CN113487051A - Power distribution network fault first-aid repair maintenance data processing method and equipment and computer storage medium - Google Patents

Abstract

The invention discloses a power distribution network fault first-aid repair maintenance data processing method, equipment and a computer storage medium. The data processing method for the first-aid repair and maintenance of the power distribution network comprises the following steps: dividing a power distribution area corresponding to the power distribution network into power distribution subareas; acquiring basic information corresponding to each power distribution subregion; acquiring basic information corresponding to each power distribution fault of the power distribution network; matching and comparing the basic information corresponding to each power distribution subregion with the fault basic information corresponding to the power distribution network, and further screening out the fault basic information corresponding to each power distribution subregion; analyzing the basic fault information corresponding to each power distribution sub-region to obtain an analysis result corresponding to the basic fault information of each power distribution sub-region; the problem that the content processed by the existing power distribution network fault first-aid repair maintenance data processing method is limited is solved, and meanwhile, the stability of operation and maintenance of the power distribution network and the safety of power distribution are effectively guaranteed.

Description

Power distribution network fault first-aid repair maintenance data processing method and equipment and computer storage medium

Technical Field

The invention belongs to the technical field of power grid data processing, and relates to a power distribution network fault first-aid repair maintenance data processing method, equipment and a computer storage medium.

Background

Under the large background of rapid economic development, the demand on electric power is increased in various industries, a power distribution network is an important network for electric energy distribution, and in order to guarantee the operation and maintenance quality of the power distribution network, the fault first-aid repair maintenance data corresponding to the power distribution network needs to be processed and analyzed;

the existing power distribution network fault emergency repair maintenance data processing method mainly aims at processing and analyzing the emergency repair maintenance efficiency of the fault information of the current power distribution network fault area, and does not process and analyze the historical fault emergency repair maintenance data of the power distribution network, so the existing power distribution network fault emergency repair maintenance data processing method also has certain disadvantages, on one hand, the processing content of the existing power distribution network fault emergency repair maintenance data processing method has limitation and can not effectively improve the practicability of the data processing result, on the other hand, the existing power distribution network fault emergency repair maintenance data processing method can not improve the early warning efficiency of the power distribution network fault, thereby being incapable of effectively reducing the occurrence frequency of the power distribution network fault, on the other hand, the existing power distribution network fault emergency repair maintenance data processing method can not effectively reduce the economic loss caused by the power distribution network fault, meanwhile, the stability of the operation and maintenance of the power distribution network cannot be effectively improved.

Disclosure of Invention

In view of this, in order to solve the problems proposed in the background art, a method, a device and a computer storage medium for processing power distribution network fault emergency repair maintenance data are proposed, so that efficient processing and accurate analysis of the power distribution network fault emergency repair maintenance data are realized;

the purpose of the invention can be realized by the following technical scheme:

the invention provides a power distribution network fault first-aid repair maintenance data processing method, which comprises the following steps:

step one, power distribution area division: acquiring a power distribution starting position and a power distribution ending position corresponding to a power distribution area of the power distribution network, further dividing the power distribution area corresponding to the power distribution network into power distribution subregions according to a preset sequence, numbering the divided power distribution subregions according to the preset sequence, and sequentially marking the power distribution subregions as 1,2,... i,. n;

step two, obtaining the basic information of the subareas: the sub-region basic information acquisition is used for acquiring basic information corresponding to each power distribution sub-region, wherein the basic information corresponding to the power distribution sub-region comprises position information and power distribution facility information corresponding to the power distribution sub-region, and further a basic information set P of each power distribution sub-region is constructed_w(P_w1,P_w2,...P_wi,...P_wn)，P_wi represents the w-th basic information corresponding to the ith sub-area, w represents the basic information corresponding to the sub-area, and w is a1, a2, a1 and a2 represent electrons respectivelyPosition information and power distribution facility information corresponding to the region;

step three, acquiring basic information of the power distribution network fault: acquiring historical fault information corresponding to the power distribution network, further acquiring power distribution fault rush-repair times corresponding to the power distribution network, numbering the power distribution fault rush-repair times corresponding to the power distribution network according to a preset sequence, sequentially marking the power distribution fault rush-repair times as 1,2,. x,. y, and acquiring basic information corresponding to each power distribution fault;

step four, acquiring sub-region fault information: according to the basic information corresponding to each power distribution subregion and the fault basic information corresponding to the power distribution network, matching and comparing the basic information corresponding to each power distribution subregion with the fault basic information corresponding to the power distribution network, and further screening out the fault basic information corresponding to each power distribution subregion;

step five, analyzing the sub-region fault information: analyzing the basic fault information corresponding to each power distribution sub-region according to the obtained basic fault information corresponding to each power distribution sub-region, and obtaining an analysis result corresponding to the basic fault information of each power distribution sub-region;

step six, information sending: and sending the fault information analysis result corresponding to each power distribution sub-area to an operation manager corresponding to the power distribution network, and correspondingly managing the power distribution area corresponding to the power distribution network.

Preferably, the power distribution facility information includes types corresponding to the power distribution facilities, the number corresponding to each type of power distribution facility, and the models corresponding to each type of power distribution facility, the types corresponding to the power distribution facilities of each power distribution sub-area are numbered according to a preset sequence, and are sequentially marked as 1,2,. j,. m, so as to construct a power distribution facility information set H of each type of power distribution sub-area_e ^d(H_e ^d1,H_e ^d2,...H_e ^dj,...H_e ^dm)，H_e ^dj represents the e-th information corresponding to the jth type of distribution facility of the d-th distribution sub area, e represents the information of various types of distribution facilities, e is b1, b2, b1 and b2 respectively represent the number corresponding to various types of distribution facilities and the model corresponding to various types of distribution facilities, d represents the number of distribution sub areas, d is 1,2。

Preferably, the basic information of the power distribution network fault includes a geographical position corresponding to each fault rush-repair, rush-repair time corresponding to each geographical position of each fault rush-repair, a power distribution fault area position corresponding to each geographical position of each fault rush-repair and a power distribution facility model corresponding to each geographical position of each fault rush-repair, and further, a basic information set G of the power distribution network power distribution fault is constructed_z(G_z1,G_z2,...G_zx,...G_zy)，G_zx represents the xth power distribution fault basic information corresponding to the xth power distribution fault first-aid repair of the power distribution network, z represents the power distribution fault basic information, z is c1, c2, c3, c4, c1, c2, c3 and c4 respectively represent the geographical position corresponding to each fault first-aid repair, the first-aid repair time corresponding to each fault first-aid repair position, the power distribution fault area position corresponding to each fault first-aid repair position and the power distribution facility model corresponding to each fault first-aid repair position.

Preferably, the basic information of the faults of each power distribution sub-region comprises the number of times of first-aid repair of the faults corresponding to each power distribution sub-region, first-aid repair time corresponding to each fault first-aid repair of each power distribution sub-region, the model of the power distribution facility corresponding to each fault first-aid repair of each power distribution sub-region and the position of the fault region corresponding to each fault first-aid repair of each power distribution sub-region, and further, a basic information set K of the faults of each power distribution sub-region is constructed_s(K_s1,K_s2,...K_si,...K_sn)，K_sThe method comprises the steps that i represents the s-th fault basic information corresponding to the ith power distribution subregion, s represents the fault basic information, and s is f1, f2, f3, f4, f1, f2, f3 and f4 which respectively represent the fault first-aid repair times corresponding to the power distribution subregions, the first-aid repair time corresponding to the fault first-aid repair times of the power distribution subregions, the power distribution facility model corresponding to the fault first-aid repair times of the power distribution subregions and the fault region position corresponding to the fault first-aid repair times of the power distribution subregions.

Preferably, the sub-region fault information analysis is used for analyzing the number of times of fault first-aid repair corresponding to each power distribution sub-region and the time of each fault first-aid repair of each power distribution sub-region, and further counting the influence coefficient of the fault which is easy to occur in each power distribution sub-region.

Preferably, the sub-region fault information analysis is used for analyzing the power distribution facility model corresponding to each power distribution sub-region during fault emergency repair, and then according to the power distribution facility model corresponding to each power distribution sub-region during fault emergency repair, the influence coefficient of easy fault occurrence of each power distribution facility type of each power distribution sub-region is counted.

Preferably, the sub-region fault information analysis is used for analyzing fault region positions corresponding to each fault first-aid repair of each power distribution sub-region, comparing the fault region positions corresponding to each fault first-aid repair of each power distribution sub-region with each other, counting the number of the fault region positions corresponding to each power distribution sub-region and the number of the fault first-aid repair times corresponding to each fault region position of each power distribution sub-region, numbering the fault region positions of each power distribution sub-region according to a preset sequence, sequentially marking the fault region positions as 1,2,.

Preferably, the area fault information analysis is further configured to analyze the frequency of occurrence of faults of each power distribution sub-area and the frequency of occurrence of fault information of each power distribution sub-area, so as to obtain a target monitoring sub-area corresponding to the power distribution network, a type of a target monitoring power distribution facility corresponding to the target monitoring sub-area of the power distribution network, and a position of the target monitoring fault area.

One aspect of the invention provides an apparatus comprising: the system comprises a processor, a memory and a network interface, wherein the memory and the network interface are connected with the processor; the network interface is connected with a nonvolatile memory in the server; the processor retrieves a computer program from the non-volatile memory via the network interface when running, and runs the computer program via the memory to perform any of the methods of the invention.

Another aspect of the present invention provides a computer storage medium, in which a computer program is burned, and when the computer program runs in a memory of a server, the computer program implements the method according to any one of the above-mentioned embodiments.

The invention has the beneficial effects that:

(1) according to the power distribution network fault first-aid repair maintenance data processing method provided by the invention, the fault first-aid repair times corresponding to each power distribution subregion of each power distribution subregion, the first-aid repair time corresponding to each fault first-aid repair, the power distribution facility model corresponding to each fault first-aid repair and the fault region position corresponding to each fault first-aid repair are processed and analyzed, so that the problems that the content of the existing power distribution network fault first-aid repair maintenance data processing method is limited, the practicability of a data processing result cannot be effectively improved are solved, the economic loss caused by power distribution network faults is effectively reduced, and the stability of the operation and maintenance of the power distribution network is effectively ensured.

(2) According to the invention, the fault information analysis result corresponding to each power distribution subregion is sent to the operation manager corresponding to the power distribution network, so that the supervision efficiency corresponding to each power distribution subregion is greatly improved, the early warning efficiency corresponding to each power distribution subregion is effectively improved, and meanwhile, the occurrence frequency of the power distribution network fault is effectively reduced, thereby greatly ensuring the power distribution safety of the power distribution network.

(3) When the fault information corresponding to each power distribution sub-region is obtained, the fault basic information corresponding to the power distribution network and the fault basic information corresponding to each power distribution sub-region are matched and screened, so that the authenticity and the accuracy corresponding to the fault information of each power distribution sub-region are greatly improved, and the analysis efficiency corresponding to the fault information of each power distribution sub-region is also greatly improved.

Drawings

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

FIG. 1 is a diagram of the steps of the method of the present invention.

Detailed Description

While the foregoing is directed to embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.

Referring to fig. 1, in one aspect, the present invention provides a method for processing power distribution network fault emergency repair maintenance data, including the following steps:

step one, power distribution area division: acquiring a power distribution starting position and a power distribution ending position corresponding to a power distribution area of the power distribution network, further dividing the power distribution area corresponding to the power distribution network into power distribution subregions according to a preset sequence, numbering the divided power distribution subregions according to the preset sequence, and sequentially marking the power distribution subregions as 1,2,... i,. n;

according to the embodiment of the invention, the power distribution area corresponding to the power distribution network is divided into areas, so that the analysis intuitiveness of the fault information of the power distribution network is greatly improved, and great convenience is provided for the subsequent analysis of the target monitoring subarea, the target monitoring power distribution facility type and the target monitoring fault area position of the power distribution network.

Step two, obtaining the basic information of the subareas: the sub-region basic information acquisition is used for acquiring basic information corresponding to each power distribution sub-region, wherein the basic information corresponding to the power distribution sub-region comprises position information and power distribution facility information corresponding to the power distribution sub-region, and further a basic information set P of each power distribution sub-region is constructed_w(P_w1,P_w2,...P_wi,...P_wn)，P_wi represents the w-th basic information corresponding to the ith power distribution sub-area, w represents the basic information corresponding to the power distribution sub-area, and w is a1, a2, a1 and a2 respectively represent the position information and the power distribution facility information corresponding to the electronic area;

specifically, the power distribution facility information includes a type corresponding to the power distribution facility, a number corresponding to each type of power distribution facility, and a model corresponding to each type of power distribution facility, and the type corresponding to each power distribution sub-area power distribution facility is arranged according to a preset orderNumbering the distribution sub-areas sequentially, marking the distribution sub-areas as 1,2,. j,. m, and further constructing various distribution facility information sets H of the distribution sub-areas_e ^d(H_e ^d1,H_e ^d2,...H_e ^dj,...H_e ^dm)，H_e ^dj represents the e-th information corresponding to the jth type of distribution facility of the d-th distribution sub area, e represents the information of various types of distribution facilities, e is b1, b2, b1 and b2 respectively represent the number corresponding to the various types of distribution facilities and the model corresponding to the various types of distribution facilities, d represents the number of the distribution sub area, and d is 1, 2.

Wherein, in a specific embodiment, the category corresponding to the power distribution facility includes: overhead lines, poles, insulators, disconnectors, transformers, etc.

According to the embodiment of the invention, the basic information corresponding to each power distribution sub-region is obtained, so that an effective data basis is provided for the subsequent obtaining of the fault basic information of each power distribution sub-region.

Step three, acquiring basic information of the power distribution network fault: acquiring historical fault information corresponding to the power distribution network, further acquiring power distribution fault rush-repair times corresponding to the power distribution network, numbering the power distribution fault rush-repair times corresponding to the power distribution network according to a preset sequence, sequentially marking the power distribution fault rush-repair times as 1,2,. x,. y, and acquiring basic information corresponding to each power distribution fault;

specifically, the basic information of the power distribution network fault comprises a geographical position corresponding to each fault rush-repair, rush-repair time corresponding to each geographical position of each fault rush-repair, a power distribution fault area position corresponding to each geographical position of each fault rush-repair and a power distribution facility model corresponding to each geographical position of each fault rush-repair, and further a basic information set G of the power distribution network power distribution fault is constructed_z(G_z1,G_z2,...G_zx,...G_zy)，G_zx represents the z-th basic information of the distribution network corresponding to the x-th distribution fault emergency repair, z represents the basic information of the distribution network, and z is c1, c2, c3, c4, c1, c2, c3 and c4 respectively represent the geographical position corresponding to each fault emergency repair, the emergency repair time corresponding to each fault emergency repair position, and each fault emergency repairAnd the power distribution fault area position corresponding to each geographic position and the power distribution facility model corresponding to each geographic position are salvageed in each fault.

Step four, acquiring sub-region fault information: according to the basic information corresponding to each power distribution subregion and the fault basic information corresponding to the power distribution network, matching and comparing the basic information corresponding to each power distribution subregion with the fault basic information corresponding to the power distribution network, and further screening out the fault basic information corresponding to each power distribution subregion;

specifically, the basic information of the faults of each power distribution sub-region comprises the number of times of first-aid repair of the faults corresponding to each power distribution sub-region, first-aid repair time corresponding to each fault first-aid repair of each power distribution sub-region, the model of the power distribution facility corresponding to each fault first-aid repair of each power distribution sub-region and the position of the fault region corresponding to each fault first-aid repair of each power distribution sub-region, and further, a basic information set K of the faults of each power distribution sub-region is constructed_s(K_s1,K_s2,...K_si,...K_sn)，K_sThe method comprises the steps that i represents the s-th fault basic information corresponding to the ith power distribution subregion, s represents the fault basic information, and s is f1, f2, f3, f4, f1, f2, f3 and f4 which respectively represent the fault first-aid repair times corresponding to the power distribution subregions, the first-aid repair time corresponding to the fault first-aid repair times of the power distribution subregions, the power distribution facility model corresponding to the fault first-aid repair times of the power distribution subregions and the fault region position corresponding to the fault first-aid repair times of the power distribution subregions.

When the fault information corresponding to each power distribution sub-region is obtained, the fault basic information corresponding to the power distribution network and the fault basic information corresponding to each power distribution sub-region are matched and screened, so that the authenticity and the accuracy corresponding to the fault information of each power distribution sub-region are greatly improved, and the analysis efficiency corresponding to the fault information of each power distribution sub-region is also greatly improved.

Step five, analyzing the sub-region fault information: analyzing the basic fault information corresponding to each power distribution sub-region according to the obtained basic fault information corresponding to each power distribution sub-region, and obtaining an analysis result corresponding to the basic fault information of each power distribution sub-region;

specifically, the sub-region fault information analysis is used for analyzing the number of times of fault first-aid repair corresponding to each power distribution sub-region and the time of each fault first-aid repair of each power distribution sub-region, and further counting the influence coefficient of the fault which is easy to occur in each power distribution sub-region.

Wherein, the failure repair times concrete analysis process that each distribution subregion corresponds is: acquiring the fault first-aid repair times of each power distribution sub-area, comparing the fault first-aid repair times corresponding to each power distribution sub-area with the fault first-aid repair times corresponding to the power distribution network, and further counting the fault first-aid repair time influence coefficients of each power distribution sub-area, wherein the calculation formula is

α_dF1, which represents the influence coefficient of the number of first-aid repair times corresponding to the d-th sub-distribution area_dAnd the number of the fault first-aid repair corresponding to the d-th power distribution sub-area is represented, and y represents the number of the fault first-aid repair corresponding to the power distribution network.

Wherein, each time of the power distribution subareas failure first-aid repair time concrete analysis process is as follows: acquiring the rush-repair time corresponding to each fault rush-repair of each power distribution subregion, numbering the number of the rush-repair times corresponding to each power distribution subregion according to a preset sequence to be 1,2, g, h, comparing the rush-repair time corresponding to each fault rush-repair of each power distribution subregion with each other, counting the average fault rush-repair time interval corresponding to each power distribution subregion, wherein the calculation formula is

T_dRepresenting mean-time-between-failure repair interval for the d-th sub-distribution area, f2_t+1 ^d-f2_t ^dIndicate that the d sub-area of electricity distribution t +1 time trouble rush-repair time interval that corresponds when rush-repair with the tth trouble rush-repair time interval, t represents the trouble that each sub-area of electricity distribution corresponds and salvages the number of times, and t is 1,2_dRepresenting the number of times of emergency repair of the fault corresponding to the d-th power distribution subregion, counting the average fault emergency repair time interval corresponding to the power distribution network, comparing the average fault emergency repair time interval corresponding to each power distribution subregion with the average fault emergency repair time interval corresponding to the power distribution network, and further counting each power distribution subregionThe influence coefficient of the fault time interval of the power distribution subarea is calculated by the formula

β_dRepresenting a fault time interval influence coefficient corresponding to the d-th power distribution sub-region, and T' representing an average fault first-aid repair time interval corresponding to the power distribution network;

according to the influence coefficient of the number of the first-aid repair times of the faults of each distribution subarea and the influence coefficient of the time interval of the faults of each distribution subarea, the influence coefficient of the faults which are easy to occur of each distribution subarea is calculated, and the calculation formula is

δ_dAnd representing the influence coefficient of the easy fault corresponding to the d-th power distribution subregion.

Specifically, the sub-region fault information analysis is used for analyzing the power distribution facility model corresponding to each power distribution sub-region during each fault rush-repair, and then according to the power distribution facility model corresponding to each fault rush-repair of each power distribution sub-region, the influence coefficient of each power distribution facility type of each power distribution sub-region, which is prone to fault occurrence, is counted.

Wherein, the analysis process that each distribution subregion distribution facility model corresponds when each trouble of each distribution subregion is salvageed does: acquiring a basic information set of each power distribution subregion, further acquiring power distribution facility information corresponding to each power distribution subregion, and simultaneously acquiring the basic information set of each power distribution subregion, then the type corresponding to the distribution facility of each distribution sub-area and the model corresponding to each type of distribution facility of each distribution sub-area are called, the model of the distribution facility corresponding to each fault first-aid repair of each distribution sub-area is compared with the model corresponding to each type of distribution facility of each distribution sub-area, further acquiring the corresponding distribution facility types of each distribution subarea during each fault rush-repair, comparing the distribution facility types of each distribution subarea during each fault rush-repair, acquiring the fault rush-repair times corresponding to the distribution facility types of each distribution subarea, and then carrying out the fault first-aid repair times corresponding to the types of the distribution facilities of each distribution subarea and the fault first-aid repair times corresponding to each distribution subarea.Comparing and counting the influence coefficients of the types of the distribution facilities of each distribution subarea which are easy to fail, wherein the calculation formula is

γ_d ^rRepresenting the susceptibility to failure influence coefficient, h, corresponding to the nth kind of distribution facility in the nth distribution sub area_d ^rAnd indicating the corresponding failure first-aid repair times of the ith type of power distribution facility in the d-th power distribution subarea.

Specifically, the sub-region fault information analysis is used for analyzing fault region positions corresponding to each fault first-aid repair of each power distribution sub-region, further comparing the fault region positions corresponding to each fault first-aid repair of each power distribution sub-region with each other, counting the number of the fault region positions corresponding to each power distribution sub-region and the number of the fault first-aid repair times corresponding to each fault region position of each power distribution sub-region, numbering the fault region positions of each power distribution sub-region according to a preset sequence, sequentially marking the fault region positions as 1,2, k, q, further comparing the fault first-aid repair times corresponding to each fault region position of each power distribution sub-region with the number of the fault first-aid repair times corresponding to each power distribution sub-region, and further counting the fault influence coefficients of each fault region position of each power distribution sub-region.

Wherein, the calculation formula of each fault area position failure-prone influence coefficient of each power distribution sub-area is

λ_d ^uRepresenting the susceptibility to failure influence coefficient, h, corresponding to the u-th failure region position of the d-th power distribution sub-region_d ^uThe number of times of first-aid repair of the fault corresponding to the position of the u-th fault area of the d-th power distribution sub area is represented by h_d′The number of times of first-aid repair of faults corresponding to the d-th power distribution sub-area is represented, u represents the position number of each fault area of each power distribution sub-area, and u is 1, 2.

Specifically, the area fault information analysis is further configured to analyze the frequency of occurrence of faults of each power distribution sub-area and the frequency of occurrence of fault information of each power distribution sub-area, so as to obtain a target monitoring sub-area corresponding to the power distribution network, a type of a target monitoring power distribution facility corresponding to the target monitoring sub-area of the power distribution network, and a position of the target monitoring fault area.

The specific analysis process corresponding to the frequency of the faults of each power distribution sub-area and the frequency of the fault information of each power distribution sub-area is as follows: sorting the susceptibility fault influence coefficients of the distribution subregions from big to small according to the counted susceptibility fault influence coefficients of the distribution subregions, further extracting the distribution subregions with the first ranking of the susceptibility fault influence coefficients, recording the distribution subregions as target monitoring subregions, further acquiring the corresponding positions of the target monitoring subregions, simultaneously acquiring the susceptibility fault influence coefficients of the distribution facilities of the target monitoring subregions and the susceptibility fault influence coefficients of the fault regions of the target monitoring subregions according to the corresponding numbers of the target monitoring subregions, sorting the susceptibility fault influence coefficients of the distribution facilities of the target monitoring subregions and the susceptibility fault influence coefficients of the fault regions of the target monitoring subregions according to the big to small order, further extracting the susceptibility fault influence coefficients of the target monitoring subregions and the fault regions with the first ranking of the susceptibility fault influence coefficients, and recording the power distribution facility type and the fault area position as a target monitoring power distribution facility type and a target monitoring fault area position.

According to the embodiment of the invention, the processing content of the existing power distribution network fault first-aid repair maintenance data processing method is limited by processing and analyzing the fault first-aid repair times corresponding to each power distribution subregion, the first-aid repair time corresponding to each fault first-aid repair, the power distribution facility model corresponding to each fault first-aid repair and the fault region position corresponding to each fault first-aid repair, so that the problem that the practicability of a data processing result cannot be effectively improved is solved, the economic loss caused by power distribution network faults is effectively reduced, and the stability of the operation and maintenance of the power distribution network is effectively ensured.

Step six, information sending: and sending the fault information analysis result corresponding to each power distribution sub-area to an operation manager corresponding to the power distribution network, and correspondingly managing the power distribution area corresponding to the power distribution network.

Specifically, the information sending is used for sending the position corresponding to the target monitoring sub-area corresponding to the power distribution network, the type of the target monitoring power distribution facility corresponding to the target monitoring sub-area of the power distribution network, and the position of the target monitoring fault area to the operation manager corresponding to the power distribution network.

According to the embodiment of the invention, the fault information analysis result corresponding to each power distribution subregion is sent to the operation manager corresponding to the power distribution network, so that the supervision efficiency corresponding to each power distribution subregion is greatly improved, the early warning efficiency corresponding to each power distribution subregion is effectively improved, and meanwhile, the occurrence frequency of faults of the power distribution network is effectively reduced, and the power distribution safety of the power distribution network is greatly guaranteed.

One aspect of the invention provides an apparatus comprising: the system comprises a processor, a memory and a network interface, wherein the memory and the network interface are connected with the processor; the network interface is connected with a nonvolatile memory in the server; the processor retrieves a computer program from the non-volatile memory via the network interface when running, and runs the computer program via the memory to perform any of the methods of the invention.

Another aspect of the present invention provides a computer storage medium, in which a computer program is burned, and when the computer program runs in a memory of a server, the computer program implements the method according to any one of the above-mentioned embodiments.

The foregoing is merely exemplary and illustrative of the principles of the present invention and various modifications, additions and substitutions of the specific embodiments described herein may be made by those skilled in the art without departing from the principles of the present invention or exceeding the scope of the claims set forth herein.

Claims (10)

1. A power distribution network fault first-aid repair maintenance data processing method is characterized by comprising the following steps: the method comprises the following steps:

step one, power distribution area division: acquiring a power distribution starting position and a power distribution ending position corresponding to a power distribution area of the power distribution network, further dividing the power distribution area corresponding to the power distribution network into power distribution subregions according to a preset sequence, numbering the divided power distribution subregions according to the preset sequence, and sequentially marking the power distribution subregions as 1,2,... i,. n;

step two, obtaining the basic information of the subareas: the sub-region basic information acquisition is used for acquiring basic information corresponding to each power distribution sub-region, wherein the basic information corresponding to the power distribution sub-region comprises position information and power distribution facility information corresponding to the power distribution sub-region, and further a basic information set P of each power distribution sub-region is constructed_w(P_w1,P_w2,...P_wi,...P_wn)，P_wi represents the w-th basic information corresponding to the ith power distribution sub-area, w represents the basic information corresponding to the power distribution sub-area, and w is a1, a2, a1 and a2 respectively represent the position information and the power distribution facility information corresponding to the electronic area;

step three, acquiring basic information of the power distribution network fault: acquiring historical fault information corresponding to the power distribution network, further acquiring power distribution fault first-aid repair times corresponding to the power distribution network, numbering the power distribution fault first-aid repair times corresponding to the power distribution network according to a preset sequence, sequentially marking the power distribution fault first-aid repair times as 1,2,. x,. y, and acquiring basic information corresponding to each power distribution fault of the power distribution network;

step four, acquiring sub-region fault information: according to the basic information corresponding to each power distribution subregion and the fault basic information corresponding to the power distribution network, matching and comparing the basic information corresponding to each power distribution subregion with the fault basic information corresponding to the power distribution network, and further screening out the fault basic information corresponding to each power distribution subregion;

step five, analyzing the sub-region fault information: analyzing the basic fault information corresponding to each power distribution sub-region according to the obtained basic fault information corresponding to each power distribution sub-region, and obtaining an analysis result corresponding to the basic fault information of each power distribution sub-region;

step six, information sending: and sending the fault information analysis result corresponding to each power distribution sub-area to an operation manager corresponding to the power distribution network, and correspondingly managing the power distribution area corresponding to the power distribution network.

2. The power distribution network fault emergency repair maintenance data processing method according to claim 1, characterized in that: the power distribution facility information comprises types corresponding to the power distribution facilities, the quantity corresponding to the various power distribution facilities and the models corresponding to the various power distribution facilities, the types corresponding to the power distribution facilities of the power distribution sub-areas are numbered according to a preset sequence, the numbers are marked as 1,2, j, m, and then, an information set H of the various power distribution facilities of the power distribution sub-areas is constructed_e ^d(H_e ^d1,H_e ^d2,...H_e ^dj,...H_e ^dm)，H_e ^dj represents the e-th information corresponding to the jth type of distribution facility of the d-th distribution sub area, e represents the information of various types of distribution facilities, e is b1, b2, b1 and b2 respectively represent the number corresponding to the various types of distribution facilities and the model corresponding to the various types of distribution facilities, d represents the number of the distribution sub area, and d is 1, 2.

3. The power distribution network fault emergency repair maintenance data processing method according to claim 1, characterized in that: the basic information of the power distribution network faults comprises geographic positions corresponding to each fault rush-repair, rush-repair time corresponding to each geographic position of each fault rush-repair, power distribution fault area positions corresponding to each geographical position of each fault rush-repair and power distribution facility models corresponding to each geographical position of each fault rush-repair, and further a basic information set G of the power distribution network power distribution faults is constructed_z(G_z1,G_z2,...G_zx,...G_zy)，G_zx represents the xth power distribution fault basic information corresponding to the xth power distribution fault first-aid repair of the power distribution network, z represents the power distribution fault basic information, z is c1, c2, c3, c4, c1, c2, c3 and c4 respectively represent the geographical position corresponding to each fault first-aid repair, the first-aid repair time corresponding to each fault first-aid repair position, the power distribution fault area position corresponding to each fault first-aid repair position and the power distribution facility model corresponding to each fault first-aid repair position.

4. The method of claim 1The method for processing the data of the first-aid repair and maintenance of the power distribution network is characterized by comprising the following steps of: the basic information of the faults of each power distribution subregion comprises the number of times of rush repair of the faults corresponding to each power distribution subregion, the rush repair time corresponding to each time of rush repair of the faults of each power distribution subregion, the model of the power distribution facility corresponding to each time of rush repair of the faults of each power distribution subregion and the position of the fault region corresponding to each time of rush repair of the faults of each power distribution subregion, and further, a basic information set K of the faults of each power distribution subregion is constructed_s(K_s1,K_s2,...K_si,...K_sn)，K_sThe method comprises the steps that i represents the s-th fault basic information corresponding to the ith power distribution subregion, s represents the fault basic information, and s is f1, f2, f3, f4, f1, f2, f3 and f4 which respectively represent the fault first-aid repair times corresponding to the power distribution subregions, the first-aid repair time corresponding to the fault first-aid repair times of the power distribution subregions, the power distribution facility model corresponding to the fault first-aid repair times of the power distribution subregions and the fault region position corresponding to the fault first-aid repair times of the power distribution subregions.

5. The power distribution network fault emergency repair maintenance data processing method according to claim 1, characterized in that: and the sub-region fault information analysis is used for analyzing the fault first-aid repair times corresponding to each power distribution sub-region and each fault first-aid repair time of each power distribution sub-region, and further counting the influence coefficient of the faults which are easy to occur in each power distribution sub-region.

6. The power distribution network fault emergency repair maintenance data processing method according to claim 1, characterized in that: and the sub-region fault information analysis is used for analyzing the power distribution facility model corresponding to each power distribution sub-region during each fault rush-repair, and then counting the influence coefficient of each power distribution facility type of each power distribution sub-region, which is easy to generate faults, according to the power distribution facility model corresponding to each fault rush-repair of each power distribution sub-region.

7. The power distribution network fault emergency repair maintenance data processing method according to claim 1, characterized in that: the sub-region fault information analysis is used for analyzing fault region positions corresponding to each fault first-aid repair of each power distribution sub-region, further comparing the fault region positions corresponding to each fault first-aid repair of each power distribution sub-region with each fault first-aid repair time of each power distribution sub-region, numbering the fault region positions of each power distribution sub-region according to a preset sequence, sequentially marking the fault region positions as 1,2, k, q, further comparing the fault first-aid repair time corresponding to each fault region position of each power distribution sub-region with the fault first-aid repair time corresponding to each power distribution sub-region, and further counting the fault influence coefficients of each fault region position of each power distribution sub-region.

8. The power distribution network fault emergency repair maintenance data processing method according to claim 1, characterized in that: and the region fault information analysis is also used for analyzing the frequency of the faults of each power distribution sub region and the frequency of the fault information of each power distribution sub region, so as to obtain a target monitoring sub region corresponding to the power distribution network, a target monitoring power distribution facility type corresponding to the target monitoring sub region of the power distribution network and a target monitoring fault region position.

9. An apparatus, characterized by: the method comprises the following steps: the system comprises a processor, a memory and a network interface, wherein the memory and the network interface are connected with the processor; the network interface is connected with a nonvolatile memory in the server; the processor, when running, retrieves a computer program from the non-volatile memory via the network interface and runs the computer program via the memory to perform the method of any of claims 1-8.

10. A computer storage medium, wherein a computer program is burned into the computer storage medium, and when the computer program runs in a memory of a server, the computer program implements the method according to any one of claims 1 to 8.

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