CN110796363A

CN110796363A - Dispatching method and system for work scheduling

Info

Publication number: CN110796363A
Application number: CN201911029072.8A
Authority: CN
Inventors: 曹仲南; 李扬; 胡兆华; 吴悠; 曾翔
Original assignee: Shenzhen Power Supply Bureau Co Ltd
Current assignee: Shenzhen Power Supply Bureau Co Ltd
Priority date: 2019-10-28
Filing date: 2019-10-28
Publication date: 2020-02-14

Abstract

The invention discloses a dispatching method and a dispatching system for work scheduling, which comprise the following steps: the planning work acquisition module is used for acquiring planning works of all types from each service system through a data interface; the standard quantization module is used for setting a unified standard for all different planned work services and determining key elements of single work; and the intelligent dispatching module is used for intelligently dispatching all the planned works after the system acquires the current value dispatching personnel information. By implementing the invention, the time required by the scheduled work assignment is shortened, the distribution network dispatching work assignment efficiency is improved, the power supply reliability is improved, and the work intersection is reduced.

Description

Dispatching method and system for work scheduling

Technical Field

The invention belongs to the field of power management, and relates to a work scheduling assignment method and system.

Background

With the gradual development of the power distribution network, the number of devices governed by the distribution network scheduling is increased year by year. At present, the distribution network scheduling work assignment takes paper as a carrier, the assignment is completely carried out in a manual mode, the average assignment time is 30 minutes, and the efficiency is extremely low. If some power transformation and regional office personnel apply for developing the planning work in the process, the dispatcher cannot reply and the normal development of the planning work is influenced, so that the research of an intelligent allocation algorithm for the planning work to realize the intelligent allocation is very important.

With the development of companies and the continuous change of external environments, companies put higher requirements on various working indexes, especially on the index of power supply reliability, which is directly related to customer satisfaction, and try to optimize the indexes. The distribution network scheduling is used as an instruction of distribution network planning work to issue a solution stage, and the working efficiency of the distribution network scheduling directly influences the punctuality and efficiency of the power failure and restoration time.

In the power industry, no scheduling work assignment algorithm research or only a localization attempt is available at home, and large-scale popularization cannot be realized. With the increasing workload, the intelligent dispatching algorithm for the work of researching and dispatching plans becomes an urgent work focus.

Disclosure of Invention

The technical problem to be solved by the embodiments of the present invention is to provide a work scheduling assignment method and system, so as to solve the problems that the workload of the distribution network scheduling is large and the efficiency of the manual assignment mode cannot meet the actual work requirement at present.

In one aspect of the present invention, a dispatching system for work scheduling is provided, including:

the planning work acquisition module is used for acquiring planning works of all types from each service system through a data interface;

the standard quantization module is used for setting a unified standard for all different planned work services and determining key elements of single work;

and the intelligent dispatching module is used for intelligently dispatching all the planned works after the system acquires the current value dispatching personnel information.

Further, the system also comprises a monitoring alarm module for monitoring the working quantity and the current working quantity which are responsible for each dispatcher in real time, and when the working quantity exceeds a certain quantity or the uneven degree reaches a certain degree, the system can send out an alarm to remind of dispatching the work.

Further, the planning work acquisition module outputs the work of planning development and planning completion in the current value time to the standard quantification module, and transmits the planning work in execution ending in the non-current value to the administrator for dispatching according to the workload.

Further, the key elements determined in the standard quantization module include: work content data, number of operations data, time of operation data, unit of work data, scheduled work rush hour condition data.

Further, after determining key elements of single work, the standard quantization module analyzes the weight occupied by each element, quantizes the workload of the single work, and counts the equivalent weight of each work.

Furthermore, in the process of intelligently allocating all the planning works by the intelligent allocation module, the planning works of the same unit are allocated to the same dispatcher; the same dispatcher does not have multiple jobs to start at the same time; the workload difference between different dispatchers does not exceed 10%.

In another aspect of the present invention, a method for dispatching work schedules is further provided, which is implemented by the above system, and includes the following steps:

step S1, the plan work obtaining module obtains all types of plan work orders from database or other business system, judges the current time and working state, if the plan development and plan finish work in the current time, it outputs to the standard quantification module, if the plan work in execution finished in the current time, the administrator dispatches according to the workload;

step S2, the quasi-quantization module extracts key elements according to the acquired data information, quantizes all types of planning work orders by taking the power transfer orders as standard equivalent units 1 according to the number of the key elements, and determines the equivalent of each work;

and step S3, the intelligent dispatching module dispatches the work according to the equivalent data of each work and the current value dispatcher information.

Further, in step S1, the planning work order includes: the method comprises the following steps of planning power failure work outside a station, planning power conversion work outside the station, work inside the station, live-line work list, standby cabinet fire receiving, line production and morning operation work.

Further, in step S2, the determining the equivalent of each task specifically includes:

the working type is planned power failure outside the station related to 1-4 switches, and the working equivalent is 2;

the working type is planned power failure outside the station related to 5-9 switches, and the working equivalent is 3;

the working type relates to planned power failure outside the station with more than 10 switches, and the working equivalent is 4;

the working type is the in-station work involving a single device, and the working equivalent is 2;

the working type relates to the in-station work of a main transformer, and the working equivalent is 3;

the working type is station work related to the bus, and the working equivalent is 4;

the working type is the work related to 1-3 electrified operations, and the working equivalent is 1;

the working type is the work related to more than 4 hot-line works, and the working equivalent is 2;

the working type is the work of the spare cabinet, and the working equivalent is 1;

the working type is the work of line production, and the working equivalent is 2;

the work type is morning work involving 1-7 switches, with a work equivalent of 3;

the work type is morning work involving more than 8 switches, and the work equivalent is 6.

Further, in step S3, the specific process of the assignment of the job includes the following steps:

step S31, the power failure, power conversion and electrification work of the off-site plan are distributed as a first group, the rest plan work is distributed as a second group, the system divides the work area according to 11 district offices, and the planned work equivalent of each district office is counted;

step S32, according to the number of dispatchers, sequentially dispatching the 8 local offices with the most workload in the first group to the corresponding dispatchers, then complementing the remaining 3 local offices, and distributing the local offices with more off-site work to the dispatchers with less off-site planning workload in the first group distribution;

step S33, calculating the work equivalent of each current dispatcher, sorting the rest work from large to small according to the equivalent, assigning the work with the largest equivalent to the dispatcher with the smallest equivalent, and repeating the process until all work is assigned;

in step S34, after the dispatch is completed, the work equivalent and the average human equivalent of all dispatchers are calculated and adjusted.

Further, in step S34, if there is a dispatcher with a dispatcher equivalent weight 5 higher or lower than the average equivalent weight, a certain amount of work is extracted from the hands of the dispatcher with the highest equivalent weight to the dispatcher with the lowest equivalent weight, and the difference between the average equivalent weight and the work equivalent weight of the dispatcher with the lowest equivalent weight is extracted as priority for the work without power outage, power transfer and power charging, and the step is repeated until there is no dispatcher with an equivalent weight 5 higher or lower than the average equivalent weight.

The embodiment of the invention has the following beneficial effects:

the embodiment of the invention provides a dispatching method and a dispatching system for work dispatching.A smart dispatching module automatically dispatches work according to a set standard, so that the dispatching efficiency of distribution network dispatching work is improved, and the power supply reliability is improved;

the planning work acquisition module acquires accurate and comprehensive real-time data from a power supply related system, provides work equivalent analysis data, can be used for analyzing and scheduling workload, and is beneficial to better arranging planning work in a professional manner;

the standard quantification module specifically implements each single planned work to an individual, reducing work crossover.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is within the scope of the present invention for those skilled in the art to obtain other drawings based on the drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a dispatching system for work scheduling according to the present invention.

Fig. 2 is a main flow diagram of a method for dispatching work schedules according to the present invention.

Fig. 3 is a flowchart illustrating a method for dispatching work schedules according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, there is a schematic structural diagram illustrating an embodiment of a dispatching system of a work schedule provided in the present invention, in this embodiment, the system includes:

in a specific embodiment, the planning work obtaining module outputs the work of planning development and planning completion within the current value time to the standard quantification module, and transmits the planning work in execution ending within the non-current value to an administrator for assignment according to the workload.

The standard quantization module is used for setting a unified standard for all different planning work services, determining key elements of single work, and standardizing all the different planning work services;

in a specific embodiment, the key elements determined in the standard quantization module include: work content data, number of operations data, time of operation data, unit of work data, scheduled work rush hour condition data.

Specifically, after determining key elements of a single job, the standard quantization module analyzes the weight occupied by each element, quantizes the workload of the single job, and counts the equivalent weight of each job.

The intelligent dispatching module is used for intelligently dispatching all the planned works after the system acquires the current value dispatching personnel information,

in a specific embodiment, in the process of intelligently allocating all the planning works by the intelligent allocation module, the planning works of the same unit are allocated to the same dispatcher; the same dispatcher does not have multiple jobs to start at the same time; the workload difference between different dispatchers is not more than 10%, after the intelligent sequencing, the planning work is directly sent to the corresponding dispatcher system interface, the intelligent dispatching module has the work transfer function, and the intelligent dispatching module can be supported by other idle seats under the condition that the work amount of a certain region in the same time period is large.

The system also comprises a monitoring alarm module for monitoring the working quantity and the current working quantity which are responsible for each dispatcher in real time, and when the working quantity exceeds a certain quantity or the uneven degree reaches a certain degree, the system can send out an alarm to remind the dispatcher of the working quantity.

As shown in fig. 2, another aspect of the present invention further provides a method for dispatching work schedules, which is implemented by means of any one of the dispatching systems of the work schedules, and the method includes the following steps:

in a specific embodiment, the schedule work order includes: the power failure operation planned outside the station, the power conversion operation planned outside the station, the work in the station, the live working list, the spare cabinet ignition, the line production and the morning operation work are carried out, wherein the power failure operation planned outside the station and the power conversion operation are from a 4A system, and the work in the station, the live working list, the spare cabinet ignition, the line production and the morning operation work are from an OMS system.

in a specific embodiment, the determining the equivalent of each task specifically includes:

Step S3, the intelligent dispatching module dispatches the work according to the equivalent data of each work and the current value dispatcher information,

specifically, the specific process of the assignment of the work includes the following steps:

step S32, according to the number of dispatchers, for example 8, sequentially assigning the 8 local offices with the most workload in the first group to the corresponding dispatchers during the current period, then complementing the remaining 3 local offices, assigning the local office with more off-station work to the dispatchers with less off-station planning workload in the first group, and finally, fixedly assigning the corresponding local offices, the power transfer work and the live work to the corresponding dispatchers according to the result of the off-station planning work assignment;

As shown in fig. 3, in step S34, in the embodiment, the specific adjustment process is performed by extracting a certain amount of work from the hands of the dispatcher with the highest equivalent to the dispatcher with the lowest equivalent, which is the difference between the average equivalent and the equivalent of the dispatcher with the lowest equivalent, preferentially extracting the work without power off, power on, and repeating this step until there is no dispatcher with 5 equivalents higher or lower than the average equivalent.

The embodiment of the invention has the following beneficial effects:

the embodiment of the invention provides a dispatching method and a dispatching system for work dispatching, wherein the proportion of different factors is automatically identified by the system, the work equivalent of each single work is evaluated, and the planned work is automatically dispatched to a corresponding dispatcher by an intelligent dispatching algorithm, so that the time required by the dispatching of the planned work is shortened;

the intelligent dispatching module automatically dispatches work according to a set standard, so that the dispatching efficiency of the dispatching work of the distribution network is improved, and the power supply reliability is improved;

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims

1. A system for dispatching a job schedule, the system comprising:

2. The system of claim 1, further comprising,

the monitoring alarm module is used for monitoring the working quantity and the current working quantity which are responsible for each dispatcher in real time, and when the working quantity exceeds a certain quantity or the uneven degree reaches a certain degree, the system can send out an alarm to remind that the dispatching is carried out on the working.

3. The system of claim 2, wherein the scheduled work acquisition module outputs the scheduled work for development and planned completion within the current time to the standard quantification module, and delivers the executed scheduled work completed within the non-current time to the administrator for assignment according to the workload.

4. The system of claim 3, wherein the standard quantization module analyzes the weight of each element after determining the key elements of a single job, and quantizes the workload of the single job to calculate the equivalent weight of each job, and the key elements include job content data, job quantity data, job time data, job unit data, and scheduling peak hour data.

5. The system of claim 4, wherein in the intelligent dispatch module intelligently dispatching all scheduled jobs, the same unit of scheduled jobs are dispatched to the same dispatcher; the same dispatcher does not have multiple jobs to start at the same time; the workload difference between different dispatchers does not exceed 10%.

6. A method of dispatching a job schedule, implemented by means of a system according to any one of claims 1 to 5, characterized in that it comprises the following steps:

7. The method of claim 6, wherein in step S1, the planning worksheet comprises: the method comprises the following steps of planning power failure work outside a station, planning power conversion work outside the station, work inside the station, live-line work list, standby cabinet fire receiving, line production and morning operation work.

8. The method of claim 7, wherein in step S2, the determining the equivalent of each task comprises:

9. The method of claim 8, wherein in step S3, the specific process of the assignment of work is including the steps of:

10. The method of claim 9, wherein in step S34, the specific process of adjusting is performed by extracting a certain amount of work from the hands of the highest-equivalent dispatcher to the lowest-equivalent dispatcher if there is a dispatcher who is 5 equivalents above or below the average equivalent, the value being the difference between the average equivalent and the lowest-equivalent dispatcher equivalent, and preferentially extracting work other than power off, power on, and repeating this step until there is no dispatcher who is 5 equivalents above or below the average equivalent.