CN109429343A - A kind of resource allocation methods and device based on multi-slot scheduling - Google Patents

Abstract

This application provides a kind of resource allocation methods based on multi-slot scheduling, this method comprises: base station is the time interval resource that terminal distribution is dispatched based on multi-slot, and indicate that the instruction of the time interval resource of distribution is sent to the terminal by DCI by the down dispatch information based on multi-slot；Wherein, the instruction of the time interval resource of distribution includes: m bit, is used to indicate continuous time slot scheduling number in a multi-slot scheduling；S bit is used to indicate the symbol for starting data transmission in time slot；T bit is used to indicate the PB number that frequency domain occupies in time slot；When the terminal receives the DCI based on multi-slot of base station transmission, it is determined as the time interval resource based on multi-slot scheduling of this terminal distribution according to the instruction of the time interval resource in the DCI.Based on same inventive concept, the application also proposes a kind of resource allocation device based on multi-slot scheduling, in the case where NR system can be made to support the scheduling to multi-slot system, saves scheduling overhead.

Description

A kind of resource allocation methods and device based on multi-slot scheduling

Technical field

The present invention relates to field of communication technology, in particular to a kind of resource allocation methods and dress based on multi-slot scheduling It sets.

Background technique

As future newly eats dishes without rice or wine the standardization of (NR), the 5th third-generation mobile communication technology, which will also progress into, actually uses rank Section.

Compared with 4G technology, 5G technology needs support multiple business multiplexing and simultaneous transmission.In order to preferably support difference Business, NR introduces different scheduling time length, such as multi-slot (multi-slot), time slot (slot) and mini time slot (mini-slot)。

For NR, basic scheduling unit is time slot, and a time slot is made of 7 or 14 symbols.When in order to support lower Prolong business, NR introduces the concept of mini time slot, and a mini time slot can be made of 1,2 or multiple symbols.

In order to save scheduling overhead, NR introduces multi-slot scheduling.The scheduling of multi-slot is once continuous more to user's distribution A time interval resource, user defaults in multiple time slots of distribution carries out data transmission using identical running time-frequency resource, to save The expense that indicates again.

Data in time slot each for NR are sent, due to the needs of some burst services, even if portion of time frequency resources point One user of dispensing, but it is also possible that used by other users.At this time or need to account for regard to time interval resource in each time slot With being indicated in more detail.

Existing realization can't make NR system support the scheduling of multi-slot system well.

Summary of the invention

In view of this, the application provides a kind of resource allocation methods and device based on multi-slot scheduling, NR system can be made In the case that system supports the scheduling to multi-slot system, scheduling overhead is saved.

In order to solve the above technical problems, the technical solution of the application is achieved in that

A kind of resource allocation methods based on multi-slot scheduling, this method comprises:

Base station is the time interval resource dispatched based on multi-slot of terminal distribution, and by the DCI based on multi-slot by distribution The instruction of time interval resource is sent to the terminal；Wherein, the instruction of the time interval resource of distribution includes: m bit, is used to indicate one Continuous time slot scheduling number in multi-slot scheduling；S bit is used to indicate the symbol for starting data transmission in time slot；T bit, is used for Indicate the PB number that frequency domain occupies in time slot；

When the terminal receives the DCI based on multi-slot of base station transmission, according to the finger of the time interval resource in the DCI Show the time interval resource based on multi-slot scheduling for being determined as this terminal distribution.

A kind of resource allocation device based on multi-slot scheduling, which includes: allocation unit and transmission unit；

The allocation unit, the time interval resource for being dispatched for terminal distribution based on multi-slot；Wherein, the time slot money of distribution The instruction in source includes: m bit, is used to indicate continuous time slot scheduling number in a multi-slot scheduling；S bit, is used to indicate time slot The interior symbol for starting data transmission；T bit is used to indicate the PB number that frequency domain occupies in time slot；

The transmission unit, the finger of the time interval resource for being distributed the allocation unit by the DCI based on multi-slot Show and be sent to the terminal, the terminal is made to be determined as the base of this terminal distribution according to the instruction of the time interval resource in the DCI In the time interval resource of multi-slot scheduling.

It as can be seen from the above technical solution, is terminal distribution time interval resource in the application, the time interval resource of distribution passes through m+s + t bit indication, and it is sent to the terminal, so that the terminal is known as the resource of its distribution；Wherein, when m bit indication is more than one Continuous time slot scheduling number in gap scheduling；Start the symbol of data transmission in s bit indication time slot；Frequency in t bit indication time slot The PB number that domain occupies.In the case that the technical solution can make NR system support the scheduling to multi-slot system, scheduling is saved Expense.

Detailed description of the invention

Fig. 1 is the resource allocation flow diagram based on multi-slot scheduling in the embodiment of the present application；

Fig. 2 is the apparatus structure schematic diagram for being applied to above-mentioned technology in the embodiment of the present application.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and examples, Technical solution of the present invention is described in detail.

A kind of resource allocation methods based on multi-slot scheduling are provided in the embodiment of the present application, using in NR system, for eventually End distribution time interval resource, the time interval resource of distribution are sent to the terminal by m+s+t bit indication, know the terminal For the resource of its distribution；Wherein, continuous time slot scheduling number in the one multi-slot scheduling of m bit indication；It is opened in s bit indication time slot The symbol of beginning data transmission；The PB number that frequency domain occupies in t bit indication time slot.The technical solution can be such that NR system supports To in the case where the scheduling of multi-slot system, scheduling overhead is saved.

With reference to the accompanying drawing, the mistake that the resource allocation dispatched based on multi-slot is realized in the embodiment of the present application is described in detail Journey.

Referring to the resource allocation flow diagram that Fig. 1, Fig. 1 are based on multi-slot scheduling in the embodiment of the present application.Specific step Suddenly are as follows:

Step 101, base station is the time interval resource that terminal distribution is dispatched based on multi-slot, and passes through the DCI based on multi-slot The instruction of the time interval resource of distribution is sent to the terminal.

Wherein, the instruction of the time interval resource of distribution includes: m bit, is used to indicate in a multi-slot scheduling and continuously dispatches Timeslot number；S bit is used to indicate the symbol for starting data transmission in time slot；T bit is used to indicate frequency domain in time slot and occupies PB number.

Transmission for big data quantity needs support the transmission of multiple time slots to save scheduling overhead, multiple to support The transmission of time slot needs once to dispatch multiple time slots, as follows for the mode of multi-slot scheduling:

Base station is one continuous slot scheduling set { K of terminal distribution₁,K₂,…K_M, set is interior by M=2^mA element group At that is, including 2^mA element information, one timeslot number continuously dispatched of each element representation in set.Wherein, M and m are Positive integer.

In specific implementation, K can be set₁<K₂<,…<K_M, timeslot number instruction is carried out with m bit.When multi-slot is dispatched, M bit is sent every time, indicates the timeslot number continuously dispatched in a multi-slot scheduling.Referring to table 1, table 1 is m bit and continuous tune The mapping table of the timeslot number of degree.

a1a2…am	Continuous time slot scheduling number
		00…0	K1
00…1	K2
		…	…
11..1	Km

Table 1

Set every time slot default holding time and frequency resource.Default running time-frequency resource includes time resource instruction and frequency money Source occupies instruction two parts.

Time resource is indicated, s bit is arranged, and s is 1 or 2, and expression is passed by which sign-on data in time slot It is defeated.

When s is 1 bit, s content is 0, and expression sart point in time is the 2nd symbol；When s content is 1, when indicating to start Between point be the 3rd symbol；

When s is 2 bit, s content is 00, and expression sart point in time is the 2nd symbol；When s content is 01, indicate to start Time point is the 3rd symbol；When s content is 10, expression sart point in time is the 4th symbol；When s content is 11, indicate to start Time point is the 4th symbol.

Temporal duration is then defaulted as to time slot terminating.

Above-mentioned is a kind of concrete implementation mode, and when specific implementation is not limited to above-mentioned provide a symbol and 2 symbols Specific instruction.

Frequency resource is occupied and is indicated, t bit, frequency chunks (RB) number that instruction frequency domain occupies are set.

S, t bit is sent together with m time slot indication bit.Joint instructions continuously in several time slots user occupancy time-frequency Resource.

Step 102, when terminal receives the DCI based on multi-slot of base station transmission, according to the time interval resource in the DCI Instruction be determined as this terminal distribution based on multi-slot scheduling time interval resource.

The current time slots instruction of multislot transmission is dispatched in addition to indicating continuous time slot scheduling number and time and frequency resource, also Need to indicate current time slots transmission specific transmitting data information, such as modulating-coding format, whether new data send, these letter Breath forms a kind of down dispatch information instruction (DCI) based on multi-slot together.

In the subsequent time slot in multi-slot scheduling, it is also necessary to send DCI information.DCI can no longer include time domain Information, the i.e. instruction to the time interval resource distributed above are distributed with frequency domain resource, and uses default information, is i.e. NR provides one kind New DCI format does not include the instruction of the time interval resource of distribution in the DCI, i.e., to time domain and frequency domain resource distribution information instruction.

It include the time interval resource of distribution in the DCI of first time slot of multi-slot scheduling；

It does not include the time interval resource of distribution in the DCI of the time slot except first time slot of multi-slot scheduling.

For down dispatch information instruction point many types or format.For example, the DCI based on multi-slot scheduling is one kind, DCI based on timeslot scheduling, i.e., the DCI based on single timeslot scheduling are a kind of.It can be further divided into the DCI of multi-slot scheduling The DCI format of first time slot and the DCI format of subsequent timeslot.

It is preferential according to being based on when terminal receives DCI based on timeslot scheduling and when based on the DCI of multi-slot scheduling simultaneously The DCI of timeslot scheduling carries out data receiver.

NR system call is supported based on multiple timeslot schedulings and based on the multiplexing of timeslot scheduling.If based on multi-slot scheduling and It is not overlapped based on timeslot scheduling running time-frequency resource, then terminal is received respectively according to two kinds of scheduling；

If being dispatched based on multi-slot and the running time-frequency resource based on timeslot scheduling having coincidence, the scheduling institute based on multi-slot Accounting for resource is, remaining running time-frequency resource after the running time-frequency resource of coincidence is subtracted in the shared running time-frequency resource of multi-slot scheduling.

When data send needs additionally instruction occupancy running time-frequency resource position in multi-slot time slot scheduling, by being based on time slot tune The scheduling information of degree indicates.Even if having carried out the time slot of multi-slot scheduling, base station can also be carried out by timeslot-based scheduling Again resource allocation.

When scheduled the received resource of multi-slot, each time slot except multi-slot resource timeslot is being dispatched for the first time, if not The DCI for sending content instruction is received, then terminal is without data receiver.At this point, base station can by distribute to the terminal when Frequency resource allocation carries out data transmission to other terminals.

Based on same inventive concept, the application also proposes a kind of resource allocation device based on multi-slot scheduling, application In on base station.Referring to fig. 2, Fig. 2 is the apparatus structure schematic diagram for being applied to above-mentioned technology in the embodiment of the present application.The device packet It includes: allocation unit 201 and transmission unit 202；

Allocation unit 201, the time interval resource for being dispatched for terminal distribution based on multi-slot；Wherein, the time slot money of distribution The instruction in source includes: m bit, is used to indicate continuous time slot scheduling number in a multi-slot scheduling；S bit, is used to indicate time slot The interior symbol for starting data transmission；T bit is used to indicate the PB number that frequency domain occupies in time slot；

Transmission unit 202, the instruction of the time interval resource for being distributed allocation unit 201 by the DCI based on multi-slot Be sent to the terminal, make the terminal according to the instruction of the time interval resource in the DCI be determined as this terminal distribution based on The time interval resource of multi-slot scheduling.

Preferably,

Allocation unit 201 is specifically used for being one continuous slot scheduling set of terminal distribution, including 2^mA element information, One timeslot number continuously dispatched of each element representation in set.

Preferably,

Allocation unit 201, the s specifically for distribution are 1 bit or 2 bits；When s is 1 bit, s content is 0, is indicated Sart point in time is the 2nd symbol；When s content is 1, expression sart point in time is the 3rd symbol；When s is 2 bit, s content It is 00, expression sart point in time is the 2nd symbol；When s content is 01, expression sart point in time is the 3rd symbol；S content is When 10, expression sart point in time is the 4th symbol；When s content is 11, expression sart point in time is the 4th symbol.

The unit of above-described embodiment can integrate in one, can also be deployed separately；It can be merged into a unit, it can also To be further split into multiple subelements.

In conclusion the application for the time interval resource of terminal distribution time interval resource, distribution by m+s+t ratio by being refered in particular to Show, and be sent to the terminal, the terminal is made to be known as the resource of its distribution；Wherein, in the one multi-slot scheduling of m bit indication Continuous time slot scheduling number；Start the symbol of data transmission in s bit indication time slot；Frequency domain occupies in t bit indication time slot PB number.In the case that the technical solution can make NR system support the scheduling to multi-slot system, scheduling overhead is saved.

After having carried out multi-slot scheduling, it can also be sent according to the every time slot adjustment data of business situation of change, flexibly Scheduled resource allocation is used to other terminals.

It, can be in the case that above-mentioned technical proposal provided by the present application can be such that NR system supports to multi-slot system scheduling Combine the reasonable multiplexing of various duration scheduling.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Within mind and principle, any modification, equivalent substitution, improvement and etc. done be should be included within the scope of the present invention.

Claims (10)

1. a kind of resource allocation methods based on multi-slot scheduling, which is characterized in that this method comprises:

Base station is the time interval resource that terminal distribution is dispatched based on multi-slot, and is indicated by the down dispatch information based on multi-slot The instruction of the time interval resource of distribution is sent to the terminal by DCI；Wherein, the instruction of the time interval resource of distribution includes: m bit, It is used to indicate continuous time slot scheduling number in a multi-slot scheduling；S bit is used to indicate the symbol for starting data transmission in time slot Number；T bit is used to indicate the PB number that frequency domain occupies in time slot；

When the terminal receives the DCI based on multi-slot of base station transmission, the instruction according to the time interval resource in the DCI is true It is set to the time interval resource based on multi-slot scheduling of this terminal distribution.

2. the method according to claim 1, wherein the method further includes:

It include the time interval resource distributed in the DCI of first time slot of multi-slot scheduling；

It does not include the time interval resource of distribution in the DCI of the time slot except first time slot of multi-slot scheduling.

3. the method according to claim 1, wherein the method further includes:

For one continuous slot scheduling set of terminal distribution, including 2^mA element information, one company of each element representation in set The timeslot number of continuous scheduling.

4. the method according to claim 1, wherein

S is 1 bit or 2 bits；

When s is 1 bit, s content is 0, and expression sart point in time is the 2nd symbol；When s content is 1, sart point in time is indicated For the 3rd symbol；

When s is 2 bit, s content is 00, and expression sart point in time is the 2nd symbol；When s content is 01, the time started is indicated Point is the 3rd symbol；When s content is 10, expression sart point in time is the 4th symbol；When s content is 11, the time started is indicated Point is the 4th symbol.

5. the method according to claim 1, wherein the method further includes:

It is preferential according to being based on time slot when terminal receives DCI based on timeslot scheduling and when based on the DCI of multi-slot scheduling simultaneously The DCI of scheduling carries out data receiver.

6. according to the method described in claim 5, it is characterized in that, the method further includes:

If being dispatched based on multi-slot and the running time-frequency resource based on timeslot scheduling having coincidence, provided shared by the scheduling based on multi-slot Source is running time-frequency resource remaining after subtracting the running time-frequency resource of coincidence in the shared running time-frequency resource of multi-slot scheduling.

7. method according to claim 1-6, which is characterized in that the method further includes:

When scheduled the received resource of multi-slot, each time slot except multi-slot resource timeslot is being dispatched for the first time, if not receiving To the DCI for sending content instruction, then terminal is without data receiver.

8. a kind of resource allocation device based on multi-slot scheduling, which is characterized in that the device includes: allocation unit and sends single Member；

The allocation unit, the time interval resource for being dispatched for terminal distribution based on multi-slot；Wherein, the time interval resource of distribution Instruction includes: m bit, is used to indicate continuous time slot scheduling number in a multi-slot scheduling；S bit, is used to indicate in time slot and opens The symbol of beginning data transmission；T bit is used to indicate the PB number that frequency domain occupies in time slot；

The transmission unit, for indicating what DCI distributed the allocation unit by the down dispatch information based on multi-slot The instruction of time interval resource is sent to the terminal, and the terminal is made to be determined as this according to the instruction of the time interval resource in the DCI The time interval resource based on multi-slot scheduling of terminal distribution.

9. the apparatus according to claim 1, which is characterized in that

The allocation unit is specifically used for being one continuous slot scheduling set of terminal distribution, including 2^mA element information, set In one timeslot number continuously dispatched of each element representation.

10. device according to claim 8 or claim 9, which is characterized in that

The allocation unit, the s specifically for distribution are 1 bit or 2 bits；When s is 1 bit, s content is 0, indicates to start Time point is the 2nd symbol；When s content is 1, expression sart point in time is the 3rd symbol；When s is 2 bit, s content is 00, expression sart point in time is the 2nd symbol；When s content is 01, expression sart point in time is the 3rd symbol；S content is 10 When, expression sart point in time is the 4th symbol；When s content is 11, expression sart point in time is the 4th symbol.