CN110751396B - Automatic multi-metadata distribution method for photovoltaic power station - Google Patents

Abstract

The invention discloses an automatic distribution method of multiple data of a photovoltaic power station, which comprises the following steps: acquiring total allocation amount, and determining the network-surfing electric quantity of each level and the network-surfing electric quantity of each unit in each level; determining the distribution amount of each level according to the total distribution amount and the network electricity quantity of each level; determining the distribution amount of each unit according to the distribution amount of each level and the internet power of each unit; giving multiple metadata; determining the balance amount corresponding to each unit according to the distribution amount of each unit and the multivariate data; judging whether the balance amount is larger than or equal to zero; if the balance amount is greater than or equal to zero, the amount is distributed according to the given multi-metadata; if the balance amount is less than zero, the multi-element data is re-given. According to the invention, through data acquisition and calculation analysis, automatic distribution and automatic management of the photovoltaic poverty-supporting funds are realized, manual participation is not needed, and the efficiency is greatly improved.

Description

Automatic multi-metadata distribution method for photovoltaic power station

Technical Field

The invention relates to the technical field of photovoltaics, in particular to an automatic multi-data distribution method of a photovoltaic power station.

Background

The photovoltaic industry is taken as a special field service commonly derived from new energy and the poverty-relieving field, and is first proposed by China, so that the problem of a plurality of fields exists in the field to be solved, funds are always puzzled as matters which are needed to be concerned by the photovoltaic poverty-relieving and the photovoltaic power station, and are headache matters, and the funds management workflow of the whole industry is still finished by people at present, so that the efficiency is low, time and labor are wasted, and the safety risk is quite high.

Disclosure of Invention

The invention aims to provide an automatic multi-metadata distribution method for a photovoltaic power station, which is automatic in distribution, high in efficiency and high in stability.

In order to achieve the above object, the present invention provides a method for automatically distributing metadata of a photovoltaic power station, including:

step S1: acquiring total allocation amount, and determining the Internet surfing electric quantity of each level and the Internet surfing electric quantity of each unit in each level;

step S2: determining the distribution amount of each level according to the total distribution amount and the internet power of each level;

step S3: determining the distribution amount of each unit according to the distribution amount of each hierarchy and the internet power of each unit;

step S4: giving multiple metadata; the multivariate data comprises: the number of personnel attributes, the amount of personnel attributes, the number of personnel types and the amount of personnel types;

step S5: determining the balance amount corresponding to each unit according to the distribution amount of each unit and the multivariate data;

step S6: judging whether the balance amount is larger than or equal to zero; if the balance amount is greater than or equal to zero, distributing the amount according to the given multi-metadata; and if the balance amount is less than zero, returning to the step S4.

Preferably, the method further comprises, between said step S2 and said step S3:

verifying the distribution amount of each hierarchy; the method comprises the following steps:

rejecting the allocated amount of the m-th hierarchy, and redefining the total sum of the allocated amounts of the remaining n-1 hierarchies by using the total allocated amount; wherein m is a positive integer less than or equal to n, n is the number of the levels and n is a positive integer greater than 2;

judging whether the sum of the total sum of the distribution amounts of the remaining n-1 levels and the distribution amount of the mth level is equal to the total distribution amount; outputting the distribution amount of each level if the distribution amount is equal to the total distribution amount, and executing step S3; if not, executing step S2.

Preferably, the method further comprises, between said step S3 and said step S4:

verifying the allocated amount of each unit; the method comprises the following steps:

rejecting the allocated amount of the ith unit, and redefining the total sum of the allocated amounts of the remaining h-1 units by using the allocated amount of the hierarchy; wherein i is a positive integer less than or equal to h, h is the number of units in each hierarchy and h is a positive integer greater than 2;

judging whether the sum of the allocated amounts of the remaining h-1 units and the allocated amount of the ith unit is equal to the allocated amount of the hierarchy; outputting the allocated amount of each of the units if the allocated amount is equal to the allocated amount of the hierarchy, and executing step S4; if not equal to the allocated amount of the hierarchy, step S3 is performed.

Preferably, the specific formula for determining the allocation amount of each hierarchy is:

wherein: w (W) _l ' allocated amount for the first tier, P _l And (3) the power on the internet of the first level, W is the total allocation amount, M is the allocation reserved item of the level, l is a positive integer, and l is less than or equal to n.

Preferably, the redetermining the distribution amount of the remaining n-1 levels comprises the following specific formulas:

wherein: w (W) _m ' allocated amount for mth hierarchy, W _l "allocated amount for the first hierarchy, P _l And (3) for the first-level Internet surfing electric quantity, W is the total allocation amount, M is the allocation reserved item of the level, l is a positive integer, and l is less than or equal to n.

Preferably, the determining the total sum of the distribution amounts of the remaining n-1 levels includes the following specific formulas:

preferably, the determining the current balance amount corresponding to each unit according to the allocation amount of each unit and the multivariate data comprises the following specific formula:

E _{the book is provided with} ＝W _d +E-(A*B+C*D+H)；

Wherein: w (W) _d The allocation amount of the D-th unit is the number of the personnel attributes, the personnel attribute amount is B, the personnel type amount is C, the personnel type amount is D, E is the balance amount allocated last time, and H is the allocation reserved item of the unit.

Preferably, the determining the internet power of each level specifically includes:

firstly, calculating historical power consumption;

calculating an electric quantity loss proportion according to the historical loss electric quantity;

calculating a loss factor according to the electric quantity loss proportion;

calculating to obtain the loss electric quantity according to the loss factor;

obtaining preliminary internet power according to the power consumption calculation;

and determining the network-surfing electric quantity of each level according to the preliminary network-surfing electric quantity.

Preferably, the determining the internet power of each level according to the preliminary internet power specifically includes:

acquiring actual accumulated Internet surfing electric quantity;

calculating to obtain a surfing electric quantity deviation value according to the actual accumulated surfing electric quantity and the preliminary surfing electric quantity;

calculating according to the internet surfing electric quantity deviation value to obtain an average deviation value;

determining whether the average deviation value is greater than or equal to a set value; if the average deviation value is greater than or equal to the set value, the internet surfing electric quantity of each level is the value obtained by subtracting the average deviation value from the preliminary internet surfing electric quantity; if the power consumption is smaller than the set value, the power consumption of the network at each level is the preliminary power consumption of the network at this time.

Preferably, the calculating obtains the deviation value of the power on line, and the specific formula is as follows:

β＝P-P _{the book is provided with} ；

Wherein: p is the actual accumulated Internet surfing electric quantity, P _{The book is provided with} The power is initially on the internet.

The average deviation value is obtained through calculation, and the specific formula is as follows:

wherein: y is the number of days on the internet.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects:

according to the invention, the amount distribution is sequentially carried out on each level, meanwhile, a perfect distribution system is provided for individuals, the distribution is specifically carried out according to the multivariate data, the distribution result is judged, whether the distribution result is hyperbranched or not is judged, and corresponding treatment measures are given, so that the automatic distribution of the photovoltaic poverty-relieving amount is realized, the efficiency is high, and the rationality can be ensured.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a method for automatically distributing multiple metadata of a photovoltaic power plant of the present invention;

fig. 2 is a flow chart of a method for a specific allocation scheme of each unit in the automatic allocation method of the metadata of the photovoltaic power station.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention aims to provide an automatic distribution, high-efficiency, high-reliability and high-accuracy multi-metadata automatic distribution method for a photovoltaic power station

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description.

As shown in fig. 1, the automatic distribution method of the metadata of the photovoltaic power station of the present invention comprises:

step S1: acquiring total allocation amount, and determining the Internet surfing electric quantity of each level and the Internet surfing electric quantity of each unit in each level;

step S2: determining the distribution amount of each level according to the total distribution amount and the internet power of each level;

step S3: determining the distribution amount of each unit according to the distribution amount of each hierarchy and the internet power of each unit;

step S4: giving multiple metadata; the multivariate data comprises: the number of personnel attributes, the amount of personnel attributes, the number of personnel types and the amount of personnel types;

step S5: determining the balance amount corresponding to each unit according to the distribution amount of each unit and the multivariate data;

step S6: judging whether the balance amount is larger than or equal to zero; if the balance amount is greater than or equal to zero, distributing the amount according to the given multi-metadata; and if the balance amount is less than zero, returning to the step S4.

The steps are discussed in detail below:

step S1: and obtaining the total allocation amount, and determining the Internet surfing electric quantity of each level and the Internet surfing electric quantity of each unit in each level.

The determining the internet power of each level specifically comprises the following steps:

firstly, calculating historical power consumption; the specific formula is as follows:

P _{damage to} ＝P _{Hair brush} -P _{Upper part} ；

Wherein: p (P) _{Hair brush} P is the historical power generation _{Upper part} Is the historical internet power.

Calculating an electric quantity loss proportion according to the historical loss electric quantity; the calculation formula is as follows:

calculating a loss factor according to the electric quantity loss proportion; the calculation formula is as follows:

wherein: v is the historical days.

Calculating to obtain the loss electric quantity according to the loss factor; the calculation formula is as follows:

P ₂ ＝δ _P *P ₁ ；

wherein: p (P) ₁ The current generated energy is obtained.

Obtaining preliminary internet power according to the power consumption calculation; the calculation formula is as follows:

P _{the book is provided with} ＝P ₁ -P ₂ 。

Determining the internet surfing electric quantity of each level according to the preliminary internet surfing electric quantity; the method specifically comprises the following steps:

acquiring actual accumulated Internet surfing electric quantity;

calculating to obtain a surfing electric quantity deviation value according to the actual accumulated surfing electric quantity and the preliminary surfing electric quantity; the calculation formula is as follows:

β＝P-P _{the book is provided with} ；

Wherein: and P is the actual accumulated Internet surfing electric quantity.

Calculating according to the internet surfing electric quantity deviation value to obtain an average deviation value; the calculation formula is as follows:

wherein: y is the number of days on the internet.

Determining whether the average deviation value is greater than or equal to a set value; if the average deviation value is greater than or equal to the set value, the internet surfing electric quantity of each level is the value obtained by subtracting the average deviation value from the preliminary internet surfing electric quantity; if the power consumption is smaller than the set value, the power consumption of the network at each level is the preliminary power consumption of the network at this time.

In this embodiment, the set value is 100.

The determining of the power on line of each unit in each level is similar to determining the power on line of each level, and detailed description is omitted.

Step S2: determining the distribution amount of each level according to the total distribution amount and the internet power of each level; the specific formula is as follows:

wherein: w (W) _l ' allocated amount for the first tier, P _l And (3) the power on the internet of the first level, W is the total allocation amount, M is the allocation reserved item of the level, l is a positive integer, and l is less than or equal to n.

Preferably, to ensure the accuracy of the obtained data, the allocated amount of the hierarchy is checked by the following method:

rejecting the allocated amount of the m-th hierarchy, and redefining the allocated amount of each remaining n-1 hierarchies by using the total allocated amount, wherein the specific formula is as follows:

wherein: w (W) _m ' allocated amount for mth hierarchy, W _l "allocated amount for the first hierarchy, P _l And (3) for the first-level Internet surfing electric quantity, W is the total allocation amount, M is the allocation reserved item of the level, l is a positive integer, and l is less than or equal to n.

Calculating the total sum of the distribution amounts of the remaining n-1 levels; the specific formula is as follows:

wherein m is a positive integer less than or equal to n, n is the number of the levels and n is a positive integer greater than 2; w' is the total of the allocated amounts of the remaining n-1 of the tiers.

Judging whether the sum of the total sum of the distribution amounts of the remaining n-1 levels and the distribution amount of the mth level is equal to the total distribution amount; outputting the distribution amount of each level if the distribution amount is equal to the total distribution amount, and executing step S3; if not, executing step S2.

Step S3: determining the distribution amount of each unit according to the distribution amount of each hierarchy and the internet power of each unit; the specific method is the same as the determination of the distribution amount of each hierarchy.

Further, the amount of allocation of each of the units is verified by the following method:

rejecting the allocated amount of the ith unit, and redefining the total sum of the allocated amounts of the remaining h-1 units by using the allocated amount of the hierarchy; wherein i is a positive integer less than or equal to h, h is the number of units in each hierarchy and h is a positive integer greater than 2; the specific formula is the same as the total sum of the distribution amounts of the remaining n-1 levels.

Judging whether the sum of the allocated amounts of the remaining h-1 units and the allocated amount of the ith unit is equal to the allocated amount of the hierarchy; outputting the allocated amount of each of the units if the allocated amount is equal to the allocated amount of the hierarchy, and executing step S4; if not equal to the allocated amount of the hierarchy, step S3 is performed.

Step S4: giving multiple metadata; the multivariate data comprises: the number of person attributes, the amount of person attributes, the number of person types, the amount of person types, and the last allocated balance amount.

Step S5: determining the balance amount corresponding to each unit according to the distribution amount of each unit and the multivariate data; the specific formula is as follows:

E _{the book is provided with} ＝W _d +E-(A*B+C*D+H)；

Wherein: w (W) _d The allocation amount of the D-th unit is the number of the personnel attributes, the personnel attribute amount is B, the personnel type amount is C, the personnel type amount is D, E is the balance amount allocated last time, and H is the allocation reserved item of the unit.

Step S6: judging whether the balance amount is larger than or equal to zero; if the balance amount is greater than or equal to zero, distributing the amount according to the given multi-metadata; if the balance amount is less than zero, returning to step S4, as shown in FIG. 2.

According to the invention, the funds are distributed sequentially through the layers until the lowest administrative unit, and the funds are distributed according to specific personnel attributes and personnel numbers, and each calculation link is checked or compared, so that not only is the automatic distribution of the funds realized, but also the accuracy and rationality of the distribution scheme are ensured, and the distribution efficiency is improved.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The principles and embodiments of the present invention have been described herein with reference to specific examples, the description of which is intended only to assist in understanding the methods of the present invention and the core ideas thereof; also, it is within the scope of the present invention to be modified by those of ordinary skill in the art in light of the present teachings. In view of the foregoing, this description should not be construed as limiting the invention.

Claims (8)

1. An automatic distribution method for multiple data of a photovoltaic power station is characterized by comprising the following steps:

step S1: acquiring total allocation amount, and determining the Internet surfing electric quantity of each level and the Internet surfing electric quantity of each unit in each level;

step S2: determining the distribution amount of each level according to the total distribution amount and the internet power of each level;

step S3: determining the distribution amount of each unit according to the distribution amount of each hierarchy and the internet power of each unit;

step S4: giving multiple metadata; the multivariate data comprises: the number of personnel attributes, the amount of personnel attributes, the number of personnel types and the amount of personnel types;

step S5: determining the balance amount corresponding to each unit according to the distribution amount of each unit and the multivariate data;

step S6: judging whether the balance amount is larger than or equal to zero; if the balance amount is greater than or equal to zero, distributing the amount according to the given multi-metadata; if the balance amount is less than zero, returning to the step S4;

the determining the internet power of each level specifically comprises the following steps:

firstly, calculating historical power consumption;

calculating an electric quantity loss proportion according to the historical loss electric quantity;

calculating a loss factor according to the electric quantity loss proportion;

calculating to obtain the loss electric quantity according to the loss factor;

obtaining preliminary internet power according to the power consumption calculation;

determining the internet surfing electric quantity of each level according to the preliminary internet surfing electric quantity;

the determining the internet surfing electric quantity of each level according to the preliminary internet surfing electric quantity specifically comprises the following steps:

acquiring actual accumulated Internet surfing electric quantity;

calculating to obtain a surfing electric quantity deviation value according to the actual accumulated surfing electric quantity and the preliminary surfing electric quantity;

calculating according to the internet surfing electric quantity deviation value to obtain an average deviation value;

determining whether the average deviation value is greater than or equal to a set value; if the average deviation value is greater than or equal to the set value, the internet surfing electric quantity of each level is the value obtained by subtracting the average deviation value from the preliminary internet surfing electric quantity; if the power supply is smaller than the set value, the power supply of each level is the preliminary power supply of the current time.

2. The method for automatic distribution of metadata for a photovoltaic power plant according to claim 1, characterized in that it further comprises, between said step S2 and said step S3:

verifying the distribution amount of each hierarchy; the method comprises the following steps:

rejecting the allocated amount of the m-th hierarchy, and redefining the total sum of the allocated amounts of the remaining n-1 hierarchies by using the total allocated amount; wherein m is a positive integer less than or equal to n, n is the number of the levels and n is a positive integer greater than 2;

judging whether the sum of the total sum of the distribution amounts of the remaining n-1 levels and the distribution amount of the mth level is equal to the total distribution amount; outputting the distribution amount of each level if the distribution amount is equal to the total distribution amount, and executing step S3; if not, executing step S2.

3. The automatic distribution method of the metadata of the photovoltaic power plant according to claim 1, characterized in that it further comprises, between said step S3 and said step S4:

verifying the allocated amount of each unit; the method comprises the following steps:

rejecting the allocated amount of the ith unit, and redefining the total sum of the allocated amounts of the remaining h-1 units by using the allocated amount of the hierarchy; wherein i is a positive integer less than or equal to h, h is the number of units in each hierarchy and h is a positive integer greater than 2;

judging whether the sum of the allocated amounts of the remaining h-1 units and the allocated amount of the ith unit is equal to the allocated amount of the hierarchy; outputting the allocated amount of each of the units if the allocated amount is equal to the allocated amount of the hierarchy, and executing step S4; if not equal to the allocated amount of the hierarchy, step S3 is performed.

4. The automatic distribution method of multiple data of a photovoltaic power plant according to claim 1, wherein the determining the distribution amount of each hierarchy comprises the following specific formula:

wherein: w (W) _l ' allocated amount for the first tier, P _l For the first level of Internet surfing electricity quantity, P _k And (3) the power on the internet of the kth level, W is the total allocation amount, M is the allocation reserved item of the level, l is a positive integer, and l is less than or equal to n.

5. The automatic distribution method of the multiple data of the photovoltaic power plant according to claim 2, wherein the distribution amount of the remaining n-1 levels is redetermined by the following specific formula:

wherein: w'. _m Is the mthDistribution amount of hierarchy, W _l "allocated amount for the first hierarchy, P _l And (3) for the first-level Internet surfing electric quantity, W is the total allocation amount, M is the allocation reserved item of the level, l is a positive integer, and l is less than or equal to n.

6. The automatic allocation method of multiple data of a photovoltaic power plant according to claim 5, wherein the determining the total sum of the allocation amounts of the remaining n-1 levels comprises the following specific formulas:

wherein W' is the total sum of the distribution amounts of the remaining n-1 of the levels, W _k The amount is allocated for the kth tier.

7. The automatic distribution method of metadata in a photovoltaic power plant according to claim 1, wherein the determining the current balance corresponding to each unit according to the distribution amount of each unit and the metadata comprises the following specific formula:

E _{the book is provided with} ＝W _d +E-(A*B+C*D+H)；

Wherein: w (W) _d The allocation amount of the D-th unit is the number of the personnel attributes, the personnel attribute amount is B, the personnel type amount is C, the personnel type amount is D, E is the balance amount allocated last time, and H is the allocation reserved item of the unit.

8. The automatic distribution method of the multiple data of the photovoltaic power station according to claim 1, wherein the calculated internet power deviation value is as follows:

β＝P-P _{the book is provided with} ；

Wherein: p is the actual accumulated Internet surfing electric quantity, P _{The book is provided with} The initial power is used for surfing the internet;

the average deviation value is obtained through calculation, and the specific formula is as follows:

wherein: y is the number of days on the internet.