CN109327815B - Income calculation method and device for logic station - Google Patents

Abstract

The embodiment of the invention provides a method and a device for calculating income of a logic station, relates to the technical field of communication, and solves the problem of more accurately calculating the actual income of a base station. The method comprises the steps of obtaining communication data of at least one user in a logic station to be evaluated in a designated time; screening non-silent users meeting preset conditions according to the communication data; determining a reduced traffic CV of the non-silent user according to the communication data of the non-silent user, the conversion factor of the intra-package traffic and the conversion factor of the extra-package traffic; determining a reduced traffic unit price P of the non-silent user according to the communication data and the reduced traffic CV of the non-silent user; and determining the total income R of the logic station to be evaluated according to the converted traffic CV of at least one non-silent user and the converted traffic unit price P. The embodiment of the invention is used for providing a income calculation method of a logic station.

Description

Income calculation method and device for logic station

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a method and an apparatus for calculating revenue of a logical station.

Background

At present, the construction work of the basic network is completed by domestic operators, the construction process is often accompanied with the characteristics of long project period, large investment, unclear construction range and the like, and enough attention should be paid to how to operate the base station after the construction is completed and whether the investment management is reasonable or not.

The traditional algorithm of base station income at present uses a method of multiplying the traffic under the base station by the unit price of unified traffic in a district, and the traditional algorithm does not consider the unit price difference of the traffic caused by different packages and usage of users under the base station, so that the problems of extensive base station income calculation method, large calculation result error and the like exist.

From the above, how to calculate the actual revenue of the base station more accurately becomes a problem to be solved urgently.

Disclosure of Invention

Embodiments of the present invention provide a method and an apparatus for calculating revenue of a logical station, which solve the problem of how to calculate the actual revenue of a base station more accurately.

In order to achieve the above purpose, the embodiment of the invention adopts the following technical scheme:

in a first aspect, an embodiment of the present invention provides a method for calculating revenue of a logical station, including: acquiring communication data of at least one user in a logic station to be evaluated within a specified time; the communication data at least comprises any one of a voice service detail list, a data service detail list and bill data, wherein the voice service detail list comprises the total voice call duration, the data service detail list comprises the total usage amount of data flow, and the bill data comprises the total consumption amount; screening non-silent users meeting preset conditions according to the communication data; the preset conditions are that the total consumption amount is greater than 0 amount and the total duration of the voice call is greater than 0, or the total consumption amount is greater than 0 and the total usage amount of the data traffic is greater than 0; determining a reduced traffic CV of the non-silent user according to the communication data of the non-silent user, the conversion factor of the intra-package traffic and the conversion factor of the extra-package traffic; determining the reduced traffic unit price P of the non-silent user according to the communication data of the non-silent user and the reduced traffic of the user; and determining the total income R of the logic station to be evaluated according to the converted traffic CV of at least one non-silent user and the converted traffic unit price P.

According to the scheme, although some users consume in practical application, no voice service or data service is used, so that the consumption of the users cannot be directly matched with the corresponding communication cell; therefore, in the income calculation method of the logic station provided by the embodiment of the present invention, the communication data of at least one user in the logic station to be evaluated in the designated time is screened, so as to obtain the non-silent user meeting the preset condition, and the converted traffic CV and the converted traffic unit price P of each non-silent user are calculated by the intra-meal traffic conversion factor and the extra-package traffic conversion factor, which is convenient for the operator to directly compare the data; the total income R of the logic station to be evaluated is determined through the converted business volume CV and the converted business volume unit price P of at least one non-silent user, so that the actual income of the logic station can be more accurately calculated; the problem of how to calculate the actual income of the base station more accurately is solved.

Optionally, the voice service detail list further includes any one of a time length of a voice calling in the package, a time length of a called in the package, a time length of a foreign voice calling in the package, and a time length of a voice called outside the package, and the data service detail list further includes data service detailsThe list at least comprises any one of package internal data uplink traffic, package internal data downlink traffic, package external data uplink traffic and package external data downlink traffic; determining the reduced traffic CV of the non-silent user according to the communication data of the non-silent user, the conversion factor of the intra-package traffic and the conversion factor of the extra-package traffic, comprising the following steps: determining a reduced traffic CV of the non-silent user according to the inter-package voice calling time length, the inter-package called time length, the inter-package foreign voice calling time length, the inter-package voice called time length, the intra-package data uplink traffic, the intra-package data downlink traffic, the extra-package data uplink traffic, the extra-package data downlink traffic, the intra-package traffic conversion factor and the extra-package traffic conversion factor of the non-silent user; wherein the reduced traffic CV is equal to (T)₁+T₂)×α+(W₁+W₂)+(T′₁+T′₂)×β+(W′₁+W′₂)，T₁Indicating the duration of a voice call in a package, T₂Represents the called duration, T 'in the set meal'₁Represents the out-of-package voice calling duration, T'₂Duration of voice called outside package, W₁Indicating data upstream traffic in a package, W₂Represents the data downlink traffic volume, W 'in the package'₁Represents package off-board data uplink traffic, W'₂And the data downlink traffic outside the package is represented, alpha represents a package internal traffic conversion factor, and beta represents a package external traffic conversion factor.

Optionally, determining a reduced traffic unit price P of the non-silent user according to the communication data and the reduced traffic CV of the non-silent user includes: determining the reduced traffic unit price P of the non-silent user according to the total consumption amount and the reduced traffic CV of the non-silent user; wherein the reduced traffic unit price P is equal to

ARPU represents the total amount of consumption.

Optionally, the logic station to be evaluated includes i communication cells, the voice service detail further includes a different network call duration, and i is an integer greater than or equal to 1; reduced traffic based on at least one non-silent userCV and a reduced traffic unit price P, determining the total income R of the logic station to be evaluated, comprising the following steps: determining the actual income M of the nth communication cell according to the converted traffic CV and the converted traffic unit price P of each non-silent user in the nth communication cell_n(ii) a Wherein the actual income M_nIs equal to P × CV_n+N×γ，CV_nRepresenting the total conversion traffic of the non-silent user in the nth communication cell, N representing the call duration of the different network, gamma representing the call unit price of the different network, and N being the [1, i ∈](ii) a According to the actual income M of each communication cell in the i communication cells_nDetermining the total income R of the logic station to be evaluated; wherein the total income R is equal to

Optionally, the method further includes: screening silent users which do not meet preset conditions according to the communication data; determining the total income R of the logic station to be evaluated according to the converted traffic CV and the converted traffic unit price P of at least one non-silent user, comprising the following steps: obtaining total revenue R of silent users_SilencingAnd total revenue R of non-silent users_Non-silent(ii) a According to the actual income M of the nth communication cell_nTotal revenue R of silent users_SilencingAnd total revenue R of non-silent users_Non-silentDetermining the total income R of the logic station to be evaluated; wherein the total income R of the logical station to be evaluated is equal to

In a second aspect, an embodiment of the present invention provides a revenue calculation apparatus for a logical station, including: the system comprises an acquisition unit, a processing unit and a processing unit, wherein the acquisition unit is used for acquiring communication data of at least one user in a logic station to be evaluated within a specified time; the communication data at least comprises any one of a voice service detail list, a data service detail list and bill data, wherein the voice service detail list comprises the total voice call duration, the data service detail list comprises the total usage amount of data flow, and the bill data comprises the total consumption amount; the screening unit is used for screening the non-silent users meeting the preset conditions according to the communication data acquired by the acquisition unit; the preset conditions are that the total consumption amount is greater than 0 and the total duration of the voice call is greater than 0, or the total consumption amount is greater than 0 and the total usage amount of the data traffic is greater than 0; the processing unit is used for determining the converted traffic CV of the non-silent user according to the communication data of the non-silent user, the conversion factor of the intra-package traffic and the conversion factor of the extra-package traffic which are screened by the screening unit; the processing unit is also used for determining the unit price P of the converted service volume of the non-silent user according to the communication data and the converted service volume CV of the non-silent user screened by the screening unit; and the processing unit is also used for determining the total income R of the logic station to be evaluated according to the converted traffic CV and the converted traffic unit price P of at least one non-silent user.

Optionally, the voice service detail list further includes any one of a package internal voice calling time length, a package internal called time length, a package external voice calling time length and a package external voice called time length, and the data service detail list at least includes any one of a package internal data uplink service volume, a package internal data downlink service volume, a package external data uplink service volume and a package external data downlink service volume; the processing unit is specifically used for determining the converted traffic CV of the non-silent user according to the set meal internal voice calling time length, the set meal internal called time length, the set meal foreign voice calling time length, the set meal external voice called time length, the set meal internal data uplink traffic, the set meal internal data downlink traffic, the set meal external data uplink traffic, the set meal external data downlink traffic, the set meal internal traffic conversion factor and the set meal external traffic conversion factor of the non-silent user, which are screened by the screening unit; wherein the reduced traffic CV is equal to (T)₁+T₂)×α+(W₁+W₂)+(T′₁+T′₂)×β+(W′₁+W′₂)，T₁Indicating the duration of a voice call in a package, T₂Represents the called duration, T 'in the set meal'₁Represents the out-of-package voice calling duration, T'₂Duration of voice called outside package, W₁Indicating data upstream traffic in a package, W₂Represents the data downlink traffic volume, W 'in the package'₁Represents package off-board data uplink traffic, W'₂Represents the downlink traffic of the data outside the package, and alpha represents the service inside the packageAnd the traffic conversion factor beta represents the conversion factor of the traffic outside the package.

Optionally, the processing unit is specifically configured to determine a reduced traffic unit price P of the non-silent user according to the total consumption amount and the reduced traffic CV of the non-silent user screened by the screening unit; wherein the reduced traffic unit price P is equal to

ARPU represents the total amount of consumption.

Optionally, the logic station to be evaluated includes i communication cells, and the voice service detail further includes a different network call duration; a processing unit, specifically configured to determine an actual revenue M of the nth communication cell according to the reduced traffic CV and the reduced traffic unit price P of each non-silent user in the nth communication cell_n(ii) a Wherein the actual income M_nIs equal to P × CV_n+N×γ，CV_nRepresenting the total conversion traffic of the non-silent user in the nth communication cell, N representing the call duration of the different network, gamma representing the call unit price of the different network, and N being the [1, i ∈](ii) a A processing unit, in particular for determining the actual income M of each of the i communication cells_nDetermining the total income R of the logic station to be evaluated; wherein the total income R is equal to

Optionally, the screening unit is further configured to screen the silent users that meet the preset condition according to the communication data acquired by the acquiring unit; an acquisition unit, in particular for acquiring a total revenue R of a silent user_SilencingAnd total revenue R of non-silent users_Non-silent(ii) a A processing unit, specifically for determining the actual income M of the nth communication cell_nAnd the total income R of the silent users acquired by the acquisition unit_SilencingAnd the total income R of the non-silent users acquired by the acquisition unit_Non-silentDetermining the total income R of the logic station to be evaluated; wherein the total income R of the logical station to be evaluated is equal to

A third aspect, an embodiment of the present invention, provides a computer storage medium comprising instructions that, when run on a computer, cause the computer to perform the method for revenue calculation of a logical station as set forth in any one of the above provided first aspects.

In a fourth aspect, an embodiment of the present invention provides a revenue calculation apparatus for a logical station, including: communication interface, processor, memory, bus; the memory is configured to store computer executable instructions, the processor is connected to the memory via the bus, and when the revenue calculating means of the logical station is operated, the processor executes the computer executable instructions stored in the memory to cause the revenue calculating means of the logical station to perform the revenue calculating method of the logical station as set forth in any one of the above-mentioned first aspects.

It is understood that the revenue calculation apparatus of any one of the above-mentioned logic stations is configured to perform the method according to the above-mentioned first aspect, and therefore, the beneficial effects achieved by the revenue calculation apparatus can refer to the beneficial effects of the method according to the above-mentioned first aspect and the corresponding solutions in the following detailed description, which are not described herein again.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flow chart of a method for calculating revenue of a logical station according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a logic operation of a method for calculating revenue of a logic station in practical application according to an embodiment of the present invention;

fig. 3 is a schematic diagram of an algorithm difference distribution in practical application of a method for calculating revenue of a logical station according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a revenue calculation apparatus for a logic station according to an embodiment of the present invention;

fig. 5 is a second schematic structural diagram of a revenue calculation apparatus of a logic station according to an embodiment of the present invention.

Reference numerals:

revenue calculation means-10 of the logical station;

an acquisition unit-101; a screening unit-102; a processing unit-103.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

For the convenience of clearly describing the technical solutions of the embodiments of the present invention, in the embodiments of the present invention, the words "first", "second", and the like are used for distinguishing the same items or similar items with basically the same functions and actions, and those skilled in the art can understand that the words "first", "second", and the like are not limited in number or execution order.

In the embodiments of the present invention, words such as "exemplary" or "for example" are used to mean serving as examples, illustrations or descriptions. Any embodiment or design described as "exemplary" or "e.g.," an embodiment of the present invention is not necessarily to be construed as preferred or advantageous over other embodiments or designs. Rather, use of the word "exemplary" or "such as" is intended to present concepts related in a concrete fashion.

In the description of the embodiments of the present invention, the meaning of "a plurality" means two or more unless otherwise specified. For example, a plurality of networks refers to two or more networks.

The term "and/or" herein is merely an association describing an associated object, meaning that three relationships may exist, e.g., a and/or B, may mean: a exists alone, A and B exist simultaneously, and B exists alone. The symbol "/" herein denotes a relationship in which the associated object is or, for example, a/B denotes a or B.

In the prior art, the method for accounting the base station income is generally as follows:

the method A comprises the following steps: and respectively counting the voice traffic and the data traffic of the logic station through the telephone traffic data, and multiplying the voice traffic and the data traffic by the unit price of the traffic of the whole region to calculate the income of the logic station.

The method B comprises the following steps: and calculating the total income of all users in the area through bills, calculating the number of all logical stations in the area, and estimating the income of the logical stations through the income total/the number of the logical stations.

The method has the problems that factors such as unit price difference among users with different packages and different dosages under a base station are not considered, the method is extensive, calculation errors are large and the like; in order to solve the above problems, the present invention, starting from the market aperture, converts voice traffic and data traffic into unified converted traffic through an intra-meal traffic conversion factor and an extra-meal traffic conversion factor, and simultaneously considers the difference of each user and calculates the converted traffic unit price of each user, so as to determine the total income R of the logical station to be evaluated according to the converted traffic CV and the converted traffic unit price P of at least one non-silent user, specifically, the present invention takes the example of calculating the income of the logical station under the third Generation mobile communication technology (3 rd-Generation, abbreviated as 3G) network as an example, and the income of the logical station of other networks can be calculated by referring to the calculation mode of the 3G network, and is not repeated here; the other networks at least include any one of a second Generation Mobile Communication Technology (2G), a fourth Generation Mobile Communication Technology (4G) and a fifth Generation Mobile Communication Technology (5G).

Example one

An embodiment of the present invention provides a method for calculating revenue of a logical station, as shown in fig. 1, including:

s101, acquiring communication data of at least one user in a logic station to be evaluated within a specified time; the communication data at least comprises any one of a voice service detail list, a data service detail list and bill data, the voice service detail list comprises the total voice call duration, the data service detail list comprises the total usage amount of data flow, and the bill data comprises the total consumption amount.

It should be noted that, in practical applications, the voice service details are as follows: the voice service detail record records the detailed information data of each voice call service of the user in the account period, and the information field comprises: province, International Mobile Subscriber Identity Number (IMSI) of the user, Identity Number (ID) of the user, International Mobile Equipment Identity (IMEI) of the user, home Number attribution, home Number roaming place, CELL Identity (CELL ID), Location Area Code (LAC), access base station type, opposite terminal Number, opposite terminal attribution, opposite terminal operator, start date, start time, end date, end time, call type, long distance type, roaming type, free mark, call duration, preferential basic fee, and the like.

Data service detail list: the detailed data service record records the detailed information data of each data service of the user in the account period, and the information field comprises: province, user ID, user IMSI, user IMEI, start date, start time, communication time, CELLID, location cell number LAC, access base station type, home location, roaming type, free traffic, uplink traffic, downlink traffic, pre-preferential basic charge, post-preferential basic charge and the like.

Billing data: a consumption summary for reflecting the monthly billing period of the subscriber, the information field comprising: month, province, city, User ID, User IMEI, User IMSI, service type, VIP level, payment mode, product category, network access time, whether on network, whether account is paid in the current period, whether network card is on, client age, client gender, call duration, call times, total traffic of intra-province roaming, total traffic of inter-province roaming, total traffic of international roaming, monthly consumption expense (such as Average income Per User (ARPU for short), etc.).

S102, screening non-silent users meeting preset conditions according to communication data; the preset conditions are that the total consumption amount is greater than 0 amount and the total duration of the voice call is greater than 0, or the total consumption amount is greater than 0 and the total usage amount of the data traffic is greater than 0.

It should be noted that, in practical application, account statement data is first screened to screen out non-silent users, and the definition of the non-silent users is as follows: and (3) users who have a charge (consumption expenditure (except package basic consumption) >0) and have voice traffic not 0 (the total call duration is more than 0) or data traffic not 0 (the total usage of data traffic is more than 0) during the statistical window (specified time). The reason for screening the users is that silent users can not be matched with the base station because no voice service or data service occurs although the silent users are paid out; therefore, it is necessary to exclude this part of users (silent users) first.

S103, determining the reduced traffic CV of the non-silent user according to the communication data of the non-silent user, the conversion factor of the intra-package traffic and the conversion factor of the extra-package traffic.

Optionally, the voice service detail list further includes any one of a package internal voice calling time length, a package internal called time length, a package external voice calling time length and a package external voice called time length, and the data service detail list at least includes any one of a package internal data uplink service volume, a package internal data downlink service volume, a package external data uplink service volume and a package external data downlink service volume; determining the reduced traffic CV of the non-silent user according to the communication data of the non-silent user, the conversion factor of the intra-package traffic and the conversion factor of the extra-package traffic, comprising the following steps:

s1030, determining the reduced traffic CV of the non-silent user according to the in-package voice calling time, the in-package called time, the in-package foreign voice calling time, the out-package voice called time, the in-package data uplink traffic, the in-package data downlink traffic, the out-package data uplink traffic, the out-package data downlink traffic, the in-package traffic conversion factor and the out-package traffic conversion factor of the non-silent user.

Wherein the reduced traffic CV is equal to (T)₁+T₂)×α+(W₁+W₂)+(T′₁+T′₂)×β+(W′₁+W′₂)，T₁Indicating the duration of a voice call in a package, T₂Represents the called duration, T 'in the set meal'₁Represents the out-of-package voice calling duration, T'₂Duration of voice called outside package, W₁Indicating data upstream traffic in a package, W₂Represents the data downlink traffic volume, W 'in the package'₁Represents package off-board data uplink traffic, W'₂And the data downlink traffic outside the package is represented, alpha represents a package internal traffic conversion factor, and beta represents a package external traffic conversion factor.

It should be noted that, in practical applications, because the actual charging modes of different services (such as package types) are different, the comparison is convenient by converting the traffic of different services into uniform traffic; specifically, the basic idea of converting the traffic of different services into uniform traffic is to determine the conversion ratio according to the market value of the unit traffic of the voice service and the market value of the unit traffic of the data service; the ratio of the market price per unit traffic of voice traffic to the market price per unit traffic of data traffic is referred to as a traffic conversion factor.

The monthly bill cost of the 3G network user consists of main package cost and package cost, and the service volume of the user is divided into package service and package service outside to calculate the service volume conversion factor of the user by considering that the price of unit service volume in the package and the price of unit service volume outside the package are different.

The following table is the apportionment proportion of the charge of the in-package electricity display service, the voice service and the data service of all national packages of 3G users of a certain operator, and the market price of the unit service volume of the voice service and the market price of the unit service volume of the data service in different packages can be obtained through calculation. It can be seen that the unit price of voice traffic is 0.02-0.06 yuan/min and the unit price of data traffic is 0.05-0.13 yuan/Mbyte in these 13 different packages, and although the unit prices of voice and data traffic differ more between packages, the ratio of voice traffic unit price/data traffic unit price is substantially constant, and the ratio fluctuates between 0.48-0.49, so the mode 0.49 is taken as the intra-package traffic conversion factor.

TABLE 1

For services that occur outside of a package, the traffic conversion factor is an example of the ratio of the price per minute of voice traffic to the price per megabyte (Mbyte) of data traffic. For a certain operator 3G user, the voice price cost is 0.15 yuan/minute, the data price cost is 0.3 yuan/Mbyte, and the conversion factor of the off-package traffic is 0.5 through calculation.

For voice services, the traffic volume is the sum of the traffic volumes of the calling party and the called party, because although the called party does not generate charges from the charging perspective, the called party traffic volume is borne in the actual passing process to contribute to the call, so the called part should be also included in the calculation when the single station income is calculated.

The calculation formula for converting the traffic of different services into uniform traffic is as follows: the method comprises the following steps that (a packet internal voice calling time length + a packet internal called time length) is a packet internal traffic conversion factor + (a packet internal data uplink traffic length + a packet internal data downlink traffic length) + (a packet foreign voice calling time length + a packet external called time length) is a packet external traffic conversion factor + (a packet external data uplink traffic length + a packet external data downlink traffic length); wherein: the voice calling time length and the called time length are the time length of the actual call service of the user, the unit is second, and the voice calling time length and the called time length are taken from a 'call time length' field of a voice service detail list; the data traffic is the data traffic actually used by the user, the unit is Mbyte, and the fields of 'uplink traffic' and 'downlink traffic' are taken from the detailed data traffic; the package in/package out identifier can be judged through a preferential basic charge field in the voice/data service detail list, if the preferential basic charge is greater than 0, the detail list is judged to be recorded as a package out service, the service quantity of the detail list is counted out of the package, and otherwise, the package in service is counted in the package.

S104, determining the reduced traffic unit price P of the non-silent user according to the communication data of the non-silent user and the reduced traffic of the user.

Optionally, determining a reduced traffic unit price P of the non-silent user according to the communication data and the reduced traffic CV of the non-silent user includes:

s1040, determining a reduced traffic unit price P of the non-silent user according to the total consumption amount and the reduced traffic CV of the non-silent user; wherein the reduced traffic unit price P is equal to

ARPU represents the total amount of consumption.

It should be noted that, in practical applications, after the converted traffic CV of the user is obtained, the converted traffic unit price P of the user can be calculated, and the calculation formula of the converted traffic unit price of the user is as follows:

wherein: p_lReduced traffic unit price, ARPU, for non-silent users l_lActual total cost in units of dollars for non-silent users l, taken from the bill "monthly expenditure" field, CV_lThe total traffic after conversion for the non-silent user l is taken from fields of 'call duration' and 'total traffic' of a bill; wherein the actual total consumption amount is equal to the package cost + the total consumption cost excluding the package cost.

And S105, determining the total income R of the logic station to be evaluated according to the converted traffic CV and the converted traffic unit price P of at least one non-silent user.

Optionally, the logic station to be evaluated includes i communication cells, the voice service detail further includes a different network call duration, and i is an integer greater than or equal to 1; determining the total income R of the logic station to be evaluated according to the converted traffic CV and the converted traffic unit price P of at least one non-silent user, comprising the following steps:

s1050, determining the actual income M of the nth communication cell according to the reduced traffic CV and the reduced traffic unit price P of each non-silent user in the nth communication cell_n。

Wherein the actual income M_nIs equal to P × CV_n+N×γ，CV_nRepresenting the total conversion traffic of the non-silent user in the nth communication cell, N representing the call duration of the different network, gamma representing the call unit price of the different network, and N being the [1, i ∈]。

S1051, according to the actual income M of each communication cell in i communication cells_nDetermining the total income R of the logic station to be evaluated; wherein the total income R is equal to

It should be noted that, in practical applications, after the unit price calculation of the user is completed as shown in fig. 2, the income contribution of each user in each CELL is calculated according to the "location CELL number LAC" + "CELL ID" by using the voice service detail sheet and the data service detail sheet. For the voice service involving the calling party or the called party as the different network user, the different network settlement is processed by considering the generated inter-operation settlement problem. At present, the standard of settlement between different networks of a certain operator is 0.06 yuan/min of voice, different network calculation processing firstly judges whether different networks exist in an opposite terminal number field of a call detail list, if the different network call exists, firstly rounding up the call duration of each different network call to the minute to obtain a voice different network call duration rounding value. After the settlement correction of the different networks, the income of the non-silent user l under the communication cell A is calculated by the following formula:

R_A,l＝P_i×CV_A,l+N_A,l×γ；

wherein R is_A,lFor the revenue contributed by non-silent users l under cell A, P_lReduced traffic unit price, CV, for non-silent users l_A,lFor the total reduced traffic of non-silent users l under communication cell A, N_A,lThe sum of the non-silent user l after the inter-network call duration is rounded under the communication cell A, and gamma is the inter-network call unit price.

The income contribution of each user below the communication cell A is calculated, the total income of the communication cell is obtained by upward summarizing, and the calculation formula is expressed as follows:

wherein M is_AFor the total revenue of communication cell A, M_A,lThe income contributed by the non-silent user l under the communication cell A, H represents the number of users of the non-silent user contained in the communication cell A, H is an integer larger than 1, and l belongs to [1, H ∈]。

The income of all cells under the logic station X is calculated, the total income of the logic station is obtained by adding and summarizing, and the calculation formula is expressed as follows:

wherein R is_XFor total revenue of logical station X, M_nI represents the number of communication cells contained in the logic station X, i is an integer greater than or equal to 1, n belongs to [1, i ] to the total income of any communication cell in the base station X]。

Optionally, the method further includes:

s106, screening silent users which do not meet preset conditions according to the communication data;

determining the total income R of the logic station to be evaluated according to the converted traffic CV and the converted traffic unit price P of at least one non-silent user, comprising the following steps:

s1052, obtaining silent usersTotal income R of_SilencingAnd total revenue R of non-silent users_Non-silent；

S1053, according to the actual income M of the nth communication cell_nTotal revenue R of silent users_SilencingAnd total revenue R of non-silent users_Non-silentDetermining the total income R of the logic station to be evaluated; wherein the total income R of the logical station to be evaluated is equal to

It should be noted that, in practical applications, when the total income of the logic station is calculated, after silent users are excluded, the calculation result is relatively inaccurate; therefore, in order to calculate the total revenue of the logical station more accurately, the total revenue of the logical station calculated in S105 needs to be corrected, so that the total revenue of the logical station can be calculated more accurately.

Specifically, although the silent user contributes to the income, the income cannot be matched to the base station due to no traffic, and the income needs to be allocated to the existing base station, and the allocation rule is as follows: and calculating the ratio of the total income of the silent users to the total income of all the users (the silent users and the non-silent users), and multiplying the total income of the logic station by the ratio to obtain an evenly-shared income correction value. The calculation formula of the total income of the logic station after the income of the silent user is shared is as follows:

wherein R is_SilencingSum of expenditure values for silent users, R_Non-silentThe sum of the spending values for non-silent users.

Illustratively, according to the income calculating method of the logic station provided by the embodiment of the present invention, the income of the Wideband Code Division Multiple Access (hereinafter, referred to as Wideband Code Division Multiple Access, WCDMA) network base station of a certain north province city is calculated as an example, and the specific implementation process is as follows:

the total number of the logical stations of the WCDMA network in this city is 23, and the calculation results of the communication data of the 23 logical stations in a specific time are shown in table 2.

TABLE 2

As can be seen from Table 2, the average income of the WCDMA logical station in the city is 15995.35 yuan, 13.04% of the monthly income of the WCDMA base station in the city is less than 1000 yuan, the income is lower than the station building cost, 52.17% of the monthly income of the WCDMA base station in the city is higher than 10000 yuan, and the base stations in the city can be further analyzed on the basis, and the important attention is paid in the aspect of subsequent investment.

Fig. 3 is a diagram illustrating the distribution of difference values calculated by all WCDMA base stations in a city (the text algorithm minus the conventional algorithm) using the text algorithm and the conventional algorithm, respectively, wherein the traffic unit price is converted into a uniform value in the conventional algorithm, and the revenue of the logical station is calculated by multiplying the traffic unit price by the voice traffic and the data traffic. The difference distribution shows that the proportion of the number of the base stations with the difference of the two algorithms exceeding 20% reaches 24.07%, for the part of the base stations, the difference between the unit business unit price of the user below the base station and the unified unit business unit price of the business unit of the whole city is still larger, and the method can be used for more accurately evaluating the actual income condition of the part of the base stations.

According to the scheme, although some users consume in practical application, no voice service or data service is used, so that the consumption of the users cannot be directly matched with the corresponding communication cell; therefore, in the income calculation method of the logic station provided by the embodiment of the present invention, the communication data of at least one user in the logic station to be evaluated in the designated time is screened, so as to obtain the non-silent user meeting the preset condition, and the converted traffic CV and the converted traffic unit price P of each non-silent user are calculated by the intra-meal traffic conversion factor and the extra-package traffic conversion factor, which is convenient for the operator to directly compare the data; the total income R of the logic station to be evaluated is determined through the converted business volume CV and the converted business volume unit price P of at least one non-silent user, so that the actual income of the logic station can be more accurately calculated; the problem of how to calculate the actual income of the base station more accurately is solved.

In a second aspect, an embodiment of the present invention provides a revenue calculation apparatus 10 of a logical station, as shown in fig. 4, including:

an obtaining unit 101, configured to obtain communication data of at least one user in a logical station to be evaluated within a specified time; the communication data at least comprises any one of a voice service detail list, a data service detail list and bill data, the voice service detail list comprises the total voice call duration, the data service detail list comprises the total usage amount of data flow, and the bill data comprises the total consumption amount.

A screening unit 102, configured to screen a non-silent user meeting a preset condition according to the communication data acquired by the acquiring unit 101; the preset conditions are that the total consumption amount is greater than 0 and the total duration of the voice call is greater than 0, or the total consumption amount is greater than 0 and the total usage amount of the data traffic is greater than 0.

And the processing unit 103 is configured to determine a reduced traffic CV of the non-silent user according to the communication data of the non-silent user, the intra-package traffic conversion factor and the extra-package traffic conversion factor, which are screened by the screening unit 102.

The processing unit 103 is further configured to determine a reduced traffic unit price P of the non-silent user according to the communication data and the reduced traffic CV of the non-silent user screened by the screening unit 102.

The processing unit 103 is further configured to determine a total revenue R of the logical station to be evaluated according to the converted traffic CV and the converted traffic unit price P of the at least one non-silent user.

Optionally, the voice service details further include a time length of a voice calling in the package, a time length of a called in the package, a time length of a foreign language voice calling in the package, and a foreign language voice calling in the packageThe detailed data service list at least comprises any one of the uplink service volume of the data in the package, the downlink service volume of the data in the package, the uplink service volume of the data outside the package and the downlink service volume of the data outside the package; the processing unit 103 is specifically configured to determine a reduced traffic CV of the non-silent user according to the inter-package voice calling duration, the inter-package called duration, the inter-package foreign language voice calling duration, the inter-package voice called duration, the inter-package data uplink traffic, the inter-package data downlink traffic, the intra-package traffic reduction factor, and the inter-package traffic reduction factor of the non-silent user, which are screened by the screening unit 102; wherein the reduced traffic CV is equal to (T)₁+T₂)×α+(W₁+W₂)+(T′₁+T′₂)×β+(W′₁+W′₂)，T₁Indicating the duration of a voice call in a package, T₂Represents the called duration, T 'in the set meal'₁Represents the out-of-package voice calling duration, T'₂Duration of voice called outside package, W₁Indicating data upstream traffic in a package, W₂Represents the data downlink traffic volume, W 'in the package'₁Represents package off-board data uplink traffic, W'₂And the data downlink traffic outside the package is represented, alpha represents a package internal traffic conversion factor, and beta represents a package external traffic conversion factor.

Optionally, the processing unit 103 is specifically configured to determine a reduced traffic unit price P of the non-silent user according to the total consumption amount and the reduced traffic CV of the non-silent user screened by the screening unit 102; wherein the reduced traffic unit price P is equal to

ARPU represents the total amount of consumption.

Optionally, the logic station to be evaluated includes i communication cells, and the voice service detail further includes a different network call duration; a processing unit 103, configured to determine an actual revenue M of the nth communication cell according to the reduced traffic CV and the reduced traffic unit price P of each non-silent user in the nth communication cell_n(ii) a Therein, it is actuallyIncome M_nIs equal to P × CV_n+N×γ，CV_nRepresenting the total conversion traffic of the non-silent user in the nth communication cell, N representing the call duration of the different network, gamma representing the call unit price of the different network, and N being the [1, i ∈](ii) a A processing unit, in particular for determining the actual income M of each of the i communication cells_nDetermining the total income R of the logic station to be evaluated; wherein the total income R is equal to

Optionally, the screening unit 102 is further configured to screen a silent user that does not satisfy a preset condition according to the communication data acquired by the acquiring unit 101; an obtaining unit 101, specifically configured to obtain a total revenue R of a silent user_SilencingAnd total revenue R of non-silent users_Non-silent(ii) a A processing unit 103, specifically configured to determine an actual income M of the nth communication cell_nThe total income R of the silent user acquired by the acquisition unit 101_SilencingAnd the total income R of the non-silent users acquired by the acquisition unit 101_Non-silentDetermining the total income R of the logic station to be evaluated; wherein the total income R of the logical station to be evaluated is equal to

All relevant contents of each step related to the above method embodiment may be referred to the functional description of the corresponding functional module, and the function thereof is not described herein again.

In the case of an integrated module, the revenue calculation means of the logic station comprises: the device comprises an acquisition unit, a screening unit, a processing unit and a storage unit. The processing unit and the screening unit are each configured to control and manage the operation of the revenue calculation apparatus of the logical station, for example, the processing unit is configured to support the revenue calculation apparatus of the logical station to perform the processes S101, S102, S103, S104, and S105 in fig. 1; the acquisition unit is used for supporting the information interaction of the income calculation device of the logic station and other equipment. A storage unit for storing program codes and data of the revenue calculation means of the logical station.

For example, the processing unit and the screening unit are both processors, the storage unit is a memory, and the obtaining unit is a communication interface. The income calculating device of the logic station is shown in fig. 5, and comprises a communication interface 501, a processor 502, a memory 503 and a bus 504, wherein the communication interface 501 and the processor 502 are connected with the memory 503 through the bus 504.

The processor 502 may be a general-purpose Central Processing Unit (CPU), a microprocessor, an Application-Specific Integrated Circuit (ASIC), or one or more Integrated circuits configured to control the execution of programs in accordance with the teachings of the present disclosure.

The Memory 503 may be a Read-Only Memory (ROM) or other type of static storage device that can store static information and instructions, a Random Access Memory (RAM) or other type of dynamic storage device that can store information and instructions, an Electrically Erasable Programmable Read-Only Memory (EEPROM), a Compact Disc Read-Only Memory (CD-ROM) or other optical Disc storage, optical Disc storage (including Compact Disc, laser Disc, optical Disc, digital versatile Disc, blu-ray Disc, etc.), magnetic disk storage media or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer, but is not limited to these. The memory may be self-contained and coupled to the processor via a bus. The memory may also be integral to the processor.

The memory 503 is used for storing application program codes for executing the scheme of the application, and the processor 502 controls the execution. The communication interface 501 is used for information interaction with other devices, such as a remote controller. The processor 502 is configured to execute application program code stored in the memory 503 to implement the methods described in the embodiments of the present application.

Further, a computing storage medium (or media) is also provided, comprising instructions which when executed perform the method operations performed by the revenue computing apparatus of the logical station of the above embodiments. Additionally, a computer program product is also provided, comprising the above-described computing storage medium (or media).

It should be understood that, in various embodiments of the present invention, the sequence numbers of the above-mentioned processes do not mean the execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation on the implementation process of the embodiments of the present invention.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus, and method may be implemented in other ways. For example, the above-described device embodiments are merely illustrative, and for example, the division of the units is only one logical functional division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U disk, a removable hard disk, a read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

It is understood that the income calculating apparatus of any one of the above-mentioned logic stations is configured to perform the method corresponding to the above-mentioned embodiments, and therefore, the beneficial effects achieved by the income calculating apparatus can refer to the method of the above-mentioned embodiment one and the beneficial effects of the solutions in the following detailed description, which are not described herein again.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (8)

1. A method for revenue calculation for a logical station, comprising:

acquiring communication data of at least one user in a logic station to be evaluated within a specified time; the communication data at least comprises any one of a voice service detail list, a data service detail list and bill data, wherein the voice service detail list comprises the total voice call duration, the data service detail list comprises the total usage amount of data flow, and the bill data comprises the total consumption amount;

screening non-silent users meeting preset conditions according to the communication data; the preset conditions are that the total consumption amount is greater than 0 and the total duration of the voice call is greater than 0, or the total consumption amount is greater than 0 and the total usage amount of the data traffic is greater than 0;

determining a reduced traffic CV of the non-silent user according to the communication data of the non-silent user, the conversion factor of the intra-package traffic and the conversion factor of the extra-package traffic;

determining a reduced traffic unit price P of the non-silent user according to the communication data of the non-silent user and the reduced traffic CV;

determining the total income R of the logic station to be evaluated according to the converted traffic CV and the converted traffic unit price P of at least one non-silent user;

the voice service detail list further comprises any one of the group meal internal voice calling time length, the group meal internal called time length, the group meal foreign language voice calling time length and the group meal external voice called time length, and the data service detail list at least comprises any one of group meal internal data uplink service volume, group meal internal data downlink service volume, group meal external data uplink service volume and group meal external data downlink service volume;

the logic station to be evaluated comprises i communication cells, the voice service detail list further comprises different network call duration, and i is an integer greater than or equal to 1;

determining the total income R of the logic station to be evaluated according to the converted traffic CV and the converted traffic unit price P of the at least one non-silent user, wherein the method comprises the following steps:

determining the actual income M of the nth communication cell according to the converted traffic CV and the converted traffic unit price P of each non-silent user in the nth communication cell_n(ii) a Wherein the actual revenue M_nIs equal to P × CV_n+N×γ，CV_nRepresenting the total conversion traffic of the non-silent user in the nth communication cell, N representing the call duration of the different network, gamma representing the call unit price of the different network, and N being the [1, i ∈]；

According to the actual income M of each communication cell in the i communication cells_nDetermining the total income R of the logic station to be evaluated; wherein the total income R is equal to

Screening silent users which do not meet the preset conditions according to the communication data;

determining the total income R of the logic station to be evaluated according to the converted traffic CV and the converted traffic unit price P of the at least one non-silent user, wherein the method comprises the following steps:

obtaining a total revenue R for said silent user_SilencingAnd the total revenue R of said non-silent users_Non-silent；

According to the actual income M of the nth communication cell_nTotal revenue R of said silent user_SilencingAnd the total revenue R of said non-silent users_Non-silentDetermining the total income R of the logic station to be evaluated; wherein the total income R of the logic station to be evaluated is equal to

2. The method of claim 1, wherein determining the reduced traffic CV for the non-silent user based on the communication data of the non-silent user, the intra-package traffic reduction factor and the extra-package traffic reduction factor comprises:

according to the in-package voice of the non-silent userCalling duration, called duration in a package, calling duration of foreign language voice of the package, called duration of voice outside the package, uplink traffic of data in the package, downlink traffic of data in the package, uplink traffic of data outside the package, downlink traffic of data outside the package, a conversion factor of traffic in the package and a conversion factor of traffic outside the package, and determining a conversion traffic CV of the non-silent user; wherein the reduced traffic CV is equal to (T)₁+T₂)×α+(W₁+W₂)+(T′₁+T′₂)×β+(W′₁+W′₂)，T₁Indicating the duration of a voice call in a package, T₂Represents the called duration, T 'in the set meal'₁Represents the out-of-package voice calling duration, T'₂Duration of voice called outside package, W₁Indicating data upstream traffic in a package, W₂Represents the data downlink traffic volume, W 'in the package'₁Represents package off-board data uplink traffic, W'₂And the data downlink traffic outside the package is represented, alpha represents a package internal traffic conversion factor, and beta represents a package external traffic conversion factor.

3. The revenue calculation method of a logic station, according to claim 1, wherein determining the reduced traffic unit price P of the non-silent user based on the communication data of the non-silent user and the reduced traffic CV comprises:

determining a reduced traffic unit price P of the non-silent user according to the total consumption amount of the non-silent user and the reduced traffic CV; wherein the reduced traffic unit price P is equal to

ARPU represents the total amount of consumption.

4. A revenue calculation apparatus of a logical station, comprising:

the system comprises an acquisition unit, a processing unit and a processing unit, wherein the acquisition unit is used for acquiring communication data of at least one user in a logic station to be evaluated within a specified time; the communication data at least comprises any one of a voice service detail list, a data service detail list and bill data, wherein the voice service detail list comprises the total voice call duration, the data service detail list comprises the total usage amount of data flow, and the bill data comprises the total consumption amount;

the screening unit is used for screening the non-silent users meeting the preset conditions according to the communication data acquired by the acquisition unit; the preset conditions are that the total consumption amount is greater than 0 and the total duration of the voice call is greater than 0, or the total consumption amount is greater than 0 and the total usage amount of the data traffic is greater than 0;

the processing unit is used for determining the reduced traffic CV of the non-silent user according to the communication data, the intra-package traffic reduction factor and the extra-package traffic reduction factor of the non-silent user screened by the screening unit;

the processing unit is further configured to determine a reduced traffic unit price P of the non-silent user according to the communication data of the non-silent user and the reduced traffic CV, which are screened by the screening unit;

the processing unit is further used for determining the total income R of the logic station to be evaluated according to the converted traffic CV and the converted traffic unit price P of at least one non-silent user;

the voice service detail list further comprises any one of the group meal internal voice calling time length, the group meal internal called time length, the group meal foreign language voice calling time length and the group meal external voice called time length, and the data service detail list at least comprises any one of group meal internal data uplink service volume, group meal internal data downlink service volume, group meal external data uplink service volume and group meal external data downlink service volume;

the logic station to be evaluated comprises i communication cells, and the voice service detail list further comprises different network call duration;

the processing unit is specifically configured to determine an actual revenue M of the nth communication cell according to a reduced traffic CV and a reduced traffic unit price P of each non-silent user in the nth communication cell_n(ii) a Wherein the actual revenue M_nIs equal to P × CV_n+N×γ，CV_nIndicating the total reduced traffic volume of non-silent users in the nth communication cellN represents the call duration of the different network, gamma represents the call unit price of the different network, and N belongs to [1, i ∈]；

The processing unit is specifically configured to determine an actual income M of each of the i communication cells_nDetermining the total income R of the logic station to be evaluated; wherein the total income R is equal to

The screening unit is further configured to screen the silent users that do not meet the preset condition according to the communication data acquired by the acquisition unit;

the obtaining unit is specifically configured to obtain a total revenue R of the silent user_SilencingAnd the total revenue R of said non-silent users_Non-silent；

The processing unit is specifically configured to determine an actual revenue M of the nth communication cell_nThe total income R of the silent user acquired by the acquisition unit_SilencingAnd the total income R of the non-silent users acquired by the acquisition unit_Non-silentDetermining the total income R of the logic station to be evaluated; wherein the total income R of the logic station to be evaluated is equal to

5. The revenue calculation apparatus of a logical station according to claim 4,

the processing unit is specifically configured to determine a reduced traffic CV of the non-silent user according to the inter-package voice calling duration, the inter-package called duration, the inter-package foreign language voice calling duration, the inter-package voice called duration, the inter-package data uplink traffic, the inter-package data downlink traffic, the inter-package traffic reduction factor, and the inter-package traffic reduction factor of the non-silent user, which are screened by the screening unit; wherein the reduced traffic CV is equal to (T)₁+T₂)×α+(W₁+W₂)+(T′₁+T′₂)×β+(W′₁+W′₂)，T₁Indicating the duration of a voice call in a package, T₂Represents the called duration, T 'in the set meal'₁Represents the out-of-package voice calling duration, T'₂Duration of voice called outside package, W₁Indicating data upstream traffic in a package, W₂Represents the data downlink traffic volume, W 'in the package'₁Represents package off-board data uplink traffic, W'₂And the data downlink traffic outside the package is represented, alpha represents a package internal traffic conversion factor, and beta represents a package external traffic conversion factor.

6. The revenue calculation apparatus of claim 4, wherein the processing unit is specifically configured to determine a reduced traffic unit price P of the non-silent user according to the total consumption amount of the non-silent users screened by the screening unit and the reduced traffic CV; wherein the reduced traffic unit price P is equal to

ARPU represents the total amount of consumption.

7. A computer storage medium comprising instructions which, when run on a computer, cause the computer to perform the method of revenue calculation for a logical station according to any of claims 1 to 3.

8. A revenue calculation apparatus of a logical station, comprising: communication interface, processor, memory, bus; the memory is for storing computer executable instructions, the processor being coupled to the memory via the bus, the processor executing the computer executable instructions stored by the memory to cause the revenue calculating means of the logical station to perform the method of revenue calculating of a logical station as claimed in any one of claims 1 to 3 when the revenue calculating means of the logical station is operated.

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