CN102984742A

CN102984742A - Method and device and system for base station energy consumption monitoring

Info

Publication number: CN102984742A
Application number: CN2012104575530A
Authority: CN
Inventors: 刘选鹏
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2012-11-14
Filing date: 2012-11-14
Publication date: 2013-03-20
Anticipated expiration: 2032-11-14
Also published as: CN102984742B

Abstract

The invention relates to the field of communication and provides a method, a device and a system for base station energy consumption monitoring. The method includes: acquiring identification of base band processing unit (BBU), seeking power up sequence information and power down sequence information of the BBU from a pre-stored power up sequence list and a pre-stored power down sequence list according to the identification of the BBU, according to a preset power-saving strategy, generating the power up sequence list and the power down sequence list; and controlling the power up sequence and the power down sequence of the BBU according to the sought power up sequence information and the sought power down sequence information. The method, the device and the system for the base station energy consumption monitoring are capable of saving station point operation electric power consumption and reducing electric charge expenses, besides the equipment temperature brought by the station point power consumption can be reduced, reliability of equipment is promoted due to temperature reduction, and a resource use rate is improved.

Description

A kind of base station energy consumption method for supervising, Apparatus and system

Technical field

The invention belongs to the communications field, relate in particular to a kind of base station energy consumption method for supervising, Apparatus and system.

Background technology

At present, in the distributed base stations that in mobile Internet, use in a large number, base transceiver station (Base Transceiver Station, BTS) main body is by baseband processing unit (Baseband Unit, BBU) and remote radio unit (RRU) (Remote Radio Unit, RRU) forming, is the base station hereinafter to be referred as base transceiver station.The annexation of the distributed base station of global system for mobile communications (Global System of Mobile communication, GSM) as shown in Figure 1.

In traditional distributed base station, a website is placed a BBU usually, and each website also disposes the facilities such as machine room and power supply.Consideration for energy-saving and emission-reduction and reduction maintenance cost, industry is just attempting the BBU of each base station is concentrated placement, or BBU stacking (BBU stacks) or BBU pond (the BBU Pool) that the BBU of each base station is put into design carried out unified management, concrete logic diagram is as shown in Figure 2.Because existing method is only concentrated placement with the BBU of each base station, the electric sequence of each BBU or lower electricity order are still independently, it does not improve original energy consumption monitoring step, and therefore existing method is difficult to realize substantially the purpose of energy-saving and emission-reduction and reduction maintenance cost.

Summary of the invention

The embodiment of the invention provides a kind of base station energy consumption method for supervising, Apparatus and system, is intended to solve the problem that existing method is difficult to realize substantially energy-saving and emission-reduction and reduces maintenance cost.

The embodiment of the invention is achieved in that a kind of base station energy consumption method for supervising, and described method comprises the steps:

Obtain the sign of baseband processing unit BBU;

With the foundation that is designated of described BBU, search electric sequence information and the lower electric order information of BBU from pre-stored electric sequence table and lower electric sequence list, described electric sequence table and lower electric sequence list generate according to default economize on electricity strategy;

Electric sequence and lower electricity order according to the electric sequence information of searching and lower electric order information control BBU.

Preferably, before the step of the described sign of obtaining baseband processing unit BBU, comprise step:

Judge the traffic load of described BBU, described traffic load comprises " zero load ", " being fully loaded with " state of BBU.

Preferably, after the step of the traffic load of the described BBU of described judgement, comprise step:

The volume of business, BBU that obtains BBU when zero load corresponding power consumption, BBU in power consumption corresponding to full load;

Volume of business and BBU according to BBU determine that in power consumption corresponding to full load described BBU is at the power consumption efficiency of full load;

The unified volume of business that reports described BBU, BBU when zero load corresponding power consumption, BBU at power consumption corresponding to full load and the BBU power consumption efficiency at full load.

Preferably, the step that generates described electric sequence table and lower electric sequence list according to default economize on electricity strategy specifically comprises:

When default economize on electricity strategy is maximum economize on electricity strategy: the electric sequence of the power consumption size sign BBU when described electric sequence table is unloaded according to BBU, minimum BBU corresponding to no-load power consumption powers at first, and maximum BBU corresponding to no-load power consumption powers at last; The lower electricity order of power consumption size sign BBU when described lower electric sequence list is unloaded according to BBU, BBU corresponding to maximum no-load power consumption be lower electricity at first, and BBU corresponding to minimum no-load power consumption be lower electricity at last;

And/or when default economize on electricity strategy was optimum efficiency strategy: described electric sequence table was according to the electric sequence of the power consumption efficiency sign BBU of BBU, and maximum BBU corresponding to power consumption efficiency powers at first, and minimum BBU corresponding to power consumption efficiency powers at last; Described lower electric sequence list identifies the lower sequentially electric of BBU according to the power consumption efficiency of BBU, and the BBU that the power consumption efficiency of minimum is corresponding is lower electric at first, and the BBU that the power consumption efficiency of maximum is corresponding is electric at last;

And/or, at the economize on electricity strategy of presetting be when economizing on electricity strategy based on the maximum of thresholding: described electric sequence table reaches the electric sequence that the first default capacity threshold identifies BBU according to the volume of business of BBU: judge that whether the volume of business of BBU is less than described the first capacity threshold, if, maximum BBU corresponding to power consumption efficiency powers at first, minimum BBU corresponding to power consumption efficiency powers at last, otherwise, minimum BBU corresponding to power consumption efficiency powers at first, and maximum BBU corresponding to power consumption efficiency powers at last; Described lower electric sequence list identifies the lower sequentially electric of BBU according to volume of business and the second default capacity threshold of BBU: judge that whether the volume of business of BBU is less than described the second capacity threshold, if, the BBU that minimum power consumption efficiency is corresponding is lower electric at first, the BBU that maximum power consumption efficiency is corresponding is lower electric at last, otherwise, the BBU that the power consumption efficiency of maximum is corresponding is lower electric at first, and the BBU that minimum power consumption efficiency is corresponding is lower electric at last.

Preferably, the electric sequence of the described basis electric sequence information of searching and lower electric order information control BBU and the step of lower electricity order specifically comprise:

According to the electric sequence information of searching and the lower electric order information sending controling instruction input power controller to BBU, so that the input power controller of described BBU selects to open or cut out the power supply input of described BBU according to the control command that receives;

Perhaps,

According to the electric sequence information of searching and lower electric order information sending controling instruction to BBU, so that described BBU carries out power on operation or lower electricity operation according to the control command that receives.

Another purpose of the embodiment of the invention is to provide a kind of base station energy consumption supervising device, and described device comprises:

BBU identifies acquiring unit, is used for obtaining the sign of baseband processing unit BBU;

The power-on and power-off information acquisition unit, be used for the foundation that is designated with described BBU, search electric sequence information and the lower electric order information of BBU from pre-stored electric sequence table and lower electric sequence list, described electric sequence table and lower electric sequence list generate according to default economize on electricity strategy;

Power-on and power-off sequential control unit is used for electric sequence and lower electricity order according to the electric sequence information of searching and lower electric order information control BBU.

Preferably, described device comprises:

The business information collecting unit, for the traffic load of judging described BBU, described traffic load comprises " zero load ", " being fully loaded with " state of BBU.

Preferably, described device comprises:

Baseband processing unit information acquisition unit, the volume of business, BBU that is used for obtaining BBU when zero load corresponding power consumption, BBU in power consumption corresponding to full load;

The power consumption efficiency determining unit determines that in power consumption corresponding to full load described BBU is at the power consumption efficiency of full load according to volume of business and the BBU of BBU;

Baseband processing unit information reporting unit, be used for the unified volume of business that reports described BBU, BBU when zero load corresponding power consumption, BBU at power consumption corresponding to full load and the BBU power consumption efficiency at full load.

Preferably, described device comprises:

Power-on and power-off sequence list generation unit, be used for when default economize on electricity strategy is maximum economize on electricity strategy, the electric sequence of power consumption size sign BBU when described electric sequence table is unloaded according to BBU, minimum BBU corresponding to no-load power consumption powers at first, and maximum BBU corresponding to no-load power consumption powers at last; The lower electricity order of power consumption size sign BBU when described lower electric sequence list is unloaded according to BBU, BBU corresponding to maximum no-load power consumption be lower electricity at first, and BBU corresponding to minimum no-load power consumption be lower electricity at last; And/or, being used for when default economize on electricity strategy is optimum efficiency strategy, described electric sequence table is according to the electric sequence of the power consumption efficiency sign BBU of BBU, and maximum BBU corresponding to power consumption efficiency powers at first, and minimum BBU corresponding to power consumption efficiency powers at last; Described lower electric sequence list identifies the lower sequentially electric of BBU according to the power consumption efficiency of BBU, and the BBU that the power consumption efficiency of minimum is corresponding is lower electric at first, and the BBU that the power consumption efficiency of maximum is corresponding is electric at last; And/or, being used at default economize on electricity strategy is when economizing on electricity strategy based on the maximum of thresholding, described electric sequence table reaches the electric sequence of default the first capacity threshold sign BBU according to the volume of business of BBU: judge that whether the volume of business of BBU is less than described the first capacity threshold, if, maximum BBU corresponding to power consumption efficiency powers at first, minimum BBU corresponding to power consumption efficiency powers at last, otherwise, minimum BBU corresponding to power consumption efficiency powers at first, and maximum BBU corresponding to power consumption efficiency powers at last; Described lower electric sequence list identifies the lower sequentially electric of BBU according to volume of business and the second default capacity threshold of BBU: judge that whether the volume of business of BBU is less than described the second capacity threshold, if, the BBU that minimum power consumption efficiency is corresponding is lower electric at first, the BBU that maximum power consumption efficiency is corresponding is lower electric at last, otherwise, the BBU that the power consumption efficiency of maximum is corresponding is lower electric at first, and the BBU that minimum power consumption efficiency is corresponding is lower electric at last.

Preferably,

The electric sequence information that described power-on and power-off sequential control unit basis is searched and lower electric order information sending controling instruction are to the input power controller of BBU, so that the input power controller of described BBU selects to open or cut out the power supply input of described BBU according to the control command that receives;

Perhaps,

The electric sequence information that described power-on and power-off sequential control unit basis is searched and lower electric order information sending controling instruction are to BBU, so that described BBU carries out power on operation or lower electric operation according to the control command that receives.

Another purpose of the embodiment of the invention is to provide a kind of base station energy consumption supervisory control system, and described system comprises:

Memory is used for the sign of storage BBU, default economize on electricity strategy, electric sequence table and lower electric sequence list, and described electric sequence table and lower electric sequence list are that processor generates according to default economize on electricity strategy;

Processor is used for the foundation that is designated with described BBU, and sequence list and lower electric sequence list are searched electric sequence information and the lower electric order information of BBU from power on, according to electric sequence and the lower electricity order of the electric sequence information of searching and lower electric order information control BBU.

Preferably, described system comprises:

Determining device, according to the traffic load of judging described BBU, described traffic load comprises " zero load ", " being fully loaded with " state of BBU.

Preferably, described system comprises:

Receiver, the volume of business, BBU that is used for obtaining BBU when zero load corresponding power consumption, BBU in power consumption corresponding to full load;

Preferably,

When default economize on electricity strategy is maximum economize on electricity strategy, the electric sequence of power consumption size sign BBU when the electric sequence table that described processor generates is unloaded according to BBU, minimum BBU corresponding to no-load power consumption powers at first, and maximum BBU corresponding to no-load power consumption powers at last; The lower electricity order of power consumption size sign BBU when the lower electric sequence list that described processor generates is unloaded according to BBU, BBU corresponding to maximum no-load power consumption be lower electricity at first, and BBU corresponding to minimum no-load power consumption be lower electricity at last;

And/or,

When default economize on electricity strategy was optimum efficiency strategy, the electric sequence table that described processor generates was according to the electric sequence of the power consumption efficiency sign BBU of BBU, and maximum BBU corresponding to power consumption efficiency powers at first, and minimum BBU corresponding to power consumption efficiency powers at last; The lower electric sequence list that described processor generates identifies the lower sequentially electric of BBU according to the power consumption efficiency of BBU, and the BBU that the power consumption efficiency of minimum is corresponding is lower electric at first, and the BBU that the power consumption efficiency of maximum is corresponding is electric at last;

And/or,

At default economize on electricity strategy when be tactful based on the maximum economize on electricity of thresholding, the electric sequence table that described processor generates reaches the electric sequence of default the first capacity threshold sign BBU according to the volume of business of BBU: judge that whether the volume of business of BBU is less than described the first capacity threshold, if, maximum BBU corresponding to power consumption efficiency powers at first, minimum BBU corresponding to power consumption efficiency powers at last, otherwise, minimum BBU corresponding to power consumption efficiency powers at first, and maximum BBU corresponding to power consumption efficiency powers at last; The lower electric sequence list that described processor generates reaches the lower electricity order of default the second capacity threshold sign BBU according to the volume of business of BBU: judge that whether the volume of business of BBU is less than described the second capacity threshold, if, the BBU that minimum power consumption efficiency is corresponding is lower electric at first, the BBU that maximum power consumption efficiency is corresponding is lower electric at last, otherwise, the BBU that the power consumption efficiency of maximum is corresponding is lower electric at first, and the BBU that minimum power consumption efficiency is corresponding is lower electric at last.

Preferably,

The electric sequence information that described processor basis is searched and lower electric order information sending controling instruction are to the input power controller of BBU, so that the input power controller of described BBU selects to open or cut out the power supply input of described BBU according to the control command that receives;

Perhaps,

The electric sequence information that described processor basis is searched and lower electric order information sending controling instruction are to BBU, so that described BBU carries out power on operation or lower electric operation according to the control command that receives.

In embodiments of the present invention, in the electric sequence table, search the electric sequence information of each BBU among BBU stacks or the BBU Pool, in lower electric sequence list, search the lower electric order information of each BBU, and control electric sequence and the lower electricity order of each BBU according to the electric sequence information of obtaining and lower electric order information.Because the base station energy consumption method for supervising that present embodiment provides can be according to electric sequence and the lower electricity order of each BBU among default economize on electricity policy control BBUstacks or the BBU Pool, therefore can save website operation power consumption, reduce electric cost expenditure, and, can reduce the device temperature that the website power consumption brings, equipment is promoted because cooling obtains reliability, improve resource utilization.

Description of drawings

Fig. 1 is the annexation figure of the distributed base station of the GSM that provides of prior art;

Fig. 2 is that the BBU with each base station that prior art provides concentrates the logic diagram of placing;

Fig. 3 is the flow chart of a kind of base station energy consumption method for supervising of providing of first embodiment of the invention;

Fig. 4 is the structure chart of a kind of base station energy consumption supervising device of providing of second embodiment of the invention;

Fig. 5 is the structure chart of the another kind of base station energy consumption supervising device that provides of second embodiment of the invention;

Fig. 6 is the structure chart of a kind of base station energy consumption supervisory control system of providing of third embodiment of the invention;

Fig. 7 is the structure chart of the another kind of base station energy consumption supervisory control system that provides of third embodiment of the invention.

Embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, is not intended to limit the present invention.

In the embodiment of the invention, in the electric sequence table, search the electric sequence information of each BBU, in lower electric sequence list, search the lower electric order information of each BBU, and control electric sequence and the lower electricity order of each BBU according to the electric sequence information of obtaining and lower electric order information.

For technical solutions according to the invention are described, describe below by specific embodiment.

Embodiment one:

Fig. 3 shows the flow chart of a kind of base station energy consumption method for supervising that first embodiment of the invention provides, and details are as follows:

Step S31 obtains the sign of baseband processing unit BBU.

In this step, can obtain by the sign that gathers BBU the sign of each BBU among BBU stacks or the BBU Pool, the sign of this BBU is corresponding one by one with BBU, such as, can use BBU1, BBU2 ..., BBUn represents n BBU among BBU stacks or the BBU Pool etc., n is natural number.Further, but the BBU of storage of collected sign.

Step S32 with the foundation that is designated of described BBU, searches electric sequence information and the lower electric order information of BBU from pre-stored electric sequence table and lower electric sequence list, and described electric sequence table and lower electric sequence list generate according to default economize on electricity strategy.

In this step, default economize on electricity strategy is according to the Location of requirement of reality, such as, when be according to the actual requirements maximum economize on electricity, determine that a maximum economize on electricity is tactful; Certainly, when actual demand is changed, will determine another kind of economize on electricity strategy, repeat no more herein.The economize on electricity strategy of determining will generate electric sequence table and the lower electric sequence list of BBU, and this electric sequence table has been stored the sign of each BBU, and the electric sequence information of each BBU; Lower electric sequence list has been stored the sign of each BBU, and the lower electric order information of each BBU.Wherein, powering on here refers to open the power supply of BBU, and lower electricity refers to the dormancy of BBU module, and for example, the optional mode of lower electricity includes but not limited to: module-external power-off, module enter dormancy or local sleep state (comprising the closed portion operating circuit).

Step S33 is according to electric sequence and the lower electricity order of the electric sequence information of searching and lower electric order information control BBU.

In this step, the electric sequence information according to each BBU powers on to BBU one by one; According to the lower electric order information of each BBU, one by one to electricity under the BBU.Wherein, BBU power on or lower electricity is determined according to traffic needs, when traffic carrying capacity rises, use electric sequence control, electric sequential control under using when traffic carrying capacity descends.

As a preferred embodiment, before the step of the described sign of obtaining baseband processing unit BBU, comprise step:

In the present embodiment, but business information timing acquiring or the Real-time Collection of BBU.By gathering the business information of each BBU, can know the current responsible business of BBU, and can judge the corresponding residing traffic load state of BBU according to the business information that gathers.This traffic load state comprises " zero load " of BBU, " semi-load ", states such as " being fully loaded with ", " zero load " here refers to not have the situation of traffic carrying capacity; " semi-load " refer to that the traffic carrying capacity of BBU equals half situation of the volume of business of BBU; " be fully loaded with " situation that the traffic carrying capacity that refers to BBU equals the volume of business of BBU.

As a preferred embodiment, after the step of the traffic load of the described BBU of described judgement, comprise step:

A1, the volume of business that obtains BBU, BBU when zero load corresponding power consumption, BBU in power consumption corresponding to full load; A2, determine that in power consumption corresponding to full load described BBU is at the power consumption efficiency of full load according to volume of business and the BBU of BBU; A3, the unified volume of business that reports described BBU, BBU when zero load corresponding power consumption, BBU at power consumption corresponding to full load and the BBU power consumption efficiency at full load.

Wherein, the volume of business of BBU is that BBU is in traffic carrying capacity corresponding to full load, in the present embodiment, the volume of business of the BBU that obtains of storage, BBU when zero load corresponding power consumption, BBU in power consumption corresponding to full load, and definite BBU corresponding power consumption efficiency when different power consumption, for example, determine BBU corresponding power consumption efficiency when fully loaded or unloaded.Wherein, use formula " volume of business/PWR100 " to determine BBU at power consumption efficiency corresponding to full load " EE ", the power consumption when this PWR100 refers to that traffic carrying capacity is 100%; Use formula: volume of business/PWR0 to determine BBU corresponding power consumption efficiency when zero load, the power consumption when this PWR0 refers to that traffic carrying capacity is 0%.

Consult table 1, table 1 shows the different corresponding electric sequences of economize on electricity strategy and lower electricity order, and as a preferred embodiment, the step that generates described electric sequence table and lower electric sequence list according to default economize on electricity strategy specifically comprises:

When default economize on electricity strategy was optimum efficiency strategy: described electric sequence table was according to the electric sequence of the power consumption efficiency sign BBU of BBU, and maximum BBU corresponding to power consumption efficiency powers at first, and minimum BBU corresponding to power consumption efficiency powers at last; Described lower electric sequence list identifies the lower sequentially electric of BBU according to the power consumption efficiency of BBU, and the BBU that the power consumption efficiency of minimum is corresponding is lower electric at first, and the BBU that the power consumption efficiency of maximum is corresponding is electric at last;

At the economize on electricity strategy of presetting be when economizing on electricity strategy based on the maximum of thresholding: described electric sequence table reaches the electric sequence that the first default capacity threshold identifies BBU according to the volume of business of BBU: judge that whether the volume of business of BBU is less than described the first capacity threshold, if, maximum BBU corresponding to power consumption efficiency powers at first, minimum BBU corresponding to power consumption efficiency powers at last, otherwise, minimum BBU corresponding to power consumption efficiency powers at first, and maximum BBU corresponding to power consumption efficiency powers at last; Described lower electric sequence list identifies the lower sequentially electric of BBU according to volume of business and the second default capacity threshold of BBU: judge that whether the volume of business of BBU is less than described the second capacity threshold, if, the BBU that minimum power consumption efficiency is corresponding is lower electric at first, the BBU that maximum power consumption efficiency is corresponding is lower electric at last, otherwise, the BBU that the power consumption efficiency of maximum is corresponding is lower electric at first, and the BBU that minimum power consumption efficiency is corresponding is lower electric at last.

Table 1:

Above-described embodiment has only been listed 3 kinds of economize on electricity strategies, during practical application, can add as required new economize on electricity strategy, and then generate new electric sequence table and lower electric sequence list according to new economize on electricity strategy, repeats no more herein.

As a preferred embodiment, it is characterized in that the electric sequence of the electric sequence information that described basis is searched and lower electric order information control BBU and the step of lower electricity order specifically comprise:

According to the electric sequence information of searching and the lower electric order information sending controling instruction input power controller to BBU, so that the input power controller of described BBU selects to open or cut out the power supply input of described BBU according to the control command that receives.

Perhaps,

In the present embodiment, can control by 2 kinds of methods electric sequence and the lower electricity order of BBU: (1) controls electric sequence and the lower electric order of BBU by the input power controller of control BBU: the input power controller of control BBU passes into power supply to BBU and reaches the purpose that control BBU powers on; The power supply that the input power controller of control BBU cuts out each BBU reaches electric purpose under the control BBU.(2) when there is input power in BBU, can the input power by BBU send power on or lower electric control instruction to BBU, with powering on or time electric purpose of the power supply that reaches control BBU itself.In addition, if the input power of each BBU can not carry out power-on and power-off control, and BBU itself can not carry out self power supply control, when BBU can only carry out inner local power saving function, when electric under BBU, make this BBU start power saving function, when BBU powers on, make this BBU withdraw from power saving function, thereby reduced website operation power consumption, improve resource utilization.

Embodiment two:

Fig. 4 shows the structure of a kind of base station energy consumption supervising device that second embodiment of the invention provides, and for convenience of explanation, only shows the part relevant with present embodiment.

This base station energy consumption supervising device comprises:

BBU identifies acquiring unit 41, is used for obtaining the sign of baseband processing unit BBU.

Power-on and power-off information acquisition unit 42, be used for the foundation that is designated with described BBU, search electric sequence information and the lower electric order information of BBU from pre-stored electric sequence table and lower electric sequence list, described electric sequence table and lower electric sequence list generate according to default economize on electricity strategy.

Wherein, this electric sequence table has been stored the sign of each BBU, and the electric sequence information of each BBU; Lower electric sequence list has been stored the sign of each BBU, and the lower electric order information of each BBU.

Power-on and power-off sequential control unit 43 is used for electric sequence and lower electricity order according to the electric sequence information of searching and lower electric order information control BBU.

In embodiments of the present invention, power-on and power-off information acquisition unit 42 from power on information table is obtained the information that powers on of each BBU among BBU stacks or the BBU Pool, obtain the lower electric order information of each BBU from lower electric sequence list, electric sequence information and lower electric order information that power-on and power-off sequential control unit 43 obtains according to power-on and power-off information acquisition unit 42 are controlled powering on of each BBU and lower electricity, wherein, power on information table and lower electric information table is to generate according to default economize on electricity strategy.Because the base station energy consumption supervising device that the embodiment of the invention provides can be according to electric sequence and the lower electricity order of each BBU among default economize on electricity policy control BBU stacks or the BBU Pool, therefore can save website operation power consumption, reduce electric cost expenditure, and, can reduce the device temperature that the website power consumption brings, equipment is promoted because cooling obtains reliability, improve resource utilization.

Fig. 5 shows the structure of the another kind of base station energy consumption supervising device that second embodiment of the invention provides, and as a preferred embodiment, described base station energy consumption supervising device comprises:

Business information collecting unit 44, for the traffic load of judging described BBU, described traffic load comprises " zero load ", " being fully loaded with " state of BBU.

In the present embodiment, but business information timing acquiring or the Real-time Collection of BBU.

As a preferred embodiment, described base station energy consumption supervising device comprises:

Baseband processing unit information acquisition unit 45, the volume of business, BBU that is used for obtaining BBU when zero load corresponding power consumption, BBU in power consumption corresponding to full load.

Power consumption efficiency determining unit 46 determines that in power consumption corresponding to full load described BBU is at the power consumption efficiency of full load according to volume of business and the BBU of BBU.

Baseband processing unit information reporting unit 47, be used for the unified volume of business that reports described BBU, BBU when zero load corresponding power consumption, BBU at power consumption corresponding to full load and the BBU power consumption efficiency at full load.

In the present embodiment, corresponding power consumption, BBU are in power consumption corresponding to full load when zero load for the volume of business, BBU that obtains and store BBU, and definite BBU corresponding power consumption efficiency when different power consumption is so that follow-up searching.

In the present embodiment, generate different electric sequence table and lower electric sequence list according to different economize on electricity strategies respectively.Certainly, present embodiment has only been listed 3 kinds of economize on electricity strategies, during practical application, can add as required new economize on electricity strategy, repeats no more herein.

As a preferred embodiment, the electric sequence information that described power-on and power-off sequential control unit 43 bases are searched and lower electric order information sending controling instruction are to the input power controller of BBU, so that the input power controller of described BBU selects to open or cut out the power supply input of described BBU according to the control command that receives.

Perhaps,

The electric sequence information that described power-on and power-off sequential control unit 43 bases are searched and lower electric order information sending controling instruction are to BBU, so that described BBU carries out power on operation or lower electric operation according to the control command that receives.

In the present embodiment, control powering on and lower electricity of BBU by sending instruction to the input power of BBU, perhaps by sending instruction powering on or lower electricity to the power supply of BBU itself control BBU own, in addition, if the input power of each BBU can not carry out power-on and power-off control, and BBU itself can not carry out self power supply control, when BBU can only carry out inner local power saving function, when electric under BBU, make this BBU start power saving function, when BBU powers on, make this BBU withdraw from power saving function, thereby reduced website operation power consumption, improved resource utilization.

Embodiment three:

Fig. 6 shows the structure of a kind of base station energy consumption supervisory control system that third embodiment of the invention provides, and for convenience of explanation, only shows the part relevant with the embodiment of the invention.

Wherein, this base station energy consumption supervisory control system comprises:

BBU identifies acquiring unit 61, is used for obtaining the sign of baseband processing unit BBU.

Memory 62 is used for the sign of storage BBU, default economize on electricity strategy, electric sequence table and lower electric sequence list, and described electric sequence table and lower electric sequence list are that processor 63 generates according to default economize on electricity strategy.

Processor 63, be used for the foundation that is designated with described BBU, sequence list and lower electric sequence list are searched electric sequence information and the lower electric order information of BBU from power on, according to electric sequence and the lower electricity order of the electric sequence information of searching and lower electric order information control BBU.

In embodiments of the present invention, processor 63 generates electric sequence table and lower electric sequence list according to the economize on electricity strategy of memory 62 storages, and deposit in the memory 62, this processor 63 is controlled electric sequence and the lower electricity order of BBU again according to the lower electric order information in the electric sequence information in the electric sequence table and the lower electric sequence list.Because can be according to electric sequence and the lower electricity order of each BBU among default economize on electricity policy control BBU stacks or the BBU Pool, therefore can save website operation power consumption, reduce electric cost expenditure, and, can reduce the device temperature that the website power consumption brings, equipment is promoted because cooling obtains reliability, improve resource utilization.

Fig. 7 shows the structure of the another kind of base station energy consumption supervisory control system that third embodiment of the invention provides, and as a preferred embodiment, described base station energy consumption supervisory control system comprises:

Determining device 64, for the traffic load of judging BBU, described traffic load comprises " zero load ", " being fully loaded with " state of BBU.In the present embodiment, but the business information of timing acquiring or Real-time Collection BBU, according to the traffic load of the business information judgement BBU that gathers.

As a preferred embodiment, described base station energy consumption supervisory control system comprises:

Receiver 65, the volume of business, BBU that is used for obtaining BBU when zero load corresponding power consumption, BBU in power consumption corresponding to full load.

Wherein, receiver 65 is except obtaining BBU the power consumption unloaded, that full load is corresponding, can also obtain BBU corresponding power consumption when semi-load, is not construed as limiting herein.

Power consumption efficiency determining unit 66 determines that in power consumption corresponding to full load described BBU is at the power consumption efficiency of full load according to volume of business and the BBU of BBU.

Wherein, power consumption efficiency determining unit 66 is except determining BBU power consumption efficiency corresponding to full load, can also determine BBU corresponding power consumption efficiency when unloaded, semi-load.

Baseband processing unit information reporting unit 67, be used for the unified volume of business that reports described BBU, BBU when zero load corresponding power consumption, BBU at power consumption corresponding to full load and the BBU power consumption efficiency at full load.

In the present embodiment, unified report BBU when zero load corresponding power consumption, BBU at power consumption corresponding to full load, the BBU power consumption efficiency at full load, can also unify to report BBU information such as corresponding power consumption and power consumption efficiency when semi-load, owing in time report the information of each BBU, therefore be conducive in time find the variation tendency of energy consumption, be convenient to Energy Saving Control and the administration of energy conservation of whole BBU stacks or BBU Pool, thereby improved the utilization ratio of resource.

As a preferred embodiment,

When default economize on electricity strategy is maximum economize on electricity strategy, the electric sequence of power consumption size sign BBU when the electric sequence table that described processor 63 generates is unloaded according to BBU, minimum BBU corresponding to no-load power consumption powers at first, and maximum BBU corresponding to no-load power consumption powers at last; The lower electricity order of power consumption size sign BBU when the lower electric sequence list that described processor generates is unloaded according to BBU, BBU corresponding to maximum no-load power consumption be lower electricity at first, and BBU corresponding to minimum no-load power consumption be lower electricity at last.

And/or,

When default economize on electricity strategy is optimum efficiency strategy, the electric sequence table that described processor 63 generates is according to the electric sequence of the power consumption efficiency sign BBU of BBU, maximum BBU corresponding to power consumption efficiency powers at first, and minimum BBU corresponding to power consumption efficiency powers at last; The lower electric sequence list that described processor generates identifies the lower sequentially electric of BBU according to the power consumption efficiency of BBU, and the BBU that the power consumption efficiency of minimum is corresponding is lower electric at first, and the BBU that the power consumption efficiency of maximum is corresponding is electric at last.

And/or,

At default economize on electricity strategy when be tactful based on the maximum economize on electricity of thresholding, the electric sequence table that described processor 63 generates reaches the electric sequence of default the first capacity threshold sign BBU according to the volume of business of BBU: judge that whether the volume of business of BBU is less than described the first capacity threshold, if, maximum BBU corresponding to power consumption efficiency powers at first, minimum BBU corresponding to power consumption efficiency powers at last, otherwise, minimum BBU corresponding to power consumption efficiency powers at first, and maximum BBU corresponding to power consumption efficiency powers at last; The lower electric sequence list that described processor generates reaches the lower electricity order of default the second capacity threshold sign BBU according to the volume of business of BBU: judge that whether the volume of business of BBU is less than described the second capacity threshold, if, the BBU that minimum power consumption efficiency is corresponding is lower electric at first, the BBU that maximum power consumption efficiency is corresponding is lower electric at last, otherwise, the BBU that the power consumption efficiency of maximum is corresponding is lower electric at first, and the BBU that minimum power consumption efficiency is corresponding is lower electric at last.

As a preferred embodiment,

The electric sequence information that described processor 63 bases are searched and lower electric order information sending controling instruction are to the input power controller of BBU, so that the input power controller of described BBU selects to open or cut out the power supply input of described BBU according to the control command that receives.

Perhaps,

The electric sequence information that described processor 63 bases are searched and lower electric order information sending controling instruction are to BBU, so that described BBU carries out power on operation or lower electric operation according to the control command that receives.

In embodiments of the present invention, information table obtains the information that powers on of each BBU among BBU stacks or the BBU Pool from power on, obtain the lower electric order information of each BBU from lower electric sequence list, control powering on of each BBU and lower electricity according to the electric sequence information of obtaining and lower electric order information, wherein, power on information table and lower electric information table is to generate according to default economize on electricity strategy.Because the base station energy consumption supervising device that the embodiment of the invention provides can be according to electric sequence and the lower electricity order of each BBU among default economize on electricity policy control BBU stacks or the BBU Pool, therefore can save website operation power consumption, reduce electric cost expenditure, and, can reduce the device temperature that the website power consumption brings, equipment is promoted because cooling obtains reliability, improve resource utilization.

One of ordinary skill in the art will appreciate that, the process of realization above-described embodiment base station energy consumption method for supervising can be finished by the relevant hardware of program command, described program can be stored in the readable storage medium storing program for executing, and this program is carried out the corresponding step in the said method when carrying out.Described storage medium can enter: ROM/RAM, magnetic disc, CD etc.

The above only is preferred embodiment of the present invention, not in order to limiting the present invention, all any modifications of doing within the spirit and principles in the present invention, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.

Claims

1. a base station energy consumption method for supervising is characterized in that, described method comprises the steps:

Obtain the sign of baseband processing unit BBU;

2. the method for claim 1 is characterized in that, before the step of the described sign of obtaining baseband processing unit BBU, comprises step:

3. method as claimed in claim 2 is characterized in that, after the step of the traffic load of the described BBU of described judgement, comprises step:

4. the method for claim 1 is characterized in that, the step that generates described electric sequence table and lower electric sequence list according to default economize on electricity strategy specifically comprises:

5. such as each described method of claim 1 to 4, it is characterized in that the electric sequence of the electric sequence information that described basis is searched and lower electric order information control BBU and the step of lower electricity order specifically comprise:

Perhaps,

6. a base station energy consumption supervising device is characterized in that, described device comprises:

7. device as claimed in claim 6 is characterized in that, described device comprises:

8. device as claimed in claim 7 is characterized in that, described device comprises:

9. device as claimed in claim 6 is characterized in that, described device comprises:

10. such as each described device of claim 6 to 9, it is characterized in that,

Perhaps,

11. a base station energy consumption supervisory control system is characterized in that, described system comprises:

12. system as claimed in claim 11 is characterized in that, described system comprises:

Determining device is judged the traffic load of described BBU, and described traffic load comprises " zero load ", " being fully loaded with " state of BBU.

13. system as claimed in claim 12 is characterized in that, described system comprises:

14. system as claimed in claim 11 is characterized in that,

And/or,

15. such as each described system of claim 11 to 14, it is characterized in that,

Perhaps,