CN112907210A - Execution work order distribution method, execution work order distribution device, computer equipment and storage medium - Google Patents
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Abstract
The application relates to an execution work order distribution method, an execution work order distribution device, computer equipment and a storage medium, wherein an execution work order set and an operator information set corresponding to a target time period are obtained, each execution work order in the execution work order set comprises work order attribute information, and the operator information set comprises personnel attribute information of a plurality of operators; respectively matching the work order attribute information of each execution work order with the personnel attribute information of each operator to obtain the information matching degree of each execution work order and each operator; respectively sequencing the information matching degrees of the same execution work order and each operator to obtain a sequencing result corresponding to each execution work order; and respectively acquiring the operator with the maximum information matching degree from the sequencing result corresponding to each execution work order as the target operator corresponding to each execution work order, and sending each execution work order to the execution terminal corresponding to the corresponding target operator. By adopting the method, the work order distribution efficiency can be improved.
Description
Technical Field
The present application relates to the field of periodic tests, and in particular, to a method and an apparatus for executing work order distribution, a computer device, and a storage medium.
Background
Nuclear power plants generate electricity from the thermal energy generated by nuclear fuel in nuclear reactors. Due to the particularity of nuclear power plants, it is necessary to ensure the most basic safety of the nuclear power plants. The periodic test is an important process for ensuring the safety of the nuclear power plant, and refers to the work of measuring performance parameters or checking the availability of the units, systems, components or structures of the nuclear power plant in the operation stage according to the requirements of the operation technical specification and in a determined time interval according to a method specified by a test program.
Currently, field operators perform periodic tests according to test work orders, and work orders executed by operators of each class are artificially and subjectively arranged by managers. Because nuclear power plants involve a large variety of systems and equipment, a large number of test work orders need to be executed every day, and in the traditional mode, managers plan the test work orders of operators of each class manually, so that a large amount of time and manpower are consumed, and the work order distribution efficiency is low.
Disclosure of Invention
In view of the above, it is desirable to provide a method, an apparatus, a computer device, and a storage medium for performing work order assignment that can improve work order assignment efficiency.
A method of performing work order assignment, the method comprising:
acquiring an execution work order set corresponding to a target time period, wherein the execution work order set comprises a plurality of execution work orders, and each execution work order comprises work order attribute information;
acquiring an operator information set corresponding to a target time period, wherein the operator information set comprises personnel attribute information of a plurality of operators;
respectively matching the work order attribute information of each execution work order with the personnel attribute information of each operator to obtain the information matching degree of each execution work order and each operator;
respectively sequencing the information matching degrees of the same execution work order and each operator to obtain a sequencing result corresponding to each execution work order;
and respectively acquiring the operator with the maximum information matching degree from the sequencing result corresponding to each execution work order as the target operator corresponding to each execution work order, and sending each execution work order to the execution terminal corresponding to the corresponding target operator.
In one embodiment, before obtaining the execution work order set corresponding to the target time period, the method further includes:
obtaining a maintenance plan execution request, wherein the maintenance plan execution request carries at least one maintenance plan identifier corresponding to a maintenance plan; acquiring a standard work order associated with each maintenance plan identifier, and acquiring maintenance plan information corresponding to each maintenance plan identifier; and generating an execution work order set corresponding to each maintenance plan according to the maintenance plan information corresponding to each maintenance plan identifier and the corresponding standard work order.
In one embodiment, the step of matching the work order attribute information of each execution work order with the personnel attribute information of each operator to obtain the information matching degree of each execution work order and each operator includes:
comparing the work order attribute information of the same execution work order with attribute information with the same attribute type in the personnel attribute information of each operator; and respectively counting the number of the comparison results which are consistent in all the comparison results by taking the operators as a unit, and taking the number as the information matching degree of the same execution work order and each operator.
In one embodiment, the method further comprises:
acquiring comparison priorities corresponding to the attribute types, and acquiring current operator identification; acquiring first attribute information corresponding to each attribute type from the work order attribute information of the executed work order, and acquiring second attribute information corresponding to each attribute type from the personnel attribute information corresponding to the current operator identification; comparing the first attribute information and the second attribute information corresponding to the attribute type with the highest comparison priority; when the comparison result is consistent, comparing the first attribute information and the second attribute information corresponding to the attribute type of the next comparison priority; and when the comparison result is inconsistent, ending the comparison.
In one embodiment, the step of obtaining, as the target operator corresponding to each execution work order, the operator with the largest information matching degree from the ranking results corresponding to each execution work order includes:
acquiring execution priority corresponding to each execution work order; sequentially determining target operators corresponding to each execution work order according to the execution priority; and when the number of the execution work orders corresponding to the target operator is larger than a first preset threshold value, modifying the working state of the target operator into a saturated state, wherein the saturated state is used for forbidding to continuously distribute the execution work orders.
In one embodiment, the step of obtaining, as the target operator corresponding to each execution work order, the operator with the largest information matching degree from the ranking results corresponding to each execution work order includes:
and when the maximum information matching degree in the sequencing result is smaller than a second preset threshold value, generating prompt information and sending the prompt information to a preset terminal, wherein the prompt information comprises at least one of video, image, voice and text, and the prompt information carries relevant information of the execution work order corresponding to the information matching degree smaller than the second preset threshold value.
An execution order distribution apparatus, comprising:
the system comprises an acquisition module, a processing module and a processing module, wherein the acquisition module is used for acquiring an execution work order set corresponding to a target time period, the execution work order set comprises a plurality of execution work orders, and each execution work order comprises work order attribute information; acquiring an operator information set corresponding to the target time period, wherein the operator information set comprises personnel attribute information of a plurality of operators;
the matching module is used for respectively matching the work order attribute information of each execution work order with the personnel attribute information of each operator to obtain the information matching degree of each execution work order and each operator;
the sequencing module is used for sequencing the information matching degrees of the same execution work order and each operator respectively to obtain a sequencing result corresponding to each execution work order;
and the sending module is used for respectively obtaining the operator with the largest information matching degree in the sequencing result corresponding to each execution work order as the target operator corresponding to each execution work order and sending each execution work order to the execution terminal corresponding to the corresponding target operator.
A computer device comprising a memory and a processor, the memory storing a computer program, the processor implementing the following steps when executing the computer program:
acquiring an execution work order set corresponding to a target time period, wherein the execution work order set comprises a plurality of execution work orders, and each execution work order comprises work order attribute information;
acquiring an operator information set corresponding to a target time period, wherein the operator information set comprises personnel attribute information of a plurality of operators;
respectively matching the work order attribute information of each execution work order with the personnel attribute information of each operator to obtain the information matching degree of each execution work order and each operator;
respectively sequencing the information matching degrees of the same execution work order and each operator to obtain a sequencing result corresponding to each execution work order;
and respectively acquiring the operator with the maximum information matching degree from the sequencing result corresponding to each execution work order as the target operator corresponding to each execution work order, and sending each execution work order to the execution terminal corresponding to the corresponding target operator.
A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:
acquiring an execution work order set corresponding to a target time period, wherein the execution work order set comprises a plurality of execution work orders, and each execution work order comprises work order attribute information;
acquiring an operator information set corresponding to a target time period, wherein the operator information set comprises personnel attribute information of a plurality of operators;
respectively matching the work order attribute information of each execution work order with the personnel attribute information of each operator to obtain the information matching degree of each execution work order and each operator;
respectively sequencing the information matching degrees of the same execution work order and each operator to obtain a sequencing result corresponding to each execution work order;
and respectively acquiring the operator with the maximum information matching degree from the sequencing result corresponding to each execution work order as the target operator corresponding to each execution work order, and sending each execution work order to the execution terminal corresponding to the corresponding target operator.
According to the execution work order distribution method, the execution work order distribution device, the computer equipment and the storage medium, the execution work order set corresponding to the target time period is obtained, the execution work order set comprises a plurality of execution work orders, and each execution work order comprises work order attribute information; acquiring an operator information set corresponding to a target time period, wherein the operator information set comprises personnel attribute information of a plurality of operators; respectively matching the work order attribute information of each execution work order with the personnel attribute information of each operator to obtain the information matching degree of each execution work order and each operator; respectively sequencing the information matching degrees of the same execution work order and each operator to obtain a sequencing result corresponding to each execution work order; and respectively acquiring the operator with the maximum information matching degree from the sequencing result corresponding to each execution work order as the target operator corresponding to each execution work order, and sending each execution work order to the execution terminal corresponding to the corresponding target operator. Therefore, the target operators corresponding to the execution work order are automatically allocated according to the matching result of the work order attribute information of the execution work order and the personnel attribute information of the operators, and the execution work order allocation efficiency is improved.
Drawings
FIG. 1 is a diagram of an application environment in which a work order assignment methodology may be implemented in one embodiment;
FIG. 2 is a flow diagram illustrating a method for performing work order distribution in one embodiment;
FIG. 3 is a schematic flow chart illustrating the generation of an execution work order in one embodiment;
FIG. 4 is a schematic diagram of a process for comparing attribute information in one embodiment;
FIG. 5 is a block diagram of an exemplary implementation of a work order distribution apparatus;
FIG. 6 is a diagram illustrating an internal structure of a computer device according to an embodiment.
Detailed Description
In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.
The execution work order distribution method provided by the application can be applied to the application environment shown in fig. 1. Wherein the terminal 102 communicates with the server 104 via a network. The server obtains an execution work order set corresponding to the target time period, wherein the execution work order set comprises a plurality of execution work orders, and each execution work order comprises work order attribute information. The server acquires an operator information set corresponding to the target time period, wherein the operator information set comprises personnel attribute information of a plurality of operators. And the server respectively matches the work order attribute information of each execution work order with the personnel attribute information of each operator to obtain the information matching degree of each execution work order and each operator, and respectively sorts the information matching degree of the same execution work order and each operator to obtain a sorting result corresponding to each execution work order. And finally, the server respectively acquires the operator with the maximum information matching degree from the sequencing result corresponding to each execution work order as the target operator corresponding to each execution work order, and sends each execution work order to the execution terminal corresponding to the corresponding target operator. The terminal 102 may be, but not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices, and the server 104 may be implemented by an independent server or a server cluster formed by a plurality of servers.
In one embodiment, as shown in fig. 2, a method for performing work order allocation is provided, which is described by taking the method as an example applied to the server in fig. 1, and includes the following steps:
s202, an execution work order set corresponding to the target time period is obtained, the execution work order set comprises a plurality of execution work orders, and each execution work order comprises work order attribute information.
And S204, acquiring an operator information set corresponding to the target time period, wherein the operator information set comprises personnel attribute information of a plurality of operators.
The execution work order is a field operation file of the periodic test of the nuclear power plant and is used for instructing field operators to carry out the field test according to a standard flow and a standard. The execution work order comprises an execution work order identification, work order attribute information and execution content. The execution work order identifier is an identifier for uniquely identifying the execution work order, and may specifically include a character string of at least one character of letters, numbers and symbols, such as an execution work order number. The work order attribute information includes at least one of execution time, execution area, execution test type, and execution priority. And each attribute information in the work order attribute information has a corresponding attribute type. The execution content comprises at least one of test instruction, test procedure, acceptance criterion, attached table and accessories.
The operator refers to an executive who performs a periodic test according to an executive work order. The operator information includes operator identification and operator attribute information. The operator identifier is an identifier for uniquely identifying the operator, and may specifically include a character string of at least one character of letters, numbers and symbols, such as an operator job number. The operator attribute information includes information such as the time on duty, the work area, the type of the experiment which is good at, the working period, and the like. And each attribute information in the operator attribute information has a corresponding attribute type.
Specifically, the server may obtain the execution work order corresponding to the target time period from all the execution work orders stored locally, and form an execution work order set corresponding to the target time period. And acquiring the operator information corresponding to the target time period from all the locally stored operator information to form an operator information set corresponding to the target time period.
In one embodiment, the terminal may send an execution work order allocation request to the server, where the execution work order allocation request carries a target time period, and the server may obtain, according to the execution work order allocation request, an execution work order set and an operator information set corresponding to the target time period.
In an embodiment, the server may automatically trigger the acquisition of the execution work order set and the operator information set corresponding to the target time period, and may trigger the acquisition once every preset time period, for example, the execution work order set to be executed in the next week is acquired every weekday, and the execution work order is allocated to the next week of staff on duty. The preset duration can be customized according to needs.
In one embodiment, each responsible plant for the periodic test can collect the personnel information of all the operators in the plant, and the collected personnel information is sent to the server through the terminal and stored by the server. The server can store the personnel information in an isolated manner by taking the responsibility factory as a unit, namely, all the personnel information of one responsibility factory forms a personnel information set, and the personnel information set is stored in a manner of being associated with the factory identifier corresponding to the responsibility factory. And the personnel information of different responsibility plants is stored in different areas, so that the management and the query of the personnel information are facilitated.
In one embodiment, the attribute type corresponding to each attribute information is preset. For example, the execution time for executing the work order is time-type attribute information, and the execution area for executing the work order is location-type attribute information. The working time of the operator is time-type attribute information, and the working area of the operator is location-type attribute information.
And S206, matching the work order attribute information of each execution work order with the personnel attribute information of each operator respectively to obtain the information matching degree of each execution work order and each operator.
The information matching degree represents a procedure for conforming the information of the execution work order and the information of the operator. When the information matching degree is higher, the matching degree of the information of the execution work order and the information of the operator is higher.
Specifically, the work order attribute information and the personnel attribute information have information with the same attribute type, for example, the work order attribute information includes execution time of a time type, and the personnel attribute information includes duty time of the time type. And matching the information with the same attribute type in the work order attribute information and the personnel attribute information, and indicating that the matching is successful when the information with the same attribute type in the work order attribute information and the personnel attribute information is consistent. The work order attribute information of each execution work order in the execution work order set is matched with the personnel attribute information of all the operators in the operator information set, and the information matching degree of each execution work order and each operator can be obtained.
And S208, sequencing the information matching degrees of the same execution work order and each operator respectively to obtain a sequencing result corresponding to each execution work order.
Specifically, the matching degrees of a plurality of information of one execution work order and each operator are sorted from large to small to obtain a summary result of the matching degrees of the execution work order and the information of all the operators. According to the same method, a plurality of information matching degrees of other execution work orders and each operator are summarized, and finally, an information matching degree summarizing result corresponding to each execution work order is obtained.
And S210, respectively obtaining the operator with the largest information matching degree in the sequencing result corresponding to each execution work order as the target operator corresponding to each execution work order, and sending each execution work order to the execution terminal corresponding to the corresponding target operator.
Specifically, the target operator corresponding to each execution work order may be determined according to the sorting result corresponding to each execution work order. And taking the operator corresponding to the information matching degree with the maximum value in the sequencing result as a target operator. And sending each execution work order to an execution terminal corresponding to the target operator so that the target operator can perform a field test according to the execution work order.
In one embodiment, all the information with the same attribute type in the work order attribute information and the personnel attribute information can be matched to obtain a comprehensive matching result. Further, in order to improve the matching efficiency, the server may preset a priority corresponding to each attribute type. And when the information is matched, sequentially matching the work order attribute information and the personnel attribute information according to the priority. When a matching failure occurs, the matching is immediately stopped.
In one embodiment, two information matching degrees with the same value may exist in the sorting result corresponding to one execution work order. For example, the information matching degrees of the execution work order a with the operator 1 and the operator 2 are both 5. At this time, detailed matching information of the execution work order a and the operators 1 and 2 may be acquired, respectively, where the detailed matching information includes at least one of an attribute type that matches successfully and an attribute type that matches unsuccessfully. And when the matching process is that all the information of the same attribute type is matched, respectively acquiring the attribute type with the lowest priority from the successfully matched attribute types. When the attribute type with the lowest priority in the matching process of the execution work order a and the operator 1 is higher than the attribute type with the lowest priority in the matching process of the execution work order a and the operator 2, the operator 2 can be used as a target operator for executing the work order a. When the matching process does not match all information of the same attribute type, the information matching can be continued according to the priority. When new matching success information appears first in the process of continuously matching the execution work order a with the operator 2, the operator 2 can be used as a target operator for executing the work order a.
In the execution work order distribution method, an execution work order set corresponding to a target time period is obtained, wherein the execution work order set comprises a plurality of execution work orders, and each execution work order comprises work order attribute information; acquiring an operator information set corresponding to a target time period, wherein the operator information set comprises personnel attribute information of a plurality of operators; respectively matching the work order attribute information of each execution work order with the personnel attribute information of each operator to obtain the information matching degree of each execution work order and each operator; respectively sequencing the information matching degrees of the same execution work order and each operator to obtain a sequencing result corresponding to each execution work order; and respectively acquiring the operator with the maximum information matching degree from the sequencing result corresponding to each execution work order as the target operator corresponding to each execution work order, and sending each execution work order to the execution terminal corresponding to the corresponding target operator. Therefore, the target operators corresponding to the execution work order are automatically allocated according to the matching result of the work order attribute information of the execution work order and the personnel attribute information of the operators, and the execution work order allocation efficiency is improved.
In one embodiment, as shown in FIG. 3, step A comprises:
s302, a maintenance plan execution request is obtained, and the maintenance plan execution request carries at least one maintenance plan identifier corresponding to the maintenance plan.
Wherein the maintenance plan execution request is for requesting execution of a corresponding maintenance plan. The maintenance plan identifier is an identifier for uniquely identifying the maintenance plan, and may specifically include a character string of at least one character of letters, numbers, and symbols. For example, the maintenance plan identification may be a maintenance plan number. The maintenance plan is a plan for checking and detecting nuclear power plant equipment or systems, which is prepared in advance for the purpose of preventing failures. Relevant test work is executed according to the maintenance plan, fault symptoms of the nuclear power plant equipment or the nuclear power plant system can be found, and corresponding measures are further taken to effectively prevent faults from occurring, so that the faults are kept in a specified functional state. The maintenance plan may be a daily plan, a weekly plan, a monthly plan, a yearly plan, etc.
Specifically, the terminal may query the maintenance plan created and stored in the server through a client or a web page corresponding to the server. And a control used for triggering the maintenance plan execution request is displayed in a display interface of the client or the webpage. When the trigger operation acting on the control is detected, the terminal can generate a maintenance plan execution request according to the maintenance plan identifier. The trigger operation may be a single-click operation, a double-click operation, a long-press operation, a voice operation, or the like. The terminal transmits a maintenance plan execution request to the server.
S304, acquiring the standard work orders associated with the maintenance plan identifications, and acquiring the maintenance plan information corresponding to the maintenance plan identifications.
The maintenance schedule information refers to information related to a maintenance schedule, and includes information such as maintenance items, maintenance cycles, maintenance durations, maintenance areas, maintenance staff, and maintenance schedule priorities. The maintenance items are test information corresponding to the maintenance plan. For example, the maintenance item is a safety injection logic test performed with the RPA603KC (equipment identity). The maintenance period refers to a time interval in which the maintenance items are repeatedly performed. The maintenance duration includes a maintenance schedule start time and a maintenance schedule total time. The maintenance area refers to an execution area of the maintenance plan. The maintenance person refers to a person in charge of the maintenance plan. The maintenance plan priority refers to an execution priority level of the maintenance plan. The standard work order refers to a standard file of the periodic test of the nuclear power plant and is used for stipulating a standard flow and a standard of the periodic test of the nuclear power plant equipment. The standard work order includes at least one of test instructions, test procedures, acceptance criteria, additional forms, and accessories. The nuclear power plant involves a plurality of tests, and the test procedures and the rules of different tests are different, so that different tests correspond to different standard work orders.
Specifically, after receiving the maintenance plan execution request, the server responds to the maintenance plan execution request to respectively obtain the maintenance plan information corresponding to each maintenance plan identifier, and respectively obtain the standard work orders associated with each maintenance plan identifier.
In one embodiment, since the maintenance plan has a corresponding maintenance item, and the standard work order also has a corresponding maintenance item, the standard work order corresponding to the maintenance plan can be determined according to the maintenance item. When the server creates the maintenance plan, the server may establish an association relationship between the created maintenance plan and the corresponding standard work order, for example, an association relationship between a maintenance plan identifier of the maintenance plan and a standard work order identifier of the standard work order.
And S306, generating an execution work order set corresponding to each maintenance plan according to the maintenance plan information corresponding to each maintenance plan identifier and the corresponding standard work order.
Specifically, the work order attribute information of the execution work order corresponding to each maintenance plan is generated according to the maintenance plan information corresponding to each maintenance plan, and the execution content of the execution work order corresponding to each maintenance plan is generated according to the standard work order corresponding to each maintenance plan. And combining the work order attribute information of the execution work orders corresponding to the maintenance plans and the execution content of the execution work orders corresponding to the maintenance plans to generate the execution work orders corresponding to the maintenance plans. The server may assign an execution work order identifier to the generated execution work order and store the generated execution work order.
In one embodiment, a maintenance plan may ultimately generate multiple execution work orders. For example, if the total time of the maintenance plan corresponding to the maintenance plan is 6 weeks, the maintenance period is 3 weeks, and the maintenance start time is 2 months and 10 days in 2020, then it may be determined that the number of times of repeated maintenance of the maintenance project is 2, that is, two execution work orders are generated according to the requirement of the maintenance plan. The execution start time of one execution work order is 10/2/2020, and the execution start time of the other execution work order is 18/2/2020.
In the above embodiment, the server may generate a plurality of execution work orders by maintaining the plan execution request. The execution work order is generated in advance, so that the operators can be conveniently and directly distributed to the execution work order in the follow-up process, and the distribution efficiency of the execution work order is improved.
In one embodiment, the step of matching the work order attribute information of each execution work order with the personnel attribute information of each operator to obtain the information matching degree of each execution work order and each operator includes: comparing the work order attribute information of the same execution work order with attribute information with the same attribute type in the personnel attribute information of each operator; and respectively counting the number of the comparison results which are consistent in all the comparison results by taking the operators as a unit, and taking the number as the information matching degree of the same execution work order and each operator.
Specifically, the attribute information of which the attribute type is the time type in the work order attribute information of the same execution work order is compared with the attribute information of which the attribute type is the time type in the personnel attribute information of each operator respectively. And by analogy, comparing other attribute information with the same attribute type respectively. And then a plurality of comparison results of the attribute information of one execution work order and each operator are obtained. The work order attribute information of the other execution work orders and the person attribute information of each operator are compared in the same manner. And counting the number of consistent comparison results in the multiple comparison results of the execution work order and the attribute information of the same operator by taking the operator as a unit from the multiple comparison results of the attribute information of one execution work order and the attribute information of each operator, and taking the number as the information matching degree of the execution work order and the operator. For example, if the number of comparison results that match is 3 among all the comparison results, it is determined that the information matching degree is 3. By analogy, the information matching degree of one execution work order with other operators can be obtained, and the information matching degree of each execution work order with each operator can be obtained.
In the above embodiment, the information matching degree is determined according to the number of comparison results of the attribute information corresponding to each attribute type, so that the efficiency of determining the information matching degree can be improved.
In one embodiment, as shown in fig. 4, performing the work order assignment method further comprises:
s402, obtaining the comparison priority corresponding to each attribute type, and obtaining the current operator identification.
S404, acquiring first attribute information corresponding to each attribute type from the work order attribute information of the executed work order, and acquiring second attribute information corresponding to each attribute type from the personnel attribute information of the current operator identification.
S406, comparing the first attribute information and the second attribute information corresponding to the attribute type with the highest comparison priority.
And S408, when the comparison result is consistent, comparing the first attribute information and the second attribute information corresponding to the attribute type of the next comparison priority.
And S410, finishing the comparison when the comparison result is inconsistent.
The comparison priority refers to the sequence of comparison of the attribute information of different attribute types. And if the comparison priority corresponding to one attribute type is high, preferentially comparing the attribute information corresponding to the attribute type in the comparison process of the work order attribute information and the personnel attribute information. The current operator identifier is an operator identifier corresponding to operator information currently being compared with the work order attribute information of the execution work order.
Specifically, the server is preset with comparison priorities corresponding to the attribute types. In the process of comparing the work order attribute information with the personnel attribute information, the file attribute information of one execution work order is respectively compared with the personnel attribute information of all the operators in the operator set, and other execution work orders are also processed in the same way. When the file attribute information of an execution work order is compared with the personnel attribute information of an operator, first attribute information corresponding to each attribute type is obtained from the work order attribute information of the execution work order, and second attribute information corresponding to each attribute type is obtained from the personnel attribute information corresponding to the operator. And comparing the first attribute information and the second attribute information corresponding to the same attribute type in sequence according to the comparison priority corresponding to each attribute type. And when the comparison result is inconsistent for the first time, ending the comparison. For example, if the priority corresponding to the time type is the highest, the priority corresponding to the location type is the lowest, and the priority corresponding to the test type is the lowest, the execution time corresponding to the execution work order is preferentially compared with the duty time corresponding to the operator, so as to obtain a first comparison result. And when the first comparison result is consistent, comparing the execution region corresponding to the execution work order with the working region corresponding to the operator to obtain a second comparison result. And when the second comparison result is inconsistent, ending the comparison.
In the above embodiment, the attribute information of each identical attribute type in the work order attribute information and the personnel attribute information is sequentially compared according to the comparison priority, and when the comparison result is inconsistent for the first time, the comparison is ended. Therefore, all the attribute information with the same attribute type in the work order attribute information and the personnel attribute information is not required, and the comparison efficiency of the attribute information can be effectively improved.
In one embodiment, the step of obtaining, as the target operator corresponding to each execution work order, the operator with the largest information matching degree from the ranking results corresponding to each execution work order includes: acquiring execution priority corresponding to each execution work order; sequentially determining target operators corresponding to each execution work order according to the execution priority; and when the number of the execution work orders corresponding to the target operator is larger than a first preset threshold value, modifying the working state of the target operator into a saturated state, wherein the saturated state is used for forbidding to continuously distribute the execution work orders.
Specifically, the execution priority corresponding to the execution work order may be obtained from the work order attribute information of the execution work order. And the server sequentially distributes target operators to each execution work order according to the execution priority. And when the number of the corresponding execution work orders of the target operator in the target time period exceeds a preset threshold value, modifying the working state of the target operator into a saturated state. And when the working state of the target operator is a saturated state, prohibiting the target operator from being continuously allocated with the execution work order. When the working state of the target operator is a saturation state, the information matching degree corresponding to the target operator can be deleted from the sorting results corresponding to the execution work orders of the remaining unallocated operators. The preset threshold may be customized according to a target time period, for example, the target time period is from 1 month 1 day of 2020 to 1 month 2 day of 2020, and the preset threshold may be set to 4, that is, one operator executes 4 execution work orders at most in two days.
In one embodiment, the priority of the maintenance plan may be determined according to the maintenance device corresponding to the maintenance plan, and the execution priority corresponding to the execution work order may be determined according to the priority of the maintenance plan. For example, the maintenance schedule priority is determined according to the number of systems corresponding to the maintenance equipment. When three production systems in the nuclear power plant all include the maintenance equipment a, the priority of the maintenance plan corresponding to the maintenance equipment a is 3, and the execution priority of the execution work order generated by the maintenance plan is 3. Maintenance schedule priorities may also be determined by professionals based on expert knowledge.
In the embodiment, the target operators corresponding to the execution work orders are sequentially determined according to the execution priority, the execution work orders with high execution priority are preferentially allocated to the target operators, the execution work orders with high execution priority can be preferentially executed by the operators with high information matching degree, and the execution efficiency of the execution work orders is improved.
In one embodiment, the step of obtaining, as the target operator corresponding to each execution work order, the operator with the largest information matching degree from the ranking results corresponding to each execution work order includes: and when the maximum information matching degree in the sequencing result is smaller than a second preset threshold value, generating prompt information and sending the prompt information to a preset terminal, wherein the prompt information comprises at least one of video, image, voice and text, and the prompt information carries relevant information of the execution work order corresponding to the information matching degree smaller than the second preset threshold value.
The relevant information of the execution work order comprises at least one of execution work order identification, work order attribute information and execution content.
Specifically, when the maximum value of the information matching degree in the sorting result corresponding to one execution work order is smaller than a preset threshold value, it is indicated that no operator meeting the lowest requirement exists in the operator set. The server can generate a prompt message according to the work order identifier of the execution work order, and the prompt message is sent to a terminal corresponding to the manager, so that the manager can allocate the operator in time to execute the execution work order. The prompt message may be at least one of video, image, voice, and text. The detailed information of the execution work order can be carried to the prompt information and sent to the terminal corresponding to the manager, so that the manager can know the detailed information of the execution work order and allocate the operator according to the detailed information of the execution work order.
It should be understood that the steps in the above-described flowcharts are shown in order as indicated by the arrows, but the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a part of the steps in the above-mentioned flowcharts may include a plurality of steps or a plurality of stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the steps or the stages is not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least a part of the steps or the stages in other steps.
In one embodiment, as shown in fig. 5, there is provided an execution work order distribution apparatus including: an obtaining module 502, a matching module 504, a sorting module 506, and a sending module 508, wherein:
an obtaining module 502, configured to obtain an execution work order set corresponding to a target time period, where the execution work order set includes multiple execution work orders, and each execution work order includes work order attribute information; acquiring an operator information set corresponding to the target time period, wherein the operator information set comprises personnel attribute information of a plurality of operators;
a matching module 504, configured to match the work order attribute information of each execution work order with the personnel attribute information of each operator, respectively, to obtain an information matching degree between each execution work order and each operator;
the sorting module 506 is configured to sort the information matching degrees of the same execution work order and each operator, and obtain a sorting result corresponding to each execution work order;
a sending module 508, configured to obtain, from the sorting result corresponding to each executed work order, an operator with the largest information matching degree as a target operator corresponding to each executed work order, and send each executed work order to an execution terminal corresponding to a corresponding target operator.
In one embodiment, the execution work order distribution apparatus further comprises:
the generating module is used for acquiring a maintenance plan execution request, and the maintenance plan execution request carries at least one maintenance plan identifier corresponding to a maintenance plan; acquiring a standard work order associated with each maintenance plan identifier, and acquiring maintenance plan information corresponding to each maintenance plan identifier; and generating an execution work order set corresponding to each maintenance plan according to the maintenance plan information corresponding to each maintenance plan identifier and the corresponding standard work order.
In one embodiment, the matching module is further configured to compare the work order attribute information of the same execution work order with attribute information of the same attribute type in the personnel attribute information of each operator; and respectively counting the number of the comparison results which are consistent in all the comparison results by taking the operators as a unit, and taking the number as the information matching degree of the same execution work order and each operator.
In one embodiment, the matching module is further configured to obtain comparison priorities corresponding to the attribute types, and obtain a current operator identifier; acquiring first attribute information corresponding to each attribute type from the work order attribute information of the executed work order, and acquiring second attribute information corresponding to each attribute type from the personnel attribute information corresponding to the current operator identification; comparing the first attribute information and the second attribute information corresponding to the attribute type with the highest comparison priority; when the comparison result is consistent, comparing the first attribute information and the second attribute information corresponding to the attribute type of the next comparison priority; and when the comparison result is inconsistent, ending the comparison.
In one embodiment, the sending module is further configured to obtain an execution priority corresponding to each execution work order; sequentially determining target operators corresponding to each execution work order according to the execution priority; and when the number of the execution work orders corresponding to the target operator is larger than a first preset threshold value, modifying the working state of the target operator into a saturated state, wherein the saturated state is used for forbidding to continuously distribute the execution work orders.
In an embodiment, the sending module is further configured to generate a prompt message and send the prompt message to the preset terminal when the maximum information matching degree in the sorting result is smaller than a second preset threshold, where the prompt message includes at least one of a video, an image, a voice, and a text, and the prompt message carries information related to the execution work order corresponding to the information matching degree smaller than the second preset threshold.
For specific limitations of the device for performing work order assignment, reference may be made to the above limitations of the method for performing work order assignment, which are not described herein again. The various modules in the execution order distribution apparatus described above may be implemented in whole or in part by software, hardware, and combinations thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.
In one embodiment, a computer device is provided, which may be a server, and its internal structure diagram may be as shown in fig. 6. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used for storing relevant data for executing work order distribution. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a method of performing work order assignment.
Those skilled in the art will appreciate that the architecture shown in fig. 6 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.
In one embodiment, a computer device is provided, comprising a memory and a processor, the memory storing a computer program that, when executed by the processor, causes the processor to perform the steps of performing the work order assignment method described above. The steps of performing the work order assignment method herein may be the steps of performing the work order assignment method of the various embodiments described above.
In one embodiment, a computer readable storage medium is provided, storing a computer program that, when executed by a processor, causes the processor to perform the steps of performing the work order assignment method described above. The steps of performing the work order assignment method herein may be the steps of performing the work order assignment method of the various embodiments described above.
It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.
The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.
Claims (10)
1. A method of performing work order assignment, the method comprising:
acquiring an execution work order set corresponding to a target time period, wherein the execution work order set comprises a plurality of execution work orders, and each execution work order comprises work order attribute information;
acquiring an operator information set corresponding to the target time period, wherein the operator information set comprises personnel attribute information of a plurality of operators;
respectively matching the work order attribute information of each execution work order with the personnel attribute information of each operator to obtain the information matching degree of each execution work order and each operator;
respectively sequencing the information matching degrees of the same execution work order and each operator to obtain a sequencing result corresponding to each execution work order;
and respectively acquiring the operator with the maximum information matching degree from the sequencing result corresponding to each execution work order as the target operator corresponding to each execution work order, and sending each execution work order to the execution terminal corresponding to the corresponding target operator.
2. The method of claim 1, wherein prior to obtaining the set of execution work orders corresponding to the target time period, the method further comprises:
obtaining a maintenance plan execution request, wherein the maintenance plan execution request carries at least one maintenance plan identifier corresponding to a maintenance plan;
acquiring a standard work order associated with each maintenance plan identifier, and acquiring maintenance plan information corresponding to each maintenance plan identifier;
and generating an execution work order set corresponding to each maintenance plan according to the maintenance plan information corresponding to each maintenance plan identifier and the corresponding standard work order.
3. The method according to claim 1, wherein the matching the work order attribute information of each execution work order with the personnel attribute information of each operator to obtain the information matching degree of each execution work order with each operator comprises:
comparing the work order attribute information of the same execution work order with attribute information with the same attribute type in the personnel attribute information of each operator;
and respectively counting the number of the comparison results which are consistent in all the comparison results by taking the operators as a unit, and taking the number as the information matching degree of the same execution work order and each operator.
4. The method of claim 3, further comprising:
acquiring comparison priorities corresponding to the attribute types, and acquiring current operator identification;
acquiring first attribute information corresponding to each attribute type from the work order attribute information of the executed work order, and acquiring second attribute information corresponding to each attribute type from the personnel attribute information corresponding to the current operator identification;
comparing the first attribute information and the second attribute information corresponding to the attribute type with the highest comparison priority;
when the comparison result is consistent, comparing the first attribute information and the second attribute information corresponding to the attribute type of the next comparison priority;
and when the comparison result is inconsistent, ending the comparison.
5. The method according to claim 1, wherein the step of obtaining the operator with the largest information matching degree in the sorting results corresponding to each execution work order as the target operator corresponding to each execution work order comprises:
acquiring execution priority corresponding to each execution work order;
sequentially determining target operators corresponding to each execution work order according to the execution priority;
and when the number of the execution work orders corresponding to the target operator is larger than a first preset threshold value, modifying the working state of the target operator into a saturated state, wherein the saturated state is used for forbidding to continuously distribute the execution work orders.
6. The method according to claim 1, wherein the step of obtaining the operator with the largest information matching degree in the sorting results corresponding to each execution work order as the target operator corresponding to each execution work order comprises:
and when the maximum information matching degree in the sequencing result is smaller than a second preset threshold value, generating prompt information and sending the prompt information to a preset terminal, wherein the prompt information comprises at least one of video, image, voice and text, and the prompt information carries relevant information of the execution work order corresponding to the information matching degree smaller than the second preset threshold value.
7. An execution order distribution apparatus, comprising:
the system comprises an acquisition module, a processing module and a processing module, wherein the acquisition module is used for acquiring an execution work order set corresponding to a target time period, the execution work order set comprises a plurality of execution work orders, and each execution work order comprises work order attribute information; acquiring an operator information set corresponding to the target time period, wherein the operator information set comprises personnel attribute information of a plurality of operators;
the matching module is used for respectively matching the work order attribute information of each execution work order with the personnel attribute information of each operator to obtain the information matching degree of each execution work order and each operator;
the sequencing module is used for sequencing the information matching degrees of the same execution work order and each operator respectively to obtain a sequencing result corresponding to each execution work order;
and the sending module is used for respectively obtaining the operator with the largest information matching degree in the sequencing result corresponding to each execution work order as the target operator corresponding to each execution work order and sending each execution work order to the execution terminal corresponding to the corresponding target operator.
8. The apparatus according to claim 7, wherein the obtaining module is further configured to obtain a maintenance plan execution request, where the maintenance plan execution request carries a maintenance plan identifier corresponding to at least one maintenance plan; acquiring a standard work order associated with each maintenance plan identifier, and acquiring maintenance plan information corresponding to each maintenance plan identifier; and generating an execution work order set corresponding to each maintenance plan according to the maintenance plan information corresponding to each maintenance plan identifier and the corresponding standard work order.
9. A computer device comprising a memory and a processor, the memory storing a computer program, wherein the processor implements the steps of the method of any one of claims 1 to 6 when executing the computer program.
10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 6.
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