CN103139892A - Method for resource distribution and device of resource distribution - Google Patents

Abstract

The invention discloses a method for resource distribution and a device of resource distribution. The method includes: firstly, obtaining renewable energy queue condition information, channel condition information, and data queue condition information, and decoding the channel condition information, secondly, according to the renewable energy queue length and compromise coefficient relationship between a preset value and delay-power, calculating the expression of instantaneous renewable consumption and instantaneous alternating current (AC) consumption, conducting distribution of instantaneous renewable consumption and instantaneous AC consumption according to the expression of the instantaneous renewable consumption and the instantaneous AC consumption, the renewable energy queue condition information, the channel condition information, and data queue condition information, and finally sending data according to the obtained instantaneous renewable consumption and the instantaneous AC consumption through calculation. The method for resource distribution and the device of the resource distribution are suitable for communication system field.

Description

The distribution method of resource and device

Technical field

The present invention relates to field of wireless communications, particularly a kind of distribution method of resource and device.

Background technology

At present, wireless communication system more and more pays attention to improving the efficiency of system.At third generation partner program (3GPP, The 3rd Generation Partnership Project) under Long Term Evolution (LTE) and the background based on the LTE propulsion system of 3GPP standard, the algorithm of RRM (RRM) also more and more payes attention to reducing energy consumption.The system energy consumption main manifestations is the power consumption cost that alternating current (AC) input causes.In wireless communication system, use regenerative resource (renewable energy), can reduce AC power consumption cost.

The acquisition capability of system's regenerative resource is relevant to extraneous natural environmental condition, becomes when being, and needs independently these energy of device storage.In order to utilize to greatest extent regenerative resource, should consider effective energy scheduling algorithm design in concrete application, the two large important key elements of considering are wherein arranged.One of factor that we should consider is that the reserve capabillity of regenerative resource is limited.Although regenerative resource itself is free, memory capacity need spend some costs, usually calculates in the cost that system initially builds; Another factor that need to consider is the uncertainty that regenerative resource is obtained, and under unstable supply, how to guarantee service quality (QoS, the Quality of Service) demands such as wireless traffic delay.Along with the continuous progress of wireless technology, the business of wireless broadband network develops into multimedia service from voice service.For such as the multimedia services such as video, audio conferencing and game are also increasing, these application are called real time business, and QoS is more responsive to time delay.Divide timing in resource, time delay QoS has represented the requirement to queuing delay.

Yet prior art also can't when adopting regenerative resource to minimize the AC power consumption, guarantee the delay performance of system at present.

Summary of the invention

The embodiment of the present invention provides a kind of method and device of resource management, by reasonably utilizing regenerative resource, when having reduced the AC power consumption, has guaranteed the delay performance of system.

The technical scheme that the embodiment of the present invention adopts is:

A kind of distribution method of resource comprises:

Obtain regenerative resource queue state information, channel condition information and the data queue status information of system, and the described channel condition information of decoding;

According to the relation of regenerative resource queue length and preset value, time delay-power trade-offs coefficient, calculate the expression formula of instantaneous renewable power consumption and instantaneous alternating current AC power consumption, described preset value is the maximum of storage regenerative resource;

According to the expression formula of described instantaneous renewable power consumption and instantaneous AC power consumption, and described regenerative resource queue state information, channel condition information and data queue status information, carry out the distribution of instantaneous renewable power consumption and instantaneous AC power consumption;

According to the value of the described instantaneous renewable power consumption that calculates and instantaneous AC power consumption, send data.

A kind of distributor of resource comprises:

Acquiring unit, for regenerative resource queue state information, channel condition information and the data queue status information of obtaining system, and the described channel condition information of decoding;

Computing unit is used for calculating the expression formula of instantaneous renewable power consumption and instantaneous alternating current AC power consumption according to the relation of regenerative resource queue length with preset value, time delay-power trade-offs coefficient, and described preset value is the maximum of storing regenerative resource;

Allocation units are used for the expression formula according to described instantaneous renewable power consumption and instantaneous AC power consumption, and described regenerative resource queue state information, channel condition information and data queue status information, carry out the distribution of instantaneous renewable power consumption and instantaneous AC power consumption;

Transmitting element is used for the value according to the described instantaneous renewable power consumption that calculates and instantaneous AC power consumption, sends data.

the distribution method of the resource that the embodiment of the present invention provides and device, at first obtain the regenerative resource queue state information of system, channel condition information and data queue status information, and the described channel condition information of decoding, then according to regenerative resource queue length and preset value, the relation of time delay-power trade-offs coefficient, calculate the expression formula of instantaneous renewable power consumption and instantaneous alternating current AC power consumption, again according to the expression formula of described instantaneous renewable power consumption and instantaneous AC power consumption, and described regenerative resource queue state information, channel condition information and data queue status information, carry out the distribution of instantaneous renewable power consumption and instantaneous AC power consumption, last value according to the described instantaneous renewable power consumption that calculates and instantaneous AC power consumption, send data.The distribution method of the resource that the embodiment of the present invention provides and device by effectively distributing instantaneous renewable power consumption and instantaneous AC power consumption, when having reduced the AC power consumption, have guaranteed the delay performance of system.

Description of drawings

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, the below will do to introduce simply to the accompanying drawing of required use in embodiment or description of the Prior Art, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The distribution method flow chart of the resource that Fig. 1 provides for the embodiment of the present invention one;

The distributor structural representation of the resource that Fig. 2 provides for the embodiment of the present invention one;

The distribution method flow chart of the resource that Fig. 3 provides for the embodiment of the present invention two;

The distributor structural representation of the resource that Fig. 4 provides for the embodiment of the present invention two.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, rather than whole embodiment.Based on the embodiment in the present invention, those of ordinary skills belong to the scope of protection of the invention not making all other embodiment that obtain under the creative work prerequisite.

For the advantage that makes technical solution of the present invention is clearer, below in conjunction with drawings and Examples, the present invention is elaborated.

Embodiment one

The present embodiment provides a kind of distribution method of resource, and as shown in Figure 1, described method comprises:

101, obtain regenerative resource queue state information, channel condition information and the data queue status information of system, and the described channel condition information of decoding.

Wherein, described regenerative resource can be solar energy, wind energy etc.

102, according to the relation of regenerative resource queue length and preset value, time delay-power trade-offs coefficient, calculate the expression formula of instantaneous renewable power consumption and instantaneous alternating current AC power consumption.

Wherein, described preset value is the maximum of storage regenerative resource.

103, according to the expression formula of described instantaneous renewable power consumption and instantaneous AC power consumption, and described regenerative resource queue state information, channel condition information and data queue status information, carry out the distribution of instantaneous renewable power consumption and instantaneous AC power consumption.

104, according to instantaneous renewable power consumption and the instantaneous AC power consumption of described distribution, send data.

The present embodiment provides a kind of distributor of resource, and as shown in Figure 2, described device comprises: acquiring unit 21, computing unit 22, allocation units 23, transmitting element 24.

Acquiring unit 21, for regenerative resource queue state information, channel condition information and the data queue status information of obtaining system, and the described channel condition information of decoding.

Wherein, described regenerative resource can be solar energy, wind energy etc.

Computing unit 22 is used for calculating the expression formula of instantaneous renewable power consumption and instantaneous alternating current AC power consumption according to the relation of regenerative resource queue length with preset value, time delay-power trade-offs coefficient, and described preset value is the maximum of storing regenerative resource.

Allocation units 23 are used for the expression formula according to described instantaneous renewable power consumption and instantaneous AC power consumption, and described regenerative resource queue state information, channel condition information and data queue status information, carry out the distribution of instantaneous renewable power consumption and instantaneous AC power consumption.

Transmitting element 24 is used for according to the instantaneous renewable power consumption of described distribution and the value of instantaneous AC power consumption, sends data.

The distribution method of the resource that the embodiment of the present invention provides and device by effectively distributing instantaneous renewable power consumption and instantaneous AC power consumption, when having reduced the AC power consumption, have guaranteed the delay performance of system.

Embodiment two

The present embodiment provides a kind of distribution method of resource, and as shown in Figure 3, described method comprises:

201, obtain regenerative resource queue state information, channel condition information and the data queue status information of system, and the described channel condition information of decoding.

202, according to the relation of regenerative resource queue length and preset value, time delay-power trade-offs coefficient, calculate the expression formula of instantaneous renewable power consumption and instantaneous alternating current AC power consumption.

Particularly, when described regenerative resource queue length during more than or equal to described preset value, according to formula

With Obtain the expression formula of instantaneous renewable power consumption and instantaneous AC power consumption;

Wherein,

Be the instantaneous renewable power consumption of k time slot scheduling,

It is the instantaneous AC power consumption of k time slot scheduling, Q (k) is the data queue status information of k time slot scheduling, E (k) is the regenerative resource queue state information of k time slot scheduling, H (k) is the channel condition information of k time slot scheduling, V is described time delay-power trade-offs coefficient, and Δ t is the time difference.

At this moment, the memory space of regenerative resource is very large, in order better to utilize regenerative resource, should use immediately all regenerative resources, the conveniently continuation of new regenerative resource storage.

When described regenerative resource queue length during less than described preset value and more than or equal to the difference of described preset value and described time delay-power trade-offs coefficient, according to formula $p_e^{*}\left(k\right)=\min [\frac{E\left(k\right)}{\mathrm{\Δt}},{[\frac{Q\left(k\right)}{(\mathrm{\θ}-E\left(k\right))\mathrm{\Δt}}-\frac{1}{H\left(k\right)}]}^{+}]$ With $p_{\mathrm{ac}}^{*}\left(k\right)={[\frac{Q\left(k\right)}{\mathrm{V\Δt}}-\frac{1}{H\left(k\right)}-p_e^{*}\left(k\right)]}^{+}$ Obtain the expression formula of instantaneous renewable power consumption and instantaneous AC power consumption;

Wherein,

Be the instantaneous renewable power consumption of k time slot scheduling,

It is the instantaneous AC power consumption of k time slot scheduling, Q (k) is the data queue status information of k time slot scheduling, E (k) is the regenerative resource queue state information of k time slot scheduling, H (k) is the channel condition information of k time slot scheduling, V is described time delay-power trade-offs coefficient, Δ t is the time difference, and θ is the maximum of storage regenerative resource.

At this moment, although the memory space of regenerative resource does not reach maximum, surplus is larger, needs preferentially to use.

When described regenerative resource queue length during less than the difference of described preset value and described time delay-power trade-offs coefficient, according to formula

With $p_{\mathrm{ac}}^{*}\left(k\right){[\frac{Q\left(k\right)}{\mathrm{V\Δt}}-\frac{1}{H\left(k\right)}]}^{+}$ Obtain the expression formula of instantaneous renewable power consumption and instantaneous AC power consumption;

Wherein,

Be the instantaneous renewable power consumption of k time slot scheduling,

Be the instantaneous AC power consumption of k time slot scheduling, Q (k) is the data queue status information of k time slot scheduling, and H (k) is the channel condition information of k time slot scheduling, and V is described time delay-power trade-offs coefficient, and Δ t is the time difference.

At this moment, the memory space of regenerative resource is lower, for more effective use regenerative resource in future, should only send data with the AC power consumption.

203, according to the expression formula of described instantaneous renewable power consumption and instantaneous AC power consumption, and described regenerative resource queue state information, channel condition information and data queue status information, carry out the distribution of instantaneous renewable power consumption and instantaneous AC power consumption.

Particularly, according to formula

$(p_e^{*},p_{\mathrm{ac}}^{*})=\underset{p_e,p_{\mathrm{ac}}}{\arg \mathrm{Max}}Q\left(k\right)r\left(k\right)-\{\mathrm{\θ}-E\left(k\right)\}{p}_e\left(k\right)\mathrm{\Δt}-V{p}_{\mathrm{ac}}\left(k\right)\mathrm{\Δt}$

Distribute described instantaneous renewable power consumption and described instantaneous AC power consumption;

Wherein,

Be described instantaneous renewable power consumption,

Be described instantaneous AC power consumption, p _e(k) be the instantaneous renewable power consumption of k time slot scheduling, p _ac(k) be the instantaneous AC power consumption of k time slot scheduling, Q (k) is the data queue status information of k time slot scheduling, E (k) is the regenerative resource queue state information of k time slot scheduling, H (k) is the channel condition information of k time slot scheduling, V is described time delay-power trade-offs coefficient, Δ t is the time difference, and θ is the maximum of storage regenerative resource, and r (k) is the data rate of k time slot scheduling.

204, according to instantaneous renewable power consumption and the instantaneous AC power consumption of described distribution, send data.

205, upgrade described regenerative resource queue state information and data queue status information.

Particularly, according to formula Q (k+1)=[Q (k)-r (k) Δ t] ⁺+ A (k) upgrades described data queue status information, wherein, Q (k) is the data queue status information of k time slot scheduling, Q (k+1) is the data queue status information of k+1 time slot scheduling, r (k) is the data rate of k time slot scheduling, Δ t is the time difference, and A (k) is k the newly arrived bit number that needs transmission of time slot scheduling.

According to formula E (k+1)=[E (k)-p _e(k) Δ t] ⁺The described regenerative resource of+w (k) root queue state information, wherein p _e(k) be the instantaneous renewable power consumption of k time slot scheduling, E (k) is the regenerative resource queue state information of k time slot scheduling, E (k+1) is the regenerative resource queue state information of k+1 time slot scheduling, Δ t is the time difference, and w (k) is the regenerative resource of k time slot scheduling new growth.

The present embodiment also provides a kind of distributor of resource, and as shown in Figure 4, described device comprises: acquiring unit 41, computing unit 42, allocation units 43, transmitting element 44, updating block 45.

Acquiring unit 41, for regenerative resource queue state information, channel condition information and the data queue status information of obtaining system, and the described channel condition information of decoding.

Computing unit 42 is used for calculating the expression formula of instantaneous renewable power consumption and instantaneous alternating current AC power consumption according to the relation of regenerative resource queue length with preset value, time delay-power trade-offs coefficient, and described preset value is the maximum of storing regenerative resource.

Described computing unit 42 comprises: the first acquisition module 46, the second acquisition module 47, the 3rd acquisition module 48.

The first acquisition module 46 is used for when described regenerative resource queue length during more than or equal to described preset value, according to formula

With $p_{\mathrm{ac}}^{*}\left(k\right)={[\frac{Q\left(k\right)}{\mathrm{V\Δt}}-\frac{1}{H\left(k\right)}-\frac{E\left(k\right)}{\mathrm{\Δt}}]}^{+}$ Obtain the expression formula of instantaneous renewable power consumption and instantaneous AC power consumption.

The second acquisition module 47 is when being used for when described regenerative resource queue length less than described preset value and more than or equal to the difference of described preset value and described time delay-power trade-offs coefficient, according to formula $p_e^{*}\left(k\right)=\min [\frac{E\left(k\right)}{\mathrm{\Δt}},{[\frac{Q\left(k\right)}{(\mathrm{\θ}-E\left(k\right))\mathrm{\Δt}}-\frac{1}{H\left(k\right)}]}^{+}]$ With $p_{\mathrm{ac}}^{*}\left(k\right)={[\frac{Q\left(k\right)}{\mathrm{V\Δt}}-\frac{1}{H\left(k\right)}-p_e^{*}\left(k\right)]}^{+}$ Obtain the expression formula of instantaneous renewable power consumption and instantaneous AC power consumption.

The 3rd acquisition module 48 is used for when described regenerative resource queue length during less than the difference of described preset value and described time delay-power trade-offs coefficient, according to formula With

Obtain the expression formula of instantaneous renewable power consumption and instantaneous AC power consumption.

Allocation units 43 are used for the expression formula according to described instantaneous renewable power consumption and instantaneous AC power consumption, and described regenerative resource queue state information, channel condition information and data queue status information, carry out the distribution of instantaneous renewable power consumption and instantaneous AC power consumption.

Described allocation units 43 also are used for according to formula

$(p_e^{*},p_{\mathrm{ac}}^{*})=\underset{p_e,p_{\mathrm{ac}}}{\arg \mathrm{Max}}Q\left(k\right)r\left(k\right)-\{\mathrm{\θ}-E\left(k\right)\}{p}_e\left(k\right)\mathrm{\Δt}-V{p}_{\mathrm{ac}}\left(k\right)\mathrm{\Δt}$ Distribute described instantaneous renewable power consumption and described instantaneous AC power consumption.

Transmitting element 44 is used for according to the instantaneous renewable power consumption of described distribution and the value of instantaneous AC power consumption, sends data.

Updating block 45 is used for upgrading described regenerative resource queue state information and data queue status information.

Described updating block 45 comprises: the first update module 49 and the second update module 410.

The first update module 49 is used for according to formula Q (k+1)=[Q (k)-r (k) Δ t] ⁺+ A (k) upgrades described data queue status information, wherein, Q (k) is the data queue status information of k time slot scheduling, Q (k+1) is the data queue status information of k+1 time slot scheduling, r (k) is the data rate of k time slot scheduling, Δ t is the time difference, and A (k) is k the newly arrived bit number that needs transmission of time slot scheduling.

The second update module 410 is used for according to formula E (k+1)=[E (k)-p _e(k) Δ t] ⁺The described regenerative resource of+w (k) root queue state information, wherein p _e(k) be the instantaneous renewable power consumption of k time slot scheduling, E (k) is the regenerative resource queue state information of k time slot scheduling, E (k+1) is the regenerative resource queue state information of k+1 time slot scheduling, Δ t is the time difference, and w (k) is the regenerative resource of k time slot scheduling new growth.

The distribution method of the resource that the embodiment of the present invention provides and device by effectively distributing instantaneous renewable power consumption and instantaneous AC power consumption, when having reduced the AC power consumption, have guaranteed the delay performance of system.

The above-mentioned embodiment of the method that provides can be provided the distributor of the resource that the embodiment of the present invention provides, and concrete function realizes seeing also the explanation in embodiment of the method, does not repeat them here.Distribution method and the device of the resource that the embodiment of the present invention provides go for field of wireless communications, but are not limited only to this.

One of ordinary skill in the art will appreciate that all or part of flow process that realizes in above-described embodiment method, to come the relevant hardware of instruction to complete by computer program, described program can be stored in a computer read/write memory medium, this program can comprise the flow process as the embodiment of above-mentioned each side method when carrying out.Wherein, described storage medium can be magnetic disc, CD, read-only store-memory body (Read-Only Memory, ROM) or random store-memory body (Random Access Memory, RAM) etc.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement are within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of claim.

Claims (12)

1. the distribution method of a resource, is characterized in that, comprising:

Obtain regenerative resource queue state information, channel condition information and the data queue status information of system, and the described channel condition information of decoding;

According to the relation of regenerative resource queue length and preset value, time delay-power trade-offs coefficient, calculate the expression formula of instantaneous renewable power consumption and instantaneous alternating current AC power consumption, described preset value is the maximum of storage regenerative resource;

According to the expression formula of described instantaneous renewable power consumption and instantaneous AC power consumption, and described regenerative resource queue state information, channel condition information and data queue status information, carry out the distribution of instantaneous renewable power consumption and instantaneous AC power consumption;

According to instantaneous renewable power consumption and the instantaneous AC power consumption of described distribution, send data.

2. the distribution method of resource according to claim 1, is characterized in that, described relation according to regenerative resource queue length and preset value, time delay-power trade-offs coefficient, and the expression formula of calculating instantaneous renewable power consumption and instantaneous alternating current AC power consumption comprises:

When described regenerative resource queue length during more than or equal to described preset value, according to formula With

Obtain the expression formula of instantaneous renewable power consumption and instantaneous AC power consumption;

Wherein,

Be the instantaneous renewable power consumption of k time slot scheduling,

It is the instantaneous AC power consumption of k time slot scheduling, Q (k) is the data queue status information of k time slot scheduling, E (k) is the regenerative resource queue state information of k time slot scheduling, H (k) is the channel condition information of k time slot scheduling, V is described time delay-power trade-offs coefficient, and Δ t is the time difference.

3. the distribution method of resource according to claim 2, is characterized in that, also comprises:

When described regenerative resource queue length during less than described preset value and more than or equal to the difference of described preset value and described time delay-power trade-offs coefficient, according to formula $p_e^{*}\left(k\right)=\min [\frac{E\left(k\right)}{\mathrm{\Δt}},{[\frac{Q\left(k\right)}{(\mathrm{\θ}-E\left(k\right))\mathrm{\Δt}}-\frac{1}{H\left(k\right)}]}^{+}]$ With $p_{\mathrm{ac}}^{*}\left(k\right)={[\frac{Q\left(k\right)}{\mathrm{V\Δt}}-\frac{1}{H\left(k\right)}-p_e^{*}\left(k\right)]}^{+}$ Obtain

Get the expression formula of instantaneous renewable power consumption and instantaneous AC power consumption;

Wherein,

Be the instantaneous renewable power consumption of k time slot scheduling, It is the instantaneous AC power consumption of k time slot scheduling, Q (k) is the data queue status information of k time slot scheduling, E (k) is the regenerative resource queue state information of k time slot scheduling, H (k) is the channel condition information of k time slot scheduling, V is described time delay-power trade-offs coefficient, Δ t is the time difference, and θ is the maximum of storage regenerative resource.

4. the distribution method of resource according to claim 2, is characterized in that, also comprises:

When described regenerative resource queue length during less than the difference of described preset value and described time delay-power trade-offs coefficient, according to formula

With

Obtain the expression formula of instantaneous renewable power consumption and instantaneous AC power consumption;

Wherein, Be the instantaneous renewable power consumption of k time slot scheduling,

Be the instantaneous AC power consumption of k time slot scheduling, Q (k) is the data queue status information of k time slot scheduling, and H (k) is the channel condition information of k time slot scheduling, and V is described time delay-power trade-offs coefficient, and Δ t is the time difference.

5. the distribution method of resource according to claim 1, it is characterized in that, described expression formula according to described instantaneous renewable power consumption and instantaneous AC power consumption, and described regenerative resource queue state information, channel condition information and data queue status information, the distribution of carrying out instantaneous renewable power consumption and instantaneous AC power consumption comprises:

According to formula $(p_e^{*},p_{\mathrm{ac}}^{*})=\underset{p_e,p_{\mathrm{ac}}}{\arg \mathrm{Max}}Q\left(k\right)r\left(k\right)-\{\mathrm{\θ}-E\left(k\right)\}{p}_e\left(k\right)\mathrm{\Δt}-V{p}_{\mathrm{ac}}\left(k\right)\mathrm{\Δt}$ Distribute described instantaneous renewable power consumption and described instantaneous AC power consumption;

Wherein,

Be described instantaneous renewable power consumption,

Be described instantaneous AC power consumption, p _e(k) be the instantaneous renewable power consumption of k time slot scheduling, p _ac(k) be the instantaneous AC power consumption of k time slot scheduling, Q (k) is the data queue status information of k time slot scheduling, E (k) is the regenerative resource queue state information of k time slot scheduling, H (k) is the channel condition information of k time slot scheduling, V is described time delay-power trade-offs coefficient, Δ t is the time difference, and θ is the maximum of storage regenerative resource, and r (k) is the data rate of k time slot scheduling.

6. the distribution method of resource according to claim 1, is characterized in that, also comprises:

Upgrade described regenerative resource queue state information and data queue status information.

7. the distribution method of resource according to claim 6, is characterized in that, described renewal described regenerative resource queue state information and data queue status information comprise:

According to formula Q (k+1)=[Q (k)-r (k) Δ t] ⁺+ A (k) upgrades described data queue status information, wherein, Q (k) is the data queue status information of k time slot scheduling, Q (k+1) is the data queue status information of k+1 time slot scheduling, r (k) is the data rate of k time slot scheduling, Δ t is the time difference, and A (k) is k the newly arrived bit number that needs transmission of time slot scheduling;

According to formula E (k+1)=[E (k)-p _e(k) Δ t] ⁺The described regenerative resource of+w (k) root queue state information, wherein p _e(k) be the instantaneous renewable power consumption of k time slot scheduling, E (k) is the regenerative resource queue state information of k time slot scheduling, E (k+1) is the regenerative resource queue state information of k+1 time slot scheduling, Δ t is the time difference, and w (k) is the regenerative resource of k time slot scheduling new growth.

8. the distributor of a resource, is characterized in that, comprising:

Acquiring unit, for regenerative resource queue state information, channel condition information and the data queue status information of obtaining system, and the described channel condition information of decoding;

Computing unit is used for calculating the expression formula of instantaneous renewable power consumption and instantaneous alternating current AC power consumption according to the relation of regenerative resource queue length with preset value, time delay-power trade-offs coefficient, and described preset value is the maximum of storing regenerative resource;

Allocation units are used for the expression formula according to described instantaneous renewable power consumption and instantaneous AC power consumption, and described regenerative resource queue state information, channel condition information and data queue status information, carry out the distribution of instantaneous renewable power consumption and instantaneous AC power consumption;

Transmitting element is used for according to the instantaneous renewable power consumption of described distribution and the value of instantaneous AC power consumption, sends data.

9. the distributor of resource according to claim 8, is characterized in that, described computing unit comprises:

The first acquisition module is used for when described regenerative resource queue length during more than or equal to described preset value, according to formula

With $p_{\mathrm{ac}}^{*}\left(k\right){[\frac{Q\left(k\right)}{\mathrm{V\Δt}}-\frac{1}{H\left(k\right)}-\frac{E\left(k\right)}{\mathrm{\Δt}}]}^{+}$ Obtain the expression formula of instantaneous renewable power consumption and instantaneous AC power consumption;

The second acquisition module is when being used for when described regenerative resource queue length less than described preset value and more than or equal to the difference of described preset value and described time delay-power trade-offs coefficient, according to formula $p_e^{*}\left(k\right)=\min [\frac{E\left(k\right)}{\mathrm{\Δt}},{[\frac{Q\left(k\right)}{(\mathrm{\θ}-E\left(k\right))\mathrm{\Δt}}-\frac{1}{H\left(k\right)}]}^{+}]$ With $p_{\mathrm{ac}}^{*}\left(k\right)={[\frac{Q\left(k\right)}{\mathrm{V\Δt}}-\frac{1}{H\left(k\right)}-p_e^{*}\left(k\right)]}^{+}$ Obtain the expression formula of instantaneous renewable power consumption and instantaneous AC power consumption;

The 3rd acquisition module is used for when described regenerative resource queue length during less than the difference of described preset value and described time delay-power trade-offs coefficient, according to formula

With

Obtain the expression formula of instantaneous renewable power consumption and instantaneous AC power consumption.

10. the distributor of resource according to claim 8, is characterized in that, described allocation units also are used for according to formula $(p_e^{*},p_{\mathrm{ac}}^{*})=\underset{p_e,p_{\mathrm{ac}}}{\arg \mathrm{Max}}Q\left(k\right)r\left(k\right)-\{\mathrm{\θ}-E\left(k\right)\}{p}_e\left(k\right)\mathrm{\Δt}-V{p}_{\mathrm{ac}}\left(k\right)\mathrm{\Δt}$ Distribute described instantaneous renewable power consumption and described instantaneous AC power consumption;

Wherein,

Be described instantaneous renewable power consumption,

Be described instantaneous AC power consumption, p _e(k) be the instantaneous renewable power consumption of k time slot scheduling, p _ac(k) be the instantaneous AC power consumption of k time slot scheduling, Q (k) is the data queue status information of k time slot scheduling, E (k) is the regenerative resource queue state information of k time slot scheduling, H (k) is the channel condition information of k time slot scheduling, V is described time delay-power trade-offs coefficient, Δ t is the time difference, and θ is the maximum of storage regenerative resource, and r (k) is the data rate of k time slot scheduling.

11. the distributor of resource according to claim 8 is characterized in that, also comprises:

Updating block is used for upgrading described regenerative resource queue state information and data queue status information.

12. the distributor of resource according to claim 11 is characterized in that, described updating block comprises:

The first update module is used for according to formula Q (k+1)=[Q (k)-r (k) Δ t] ⁺+ A (k) upgrades described data queue status information, wherein, Q (k) is the data queue status information of k time slot scheduling, Q (k+1) is the data queue status information of k+1 time slot scheduling, r (k) is the data rate of k time slot scheduling, Δ t is the time difference, and A (k) is k the newly arrived bit number that needs transmission of time slot scheduling;

The second update module is used for according to formula E (k+1)=[E (k)-p _e(k) Δ t] ⁺The described regenerative resource of+w (k) root queue state information, wherein p _e(k) be the instantaneous renewable power consumption of k time slot scheduling, E (k) is the regenerative resource queue state information of k time slot scheduling, E (k+1) is the regenerative resource queue state information of k+1 time slot scheduling, Δ t is the time difference, and w (k) is the regenerative resource of k time slot scheduling new growth.

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