CN107426763B - The appraisal procedure and system of application program consumption mobile base station energy - Google Patents

Abstract

The present invention relates to the appraisal procedure and system of a kind of application program consumption mobile base station energy, the appraisal procedure includes: that the power parameter of BBU, the power parameter of RRU and the maximum of each sector obtained in setting mobile base station is averaged uplink and downlink throughput；In the coverage area of the setting mobile base station, determine that the occupied RE resource of application program uplink and downlink data transfer rate and signaling in the setting initial time of data connection on setting terminal is averaged occupancy, signaling duration；The mobile base station energy of the uplink and downlink data transmission consumption is calculated according to power parameter, maximum average uplink and downlink throughput, setting initial time and uplink and downlink data transfer rate；Occupancy is averaged according to power parameter, the occupied RE resource of signaling and the signaling duration calculates the mobile base station energy of the signalling consumption；The mobile base station energy supposition of the mobile base station energy of uplink and downlink data transmission consumption and signalling consumption can be determined accurately to the mobile base station energy of the application program consumption.

Description

The appraisal procedure and system of application program consumption mobile base station energy

Technical field

The present invention relates to mobile communication technology fields, and in particular to a kind of assessment of application program consumption mobile base station energy Method and system.

Background technique

In mobile network, there is different types of base station, such as: macro base station, microcellulor, repeater etc., and different base station Coverage area it is different, power also differs greatly.Even in addition, the base station of same type, due to manufacturer's difference, or The place of deployment is different, and it is variant to also result in the parameters such as power, handling capacity.Therefore, the base station type that mobile terminal accesses is not Together, position is different, can all cause mobile base station electricity consumed by application program different.

In 4G LTE (Long Term Evolution, long term evolution are the 4G wireless communication standards of China) network, More and more application programs occupy a large amount of communication resource, and how to determine how much each application program consumes mobile base station Energy is a technical problem.

Summary of the invention

In order to solve the above problem in the prior art, in order to the energy of determination each application program consumption mobile base station Amount, the present invention provides the appraisal procedures and system of a kind of application program consumption mobile base station energy.

To achieve the above object, the present invention provides following schemes:

A kind of appraisal procedure of application program consumption mobile base station energy, the appraisal procedure include:

Obtain setting mobile base station in the power parameter of Base Band Unit BBU, the power parameter of remote radio unit (RRU) RRU and The maximum of each sector is averaged uplink and downlink throughput；

In the coverage area of the setting mobile base station, determine in the setting initial time of data connection on setting terminal Application program uplink and downlink data transfer rate and the occupied RE resource of signaling are averaged occupancy, signaling duration；

It is handled up according to the maximum uplink and downlink that is averaged of the power parameter of the BBU, the power parameter of the RRU, each sector Rate, setting initial time and application program uplink and downlink data transfer rate calculate the shifting of the application program uplink and downlink data transmission consumption Dynamic base station energy；

It is averaged occupancy according to the power parameter of the BBU, the power parameter of the RRU, the occupied RE resource of signaling The mobile base station energy of the application program signalling consumption is calculated with the signaling duration；

By the mobile base station energy and the application program signalling of application program uplink and downlink data transmission consumption The mobile base station energy supposition of consumption determines the mobile base station energy of the application program consumption.

Optionally, the appraisal procedure further include:

The network energy consumption grade of the application program is marked according to the mobile base station energy that the application program consumes.

Optionally, the mobile base station energy of the application program uplink and downlink data transmission consumption includes that data transmission is consumed BBU basic energy and variable delta energy, RRU basic energy and variable delta energy.

Optionally, the mobile base station energy for calculating the application program uplink and downlink data transmission consumption, specifically includes:

Determine that the data transmit the basic ENERGY E of consumed BBU according to the following formula_{BBU_b_data}:

Wherein, U_maxFor the peak use rate of channel, P_{BBU_min}Indicate the minimum power of BBU, T_{UL_max}Indicate each sector Maximum average uplink throughput, T_{DL_max}Indicate that the maximum of each sector is averaged downlink throughput, T_UL(t) it indicates to connect in data Initial time [the t connect₀, t₁] interior application program uplink data rate, T_DL(t) [t is indicated₀, t₁] interior application program downlink data；

Determine that the data transmit the variable delta ENERGY E of consumed BBU according to the following formula_{BBU_v_data}:

Wherein, P_{BBU_max}Indicate the maximum power of BBU；

Determine that the data transmit the basic ENERGY E of consumed RRU according to the following formula_{RRU_b_data}:

Wherein, P_RFIndicate the power of radio frequency in BBU, P_{PA_min}Indicate the minimum power of BBU intermediate power amplifier PA, RRU Minimum power P_{RRU_min=}P_RF+P_{PA_min}；

Determine that the data transmit the variable delta ENERGY E of consumed RRU according to the following formula_{RRU_v_data}:

Wherein, P_{RRU_max}Indicate the maximum power of RRU.

Optionally, the mobile base station energy of the application program signalling consumption includes BBU consumed by signalling Basic energy and variable delta energy, RRU basic energy and variable delta energy.

Optionally, the mobile base station energy for calculating the application program consumption, specifically includes:

The basic ENERGY E of BBU consumed by the signalling is determined according to the following formula_BBU-b-sig:

Wherein, U_maxFor the peak use rate of channel, R_maxMaximum for the setting mobile base station can use signaling RE resource Rate, P_{BBU_min}Indicate the minimum power of BBU, R_{sig_avg}It is averaged occupancy for the measurement occupied RE resource of signaling, D_sigFor measurement The signaling duration；

The variable delta ENERGY E of BBU consumed by the signalling is determined according to the following formula_BBU-v-sig:

Wherein, P_{BBU_max}Indicate the maximum power of BBU；

The basic ENERGY E of RRU consumed by the signalling is determined according to the following formula_{RRU_b_sig}:

The variable delta ENERGY E of RRU consumed by the signalling is determined according to the following formula_{RRU_v_sig}:

According to an embodiment of the invention, the invention discloses following technical effects:

The appraisal procedure of application program consumption mobile base station energy of the present invention is by calculating separately application program or more line number According to the mobile base station energy of transmission consumption and the mobile base station energy of application program signalling consumption, and then will be in application program Downlink data transmission consumption mobile base station energy and the application program signalling consumption mobile base station energy supposition from And can accurately determine the mobile base station energy of application program consumption, calculate simple, accuracy height.

To achieve the above object, the present invention also provides following schemes:

A kind of assessment system of application program consumption mobile base station energy, the mobile base station include Base Band Unit BBU and Remote radio unit (RRU) RRU, the assessment system include:

Acquiring unit, for obtaining the power parameter of the BBU in setting mobile base station, the power parameter of the RRU And the maximum of each sector is averaged uplink and downlink throughput；

Determination unit, for determining the setting initial time of data connection in the coverage area of the setting mobile base station Be averaged occupancy, signaling of the occupied RE resource of application program uplink and downlink data transfer rate and signaling on interior setting terminal is lasting Time；

First computing unit, for according to the power parameter of the BBU, the power parameter of the RRU, each sector most Averagely uplink and downlink throughput, setting initial time and application program uplink and downlink data transfer rate calculate the application program uplink and downlink greatly The mobile base station energy of data transmission consumption；

Second computing unit, for occupied according to the power parameter of the BBU, the power parameter of the RRU, signaling RE resource is averaged occupancy and the signaling duration calculates the mobile base station energy of the application program signalling consumption；

Superpositing unit, mobile base station energy and the application for consuming application program uplink and downlink data transmission The mobile base station energy supposition of program signalling consumption determines the mobile base station energy of the application program consumption.

Optionally, the assessment system further include:

Grade marks unit, connect with the superpositing unit, the mobile base station energy for being consumed according to the application program Amount marks the network energy consumption grade of the application program.

Optionally, the mobile base station energy of the application program uplink and downlink data transmission consumption includes that data transmission is consumed BBU basic energy and variable delta energy, RRU basic energy and variable delta energy.

Optionally, first computing unit includes:

First data computation module, for determining that the data transmit the basic energy of consumed BBU according to the following formula Measure E_{BBU_b_data}:

Wherein, U_maxFor the peak use rate of channel, P_{BBU_min}Indicate the minimum power of BBU, T_{UL_max}Indicate each sector Maximum average uplink throughput, T_{DL_max}Indicate that the maximum of each sector is averaged downlink throughput, T_UL(t) it indicates to connect in data Initial time [the t connect₀, t₁] interior application program uplink data rate, T_DL(t) [t is indicated₀, t₁] interior application program downlink data rate；

Second data computation module, for determining that the data transmit the variable increasing of consumed BBU according to the following formula Energy E_{BBU_v_data}:

Wherein, P_{BBU_max}Indicate the maximum power of BBU；

Third data computation module, for determining that the data transmit the basic energy of consumed RRU according to the following formula E_{RRU_b_data}:

Wherein, P_RFIndicate the power of radio frequency in BBU, P_{PA_min}Indicate the minimum power of BBU intermediate power amplifier PA, RRU Minimum power P_{RRU_min=}P_RF+P_{PA_min}；

4th data computation module, for determining that the data transmit the variable delta of consumed RRU according to the following formula ENERGY E_{RRU_v_data}:

Wherein, P_{RRU_max}Indicate the maximum power of RRU.

Optionally, the mobile base station energy of the application program signalling consumption includes BBU consumed by signalling Basic energy and variable delta energy, RRU basic energy and variable delta energy.

Optionally, second computing unit includes:

First signaling computing module, for determining the basic energy of BBU consumed by the signalling according to the following formula Measure E_BBU-b-sig:

Wherein, U_maxFor the peak use rate of channel, R_maxMaximum for the setting mobile base station can use signaling RE resource Rate, P_{BBU_min}Indicate the minimum power of BBU, R_{sig_avg}It is averaged occupancy for the measurement occupied RE resource of signaling, D_sigFor measurement The signaling duration；

Second signaling computing module, for determining the variable increasing of BBU consumed by the signalling according to the following formula Energy E_BBU-v-sig:

Third signaling computing module, for determining the basic energy of RRU consumed by the signalling according to the following formula Measure E_{RRU_b_sig}:

4th signaling computing module, for determining the variable increasing of RRU consumed by the signalling according to the following formula Energy E_{RRU_v_sig}:

According to an embodiment of the invention, the invention discloses following technical effects:

The assessment system of application program of the present invention consumption mobile base station energy passes through setting acquiring unit, determination unit, the One computing unit, the second computing unit and superpositing unit can calculate separately the movement of application program uplink and downlink data transmission consumption Base station energy and the mobile base station energy of application program signalling consumption, and then application program uplink and downlink data are transmitted and are consumed Mobile base station energy and the application program signalling consumption mobile base station energy supposition so as to accurately determine application The mobile base station energy of program consumption calculates simple, accuracy height.

Detailed description of the invention

Fig. 1 is the flow chart of the appraisal procedure of application program consumption mobile base station energy of the present invention；

Fig. 2 is the modular structure schematic diagram of the assessment system of application program consumption mobile base station energy of the present invention.

Symbol description:

Acquiring unit -1, determination unit -2, the first computing unit -3, the second computing unit -4, superpositing unit -5, Grade marks unit -6, sets mobile base station -7.

Specific embodiment

The preferred embodiment of the present invention described with reference to the accompanying drawings.It will be apparent to a skilled person that this A little embodiments are used only for explaining technical principle of the invention, it is not intended that limit the scope of the invention.

The object of the present invention is to provide a kind of appraisal procedures of application program consumption mobile base station energy, by calculating separately The mobile base station energy of application program uplink and downlink data transmission consumption and the mobile base station energy of application program signalling consumption, And then the shifting for consuming the mobile base station energy of application program uplink and downlink data transmission consumption and the application program signalling Dynamic base station energy supposition calculates simply, accuracy is high so as to the mobile base station energy of accurately determining application program consumption.

Wherein, LTE, Long Term Evolution, long term evolution are the 4G wireless communication standards of China；RE: In resource elementsLTE network, a symbol, referred to as a RE on a timely domain of subcarrier in frequency.

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, with reference to the accompanying drawing and specific real Applying mode, the present invention is described in further detail.

As shown in Figure 1, the appraisal procedure of application program consumption mobile base station energy of the present invention includes:

Step 100: obtaining the power parameter of the Base Band Unit BBU in setting mobile base station, the function of remote radio unit (RRU) RRU Rate parameter and the maximum of each sector are averaged uplink and downlink throughput；

Step 200: in the coverage area of the setting mobile base station, determining setting in the setting initial time of data connection The occupied RE resource of application program uplink and downlink data transfer rate and signaling in terminal is averaged occupancy, signaling duration；

Step 300: according to the maximum of the power parameter of the BBU, the power parameter of the RRU, each sector it is average on Downlink throughput, setting initial time and application program uplink and downlink data transfer rate calculate the application program uplink and downlink data transmission The mobile base station energy of consumption；

Step 400: flat according to the power parameter of the BBU, the power parameter of the RRU, the occupied RE resource of signaling Equal occupancy and signaling duration calculate the mobile base station energy of the application program signalling consumption；

Step 500: by the mobile base station energy of application program uplink and downlink data transmission consumption and the application program The mobile base station energy supposition of signalling consumption determines the mobile base station energy of the application program consumption；

Step 600: the network energy consumption of the application program is marked according to the mobile base station energy that the application program consumes Grade.

Wherein, the main energy consumption component of each mobile base station includes Base Band Unit (baseband unit, BBU) and distal end Radio frequency unit (radio remote unit, RRU), specifically, the quantity of the BBU are 1, and the quantity of the RRU is 3. Each RRU is mainly made of radio frequency (radio frequency, RF) and power amplifier (power amplifier, PA), often A RRU is responsible for the wireless signal of a sector.Wherein, in step 100, a setting mobile base station must be selected first, measured Perhaps it searches the power parameter of the base station each unit or presets these power parameters.When the setting mobile base station does not have When carrying any business, when output power minimum, the power of each unit is minimum, measures respectively available: the minimum of BBU Power P_{BBU_min}, RF power P_RF, PA minimum power P_{PA_min}, the minimum power P of RRU_{RRU_min=}P_RF+P_{PA_min}.When the shifting When the output power maximum of dynamic base station, the power of each unit is also maximum, measures respectively available: the maximum power of BBU P_{BBU_max}, RRU maximum power P_{RRU_max}.In addition, measuring each sector in available base station when output power in base station maximum Maximum be averaged downlink throughput T_{DL_max}With uplink throughput T_{UL_max}。

In step 200, in the coverage area of the setting mobile base station, one and the setting mobile base station are determined Application program uplink and downlink data transfer rate T in connected terminal_UL(t) and T_DL(t) and the initial time t of data connection₀And t₁, And it measures the occupied RE resource of signaling and is averaged occupancy R_{sig_avg}With signaling duration D_sig.The terminal can be intelligent hand Machine, but be not limited thereto.

In step 300, the mobile base station energy of the application program uplink and downlink data transmission consumption includes data transmission The basic energy and variable delta energy of the basic energy and variable delta energy of consumed BBU, RRU.

Further, the mobile base station energy for calculating the application program uplink and downlink data transmission consumption, it is specific to wrap It includes:

Step 301: determining that the data transmit the basic ENERGY E of consumed BBU according to formula (1)_{BBU_b_data}:

Wherein, U_maxFor the peak use rate of channel, P_{BBU_min}Indicate the minimum power of BBU, T_{UL_max}Indicate each sector Maximum average uplink throughput, T_{DL_max}Indicate that the maximum of each sector is averaged downlink throughput, T_UL(t) it indicates to connect in data Initial time [the t connect₀, t₁] interior application program uplink data rate, T_DL(t) [t is indicated₀, t₁] interior application program downlink data rate. Number 3 represents 3 sectors of base station, only calculates energy consumed by a sector here.

The peak use rate Umax value of the channel is 70%, can be changed according to the difference of mobile base station.

Step 302: determining that the data transmit the variable delta ENERGY E of consumed BBU according to formula (2)_{BBU_v_data}:

Wherein, P_{BBU_max}Indicate the maximum power of BBU.

Step 303: determining that the data transmit the basic ENERGY E of consumed RRU according to formula (3)_{RRU_b_data}:

Wherein, P_RFIndicate the power of radio frequency in BBU, P_{PA_min}Indicate the minimum power of BBU intermediate power amplifier PA, RRU Minimum power P_{RRU_min=}P_RF+P_{PA_min}。

Step 304: determining that the data transmit the variable delta ENERGY E of consumed RRU according to formula (4)_{RRU_v_data}:

Wherein, P_{RRU_max}Indicate the maximum power of RRU.

In step 400, the mobile base station energy of the application program signalling consumption includes that signalling is consumed BBU basic energy and variable delta energy, RRU basic energy and variable delta energy.

Further, the mobile base station energy for calculating the application program consumption, specifically includes:

Step 401: the basic ENERGY E of BBU consumed by the signalling is determined according to formula (5)_BBU-b-sig:

Wherein, U_maxFor the peak use rate of channel, R_maxMaximum for the setting mobile base station can use signaling RE resource Rate, P_{BBU_min}Indicate the minimum power of BBU, R_{sig_avg}It is averaged occupancy for the measurement occupied RE resource of signaling, D_sigFor measurement The signaling duration.

In LTE, under different bandwidth situations, the number of RE can be different, herein, it is assumed that the bandwidth of LTE network For 20MHz, then a total of 100080 RE in each frame, these RE are respectively used to uplink and downlink signaling and data, in LTE specification In, some RE are fixed for certain purposes, some RE according to circumstances can temporarily convert purposes, are accordingly used in RE number of signaling It is dynamically, the RE of be possibly used for signaling to be calculated, every frame has 36552 signaling RE.In LTE, a frame continues Time be 10ms, therefore maximum can with signaling RE resource utilization be 3655200 RE it is per second, here it is R_maxValue.

Step 402: the variable delta ENERGY E of BBU consumed by the signalling is determined according to formula (6)_BBU-v-sig:

Wherein, P_{BBU_max}Indicate the maximum power of BBU.

Step 403: the basic ENERGY E of RRU consumed by the signalling is determined according to formula (7)_{RRU_b_sig}:

Step 404: the variable delta ENERGY E of RRU consumed by the signalling is determined according to formula (8)_{RRU_v_sig}:

In step 500, the mobile base station ENERGY E of the application program consumption_APPAre as follows:

E_APP=E_{BBU_b_data}+E_{BBU_v_data}+E_{RRU_b_data}+E_{RRU_v_data}+(9)

E_BBU-b-sig+E_BBU-v-sig+E_{RRU_b_sig}+E_{RRU_v_sig}

The appraisal procedure of application program consumption mobile base station energy can accurately determine different application pair through the invention In the entire effect of mobile base station power consumption；Data and signaling caused by application program can be distinguished for the difference of base station energy consumption It influences.It further, can be according to the mobile base station ENERGY E for calculating application program consumption_APPFor guidance, network operation machine is effectively adjusted System achievees the purpose that save energy.

In addition, the present invention also provides a kind of assessment systems of application program consumption mobile base station energy, it may be determined that Mei Geying With the energy of program consumption mobile base station.

Wherein, the main energy consumption component of each mobile base station includes BBU and RRU, and specifically, the quantity of the BBU is 1 A, the quantity of the RRU is 3.Each RRU is mainly by radio frequency (radio frequency, RF) and power amplifier (power Amplifier, PA) composition, the wireless signal of the responsible sector each RRU.

As shown in Fig. 2, the assessment system of application program consumption mobile base station energy of the present invention includes acquiring unit 1, determines Unit 2, the first computing unit 3, the second computing unit 4, superpositing unit 5 and grade mark unit 6.

Wherein, the acquiring unit 1 is used to obtain power parameter, the RRU of the BBU in setting mobile base station 7 Power parameter and the maximum of each sector be averaged uplink and downlink throughput.

The determination unit 2 is used within the scope of 7 lid of setting mobile base station, when determining the setting starting of data connection Be averaged occupancy, signaling of the occupied RE resource of application program uplink and downlink data transfer rate and signaling on interior setting terminal is held The continuous time.

First computing unit 3 is used for according to the power parameter of the BBU, the power parameter of the RRU, each sector Be averaged uplink and downlink throughput, setting initial time and application program uplink and downlink data transfer rate of maximum calculate in the application program The mobile base station energy of downlink data transmission consumption.

Second computing unit 4 is used for according to shared by the power parameter of the BBU, the power parameter of the RRU, signaling RE resource is averaged occupancy and the signaling duration calculates the mobile base station energy of the application program signalling consumption.

The superpositing unit 5 is used for the mobile base station energy and described of application program uplink and downlink data transmission consumption The mobile base station energy supposition of application program signalling consumption determines the mobile base station energy of the application program consumption.

The grade mark unit 6 is connect with the superpositing unit 5, the mobile base for being consumed according to the application program Energy of standing marks the network energy consumption grade of the application program.

Optionally, the mobile base station energy of the application program uplink and downlink data transmission consumption includes that data transmission is consumed BBU basic energy and variable delta energy, RRU basic energy and variable delta energy.

Further, first computing unit 3 includes the first data computation module, the second data computation module, third Data computation module and the 4th data computation module.

Wherein, first data computation module is used to determine that the data transmit consumed BBU's according to formula (1) Basic ENERGY E_{BBU_b_data}:

Wherein, U_maxFor the peak use rate of channel, P_{BBU_min}Indicate the minimum power of BBU, T_{UL_max}Indicate each sector Maximum average uplink throughput, T_{DL_max}Indicate that the maximum of each sector is averaged downlink throughput, T_UL(t) it indicates to connect in data Initial time [the t connect₀, t₁] interior application program uplink data rate, T_DL(t) [t is indicated₀, t₁] interior application program downlink data rate.

Second data computation module is used to determine that the data transmit the variable of consumed BBU according to formula (2) Incremental energy E_{BBU_v_data}:

Wherein, P_{BBU_max}Indicate the maximum power of BBU.

The third data computation module is used to determine that the data transmit the basic energy of consumed RRU according to formula (3) Measure E_{RRU_b_data}:

Wherein, P_RFIndicate the power of radio frequency in BBU, P_{PA_min}Indicate the minimum power of BBU intermediate power amplifier PA, RRU Minimum power P_{RRU_min=}P_RF+P_{PA_min}。

4th data computation module is used to determine that the data transmit the variable increasing of consumed RRU according to formula (4) Energy E_{RRU_v_data}:

Wherein, P_{RRU_max}Indicate the maximum power of RRU.

Optionally, the mobile base station energy of the application program signalling consumption includes BBU consumed by signalling Basic energy and variable delta energy, RRU basic energy and variable delta energy.

Further, second computing unit 4 includes the first signaling computing module, the second signaling computing module, third Signaling computing module and the 4th signaling computing module.

Wherein, the first signaling computing module is used to determine BBU's consumed by the signalling according to formula (5) Basic ENERGY E_BBU-b-sig:

Wherein, U_maxFor the peak use rate of channel, R_maxMaximum for the setting mobile base station can use signaling RE resource Rate, P_{BBU_min}Indicate the minimum power of BBU, R_{sig_avg}It is averaged occupancy for the measurement occupied RE resource of signaling, D_sigFor measurement The signaling duration.

The second signaling computing module is used to determine that BBU's consumed by the signalling is variable according to formula (6) Incremental energy E_BBU-v-sig:

Wherein, PBBU_max indicates the maximum power of BBU.

The third signaling computing module is used to determine that RRU's consumed by the signalling is basic according to formula (7) ENERGY E_{RRU_b_sig}:

The 4th signaling computing module is used to determine that RRU's consumed by the signalling is variable according to formula (8) Incremental energy E_{RRU_v_sig}:

The superpositing unit 5 determines the mobile base station ENERGY E of the application program consumption_APPAre as follows:

E_APP=E_{BBU_b_data}+E_{BBU_v_data}+E_{RRU_b_data}+E_{RRU_v_data}+(9)

E_BBU-b-sig+E_BBU-v-sig+E_{RRU_b_sig}+E_{RRU_v_sig}

Compared with the existing technology, the assessment system and above-mentioned application program of application program consumption mobile base station energy of the present invention The beneficial effect for consuming the appraisal procedure of mobile base station energy is identical, and details are not described herein.

So far, it has been combined preferred embodiment shown in the drawings and describes technical solution of the present invention, still, this field Technical staff is it is easily understood that protection scope of the present invention is expressly not limited to these specific embodiments.Without departing from this Under the premise of the principle of invention, those skilled in the art can make equivalent change or replacement to the relevant technologies feature, these Technical solution after change or replacement will fall within the scope of protection of the present invention.

Claims (4)

1. a kind of appraisal procedure of application program consumption mobile base station energy, which is characterized in that the appraisal procedure includes:

Obtain the power parameter of Base Band Unit BBU in setting mobile base station, the power parameter of remote radio unit (RRU) RRU and each The maximum of sector is averaged uplink and downlink throughput；

In the coverage area of the setting mobile base station, the application in the setting initial time of data connection on setting terminal is determined Program uplink and downlink data transfer rate and the occupied RE resource of signaling are averaged occupancy, signaling duration；

According to the power parameter of the BBU, the power parameter of the RRU, each sector maximum be averaged uplink and downlink throughput, set Determine initial time and application program uplink and downlink data transfer rate calculates the mobile base of the application program uplink and downlink data transmission consumption It stands energy；

It is averaged occupancy and letter according to the power parameter of the BBU, the power parameter of the RRU, the occupied RE resource of signaling The duration is enabled to calculate the mobile base station energy of the application program signalling consumption；

By the mobile base station energy of application program uplink and downlink data transmission consumption and application program signalling consumption Mobile base station energy supposition determine the mobile base station energy of application program consumption；

The mobile base station energy of the application program uplink and downlink data transmission consumption includes the basic of BBU consumed by data are transmitted The basic energy and variable delta energy of energy and variable delta energy, RRU；

The mobile base station energy for calculating the application program uplink and downlink data transmission consumption, specifically includes:

Determine that the data transmit the basic ENERGY E of consumed BBU according to the following formula_{BBU_b_data}:

Wherein, U_maxFor the peak use rate of channel, P_{BBU_min}Indicate the minimum power of BBU, T_{UL_max}Indicate the maximum of each sector Average uplink throughput, T_{DL_max}Indicate that the maximum of each sector is averaged downlink throughput, T_UL(t) rising in data connection is indicated Begin time [t₀, t₁] interior application program uplink data rate, T_DL(t) [t is indicated₀, t₁] interior application program downlink data rate；

Determine that the data transmit the variable delta ENERGY E of consumed BBU according to the following formula_{BBU_v_data}:

Wherein, P_{BBU_max}Indicate the maximum power of BBU；

Determine that the data transmit the basic ENERGY E of consumed RRU according to the following formula_{RRU_b_dat}:

Wherein, P_RFIndicate the power of radio frequency in BBU, P_{PA_min}Indicate the minimum power of BBU intermediate power amplifier PA, RRU is most Small-power P_{RRU_min}=P_RF+P_{PA_min}；

Determine that the data transmit the variable delta ENERGY E of consumed RRU according to the following formula_{RRU_v_data}:

Wherein, P_{RRU_max}Indicate the maximum power of RRU；

The mobile base station energy of application program signalling consumption include BBU consumed by signalling basic energy and The basic energy and variable delta energy of variable delta energy, RRU；

The mobile base station energy for calculating the application program consumption, specifically includes:

The basic ENERGY E of BBU consumed by the signalling is determined according to the following formula_{BBU_b_sig}:

Wherein, U_maxFor the peak use rate of channel, R_maxMaximum for the setting mobile base station can use signaling RE resource utilization, P_{BBU_min}Indicate the minimum power of BBU, R_{sig_avg}It is averaged occupancy for the measurement occupied RE resource of signaling, D_sigTo measure signaling Duration；

The variable delta ENERGY E of BBU consumed by the signalling is determined according to the following formula_{BBU_v_sig}:

Wherein, P_{BBU_max}Indicate the maximum power of BBU；

The basic ENERGY E of RRU consumed by the signalling is determined according to the following formula_{RRU_b_sig}:

The variable delta ENERGY E of RRU consumed by the signalling is determined according to the following formula_{RRU_v_sig}:

2. the appraisal procedure according to claim 1 with program consumption mobile base station energy, which is characterized in that the assessment Method further include:

The network energy consumption grade of the application program is marked according to the mobile base station energy that the application program consumes.

3. a kind of assessment system of application program consumption mobile base station energy, the mobile base station includes Base Band Unit BBU and remote End-fire frequency unit R RU, which is characterized in that the assessment system includes:

Acquiring unit, for obtaining the power parameter of the BBU in setting mobile base station, the power parameter of the RRU and every The maximum of a sector is averaged uplink and downlink throughput；

Determination unit, for determining and being set in the setting initial time of data connection in the coverage area of the setting mobile base station Determine the occupied RE resource of application program uplink and downlink data transfer rate and signaling in terminal to be averaged occupancy, signaling duration；

First computing unit, for flat according to the maximum of the power parameter of the BBU, the power parameter of the RRU, each sector Equal uplink and downlink throughput, setting initial time and application program uplink and downlink data transfer rate calculate the application program uplink and downlink data Transmit the mobile base station energy of consumption；

Second computing unit, for being provided according to the power parameter of the BBU, the power parameter of the RRU, the occupied RE of signaling Source is averaged occupancy and the signaling duration calculates the mobile base station energy of the application program signalling consumption；

Superpositing unit, mobile base station energy and the application program for consuming application program uplink and downlink data transmission The mobile base station energy supposition of signalling consumption determines the mobile base station energy of the application program consumption；

The mobile base station energy of the application program uplink and downlink data transmission consumption includes the basic of BBU consumed by data are transmitted The basic energy and variable delta energy of energy and variable delta energy, RRU；

First computing unit includes:

First data computation module, for determining that the data transmit the basic energy of consumed BBU according to the following formula E_{BBU_b_data}:

Wherein, U_maxFor the peak use rate of channel, P_{BBU_min}Indicate the minimum power of BBU, T_{UL_max}Indicate the maximum of each sector Average uplink throughput, T_{DL_max}Indicate that the maximum of each sector is averaged downlink throughput, T_UL(t) rising in data connection is indicated Begin time [t₀, t₁] interior application program uplink data rate, T_DL(t) [t is indicated₀, t₁] interior application program downlink data rate；

Second data computation module, for determining that the data transmit the variable delta energy of consumed BBU according to the following formula Measure E_{BBU_v_data}:

Wherein, P_{BBU_max}Indicate the maximum power of BBU；

Third data computation module, for determining that the data transmit the basic energy of consumed RRU according to the following formula E_{RRU_b_data}:

Wherein, P_RFIndicate the power of radio frequency in BBU, P_{PA_min}Indicate the minimum power of BBU intermediate power amplifier PA, RRU is most Small-power P_{RRU_min}=P_RF+P_{PA_min}；

4th data computation module, for determining that the data transmit the variable delta energy of consumed RRU according to the following formula E_{RRU_v_data}:

Wherein, P_{RRU_max}Indicate the maximum power of RRU；

The mobile base station energy of application program signalling consumption include BBU consumed by signalling basic energy and The basic energy and variable delta energy of variable delta energy, RRU；

Second computing unit includes:

First signaling computing module, for determining the basic energy of BBU consumed by the signalling according to the following formula E_{BBU_b_sig}:

Wherein, U_maxFor the peak use rate of channel, R_maxMaximum for the setting mobile base station can use signaling RE resource utilization, P_{BBU_min}Indicate the minimum power of BBU, R_{sig_avg}It is averaged occupancy for the measurement occupied RE resource of signaling, D_sigTo measure signaling Duration；

Second signaling computing module, for determining the variable delta energy of BBU consumed by the signalling according to the following formula Measure E_{BBU_v_sig}:

Wherein, P_{BBU_max}Indicate the maximum power of BBU；

Third signaling computing module, for determining the basic energy of RRU consumed by the signalling according to the following formula E_{RRU_b_sig}:

4th signaling computing module, for determining the variable delta energy of RRU consumed by the signalling according to the following formula Measure E_{RRU_v_sig}:

4. the assessment system of application program consumption mobile base station energy according to claim 3, which is characterized in that institute's commentary Estimate system further include:

Grade marks unit, connect with the superpositing unit, the mobile base station energy mark for being consumed according to the application program Infuse the network energy consumption grade of the application program.