CN112288180B - Comprehensive dispatching method and system for distribution network maintenance work orders - Google Patents

Abstract

The invention discloses a comprehensive dispatching method and system for a distribution network maintenance work order, wherein the method comprises the following steps: acquiring a dispatching factor of a dispatching network maintenance work order; sorting the dispatch factors of all the distribution network maintenance worksheets; calculating a weight solution of each type of dispatch factors corresponding to each maintainer according to the classification result; calculating a weight solution corresponding to each maintainer according to the weight solution of each type of dispatch factors; obtaining the maximum value in the weight solutions corresponding to all maintenance workers, namely dispatching an optimal solution; and dispatching the distribution network maintenance workers according to the dispatching optimal solution. The invention can make the whole allocation and repair process smoother in the whole informatization management process through the informatization scheme, and brings substantial improvement to the whole allocation and repair work.

Description

Comprehensive dispatching method and system for distribution network maintenance work orders

Technical Field

The invention relates to the field of power distribution network maintenance, in particular to a comprehensive distribution method and system for a distribution network maintenance work order.

Background

The importance of informatization in China is self-evident at present, and business informatization is started in various industries. For the power grid, intelligence and informatization are necessary trends of the power grid development. In the power grid service, the robbery-distributing service occupies a very high proportion in the whole service of the power grid, and meanwhile, the robbery-distributing service is also an important index of the service work of the power grid service. However, the informatization degree of the existing allocation and robbery work is still low, the allocation of the maintenance list is mainly focused on manual allocation in the traditional allocation and robbery business system, the allocation and robbery business of part of power supply network companies is also simple to allocate and robbery with a single index, scientific calculation and guidance are lacked, and more disadvantages exist in the actual working process.

For example, in the dispatch algorithm, the dispatch is mainly performed by relying on the positioning data of the maintenance personnel, that is, simply the distance between the maintenance personnel and the fault point is taken as a factor.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a comprehensive dispatching method and system for a distribution network maintenance work order, which are used for solving the problem that the informatization degree of distribution work is still low in the prior art.

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

a comprehensive dispatch method for a distribution network maintenance work order comprises the following steps:

acquiring a dispatching factor of a dispatching network maintenance work order;

Sorting the dispatch factors of all the distribution network maintenance worksheets;

Calculating a weight solution of each type of dispatch factors corresponding to each maintainer according to the classification result;

calculating a weight solution corresponding to each maintainer according to the weight solution of each type of dispatch factors;

obtaining the maximum value in the weight solutions corresponding to all maintenance workers, namely dispatching an optimal solution;

And dispatching the distribution network maintenance workers according to the dispatching optimal solution.

Further, sorting the form dispatching factors of all the distribution network maintenance work orders, including dividing the form dispatching factors into core form dispatching factors and non-core form dispatching factors; the core form factor includes: time for maintenance personnel to reach a fault place, time for maintenance personnel to solve similar problems, current order receiving quantity of maintenance personnel, maintenance fault type, maintenance fault priority principle, maintenance fault emergency level and maintenance fault difficulty level; the non-core dispatch factors comprise maintenance skill level of maintenance personnel, skilled field of maintenance personnel, daily workload of maintenance personnel and current task state of maintenance personnel.

Further, calculating the weight solution of each type of form factor corresponding to each maintenance worker according to the classification result, wherein the weight solution of the core form factor is obtained through a sequence relation analysis method, and the weight solution of the non-core form factor is obtained through a random gradient descent algorithm.

Further, obtaining the weight solution of the core form factor through a sequence relation analysis method comprises the following steps:

sequencing all core form factors by a sequence relation analysis method;

Assigning a weight coefficient to the core form factor according to the sorting result;

Multiplying the weight coefficient of each core form factor by the factor value;

and multiplying the weight coefficients of all the core form factors by the factor values, and adding to obtain the weight solution of the core form factors.

Further, obtaining the weight solution of the non-core form factor through a random gradient descent algorithm comprises the following steps:

acquiring a weight coefficient of a non-core form factor according to an SGD algorithm;

multiplying the weight coefficient of each non-core form factor by the factor value;

And multiplying the weight coefficients of all the non-core form factors by the factor values, and adding to obtain the weight solution of the non-core form factors.

Further, the calculation formula of the weight solution corresponding to each serviceman is as follows:

V＝θ₁*V_ss2+θ₂*V_ss4；

Wherein V is a weight solution corresponding to each maintainer; θ ₁ is the parameter value corresponding to the core form factor; v _ss2 is the weight solution of the core dispatch factor; θ ₂ is a parameter value corresponding to the non-core form factor; v _ss4 is the weight solution of the non-core form factor.

A distribution network repair worksheet comprehensive worksheet dispatching system, the system comprising:

A first acquisition module: the dispatching factor is used for acquiring the dispatching work order of the distribution network maintenance work order;

And a classification module: the method is used for classifying the dispatch factors of all the distribution network maintenance worksheets;

A first calculation module: the weight solution of each type of dispatch factors corresponding to each maintenance worker is calculated according to the classification result;

a second calculation module: the weight solution corresponding to each maintainer is calculated according to the weight solution of each type of dispatch factors;

And a second acquisition module: the method comprises the steps of obtaining the maximum value in weight solutions corresponding to all maintenance workers, namely dispatching an optimal solution;

and the dispatch module is used for: and the method is used for dispatching the distribution network maintenance workers according to the dispatching optimal solution.

A comprehensive dispatching system for a distribution network maintenance work order comprises a processor and a storage medium;

the storage medium is used for storing instructions;

the processor is configured to operate according to the instructions to perform the steps of the method described above.

A computer readable storage medium having stored thereon a computer program which when executed by a processor realizes the steps of the method described above. Compared with the prior art, the invention has the following beneficial effects:

the invention combines the angles of practicality, guidance, economy and the like, confirms the dispatch factors of the maintenance work orders by combining the industry specification and operation, and determines the weight solution of the dispatch factors by a sequence relation analysis method and an SGD calculation method, thereby having higher credibility and feasibility; the method has the advantages that the weight solution corresponding to each maintainer is calculated according to the weight solution of each type of dispatch factor, and dispatch is carried out on the distribution network maintainer according to the weight solution corresponding to each maintainer, so that compared with an artificial visual assignment mode, the method has great improvement, the informatization degree of the scheme is improved, the whole distribution and maintenance process is smoother in the whole informatization management process, and substantial improvement is brought to the whole distribution and maintenance work.

Drawings

FIG. 1 is a flowchart of an algorithm;

Fig. 2 is a diagram of a form factor structure.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

A comprehensive dispatching method for a distribution network maintenance work order is provided, which utilizes an expert coefficient evaluation method and a machine learning random gradient descent algorithm to obtain an optimal solution. First, by analyzing specific practices and works in maintenance work, core factors and non-core factors of dispatch scheduling are established. And then determining the weight coefficient of each core factor by adopting an order relation analysis method on the core factors, thereby obtaining the optimal solution of the core factors. Secondly, using a random gradient descent algorithm of machine learning to calculate an optimal solution for the non-core factors. And finally, obtaining a dispatching degree result by the two solutions, and providing guidance for maintenance work.

As shown in fig. 1 and 2, the comprehensive dispatch method for the distribution network maintenance work orders of the invention comprises the following steps:

Step SS1: and classifying the form dispatching factors of all the distribution network maintenance work orders into core form dispatching factors and non-core form dispatching factors. The core form factor includes: time for a maintainer to reach a fault place, time for the maintainer to solve similar problems, current order receiving quantity of the maintainer, maintenance fault type, maintenance fault priority principle (distance priority principle and skill priority principle), maintenance fault emergency level and maintenance fault difficulty level; non-core form factors include: the five factors, mainly the evaluation index of the maintenance personnel, do not directly affect the fault maintenance, but are non-negligible factors in the actual working process.

The time for the maintainer to reach the fault point reflects the timeliness of service and the timeliness of fault recovery, so that the time is an extremely important index factor in the system; the two factors of the similar problem solving time of the maintenance personnel and the current number of the current access of the maintenance personnel are factors of the actual problem solving capability of the maintenance personnel and possible influence, so the two factors are taken as attention point factors of the maintenance personnel; the four factors are attribute factors of maintenance faults, namely maintenance fault category, maintenance fault priority principle, maintenance fault emergency level and maintenance fault difficulty level, which directly determine maintenance difficulty, maintenance scope, maintenance procedures to be adopted, maintenance standard operation and other information, so the four factors are extremely important factors in the maintenance process, and are factors which cannot be ignored in the maintenance single delegation process, and therefore, the four factors belong to core dispatch factors.

Step SS2: and for the core form factor, determining the weight coefficient of the core form factor corresponding to each maintainer in the form by using a sequence relation analysis method.

Step SS3: and calculating according to the weight coefficient of the core form factor in each maintenance form of the SS2 and the factor value corresponding to each core form factor to obtain the weight solution of the core form factor.

Step SS4: and for the non-core form factor, a random gradient descent algorithm of machine learning is used for obtaining a weight solution of the non-core form factor corresponding to each maintainer.

Step SS5: and according to the weight solution of the core dispatch factors in the step SS3 and the weight solution of the non-core dispatch factors in the step SS4, obtaining the weight solution corresponding to each maintainer through weighted calculation, and obtaining the final dispatch result, namely the dispatch to which maintainer is dispatched according to the weight solution corresponding to each maintainer. In step SS2, when determining the weight coefficient of the core form factor in the form by using the order relation analysis method for the core form factor, the main method is as follows:

Firstly, determining the sequence relation of each factor on the importance of robbing and maintenance work, wherein the sequence relation comprises the following formula:

wherein, the evaluation index x ₁,x₂,……,x_m determines the sequence relation according to ">". Here, the The i-th evaluation factor (i=1, 2, … m) after the { x _i } sequence is expressed as the sequence relation ">", the core dispatch factor is evaluated, and the process is as follows, the index considered to be most important is selected from the factor index set { x _1,x₂,…x_m }, and is marked as/>Then the most important index is selected from the remaining m-1 indexes, and is marked as/>And so on, until the sequence relation of all core dispatch factors is confirmed, the method comprises the following steps: maintenance fault priority principle (distance priority principle and skill priority principle) > maintenance fault emergency level > time for maintenance personnel to reach fault location > maintenance fault difficulty level > maintenance fault category > maintenance personnel similar problem solving time > current order receiving quantity of maintenance personnel;

Table 1: assignment reference table

The weight coefficient of the core dispatch factor is calculated according to the assignment reference table assignment, and because the factor is too many, the maintenance fault priority principle, the maintenance fault emergency level and the maintenance personnel similar problem solving time are used for description:

Is provided with The principle factors of maintenance failure priority are as follows; let/>Emergency level factors for maintenance faults; let/>The time factor is solved for the similar problems of maintenance personnel; let/>The number of the current order is received for maintenance personnel; the reference assignments are given as follows:

thus, it is possible to obtain: r ₂r₃r₄＝2.688,r₃r₄＝2.24,r₄ =1.4

So that: r ₂r₃r₄+r₃r₄+r₄ = 6.328

The method can obtain:

Other indexes are processed by the method, and the weight coefficients of all core dispatch factors can be obtained as follows:

The method is to confirm the weight coefficient, specifically, the factor value corresponding to each core dispatch factor, the maintenance personnel needs to use the same parameter standard, and the normalization processing is carried out on the parameter standard, and the value is between 0 and 1. And multiplying the weight coefficients of all the core form factors by the factor values, and adding to obtain the weight solution of the core form factors.

In step SS4, for non-core form factors, a machine-learned random gradient descent algorithm is used, the method being as follows:

And selecting effective and qualified dispatch data from the historical dispatch data, acquiring evaluation index values of non-core dispatch factors from the maintenance skill level of maintenance personnel, the skill level of the maintenance personnel, the field of the maintenance personnel, the current work load of the maintenance personnel and the like through multiple ways of investigation and mutual evaluation of other systems and experts, and training by using an SGD algorithm so as to obtain the weight coefficients of the non-core dispatch factors. After the weight coefficient is obtained, when a new task maintenance work order arrives, multiplying the weight coefficient by a factor value corresponding to each non-core form factor, multiplying the weight coefficient of all the non-core form factors by the factor value, and adding to obtain the weight solution of the non-core form factor.

After obtaining the weight solutions of steps SS3 and SS4, setting a parameter value θ ₁ corresponding to the core form factor and a parameter value θ ₂ corresponding to the non-core form factor, and calculating the weight solution corresponding to each maintainer according to the parameter values. These two parameters θ _1,θ₂ are set by the system, with θ ₁ being 0.3 and θ ₂ being 0.7, depending on the empirical correction during the time dispatch.

Finally, the weight solution corresponding to each maintainer in the form is obtained: v=θ ₁*V_ss2+θ₂*V_ss4;V_ss2 is the weight solution of the core form factor; v _ss4 is the weight solution of the non-core form factor. Obtaining the maximum value in the weight solutions corresponding to all maintenance workers, namely dispatching an optimal solution; and dispatching the distribution network maintenance workers according to the dispatching optimal solution.

The invention refers to a method of maintenance personnel in actual work, based on company operation standards and systems, the actual situation and the assessment index in the work are researched, two factors are summarized, and the method has good guidance and practicality. The bonding can be well carried out in actual work. The coefficient is determined by expert evaluation, and the obtained coefficient index system has more authority. Meanwhile, the evaluation result obtained by machine learning has good applicability, and can guide various maintenance works well.

The invention combines the experience and the actual situation of each actual maintenance personnel from the company business to sum up two main factors in the allocation and robbery dispatch list: core factors and non-core factors. Meanwhile, by utilizing informatization methods such as machine learning, the delegation maintenance work order is more in line with the actual situation and has the fairness principle, and a reliable, reliable and feasible guiding method is provided for the robbery work of the power distribution network.

A distribution network repair worksheet comprehensive worksheet dispatching system, the system comprising:

A first acquisition module: the dispatching factor is used for acquiring the dispatching work order of the distribution network maintenance work order;

and a classification module: for classifying the dispatch factors of all distribution network maintenance worksheets

A first calculation module: the weight solution of each type of dispatch factors corresponding to each maintainer is obtained according to the classification result;

a second calculation module: the weight solution corresponding to each maintainer is calculated according to the weight solution of each type of dispatch factors;

And a second acquisition module: the method comprises the steps of obtaining the maximum value in weight solutions corresponding to all maintenance workers, namely dispatching an optimal solution;

and the dispatch module is used for: and the method is used for dispatching the distribution network maintenance workers according to the dispatching optimal solution.

A comprehensive dispatching system for a distribution network maintenance work order comprises a processor and a storage medium;

the storage medium is used for storing instructions;

the processor is configured to operate according to the instructions to perform the steps of the method described above.

A computer readable storage medium having stored thereon a computer program which when executed by a processor realizes the steps of the method described above.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The foregoing is illustrative of the present invention and is not to be construed as limiting thereof, but rather as providing for the use of additional embodiments and advantages of all such modifications, equivalents, improvements and similar to the present invention are intended to be included within the scope of the present invention as defined by the appended claims.

Claims (5)

1. The comprehensive dispatching method for the distribution network maintenance work orders is characterized by comprising the following steps of:

acquiring a dispatching factor of a dispatching network maintenance work order;

Sorting the dispatch factors of all the distribution network maintenance worksheets;

Calculating a weight solution of each type of dispatch factors corresponding to each maintainer according to the classification result;

calculating a weight solution corresponding to each maintainer according to the weight solution of each type of dispatch factors;

obtaining the maximum value in the weight solutions corresponding to all maintenance workers, namely dispatching an optimal solution;

Dispatching the dispatching network maintenance worker according to the dispatching optimal solution;

Classifying all dispatching factors of the distribution network maintenance worksheets, including dividing dispatching factors into core dispatching factors and non-core dispatching factors; the core form factor includes: time for maintenance personnel to reach a fault place, time for maintenance personnel to solve similar problems, current order receiving quantity of maintenance personnel, maintenance fault type, maintenance fault priority principle, maintenance fault emergency level and maintenance fault difficulty level; the non-core dispatch factors comprise maintenance skill level of maintenance personnel, skill level of the maintenance personnel, the field of the maintenance personnel, the daily workload of the maintenance personnel and the current task state of the maintenance personnel;

Calculating the weight solution of each type of dispatch factors corresponding to each maintainer according to the classification result, wherein the weight solution of the core dispatch factors is obtained through a sequence relation analysis method, and the weight solution of the non-core dispatch factors is obtained through a random gradient descent algorithm;

the method for obtaining the weight solution of the non-core form factor through the random gradient descent algorithm comprises the following steps:

acquiring a weight coefficient of a non-core form factor according to an SGD algorithm;

multiplying the weight coefficient of each non-core form factor by the factor value;

multiplying the weight coefficients of all the non-core form factors by the factor values and adding to obtain a weight solution of the non-core form factors;

The calculation formula of the weight solution corresponding to each serviceman is as follows:

；

Wherein, A weight solution corresponding to each maintenance worker; /(I)Parameter values corresponding to the core form factors are assigned; /(I)Weighting solution of core dispatch factors; /(I)Parameter values corresponding to the non-core form factors are assigned; /(I)And (5) weighting the non-core dispatch factors.

2. The comprehensive dispatch method of a distribution network maintenance work order according to claim 1, wherein the obtaining the weight solution of the core dispatch factor by the order relation analysis method comprises the following steps:

sequencing all core form factors by a sequence relation analysis method;

Assigning a weight coefficient to the core form factor according to the sorting result;

Multiplying the weight coefficient of each core form factor by the factor value;

and multiplying the weight coefficients of all the core form factors by the factor values, and adding to obtain the weight solution of the core form factors.

3. A comprehensive dispatch system for a distribution network maintenance work order, the system comprising:

A first acquisition module: the dispatching factor is used for acquiring the dispatching work order of the distribution network maintenance work order;

And a classification module: the method is used for classifying the dispatch factors of all the distribution network maintenance worksheets;

A first calculation module: the weight solution of each type of dispatch factors corresponding to each maintenance worker is calculated according to the classification result;

a second calculation module: the weight solution corresponding to each maintainer is calculated according to the weight solution of each type of dispatch factors;

And a second acquisition module: the method comprises the steps of obtaining the maximum value in weight solutions corresponding to all maintenance workers, namely dispatching an optimal solution;

And the dispatch module is used for: the dispatching method comprises the steps of dispatching a dispatching network maintenance worker according to a dispatching optimal solution;

Classifying all dispatching factors of the distribution network maintenance worksheets, including dividing dispatching factors into core dispatching factors and non-core dispatching factors; the core form factor includes: time for maintenance personnel to reach a fault place, time for maintenance personnel to solve similar problems, current order receiving quantity of maintenance personnel, maintenance fault type, maintenance fault priority principle, maintenance fault emergency level and maintenance fault difficulty level; the non-core dispatch factors comprise maintenance skill level of maintenance personnel, skill level of the maintenance personnel, the field of the maintenance personnel, the daily workload of the maintenance personnel and the current task state of the maintenance personnel;

Calculating the weight solution of each type of dispatch factors corresponding to each maintainer according to the classification result, wherein the weight solution of the core dispatch factors is obtained through a sequence relation analysis method, and the weight solution of the non-core dispatch factors is obtained through a random gradient descent algorithm;

the method for obtaining the weight solution of the non-core form factor through the random gradient descent algorithm comprises the following steps:

acquiring a weight coefficient of a non-core form factor according to an SGD algorithm;

multiplying the weight coefficient of each non-core form factor by the factor value;

multiplying the weight coefficients of all the non-core form factors by the factor values and adding to obtain a weight solution of the non-core form factors;

The calculation formula of the weight solution corresponding to each serviceman is as follows:

；

Wherein, A weight solution corresponding to each maintenance worker; /(I)Parameter values corresponding to the core form factors are assigned; /(I)Weighting solution of core dispatch factors; /(I)Parameter values corresponding to the non-core form factors are assigned; /(I)And (5) weighting the non-core dispatch factors.

4. The comprehensive dispatching system for the distribution network maintenance worksheets is characterized by comprising a processor and a storage medium;

the storage medium is used for storing instructions;

The processor being operative according to the instructions to perform the steps of the method according to any one of claims 1-2.

5. Computer readable storage medium, on which a computer program is stored, characterized in that the program, when being executed by a processor, implements the steps of the method according to any of claims 1-2.