L1/L2 to terminal device Any one in signaling (for example, DCI) or MAC CE；Alternatively, can also by between the network equipment and terminal device in advance into Row agreement, the embodiment of the present application are not particularly limited this.

In 202, terminal device has determined the quantity k for exempting from authorized transmissions resource in the first time domain period, to use The network equipment carries out uplink for the authorization resources of exempting from of its distribution, and terminal device is also it needs to be determined that this exempts from authorized transmissions resource institute Time quantum index.

Determine the network equipment for the rope for exempting from the time quantum where authorized transmissions resource of its configuration on terminal device below The method drawn is illustrated.

Optionally, terminal device is according to the first index for exempting from the time quantum where authorized transmissions resource, first time domain The quantity k for exempting from authorized transmissions resource in period, the second time domain period and the first time domain period determines that this is exempted from authorization and passes The index of time quantum where defeated resource.

It should be noted that exempting from authorized transmissions resource when any one in the first time domain period contains multiple times lists When first, this is exempted from the index of the time quantum where authorized transmissions resource and exempts from the list of multiple times that scheduling transmission resources are included for this The index of first time quantum in member.

For example, when any one in the first time domain period exempts from authorized transmissions resource and contain multiple OFDM symbols, it should The index for exempting from the time quantum where authorized transmissions resource is the index of the first OFDM symbol in multiple OFDM symbol.

It should also be noted that, the first index for exempting from the time quantum where authorized transmissions resource exempts to authorize for initializing Transfer resource is denoted as Starting_index, which can be by net Network equipment informs terminal device at least through any one following mode: the network equipment sends high-level signaling (example to terminal device Such as, no RRC signaling) or L1/L2 signaling (for example, DCI) or MAC CE in any one；Alternatively, can also be by the network equipment Arranged in advance between terminal device, for example, being provided by standard；Alternatively, this it is first exempt from where authorized transmissions resource when Between the index of unit can also take default value, the embodiment of the present application is not particularly limited this.

Non-limiting as example, terminal device determines that exempting from authorized transmissions for Y provides according to any one following relational expression The index of time quantum where source:

- TU_index=Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂ (7)

- TU_index=[Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂]mod X (8)

- TU_index=Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂+F₂ (9)

- TU_index=[Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂+F₂]mod X (10)

Wherein,

-F₂For corrected parameter, F₂Value it is associated with the value of Y,

- X is preset nonnegative integer,

- TU_index be including this it is first exempt from authorized transmissions resource including any one exempt from authorized transmissions resource where The index of time quantum.

Non-limiting as example, terminal device can also determine (D*k+e) _ a according to any one following relational expression Exempt from the index of the time quantum where authorized transmissions resource, wherein D represents the serial number in the first time domain period, when k is each first The quantity for exempting from authorized transmissions resource for being included in the period of domain, e are nonnegative integer, and 0≤e≤(k-1), for any one of D The value of a value, e will be from 0 traversal to (k-1):

- TU_index=Starting_index+D*P₁+e*P₂ (11)

- TU_index=[Starting_index+D*P₁+e*P₂]mod X (12)

- TU_index=Starting_index+D*P₁+e*P₂+F₂ (13)

- TU_index=[Starting_index+D*P₁+e*P₂+F₂]mod X (14)

Wherein,

-F₂For corrected parameter, F₂Value it is associated with the value of (D*k+e),

- X is preset nonnegative integer,

It should be noted that calculated TU_index is the global rope of time quantum in (14) according to relational expression (7) Draw.It further, can also be according to the global index of time quantum and the partial indexes of time quantum.In this application, when Between the partial indexes of unit and the global index of time quantum can indicate the position of time quantum, they can be referred to as The index of time quantum.

When being specially OFDM symbol for time quantum, the global index of an OFDM symbol is as where the OFDM symbol Radio frames frame number, index of the subframe in the radio frames where the OFDM symbol, the time slot where the OFDM symbol is in institute The index in subframe is stated, index of the OFDM symbol in the time slot, the number of sub frames that a radio frames include, a subframe packet The timeslot number contained, the symbolic number that a time slot includes determine.As the radio frames frame number where the OFDM symbol, the OFDM symbol institute Index and the OFDM symbol of the subframe in the index in the frame, the time slot where the OFDM symbol in the subframe The partial indexes of the characterized OFDM symbol of rope in the time slot.When being specially time slot (slot) for time quantum, Subframe rope the radio frames in of the global index of one slot as the radio frames frame number where the slot, where the slot Draw, index of the slot in the subframe, the number of sub frames that a radio frames include, the timeslot number that a subframe is included determines. As the radio frames frame number where the slot, the subframe where the slot in the frame index and slot in the subframe The characterized slot of index partial indexes.

When being specially mini time slot (mimi-slot) for time quantum, the global index of a mini-slot is by this Radio frames frame number where mimi-slot, index of the subframe in the radio frames where the mimi-slot, the mimi- Index of the time slot in the subframe where slot, index of the mimi-slot in the time slot, a radio frames include Number of sub frames, the timeslot number that a subframe is included, mimi-slot number that a time slot includes determines.By the mimi-slot institute Frame number, the subframe where the mimi-slot in the index in the frame, the time slot where the mimi-slot in the son The index of index and the mimi-slot in the time slot in frame characterizes the partial indexes of the mimi-slot jointly.

Below for different types of time quantum to Starting_index partial indexes corresponding with TU_index The method of determination is illustrated.Assuming that each radio frames (Radio Frame) are made of M_subframe subframe (subframe), Each subframe is made of M_slot time slot (slot)；Each time slot is by M_mini-slot mini time slot (mini-slot) groups At；Each time slot is made of M_symbol OFDM symbol (symbol).The index of M_subframe subframe in a frame Subframe_index is 0,1 ..., M_subframe-1, index slot_index of the M_slot time slot in a subframe It is 0,1 ..., M_slot-1, the M_mini-slot index mini-slot_index of mini time slot in one time slot are 0, Index symbol_index of 1 ..., M_mini-slot-1, the M_symbol symbols in a time slot is 0,1 ..., M_ symbol-1。

Wherein, M_subframe, M_slot, M_mini-slot, M_symbol can be passed through following any by the network equipment A kind of mode informs terminal device: the network equipment sends high-level signaling (for example, RRC signaling) or L1/L2 signaling to terminal device Any one in (for example, DCI) or MAC CE；Alternatively, can also be by being carried out in advance between the network equipment and terminal device about It is fixed；Alternatively, M_subframe, M_slot, M_mini-slot can also take default value, the embodiment of the present application is not made this especially It limits.

Non-limiting as example, exempting from authorized transmissions resource when any one in the first time domain period includes one or more A time quantum, and the time quantum be time slot when, TU_index can be further indicated that are as follows:

TU_index=SFN*M_subframe*M_slot+subframe_index*M_slot+slo t_index (15)

Wherein, SFN is the System Frame Number for the radio frames that index is, subframe_index where the time slot of slot_index It is the index of the subframe where the time slot of slot_index for index.

Starting_index can be further indicated that are as follows:

Starting_index=SFN_Starting*M_subframe*M_slot+subframe_i ndex_ Starting*M_slot+slot_index_Starting (16)

Wherein, slot_index_Starting indicates the first index for exempting from the time slot where authorized transmissions resource, Subframe_index_Starting indicates the index of the subframe where the time slot that index is slot_index_Starting, SFN_Starting indicates the System Frame Number of the radio frames where the time slot that index is slot_index_Starting.

Non-limiting as example, exempting from authorized transmissions resource when any one in the first time domain period includes one or more A time quantum, and the time quantum be mini time slot when, TU_index can be further indicated that are as follows:

TU_index=SFN*M_subframe*M_slot*M_mini-slot+subframe_inde x*M_slot*M_ mini-slot+slot_index*M_mini-slot+mini-slot_index (17)

Wherein, SFN is the System Frame Number for the radio frames that index is where the mini time slot of mini-slot_index, Subframe_index is the index for the subframe that index is where the mini time slot of mini-slot_index, and slot_index is Index the index of the time slot where the mini time slot of mini-slot_index.

Starting_index can be further indicated that are as follows:

Starting_index=SFN_Starting*M_subframe*M_slot*M_mini-slo t+subframe_ index_Starting*M_slot*M_mini-slot+slot_index_Starting*M_mini-slot+mini-slot_ index_Starting (18)

Wherein, mini-slot_index_Starting indicates the first rope for exempting from the mini time slot where authorized transmissions resource Draw, slot_index_Starting indicates the time slot where the mini time slot that index is mini-slot_index_Starting Index, subframe_index_Starting indicate index for mini-slot_index_Starting mini time slot institute Subframe index；SFN_Starting is indicated where the mini time slot that index is mini-slot_index_Starting The System Frame Number of radio frames.

Non-limiting as example, exempting from authorized transmissions resource when any one in the first time domain period includes one or more A time quantum, and the time quantum be OFDM symbol when, TU_index can be further indicated that are as follows:

TU_index=SFN*M_subframe*M_slot*M_symbol+subframe_index*M _ slot*M_ symbol+slot_index*M_symbol+symbol_index (19)

Wherein, SFN is the System Frame Number for the radio frames that index is where the OFDM symbol of symbol_index, Subframe_index is the index for the subframe that index is where the OFDM symbol of symbol_index；Slot_index is index The index of time slot where the OFDM symbol of symbol_index.

Starting_index can be further indicated that are as follows:

Starting_index=SFN_Starting*M_subframe*M_slot*M_symbol+s ubframe_ index_Starting*M_slot*M_symbol+slot_index_Starting*M_symbol+symbol_index_ Starting (20)

Wherein, symbol_index_Starting indicates the first index for exempting from the OFDM symbol where authorized transmissions opportunity； Slot_index_Starting indicates the index of the time slot where the OFDM symbol that index is symbol_index_Starting； Subframe_index_Starting indicates the subframe where the OFDM symbol that index is symbol_index_Starting Index, the system that SFN_Starting indicates the radio frames where the OFDM symbol that index is symbol_index_Starting Frame number.

One in any one and relational expression (15), (17), (19) in marriage relation formula (7)-(14) any one It can determine the partial indexes of time quantum where any one exempts from authorized transmissions resource.Or it is appreciated that and is directed to an office Portion index determined by time quantum, according to which judge the time quantum whether be one exempt from authorized transmissions resource where Time quantum.

Any one time quantum that authorized transmissions resource is included is exempted from any one in the first time domain period below For mini time slot, determine the network equipment for the time quantum exempted from where authorized transmissions resource of its configuration on terminal device The method of index is illustrated.

Terminal device according to the first index for exempting from the time quantum where authorized transmissions resource, the first time domain period, should The quantity k for exempting from authorized transmissions resource in second time domain period and the first time domain period, determines that this exempts from authorized transmissions resource The index of the time quantum at place.

Specifically, for example, it includes M_ in a time slot that terminal device is determined according to the parameter information that the network equipment issues Mini-slot=7 mini time slots, any one exempts from authorized transmissions resource occupation 1 mini time slot (that is, T=1), and determines 2 OFDM symbols of each mini Time Slot Occupancy, and determine it is first exempt from authorized transmissions resource where radio frames include M_ Subframe=10 subframe, it is first exempt from authorized transmissions resource where subframe include M_slot=2 time slot, the first time domain week Phase includes 7 mini time slots, and the second time domain period included 2 mini time slots, and further determined that and first exempt from authorized transmissions resource The System Frame Number of the radio frames at place is SFN_starting, which is 0, That is subframe_index_starting=0, the first index for exempting from the time slot where authorized transmissions resource are 0, i.e. slot_ Index_starting=0, the first index for exempting from the mini time slot where authorized transmissions resource are 0, i.e. mini-slot_ Index_starting=0.Then terminal device determines that include in the first time domain period exempts from authorized transmissions money according to relational expression (1) The quantity k in source are as follows:

K=ceil (7/2)=4

Terminal device according to relational expression (14) determine it is first exempt from authorized transmissions resource where mini time slot exempt to award in the overall situation Weighing the index Starting_index in transfer resource is (140*SFN_starting+14*0+7*0+0).

It should be noted that if the value in the first time domain period is not informed terminal device by the network equipment, then terminal device The value for determining for the first time domain period is the quantity M_mini-slot for the mini time slot for including in a time slot, that is, determines first The value in time domain period is 7.

So far, terminal device has determined that the first mini time slot exempted from where authorized transmissions resource exempts from authorized transmissions money in the overall situation Index Starting_index in source, and it has been determined in a first time domain period that including 4 is configured as exempting from authorization biography The mini time slot of defeated resource, terminal device is according to any one relational expression, relational expression in relational expression (7)-(10) or (11)-(14) (17) and relational expression (18) determines System Frame Number for the fan exempted from where authorized transmissions resource in the radio frames of SFN_starting Your index of the time slot in the radio frames, the resource for exempting from authorized transmissions resource point in the radio frames that terminal device finally determines Cloth situation is as shown in figure 14.

For another example it includes M_mini-slot=7 in a time slot that the parameter information that the terminal device network equipment issues, which determines, A mini time slot, and determine each 2 OFDM symbols of mini Time Slot Occupancy, and determine the first nothing exempted from where authorized transmissions resource Line frame includes M_subframe=10 subframe, it is first exempt from authorized transmissions resource where subframe include M_slot=2 time slot, First time domain period included 7 mini time slots, and the second time domain period included 2 mini time slots, and further determined that and first exempt to award The System Frame Number for weighing the radio frames where transfer resource is SFN_starting, the first subframe exempted from where authorized transmissions resource Index be 0, i.e. subframe_index_starting=0, which is 0, i.e. slot_index_starting=0, the first index for exempting from the mini time slot where authorized transmissions resource are 2, i.e., Mini-slot_index_starting=2.

Then terminal device determines the quantity k for exempting from authorized transmissions resource for including in the first time domain period according to relational expression (1) Are as follows:

K=ceil (7-2)/2=3

Terminal device according to relational expression (14) determine it is first exempt from authorized transmissions resource where mini time slot exempt to award in the overall situation Weighing the index Starting_index in transfer resource is (140*SFN_starting+14*0+7*0+2).

So far, terminal device has determined that the first mini time slot exempted from where authorized transmissions resource exempts from authorized transmissions money in the overall situation Index Starting_index in source, and it has been determined in a first time domain period that including 3 is configured as exempting from authorization biography The mini time slot of defeated resource, terminal device is according to any one relational expression, relational expression in relational expression (7)-(10) or (11)-(14) (17) and relational expression (18) determines System Frame Number for the fan exempted from where authorized transmissions resource in the radio frames of SFN_starting Your index of the time slot in the radio frames, the resource for exempting from authorized transmissions resource point in the radio frames that terminal device finally determines Cloth situation is as shown in figure 15.

Any one time quantum that authorized transmissions resource is included is exempted from any one in the first time domain period below For OFDM symbol, determine the network equipment for the time quantum exempted from where authorized transmissions resource of its configuration on terminal device The method of index is illustrated.

Specifically, for example, it includes M- in a time slot that terminal device is determined according to the parameter information that the network equipment issues Slot=14 OFDM symbol, any one exempts from 2 OFDM symbols (that is, T=2) of authorized transmissions resource occupation, and determination is first Radio frames where exempting from authorized transmissions resource include M_subframe=10 subframe, the first son exempted from where authorized transmissions resource Frame includes M_slot=2 time slot, and the first time domain period included 14 OFDM symbols, and the second time domain period included 4 OFDM symbols Number, and further determining that the first System Frame Number for exempting from the radio frames where authorized transmissions resource is SFN_starting, this is first The index for exempting from the subframe where authorized transmissions resource is 0, i.e. subframe_index_starting=0, this is first to exempt from authorization and pass The index of time slot where defeated resource is 0, i.e. slot_index_starting=0, this is first exempt from authorized transmissions resource where The index of OFDM symbol is 0, i.e. symbol_index_starting=0.

K=ceil (14/4)=4

Terminal device according to relational expression (20) determine it is first exempt from authorized transmissions resource where OFDM symbol exempt to award in the overall situation Weighing the index Starting_index in transfer resource is (280*SFN_starting+28*0+14*0+0).

It should be noted that if the value in the first time domain period is not informed terminal device by the network equipment, then terminal device The value for determining for the first time domain period is the quantity M-slot for the OFDM symbol for including in a time slot, that is, determines the first time domain week The value of phase is 14.

So far, terminal device has determined that the first OFDM symbol exempted from where authorized transmissions resource exempts from authorized transmissions money in the overall situation Index Starting_index in source, and it has been determined that including 4 in a first time domain period exempts from authorized transmissions resource, In, each exempting from authorized transmissions resource includes 2 OFDM symbols, and terminal device is according in relational expression (7)-(10) or (11)-(14) Any one relational expression, relational expression (19) and relational expression (20) determine to be exempted from the radio frames that System Frame Number is SFN_starting Index of the OFDM symbol in the radio frames where authorized transmissions resource, terminal device finally determine the radio frames in exempt from The resource distribution situation of authorized transmissions resource is as shown in figure 16.

For another example it includes M-slot=14 in a time slot that terminal device is determined according to the parameter information that the network equipment issues A OFDM symbol, any one exempts from 2 OFDM symbols (that is, T=2) of authorized transmissions resource occupation, and determines and first exempt from authorization and pass Radio frames where defeated resource include M_subframe=10 subframe, it is first exempt from authorized transmissions resource where subframe include M_ Slot=2 time slot, the first time domain period include 14 OFDM symbols, and the second time domain period included 4 OFDM symbols, go forward side by side one Step determines that the first System Frame Number for exempting from the radio frames where authorized transmissions resource is SFN_starting, this is first to exempt from authorized transmissions The index of subframe where resource is 0, i.e. subframe_index_starting=0, this is first exempt from authorized transmissions resource where The index of time slot be 0, i.e. slot_index_starting=0, this is first to exempt from the OFDM symbol where authorized transmissions resource Index is 2, i.e. symbol_index_starting=2.

K=ceil (14-2)/4=3

Terminal device according to relational expression (20) determine it is first exempt from authorized transmissions resource where OFDM symbol exempt to award in the overall situation Weighing the index Starting_index in transfer resource is (280*SFN_starting+28*0+14*0+2).

So far, terminal device has determined that the first OFDM symbol exempted from where authorized transmissions resource exempts from authorized transmissions money in the overall situation Index Starting_index in source, and it has been determined that including 3 in a first time domain period exempts from authorized transmissions resource, In, each exempting from authorized transmissions resource includes 2 OFDM symbols, and terminal device is according in relational expression (7)-(10) or (11)-(14) Any one relational expression, relational expression (19) and relational expression (20) determine to be exempted from the radio frames that System Frame Number is SFN_starting Index of the OFDM symbol in the radio frames where authorized transmissions resource, terminal device finally determine the radio frames in exempt from The resource distribution situation of authorized transmissions resource is as shown in figure 17.Optionally, method 200 can also include:

204, terminal device is exempted from authorized transmissions resource in determining to network equipment transmission upstream data.

Specifically, terminal device has determined the time exempted from where authorized transmissions resource in the first time domain period by 203 The index of unit, in 204, terminal device can exempt from authorized transmissions resource according to determining to network equipment transmission uplink Data.

When sending upstream data to the network equipment, can exempt to send in authorized transmissions resource to the network equipment in the first kind It is repeated for the first time in the n times repetition of data packet, exempts from the non-head in the n times repetition that authorized transmissions resource sends data packet in the second class Secondary repetition.

When the first kind exempt from authorized transmissions resource for send data packet n times repeat in repeat for the first time, the second class is exempted to award Power transfer resource be used for send data packet n times repeat in it is non-for the first time repeat when, terminal device using the network equipment be its point Several implementations for exempting from authorized transmissions resource transmission data packet matched are as follows:

Mode 1

When the quantity k for exempting from authorized transmissions resource in the first time domain period is less than maximum number of repetitions N, for example, k=3, N=4, when sending upstream data to the network equipment, 3 for can occupying in the current first time domain period exempt to authorize terminal device First in transfer resource and next first time domain period is exempted from 4 repetition transmissions that authorized transmissions resource completes data packet 1, Correspondingly, 4 repetitions that terminal device completes data packet 2 in the same way are sent, wherein the transmission flow of data packet is illustrated Figure is as shown in figure 18.

Mode 2

When the quantity k for exempting from authorized transmissions resource in the first time domain period is equal to maximum number of repetitions N, for example, k=4, N=4, when sending upstream data to the network equipment, 4 for can occupying in the current first time domain period exempt to authorize terminal device 4 repetitions that transfer resource completes data packet 1 are sent, and correspondingly, terminal device completes 4 times of data packet 2 in the same way It repeats to send, wherein the transmission flow schematic diagram of data packet is as shown in figure 19.

Mode 3

When the quantity k for exempting from authorized transmissions resource in the first time domain period is greater than maximum number of repetitions N, for example, k=4, N=3, when sending upstream data to the network equipment, first 3 for can occupying in the current first time domain period exempt to award terminal device 3 repetition transmissions that transfer resource completes data packet 1 are weighed, correspondingly, terminal device completes the 3 of data packet 2 in the same way It is secondary to repeat to send, wherein the transmission flow schematic diagram of data packet is as shown in figure 20.

Optionally, the network equipment can determine whether terminal device is exempted from authorization using the first kind and passed at least through following methods The transmission for the first time of data packet is completed in defeated resource.

Specifically, the network equipment is required according to the propagation delay time of data packet, determines whether terminal device is exempted from using the first kind Authorized transmissions resource completes the transmission for the first time of data packet, for example, when the propagation delay time of data packet requires to be higher than preset transmission When prolonging thresholding, the network equipment determines that terminal device exempts from the transmission for the first time that authorized transmissions resource completes data packet using the first kind.

Optionally, the network equipment determines that terminal device exempts from the hair for the first time that authorized transmissions resource completes data packet using the first kind After sending, it can inform that terminal device is exempted from authorized transmissions resource using the first kind and completed by being not limited to any one following method The transmission for the first time of data packet.

Method one:

The network equipment sends instruction information to terminal device by explicit mode, which is used to indicate terminal and sets The standby transmission for the first time for exempting to complete data packet in authorized transmissions resource using the first kind.

Non-limiting as example, the network equipment can pass through high-level signaling (for example, RRC signaling) or L1/L2 signaling (example Such as, DCI) or MAC CE in any one mode the instruction information is issued to terminal device.

Method two:

The network equipment exempts from authorized transmissions resource using the first kind by the informing terminal device of implicit and completes data packet Transmission for the first time.

Specifically, terminal device can determine whether to exempt from using the first kind according to the first time domain period of network equipments configuration Authorized transmissions resource completes the transmission for the first time of data packet, for example, when being less than preset period thresholding in the first time domain period, terminal Equipment, which is determined, exempts from the transmission for the first time that authorized transmissions resource completes data packet using the first kind；Or

Terminal device can be according to the quantity k that exempts from authorized transmissions resource and network equipments configuration in the first time domain period Size relation between maximum iterative transfer times N, it is determined whether exempt from authorized transmissions resource using the first kind and complete data packet It sends for the first time, for example, when the quantity k for exempting from authorized transmissions resource in the first time domain period is greater than or equal to maximum repetition transmission time When number N, terminal device determines the transmission for the first time for exempting to complete data packet in authorized transmissions resource using the first kind.

205, the network equipment obtains the quantity for exempting from authorized transmissions resource in the first time domain period for exempting from authorized transmissions resource k。

206, the network equipment exempts to award according in the first time domain period, the second time domain period and the first time domain period The quantity k of transfer resource is weighed, is determined for receiving the index for exempting from the time quantum where authorized transmissions resource for exempting from authorization data, Wherein, which is P₁A time quantum, the second time domain period are P₂A time quantum, wherein P₁It is greater than or waits In P₂。

207, the network equipment exempts from the upstream data that receiving terminal apparatus is sent in authorized transmissions resource in determining.

Specifically, the network equipment is also needed in receiving terminal apparatus in the upstream data sent on exempting from authorized transmissions resource To determine the index for exempting from the time quantum where authorized transmissions resource first, and indicated by the index of determining time quantum Exempt from the upstream data that receiving terminal apparatus is sent in authorized transmissions resource.

The method that the time quantum index where exempting from authorized transmissions resource is determined about the network equipment please refers to terminal device The associated description of side, for sake of simplicity, details are not described herein again.

Exempt to determine that Y are exempted from authorized transmissions money in authorized transmissions resource for monocycle configuration present invention also provides one kind The method of the index of time quantum where source, is below briefly described this method.

Optionally, terminal device is according to the first index for exempting from the time quantum where authorized transmissions resource, the time domain period P, determine that this exempts from the index of the time quantum where authorized transmissions resource.

Specifically, where which determines that Y exempts from authorized transmissions resource according to any one following relational expression The index of time quantum:

- TU_index=Starting_index+Y*P (21)

- TU_index=[Starting_index+Y*P] mod X (22)

- TU_index=Starting_index+Y*P+F₂ (23)

- TU_index=[Starting_index+Y*P+F₂]mod X (24)

[TU_index-Starting_index] mod P=Y (25)

[TU_index-Starting_index-F2] mod P=Y (26)

Wherein,

-F₂For corrected parameter, F₂Value it is associated with the value of Y,

- X is preset nonnegative integer,

Non-limiting as example, exempting from authorized transmissions resource when any one in the time domain period includes a time list Member, and when the time quantum is time slot, shown in the representation of TU_index such as relational expression (15), the table of Starting_index Show shown in form such as relational expression (16).It is non-limiting as example, when any one in the time domain period exempts from authorized transmissions resource Including a time quantum, and when the time quantum is mini time slot, shown in the representation of TU_index such as relational expression (17), Shown in the representation of Starting_index such as relational expression (18).

Non-limiting as example, exempting from authorized transmissions resource when any one in the time domain period includes one or more Time quantum, and when the time quantum is OFDM symbol, shown in the representation of TU_index such as relational expression (19), Shown in the representation of Starting_index such as relational expression (20).

Determine the network equipment for the index for exempting from the time quantum where authorized transmissions resource of its configuration about terminal device Concrete methods of realizing please refer to the associated description of front, for sake of simplicity, details are not described herein again.

It should be noted that in the embodiment of the present application, exempting from authorized transmissions resource institute for Y that terminal device determines Time quantum, when the time quantum where exempting from authorized transmissions resource be not available time quantum when (for example, the time Unit is the time quantum for downlink transfer, alternatively, the time quantum is for other non-times for exempting to authorize uplink Unit), at this point, this can be ignored or be abandoned to terminal device exempts from the time quantum where authorized transmissions resource；Alternatively, terminal is set Exempt from the time quantum where authorized transmissions resource for this can also be redefined by following methods.

Specifically, Y exempts to can be used for exempting from the time slot (for example, an example of time quantum) where authorized transmissions resource The distribution situation of the uplink symbol of authorized transmissions is as shown in figure 21, for example, in one time slot, symbol 3 can be used for symbol 8 Row data exempt from authorized transmissions, and what other symbols then cannot be used for upstream data exempts from authorized transmissions.

Wherein, the first OFDM symbol index Starting_index exempted from where authorized transmissions resource is 3, therefore first (that is, Y=0) exempts from the generation of authorized transmissions opportunity on symbol 3 and symbol 4 (for example, one is exempted from authorized transmissions resource occupation two symbols Number), it is assumed that the time domain period is P=7 symbol, then is closed according to any one in above-mentioned relation formula (7)-(10) or (11)-(14) It is formula, relational expression (19) and relational expression (20), determines that the 1st (that is, Y=1) a exempted from authorized transmissions opportunity and should occur in symbol 10 and symbol 11 on, however due to symbol 10 and symbol 11 cannot be used for uplink exempt from authorization data transmission, relationship can be made at this time F in formula (9) or (10)₂Value be -3, therefore, work as F₂When=- 3, determine that the 1st is exempted from according to above-mentioned relation formula (9) or (10) Authorized transmissions opportunity occurs on symbol 7 and symbol 8.

It should be noted that F₂Value it is associated with any one following parameter: the value and/or frame structure and/or head of Y A index for exempting from the time quantum where authorized transmissions resource and/or one exempt from the time quantum that authorized transmissions resource is included Quantity.

It should be noted above-mentioned F₂Value can be by network equipments configuration to terminal device, alternatively, can be with base It is provided in agreement, the embodiment of the present application is not particularly limited this.

Above in association with Fig. 2 to Figure 21, the method for information instruction provided by the embodiments of the present application is described, below with reference to figure 22, Figure 23 describes communication device and communication equipment provided by the embodiments of the present application.

Figure 22 is the schematic block diagram of communication device 300 provided by the embodiments of the present application, which includes: place Manage module 310 and transceiver module 320.

As a kind of optional implementation, which is terminal device:

Wherein, processing module 310, for obtaining the first time domain period and the second time domain week of exempting from authorized transmissions resource Phase, wherein the first time domain period is P₁A time quantum, the second time domain period are P₂A time quantum, wherein P₁Be greater than or Equal to P₂。

Processing module 310 is also used to, and obtains the quantity k for exempting from authorized transmissions resource in the first time domain period.

Processing module 310 is also used to, according to the first time domain period, the second time domain period and the first time domain period The interior quantity k for exempting from authorized transmissions resource determines the time quantum exempted from where authorized transmissions resource for exempting from authorized transmissions Index.

Optionally, which is also used to, according to the first rope for exempting from the time quantum where authorized transmissions resource Draw, the quantity k for exempting from authorized transmissions resource in the first time domain period, the second time domain period and the first time domain period, Determine that this exempts from the index of the time quantum where authorized transmissions resource.

Optionally, which is also used to, according to any one relational expression in above-mentioned relational expression (7)-(10) Determine the Y indexes for exempting from authorized transmissions resource.In another embodiment, which is also used to, according to above-mentioned pass It is that any one relational expression in formula (11)-(14) determines (D*k+e) a index for exempting from authorized transmissions resource.

Optionally, which is also used to, according to any one relationship in above-mentioned relational expression (21)-(24) Formula determines the Y indexes for exempting from the time quantum where authorized transmissions resource.

Optionally, the quantity k for exempting from authorized transmissions resource in the first time domain period be according to the first time domain period and What the second time domain period determined.

Optionally, which is also used to, according to any one relational expression in above-mentioned relational expression (1)-(6) Determine the quantity k for exempting from authorized transmissions resource in the first time domain period.

Optionally, which is also used to, and in the case where the time quantum is specially mini time slot, obtaining should The format information of the format information of mini time slot, the mini time slot includes at least: the orthogonal frequency for including in each mini time slot Divide the number of multiplexing OFDM symbol and the position of each starting OFDM symbol of the mini time slot in each time slot；Or including The knot of the position and each mini time slot of the starting OFDM symbol of each mini time slot in each time slot in each time slot The position of beam OFDM symbol, the quantity k for exempting from authorized transmissions resource in the first time domain period be according to the first time domain period, What the format information of the second time domain period and the mini time slot determined.

Optionally, the time quantum include at least following time quantum in any one: radio frames, subframe, time slot or OFDM symbol.

Optionally, transceiver module 320, for exempting to send upstream data in authorized transmissions resource determining.

As another optional implementation, which is the network equipment:

Wherein, the processing module 310 exempts from authorized transmissions for obtaining in the first time domain period for exempting from authorized transmissions resource The quantity k of resource.

The processing module 310 is also used to, according to the first time domain period, exempt from the second time domain period of authorized transmissions resource with And the quantity k for exempting from authorized transmissions resource in the first time domain period, determine for receive exempt from authorization data exempt from authorized transmissions The index of time quantum where resource, wherein the first time domain period is P₁A time quantum, the second time domain period are P₂ A time quantum, wherein P₁More than or equal to P₂。

Optionally, which is also used to, according to the first rope for exempting from the time quantum where authorized transmissions resource Draw, the quantity k for exempting from authorized transmissions resource in the first time domain period, the second time domain period and the first time domain period, It determines for receiving the index for exempting from the time quantum where authorized transmissions resource for exempting from authorization data.

Optionally, which is also used to, according to any one relational expression in above-mentioned relational expression (7)-(10) Determine the Y indexes for exempting from the time quantum where authorized transmissions resource.In another embodiment, which also uses In determining (D*k+e) a authorized transmissions resource of exempting from according to any one relational expression in above-mentioned relational expression (11)-(14) Index.

Optionally, which is also used to, and in the case where the time quantum is specially mini time slot, determining should The format information of the format information of mini time slot, the mini time slot includes at least: the orthogonal frequency for including in each mini time slot Divide the number of multiplexing OFDM symbol and the position of each starting OFDM symbol of the mini time slot in each time slot；Or including The knot of the position and each mini time slot of the starting OFDM symbol of each mini time slot in each time slot in each time slot The position of beam OFDM symbol, the quantity k for exempting from authorized transmissions resource in the first time domain period be according to the first time domain period, What the format information of the second time domain period and the mini time slot determined.

Optionally, transceiver module 320, for exempting from what receiving terminal apparatus in authorized transmissions resource was sent in determining Row data.

It should be understood that the processing module 310 in the embodiment of the present invention can be real by processor or processor associated circuit components Existing, transceiver module 320 can be realized by transceiver or transceiver associated circuit components.

As shown in figure 23, the embodiment of the present application also provides a kind of communication equipment 400, which includes processor 410, memory 420 and transceiver 430.

As a kind of optionally implementation, which is terminal device, store instruction in the memory 420 Or program, processor 430 is for executing the instruction or program stored in memory 420.The instruction or journey stored in memory 420 Sequence is performed, which is used to execute the operation that the processing module 310 of terminal device in above-described embodiment executes, and is received Hair device 430 is used to execute the operation that the transceiver module 320 of terminal device in above-described embodiment executes.

As another optionally implementation, which is the network equipment, stores and refers in the memory 420 It enables or program, processor 430 is used to execute the instruction or program stored in memory 420.The instruction that is stored in memory 420 or Program is performed, which is used to execute the operation that the processing module 310 of the network equipment in above-described embodiment executes, Transceiver 430 is used to execute the operation that the transceiver module 320 of the network equipment in above-described embodiment executes.

As another optionally implementation, all or part of function of the communication device 300 or the communication equipment 400 It can be realized by system level chip (System on Chip, SoC) technology, such as be realized by a chips.The integrated chip Kernel and input/output interface etc., which may be implemented the function of above-mentioned transceiver module, such as executes and exist Determining transmission upstream data in authorized transmissions resource of exempting from exempts to receive in authorized transmissions resource to the network equipment, and in determining The upstream data that terminal device is sent；The kernel may be implemented processing function, such as executes and obtain exempt from authorized transmissions resource the One time domain period and the second time domain period, wherein the first time domain period is P₁A time quantum, the second time domain period are P₂ A time quantum, wherein P₁More than or equal to P₂；Or it executes this obtained in the first time domain period and exempts from the number of authorized transmissions resource Measure k；Or it executes and authorized transmissions is exempted from according to this in the first time domain period, the second time domain period and the first time domain period The quantity k of resource determines the index for exempting from the time quantum where authorized transmissions resource for exempting from authorized transmissions.The kernel and defeated Enter/function of output interface can also execute corresponding software realization by hardware realization by hardware.The hardware or Software includes one or more modules corresponding with above-mentioned function.It should be understood that processor as mentioned in the embodiments of the present invention can To be central processing unit (Central Processing Unit, CPU), it can also be other general processors, digital signal Processor (Digital Signal Processor, DSP), specific integrated circuit (Application Specific Integrated Circuit, ASIC), ready-made programmable gate array (Field Programmable Gate Array, FPGA) Either other programmable logic device, discrete gate or transistor logic, discrete hardware components etc..General processor can be with It is that microprocessor or the processor are also possible to any conventional processor etc..

It should also be understood that memory as mentioned in the embodiments of the present invention can be volatile memory or non-volatile memories Device, or may include both volatile and non-volatile memories.Wherein, nonvolatile memory can be read-only memory (Read-Only Memory, ROM), programmable read only memory (Programmable ROM, PROM), erasable programmable are only Read memory (Erasable PROM, EPROM), electrically erasable programmable read-only memory (Electrically EPROM, ) or flash memory EEPROM.Volatile memory can be random access memory (Random Access Memory, RAM), use Make External Cache.By exemplary but be not restricted explanation, the RAM of many forms is available, such as static random-access Memory (Static RAM, SRAM), dynamic random access memory (Dynamic RAM, DRAM), synchronous dynamic random-access Memory (Synchronous DRAM, SDRAM), double data speed synchronous dynamic RAM (Double Data Rate SDRAM, DDR SDRAM), it is enhanced Synchronous Dynamic Random Access Memory (Enhanced SDRAM, ESDRAM), same Step connection dynamic random access memory (Synchlink DRAM, SLDRAM) and direct rambus random access memory (Direct Rambus RAM, DR RAM).

It should be noted that when processor is general processor, DSP, ASIC, FPGA or other programmable logic devices When part, discrete gate or transistor logic, discrete hardware components, memory (memory module) is integrated in the processor.

It should be noted that memory described herein is intended to include but is not limited to the storage of these and any other suitable type Device.

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

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

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

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

It, can also be in addition, each functional unit in each embodiment of the application can integrate in one processing unit It is that each unit physically exists alone, can also be integrated in one unit with two or more units.

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

The above, the only specific embodiment of the application, but the protection scope of the application is not limited thereto, it is any Those familiar with the art within the technical scope of the present application, can easily think of the change or the replacement, and should all contain Lid is within the scope of protection of this application.Therefore, the protection scope of the application should be based on the protection scope of the described claims.

Claims

1. a kind of method of time-domain resource of determination for exempting from authorized transmissions characterized by comprising

Terminal device obtains the first time domain period and the second time domain period for exempting from authorized transmissions resource, wherein first time domain Period is P₁A time quantum, the second time domain period are P₂A time quantum, wherein P₁More than or equal to P₂；

The terminal device obtains the quantity k for exempting from authorized transmissions resource in the first time domain period；

The terminal device is according in the first time domain period, the second time domain period and the first time domain period The quantity k for exempting from authorized transmissions resource determines the time quantum exempted from where authorized transmissions resource for exempting from authorized transmissions Index.

2. the method according to claim 1, wherein the terminal device is according to the first time domain period, The quantity k for exempting from authorized transmissions resource in two time domain periods and the first time domain period is determined described for exempting to award Weigh the index for exempting from the time quantum where authorized transmissions resource of transmission, comprising:

The terminal device is according to the first index for exempting from the time quantum where authorized transmissions resource, first time domain week The quantity k for exempting from authorized transmissions resource in phase, the second time domain period and the first time domain period, determination are used for Exempt from the index for exempting from the time quantum where authorized transmissions resource of authorized transmissions.

3. according to the method described in claim 2, it is characterized in that, the terminal device is provided according to the first authorized transmissions of exempting from The index of time quantum where source, the first time domain period, the second time domain period and the first time domain period The interior quantity k for exempting from authorized transmissions resource, determine it is described for exempt from authorized transmissions exempt from where authorized transmissions resource when Between unit index, comprising:

The terminal device determines the time quantum where Y exempts from authorized transmissions resource according to any one following relational expression Index:

- TU_index=Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂, or,

- TU_index=[Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂] mod X, or,

- TU_index=Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂+F₂, or,

- TU_index=[Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂+F₂] mod X,

Wherein,

-F₂For corrected parameter, F₂Value it is associated with the value of Y,

- X is preset nonnegative integer,

TU_index be including it is described it is first exempt from authorized transmissions resource including any one exempt from where authorized transmissions resource when Between unit index.

4. according to the method in any one of claims 1 to 3, which is characterized in that described in the first time domain period The quantity k for exempting from authorized transmissions resource was determined according to the first time domain period and the second time domain period.

5. according to the method described in claim 4, it is characterized in that, described according to the first time domain period and the second time domain period, Determine the quantity k for exempting from authorized transmissions resource in the first time domain period, comprising:

The terminal device according to following relational expressions determine in the first time domain period described in exempt from the number of authorized transmissions resource Measure k:

K=ceil (P₁/P₂)。

6. according to the method described in claim 4, it is characterized in that, when the terminal device is according to the first time domain period and second The domain period determines the quantity k for exempting from authorized transmissions resource in the first time domain period, comprising:

K=floor [(P₁-T)/P₂]+1

Wherein, T exempts from the quantity for the time quantum that authorized transmissions resource includes by any one in the first time domain period.

7. according to the method described in claim 4, it is characterized in that, when the terminal device is according to the first time domain period and second The domain period determines the quantity k for exempting from authorized transmissions resource in the first time domain period, comprising:

The terminal device determines the quantity k for exempting from authorized transmissions resource in the first time domain period according to following relational expressions:

K=min [ceil (P₁/P₂),N]

Wherein, N represents maximum iterative transfer times, and the maximum iterative transfer times are not receive the anti-of network equipment transmission The forward direction network equipment of feedforward information sends the maximum times of same upstream data, N >=1.

8. according to the method described in claim 4, it is characterized in that, when the terminal device is according to the first time domain period and second The domain period determines the quantity k for exempting from authorized transmissions resource in the first time domain period, comprising:

K=min [floor [(P₁-T)/P₂]+1, N]

Wherein, T exempts from the quantity for the time quantum that authorized transmissions resource includes by any one in the first time domain period, N represents maximum iterative transfer times, and N represents maximum iterative transfer times, and the maximum iterative transfer times are not receive net The forward direction network equipment for the feedback information that network equipment is sent sends the maximum times of same upstream data, N >=1.

9. method according to any one of claim 1 to 8, which is characterized in that specially mini in the time quantum In the case where time slot, the method also includes:

The terminal device obtains the format information of the mini time slot, and the format information of the mini time slot includes at least: every The number for the orthogonal frequency division multiplex OFDM symbol for including in a mini time slot and each mini time slot are when each The position of starting OFDM symbol in gap, or include: the starting OFDM symbol of each mini time slot in each time slot Position and the position for terminating OFDM symbol；Correspondingly, the number for exempting from authorized transmissions resource in the first time domain period Amount k is determined according to the format information in the first time domain period, the second time domain period and the mini time slot.

10. a kind of method of time-domain resource of determination for exempting from authorized transmissions characterized by comprising

The network equipment obtains the quantity k for exempting from authorized transmissions resource in the first time domain period for exempting from authorized transmissions resource；

The network equipment is according to the first time domain period, second time domain period for exempting from authorized transmissions resource and described The quantity k for exempting from authorized transmissions resource in first time domain period, determine for receive exempt from authorization data exempt from authorized transmissions The index of time quantum where resource,

Wherein, the first time domain period is P₁A time quantum, the second time domain period are P₂A time quantum, wherein P₁ More than or equal to P₂。

11. according to the method described in claim 10, it is characterized in that, the network equipment according to the first time domain period, Exempt from the quantity for exempting from authorized transmissions resource in the second time domain period and the first time domain period of authorized transmissions resource K is determined for receiving the index for exempting from the time quantum where authorized transmissions resource for exempting from authorization data, comprising:

The network equipment according to the first index for exempting from the time quantum where authorized transmissions resource, the first time domain period, The quantity k for exempting from authorized transmissions resource in the second time domain period and the first time domain period, determines for connecing Receive the index for exempting from the time quantum where authorized transmissions resource for exempting from authorization data.

12. according to the method for claim 11, which is characterized in that the network equipment exempts from authorized transmissions resource according to first In the index of the time quantum at place, the first time domain period, the second time domain period and the first time domain period The quantity k for exempting from authorized transmissions resource, determine for receiving the time exempted from where authorized transmissions resource for exempting from authorization data The index of unit, comprising:

The network equipment determines the time quantum where Y exempts from authorized transmissions resource according to any one following relational expression Index:

- TU_index=Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂, or,

- TU_index=[Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂] mod X, or,

- TU_index=Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂+F₂, or,

- TU_index=[Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂+F₂] mod X,

Wherein,

-F₂For corrected parameter, F₂Value it is associated with the value of Y,

- X is preset nonnegative integer,

- TU_index be including it is described it is first exempt from authorized transmissions resource including any one exempt from where authorized transmissions resource when Between unit index.

13. a kind of terminal device characterized by comprising

Processing module, for obtaining the first time domain period and the second time domain period of exempting from authorized transmissions resource, wherein described first The time domain period is P₁A time quantum, the second time domain period are P₂A time quantum, wherein P₁More than or equal to P₂；

The processing module is also used to, and obtains the quantity k for exempting from authorized transmissions resource in the first time domain period；

The processing module is also used to, according to the first time domain period, the second time domain period and first time domain The quantity k for exempting from authorized transmissions resource in period, determine for exempt from authorized transmissions exempt from where authorized transmissions resource when Between unit index.

14. terminal device according to claim 13, which is characterized in that the processing module is also used to,

According to the first index for exempting from the time quantum where authorized transmissions resource, the first time domain period, described second The quantity k for exempting from authorized transmissions resource in time domain period and the first time domain period, determines for exempting from authorized transmissions The index for exempting from the time quantum where authorized transmissions resource.

15. terminal device according to claim 14, which is characterized in that the processing module is also used to,

The index of the time quantum where Y exempts from authorized transmissions resource is determined according to any one following relational expression:

- TU_index=Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂, or,

- TU_index=[Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂] mod X, or,

- TU_index=Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂+F₂, or,

- TU_index=[Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂+F₂] mod X,

Wherein,

-F₂For corrected parameter, F₂Value it is associated with the value of Y,

- X is preset nonnegative integer,

16. terminal device described in any one of 3 to 15 according to claim 1, which is characterized in that in the first time domain period Described to exempt from the quantity k of authorized transmissions resource determined according to the first time domain period and the second time domain period.

17. terminal device according to claim 16, which is characterized in that the processing module is also used to,

According to following relational expressions determine in the first time domain period described in exempt from the quantity k of authorized transmissions resource:

K=ceil (P₁/P₂)。

18. terminal device according to claim 16, which is characterized in that the processing module is also used to,

K=floor [(P₁-T)/P₂]+1

19. terminal device according to claim 16, which is characterized in that the processing module is also used to,

K=min [ceil (P₁/P₂),N]

20. terminal device according to claim 16, which is characterized in that the processing module is also used to, according to following passes It is that formula determines the quantity k for exempting from authorized transmissions resource in the first time domain period:

K=min [floor [(P₁-T)/P₂]+1,N]

Wherein, T exempts from the quantity for the time quantum that authorized transmissions resource includes by any one in the first time domain period, N represents maximum iterative transfer times, the maximum iterative transfer times be the feedback information for not receiving network equipment transmission it Feedforward network equipment sends the maximum times of same upstream data, N >=1.

21. terminal device described in any one of 3 to 20 according to claim 1, which is characterized in that specific in the time quantum In the case where for mini time slot, the processing module is also used to,

The format information of the mini time slot is obtained, the format information of the mini time slot includes at least: when each described mini The starting of the number for the orthogonal frequency division multiplex OFDM symbol for including in gap and each mini time slot in each time slot The position of OFDM symbol, or include: position and the knot of the starting OFDM symbol of each mini time slot in each time slot The position of beam OFDM symbol；

Correspondingly, the quantity k for exempting from authorized transmissions resource in the first time domain period is according to the first time domain week What the format information of phase, the second time domain period and the mini time slot determined.

22. a kind of network equipment characterized by comprising

Processing module, for obtaining the quantity k for exempting from authorized transmissions resource in the first time domain period for exempting from authorized transmissions resource；

The processing module is also used to, according to the first time domain period, the second time domain period for exempting from authorized transmissions resource And the quantity k for exempting from authorized transmissions resource in the first time domain period, it determines and exempts from exempting from for authorization data for receiving The index of time quantum where authorized transmissions resource,

23. the network equipment according to claim 22, which is characterized in that the processing module is also used to,

According to the first index for exempting from the time quantum where authorized transmissions resource, the first time domain period, second time domain The quantity k for exempting from authorized transmissions resource in period and the first time domain period, determines and exempts from authorization data for receiving The index for exempting from the time quantum where authorized transmissions resource.

24. the network equipment according to claim 23, which is characterized in that the processing module is also used to,

- TU_index=Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂, or,

- TU_index=[Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂] mod X, or,

- TU_index=Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂+F₂, or,

- TU_index=[Starting_index+floor (Y/k) * P₁+(Y mod k)*P₂+F₂] mod X,

Wherein,

-F₂For corrected parameter, F₂Value it is associated with the value of Y,

- X is preset nonnegative integer,