CN106028454A - Resource allocation indicating method and device and base station - Google Patents

Abstract

The invention discloses a resource allocation indicating method, a resource allocation indicating device and a base station. The resource allocation indicating method comprises the following steps: in an LTE (Long Term Evolution) system which employs a sTTI (Short Transmission Time Interval), determining a first time duration value of a first period and a second time duration value of a second period, wherein the first time duration value is greater than the second time duration value; and sending first resource allocation information to a terminal according to the first period, and sending second resource allocation information to the terminal according to the second period, wherein the first resource allocation information is used for indicating a serial number of a resource block branch distributed for the terminal and belonged by a resource block, and the second resource allocation information is used for indicating the serial number of the resource block in the resource block branch. By adopting the technical scheme of the invention, the expenditure of downlink control information of the LTE system which adopts the sTTI can be effectively reduced.

Description

Resource allocation indicating method and device, base station

Technical field

The present invention relates to communication technical field, in particular to a kind of resource allocation indicating method, A kind of resource distribution instruction device and a kind of base station.

Background technology

At present, along with the development of mobile Internet, the application meeting various specific function in a large number has been emerged Business.Some of them business is relatively low to data delay requirement, such as receiving and dispatching mail, downloads movies；But Additionally have some business that data delay is had strict requirements, such as network on-line plays, rush to purchase, rob red Bags etc., the time delay that this kind of business is usually required user data is the shortest.At LTE (Long Term Evolution, Long Term Evolution) in system, Transmission Time Interval (TTI, Transmission Time Interval) it is the important indicator affecting user data delay.The transmission time that current LTE system uses Interval is 1ms (hereinafter referred to as legacy TTI, tradition TTI), namely a subframe, and transmitting terminal is every 1ms sends a data block, and receiving terminal often can receive a data block by 1ms.

In 3GPP (3rd Generation Partnership Project, third generation partner program) RAN (Radio Access Network, wireless access network) #69 plenary session makes in LTE system Set up the project by the problem of shorter TTI (short TTI, i.e. sTTI, such as 0.5ms etc.), ground Study carefully the feasibility of the TTI using shorter duration and possible beneficial effect.Some documents are such as at present R1-160942, R1-160930 have studied the minimizing of the TTI duration data delay to LTE system quantitatively Impact, analyze display, use sTTI not merely makes base station, the Transmission Time Interval of terminal shortens, Accordingly, the data processing time corresponding with this Transmission Time Interval also can decrease, such as data Coded modulation and data demodulation time all can reduce along with the reduction of data block size.At later release LTE system in it is possible that two kinds of Transmission Time Intervals of legacy TTI with sTTI situation about coexisting, That is, the wireless system bandwidth of same community had both comprised legacy TTI and had taken resource part, also comprised STTI takies resource part.

Possible a kind of legacy TTI and mode such as Fig. 1 of sTTI reuse pattern wireless system bandwidth resource Shown in.Blank parts represents that legacy TTI takies resource part, and oblique line portion represents that sTTI takies resource Part, i.e. RB1～RB n1 is RB (Resource Block, the resource shared by legacy TTI Block), RB n1+1～RB n2 is the RB shared by sTTI, and the rest may be inferred.Wherein, a resource type The some continuous print RB occupied collectively form a RB branch (resource bandwidth group), such as RB1～RB n1 is exactly a RB branch.Two spike-type cultivars type is alternately present on frequency domain so that The RB shared by RB with sTTI shared by legacy TTI is uniformly or being distributed in of approaches uniformity In the whole system bandwidth of Target cell.

In the case of using legacy TTI, if using the mode of dynamic dispatching to dispatch user, then need Will be at PDCCH (Physical Downlink Control Channel, physics in each TTI duration Down control channel) in be dynamically designated as this user distribution RB resource.In system bandwidth it is such as 50RB, according to current standard, the least unit of RB distribution is the RBG (RB that 3 RB are constituted Group, RB group).It is in bitmap (bitmap file) mode at descending use resource allocation type Under, distributing bit number for the RB needed for some user isNamely each Legacy TTI, base station is required for the RB resource using 17bit information to be designated as targeted customer's distribution. If being also adopted by same indicating mode in sTTI is the RB resource that user distributes, then due to sTTI Duration is shorter, and a legacy TTI typically can include multiple sTTI, then need to take more resource Carry these RB and distribute information bit, cause the relatively large overhead of Downlink Control Information.

It is thus desirable to a kind of for use sTTI LTE system can reduce Downlink Control Information expense Method.

Summary of the invention

The present invention is based on the problems referred to above, it is proposed that a kind of new technical scheme, can be effectively reduced Use the expense of the Downlink Control Information of the LTE system of sTTI.

In view of this, first aspect of the present invention it is proposed a kind of resource allocation indicating method, including: In the LTE system using sTTI, determine the of the first duration numerical value of period 1 and second round Two duration numerical value, wherein, described first duration numerical value is more than described second duration numerical value；According to described First resource is distributed information and sends to terminal by one cycle, and according to described second round by Secondary resource Distribution information sends to described terminal, and wherein, described first resource distribution information is used for being designated as described end The numbering of the resource bandwidth group belonging to Resource Block of end distribution, described Secondary resource distribution information is used for indicating Described Resource Block resource block number in described resource bandwidth group.

In this technical scheme, in the LTE system using sTTI, it is first determined longer first week The first duration numerical value of phase and the second duration numerical value of shorter second round, so according to longer cycle to Terminal sends the first money of the numbering of the resource bandwidth group belonging to Resource Block for being designated as this terminal distribution Source distribution information, and send, to terminal, the Resource Block being used for being designated as this terminal distribution according to the shorter cycle and exist The Secondary resource distribution information of the resource block number in above-mentioned resource bandwidth group, due within the shorter cycle only Need the Resource Block being expressed as terminal distribution RB (Resource Block) numbering in affiliated resource bandwidth group, Without the RB numbering represented in whole system bandwidth, thus required bit quantity reduces, thus drops The low expense of Downlink Control Information.

In technique scheme, it is preferable that described the first duration numerical value and second determining the period 1 The second duration numerical value in cycle, specifically includes: obtain described first duration numerical value set in advance and described Second duration numerical value.

In this technical scheme, on the one hand, the first duration numerical value of longer period 1 and shorter Dicyclic second duration numerical value can be by standard long numerical value actual time set in advance, thus without The the first duration numerical value determined and the second duration numerical value are informed terminal by base station, reduce the merit of base station Consumption.

In technique scheme, it is preferable that described the first duration numerical value and second determining the period 1 The second duration numerical value in cycle, specifically includes: configure described first duration numerical value and long number when described second Value；And send to terminal in described information of first resource being distributed according to the described period 1, and press Sent before described terminal according to distributing information by Secondary resource described second round, also include: by described First duration numerical value and described second duration numerical value notify described terminal.

In this technical scheme, on the other hand, the first duration numerical value of longer period 1 and shorter The second duration numerical value of second round can be the long numerical value actual time configured by base station, so, Ke Yigen According to being actually needed adjustment the first duration numerical value and the second duration numerical value, to meet individual requirements, further Also need to base station the first duration numerical value of the period 1 of configuration and the second duration numerical value of second round are accused Know terminal, to realize effective instruction of resource distribution.

In any of the above-described technical scheme, it is preferable that long number when described first duration numerical value is described second The integral multiple of value.

In this technical scheme, it is possible to further configure the first duration numerical value of longer period 1 For the integral multiple of the second duration numerical value of shorter second round, such as 2 times, 7 times etc., improve duration The simplicity of configuration.

In any of the above-described technical scheme, it is preferable that control signaling to described terminal by physical layer descending Send described first resource distribution information and described Secondary resource distribution information.

In this technical scheme, specifically can lead in each longer period 1 and shorter second round The resource allocation information crossing the Resource Block that physical layer descending control signaling will be indicated as terminal distribution sent to end End.

A second aspect of the present invention, it is proposed that a kind of resource distribution instruction device, comprises determining that module, For, in the LTE system using sTTI, determining first duration numerical value and the second round of period 1 The second duration numerical value, wherein, described first duration numerical value be more than described second duration numerical value；Send mould Block, sends extremely for distributing information according to the described described period 1 determining that module determines by first resource Terminal, and send according to distributing information by Secondary resource the described described second round determining that module determines To described terminal, wherein, described first resource distribution information is for being designated as the resource of described terminal distribution The numbering of the resource bandwidth group belonging to block, described Secondary resource distribution information is used for indicating described Resource Block to exist Resource block number in described resource bandwidth group.

In this technical scheme, in the LTE system using sTTI, it is first determined longer first week The first duration numerical value of phase and the second duration numerical value of shorter second round, so according to longer cycle to Terminal sends the first money of the numbering of the resource bandwidth group belonging to Resource Block for being designated as this terminal distribution Source distribution information, and send, to terminal, the Resource Block being used for being designated as this terminal distribution according to the shorter cycle and exist The Secondary resource distribution information of the resource block number in above-mentioned resource bandwidth group, due within the shorter cycle only Need the Resource Block being expressed as terminal distribution RB (Resource Block) numbering in affiliated resource bandwidth group, Without the RB numbering represented in whole system bandwidth, thus required bit quantity reduces, thus drops The low expense of Downlink Control Information.

In technique scheme, it is preferable that described determine that module specifically includes: obtain submodule, use In obtaining described first duration numerical value set in advance and described second duration numerical value.

In this technical scheme, on the one hand, the first duration numerical value of longer period 1 and shorter Dicyclic second duration numerical value can be by standard long numerical value actual time set in advance, thus without The the first duration numerical value determined and the second duration numerical value are informed terminal by base station, reduce the merit of base station Consumption.

In technique scheme, it is preferable that described determine that module specifically includes: configuration submodule, use In configuring described first duration numerical value and described second duration numerical value；Notice submodule, at described Send module, according to the described period 1, first resource distributes information to send to terminal, and according to described the Secondary resource is distributed information and sent before described terminal, by described first duration numerical value and institute by two cycles State the second duration numerical value and notify described terminal.

In this technical scheme, on the other hand, the first duration numerical value of longer period 1 and shorter The second duration numerical value of second round can be the long numerical value actual time configured by base station, so, Ke Yigen According to being actually needed adjustment the first duration numerical value and the second duration numerical value, to meet individual requirements, further Also need to base station the first duration numerical value of the period 1 of configuration and the second duration numerical value of second round are accused Know terminal, to realize effective instruction of resource distribution.

In any of the above-described technical scheme, it is preferable that long number when described first duration numerical value is described second The integral multiple of value.

In this technical scheme, it is possible to further configure the first duration numerical value of longer period 1 For the integral multiple of the second duration numerical value of shorter second round, such as 2 times, 7 times etc., improve duration The simplicity of configuration.

In any of the above-described technical scheme, it is preferable that described sending module specifically for: pass through physical layer Descending control signaling sends described first resource distribution information and described Secondary resource distribution letter to described terminal Breath.

In this technical scheme, specifically can lead in each longer period 1 and shorter second round The resource allocation information crossing the Resource Block that physical layer descending control signaling will be indicated as terminal distribution sent to end End.

A third aspect of the present invention, it is proposed that a kind of base station, including: as any one of technique scheme Described resource distribution instruction device, therefore, this base station has as according to any one of technique scheme Resource distribution instruction device all beneficial effects, do not repeat them here.

Technical scheme, can be effectively reduced the descending control of the LTE system using sTTI The expense of information.

Accompanying drawing explanation

Fig. 1 shows the wireless system resources distribution schematic diagram in correlation technique；

Fig. 2 shows the schematic flow sheet of resource allocation indicating method according to an embodiment of the invention；

Fig. 3 shows the schematic block diagram of resource distribution instruction device according to an embodiment of the invention；

Fig. 4 shows the schematic block diagram of cover half block really shown in Fig. 3；

Fig. 5 shows the schematic block diagram of base station according to an embodiment of the invention.

Detailed description of the invention

In order to the above-mentioned purpose of the present invention, feature and advantage can be more clearly understood that, below in conjunction with the accompanying drawings With detailed description of the invention, the present invention is further described in detail.It should be noted that do not conflicting In the case of, the feature in embodiments herein and embodiment can be mutually combined.

Elaborate a lot of detail in the following description so that fully understanding the present invention, but, this Invention can be implemented to use other to be different from other modes described here, therefore, and the guarantor of the present invention Scope of protecting is not limited by following public specific embodiment.

Fig. 2 shows the schematic flow sheet of resource allocation indicating method according to an embodiment of the invention.

As in figure 2 it is shown, resource allocation indicating method according to an embodiment of the invention, including below scheme Step:

Step 202, use sTTI LTE system in, determine the period 1 the first duration numerical value and The second duration numerical value of second round, wherein, long number when described first duration numerical value is more than described second Value.

In this step 202, specifically can be determined the first of the period 1 by following two embodiment Duration numerical value and the second duration numerical value of second round:

Embodiment one: obtain described first duration numerical value set in advance and described second duration numerical value.

In this embodiment, on the one hand, the first duration numerical value of longer period 1 and shorter second The second duration numerical value in cycle can be by standard long numerical value actual time set in advance, thus without base Stand and the first duration numerical value determined and the second duration numerical value are informed terminal, reduce the power consumption of base station.

Embodiment two: configure long numerical value in described a period of time and described second duration numerical value, and during by described first Long numerical value and described second duration numerical value notify described terminal.

In this embodiment, on the other hand, the first duration numerical value of longer period 1 and shorter Dicyclic second duration numerical value can be the long numerical value actual time configured by base station, so, and can basis It is actually needed adjustment the first duration numerical value and the second duration numerical value, to meet individual requirements, further also Base station is needed the first duration numerical value of the period 1 of configuration and the second duration numerical value of second round to be informed Terminal, to realize effective instruction of resource distribution.

Further, described first duration numerical value is the integral multiple of described second duration numerical value.

In this embodiment it is possible to the first duration numerical value configuring the longer period 1 is shorter second The integral multiple of the second duration numerical value in cycle, improves the simplicity of duration configuration by such as 2 times, 7 times etc. Property.

Step 204, distributes information according to the described period 1 by first resource and sends to terminal, and press Send to described terminal, wherein, described first resource according to distributing information by Secondary resource described second round Distribution information is for being designated as the numbering of the resource bandwidth group belonging to Resource Block of described terminal distribution, described Secondary resource distribution information is for indicating described Resource Block resource block number in described resource bandwidth group.

Further, in this step 204, it is preferable that control signaling to described by physical layer descending Terminal sends described first resource distribution information and described Secondary resource distribution information.

In this embodiment, specifically can pass through in each longer period 1 and shorter second round Physical layer descending controls the resource allocation information of the Resource Block that signaling will be indicated as terminal distribution and sends to end End.

To sum up, use sTTI LTE system in, it is first determined the longer period 1 first time Long numerical value and the second duration numerical value of shorter second round, and then send use according to longer cycle to terminal First resource distribution letter in the numbering of the resource bandwidth group being designated as belonging to the Resource Block of this terminal distribution Breath, and send for being designated as the Resource Block of this terminal distribution in above-mentioned resource to terminal according to the shorter cycle The Secondary resource distribution information of the resource block number in sets of bandwidths, owing to having only to represent within the shorter cycle For the Resource Block of terminal distribution RB (Resource Block) numbering in affiliated resource bandwidth group, without Represent the RB numbering in whole system bandwidth, thus required bit quantity reduces, thus reduce descending The expense of control information.

It is 1 legacy TTI and the second of second round with the first duration numerical value of period 1 below Duration numerical value is 1 sTTI, system bandwidth comprise altogether 20 RB, be divided into 4 RB branch, Each RB branch illustrates as a example by having 5 RB, and wherein, a legacy TTI comprises 7 sTTI。

So, according to current standard, under 20RB system bandwidth, the least unit of RB distribution is 2 The RBG that RB is constituted.According to legacy TTI in the case of identical RB distribute indicating mode, then Need to use in each sTTI durationIt is accomplished by accounting in a legacy TTI duration With 7 × 10=70bit；And according to technical scheme, need when legacy TTI starts to use 2bit represents that RB branch numbers, and needs to use in each sTTI durationAt one Need to take 2+3 × 7=23bit in legacy TTI duration, it is seen then that effectively reduce instruction RB distribution letter The bit number of breath, thus reduce Downlink Control Information expense.

It should be noted that in a long period, this UE (User Equipment, subscriber equipment) The RB distributed in this specific RB Branch, and then can only typically all should in view of sTTI For channel condition preferably in low speed mobile environment, and in middle low speed mobile environment the time variation of channel It is the most relatively low, so the frequency caused because being fixed on a RB Branch in a long period selects gain The effect reduced can be ignored.

To sum up, by using long period RB resource allocation information to be expressed as belonging to the RB of this UE distribution RB branch numbers, and uses short cycle RB resource allocation information to exist to the RB being expressed as this UE distribution RB numbering in affiliated RB branch, in having only to represent affiliated RB branch within the short cycle RB numbering, it is not necessary to represent the RB numbering in whole system bandwidth, thus required bit quantity meeting Few a lot, thus reduce the expense of Downlink Control Information.

Fig. 3 shows the schematic block diagram of resource distribution instruction device according to an embodiment of the invention.

As it is shown on figure 3, resource distribution indicates device 300 according to an embodiment of the invention, including: really Cover half block 302 and sending module 304.

Wherein it is determined that module 302, for, in the LTE system using sTTI, determining the period 1 First duration numerical value and the second duration numerical value of second round, wherein, described first duration numerical value is more than institute State the second duration numerical value；Sending module 304, for according to described determine that module 302 determines described the First resource is distributed information and sends to terminal by one cycle, and determines what module 302 determined according to described Secondary resource distributing described second round information send to described terminal, wherein, described first resource divides Join information for being designated as the numbering of the resource bandwidth group belonging to the Resource Block of described terminal distribution, described Two resource allocation informations are for indicating described Resource Block resource block number in described resource bandwidth group.

In this technical scheme, in the LTE system using sTTI, it is first determined longer first week The first duration numerical value of phase and the second duration numerical value of shorter second round, so according to longer cycle to Terminal sends the first money of the numbering of the resource bandwidth group belonging to Resource Block for being designated as this terminal distribution Source distribution information, and send, to terminal, the Resource Block being used for being designated as this terminal distribution according to the shorter cycle and exist The Secondary resource distribution information of the resource block number in above-mentioned resource bandwidth group, due within the shorter cycle only Need the Resource Block being expressed as terminal distribution RB (Resource Block) numbering in affiliated resource bandwidth group, Without the RB numbering represented in whole system bandwidth, thus required bit quantity reduces, thus drops The low expense of Downlink Control Information.

As shown in Figure 4, in technique scheme, it is preferable that described determine that module 302 is specifically wrapped Include: obtain submodule 3022, be used for obtaining described first duration numerical value set in advance and when described second Long numerical value.

In this technical scheme, on the one hand, the first duration numerical value of longer period 1 and shorter Dicyclic second duration numerical value can be by standard long numerical value actual time set in advance, thus without The the first duration numerical value determined and the second duration numerical value are informed terminal by base station, reduce the merit of base station Consumption.

As shown in Figure 4, in technique scheme, it is preferable that described determine that module 302 is specifically wrapped Include: configuration submodule 3024 and notice submodule 3026.

Wherein, configure submodule 3024, be used for configuring described first duration numerical value and long number when described second Value；Notice submodule 3026, for providing first according to the described period 1 at described sending module 304 Source distribution information sends to terminal, and sends extremely according to distributing information by Secondary resource described second round Before described terminal, described first duration numerical value and described second duration numerical value are notified described terminal.

In this technical scheme, on the other hand, the first duration numerical value of longer period 1 and shorter The second duration numerical value of second round can be the long numerical value actual time configured by base station, so, Ke Yigen According to being actually needed adjustment the first duration numerical value and the second duration numerical value, to meet individual requirements, further Also need to base station the first duration numerical value of the period 1 of configuration and the second duration numerical value of second round are accused Know terminal, to realize effective instruction of resource distribution.

In any of the above-described technical scheme, it is preferable that long number when described first duration numerical value is described second The integral multiple of value.

In this technical scheme, it is possible to further configure the first duration numerical value of longer period 1 For the integral multiple of the second duration numerical value of shorter second round, such as 2 times, 7 times etc., improve duration The simplicity of configuration.

In any of the above-described technical scheme, it is preferable that described sending module 304 specifically for: pass through thing Reason layer descending control signaling sends described first resource distribution information to described terminal and described Secondary resource divides Join information.

In this technical scheme, specifically can lead in each longer period 1 and shorter second round The resource allocation information crossing the Resource Block that physical layer descending control signaling will be indicated as terminal distribution sent to end End.

In figs. 3 and 4, determine that module 302 can be CPU (Central Processing Unit, CPU), microprocessor or digital signal processor (Digital Signal Processor, DSP), Sending module 304 can be antenna, wireless router etc..

Fig. 5 shows the schematic block diagram of base station according to an embodiment of the invention.

As it is shown in figure 5, base station 500 according to an embodiment of the invention, including: such as technique scheme According to any one of resource distribution instruction device 300, therefore, this base station 500 has such as above-mentioned technology All beneficial effects of the resource distribution instruction device 300 according to any one of scheme, the most superfluous at this State.

Technical scheme is described in detail, in the LTE system using sTTI above in association with accompanying drawing In, by using the longer period 1 to send belonging to the Resource Block for being designated as its distribution to terminal The first resource distribution information of the numbering of resource bandwidth group, and use send to terminal shorter second round For being designated as the Secondary resource of its Resource Block distributed resource block number in affiliated resource bandwidth group Distribution information, it is possible to reduce required bit number, thus it is effectively reduced the expense of Downlink Control Information.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for this For the technical staff in field, the present invention can have various modifications and variations.All spirit in the present invention and Within principle, any modification, equivalent substitution and improvement etc. made, should be included in the protection of the present invention Within the scope of.

Claims (11)

1. a resource allocation indicating method, it is characterised in that including:

In the LTE system using sTTI, determine first duration numerical value and the second round of period 1 The second duration numerical value, wherein, described first duration numerical value be more than described second duration numerical value；

Distribute information according to the described period 1 by first resource to send to terminal, and according to described second Secondary resource is distributed information and sends to described terminal by the cycle, and wherein, described first resource distribution information is used In the numbering of the resource bandwidth group being designated as belonging to the Resource Block of described terminal distribution, described Secondary resource divides Join information for indicating described Resource Block resource block number in described resource bandwidth group.

Resource allocation indicating method the most according to claim 1, it is characterised in that described determine The first duration numerical value in one cycle and the second duration numerical value of second round, specifically include:

Obtain described first duration numerical value set in advance and described second duration numerical value.

Resource allocation indicating method the most according to claim 1, it is characterised in that described determine The first duration numerical value in one cycle and the second duration numerical value of second round, specifically include:

Configure described first duration numerical value and described second duration numerical value；And

Send to terminal in described information of first resource being distributed according to the described period 1, and according to institute State before second round Secondary resource is distributed information transmission extremely described terminal, also include:

Described first duration numerical value and described second duration numerical value are notified described terminal.

4. according to the resource allocation indicating method described in Claims 2 or 3, it is characterised in that described The longest numerical value is the integral multiple of described second duration numerical value.

5. according to the resource allocation indicating method described in Claims 2 or 3, it is characterised in that pass through thing Reason layer descending control signaling sends described first resource distribution information to described terminal and described Secondary resource divides Join information.

6. a resource distribution instruction device, it is characterised in that including:

Determine module, for, in the LTE system using sTTI, determining first duration of period 1 Numerical value and the second duration numerical value of second round, wherein, when described first duration numerical value is more than described second Long numerical value；

Sending module, for distributing first resource according to the described described period 1 determining that module determines Information sends to terminal, and is divided by Secondary resource according to the described described second round determining that module determines Joining information to send to described terminal, wherein, described first resource distribution information is used for being designated as described terminal The numbering of the resource bandwidth group belonging to Resource Block of distribution, described Secondary resource distribution information is used for indicating institute State Resource Block resource block number in described resource bandwidth group.

Resource the most according to claim 6 distribution instruction device, it is characterised in that described determine mould Block specifically includes:

Obtain submodule, be used for obtaining described first duration numerical value set in advance and long number when described second Value.

Resource the most according to claim 6 distribution instruction device, it is characterised in that described determine mould Block specifically includes:

Configuration submodule, is used for configuring described first duration numerical value and described second duration numerical value；

Notice submodule, for believing first resource distribution according to the described period 1 at described sending module Breath sends to terminal, and sends to described terminal according to distributing information by Secondary resource described second round Before, described first duration numerical value and described second duration numerical value are notified described terminal.

9. distribute instruction device according to the resource described in claim 7 or 8, it is characterised in that described the The longest numerical value is the integral multiple of described second duration numerical value.

10. distribute instruction device according to the resource described in claim 7 or 8, it is characterised in that described Sending module specifically for:

Control signaling by physical layer descending and send described first resource distribution information and described to described terminal Secondary resource distribution information.

11. 1 kinds of base stations, it is characterised in that including: as according to any one of claim 6 to 10 Resource distribution instruction device.