Power operation ticket scheduling method and device, computer device and storage medium
By dividing power operation tickets into regions and weighting them for verification, the inefficiency caused by manual verification has been solved, enabling efficient and accurate maintenance of the power system.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- GUANGZHOU POWER SUPPLY BUREAU GUANGDONG POWER GRID CO LTD
- Filing Date
- 2023-11-27
- Publication Date
- 2026-06-19
AI Technical Summary
The current practice of writing and reviewing power operation tickets relies on manual labor, resulting in low maintenance efficiency. Furthermore, misjudgments or mis-dispatching by power dispatchers may lead to losses for enterprises or society.
By dividing the region according to the association and location characteristics of the fields to be verified in the power operation ticket, each region is verified separately. The verification results are weighted according to the type and order of verification results to generate weighted verification results, and operation tickets are distributed to the operation objects.
This improved the efficiency and accuracy of power operation ticket verification, reduced manual verification time, and ensured the accuracy and efficiency of the maintenance process.
Smart Images

Figure CN117764320B_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of power operation ticket dispatching technology, and in particular to a power operation ticket dispatching method, apparatus, computer equipment, storage medium and computer program product. Background Technology
[0002] With the increasing number of electrical devices in the power system, power dispatching is required for a large number of key components such as electrical equipment and lines. Power dispatching involves specific power dispatchers. If power dispatchers make misjudgments or mis-dispatch decisions, it will cause significant losses to enterprises or society.
[0003] The existing methods can generate operation tickets for power equipment for power dispatchers. An operation ticket is a written basis for performing electrical operations in the power system. By referring to the operation ticket, specific power operations are carried out, which greatly reduces the possibility of power dispatchers making misjudgments or mis-dispatching.
[0004] Currently, the writing and review of power operation tickets are all done manually. Before the power operation tickets are distributed, they rely on manual review. As a result, the maintenance needs of the power system cannot be met, and the maintenance efficiency is low. Summary of the Invention
[0005] Therefore, it is necessary to provide a method, apparatus, computer equipment, computer-readable storage medium, and computer program product for dispatching power operation tickets that can improve the maintenance efficiency of power systems, in order to address the above-mentioned technical problems.
[0006] Firstly, this application provides a method for dispatching power operation tickets. The method includes:
[0007] Based on the correlation characteristics between the fields to be verified in the power operation ticket and the positional characteristics of each field to be verified, the fields to be verified are divided into regions to obtain each region to be verified in the power operation ticket; the fields to be verified in each region are verified to obtain the verification result of each region; the verification values of each verification result are weighted according to the type of the verification result and the order of the regions to be verified to obtain the weighted verification result of the power operation ticket; the power operation ticket is distributed according to the operation object of the power operation ticket matched by the weighted verification value in the weighted verification result.
[0008] In one embodiment, the step of weighting the verification values of each verification result according to the type of the verification result and the order among the verification areas to obtain the weighted verification result of the power operation ticket includes: converting each verification area into a verification sequence according to the order among the verification areas; querying an initial weight coefficient that matches the type of the verification result according to the type of the verification result; adjusting the initial weight coefficients of at least a portion of the verification areas other than the target verification area in the verification sequence according to the initial weight coefficient of the target verification area in the verification sequence to obtain the weight coefficient corresponding to each verification area in the verification sequence; and weighting the verification values corresponding to each verification area according to the weight coefficient corresponding to each verification area to obtain the weighted verification result of the power operation ticket.
[0009] In one embodiment, the step of adjusting the initial weight coefficients of at least a portion of the regions to be verified in the verification sequence, excluding the target region to be verified, based on the initial weight coefficient of the target region to be verified in the verification sequence, to obtain the weight coefficient corresponding to each region to be verified in the verification sequence, includes: adjusting the initial weight coefficients of other regions to be verified in the verification sequence that are ordered after the target region to be verified, according to the order between the regions to be verified in the verification sequence and the initial weight coefficient of the target region to be verified in the verification sequence, to obtain the weight coefficient corresponding to each region to be verified in the verification sequence.
[0010] In one embodiment, the step of dividing each field to be verified in the power operation ticket into regions according to the correlation characteristics between each field to be verified and the positional characteristics of each field to be verified in the power operation ticket, to obtain the verification region in the power operation ticket, includes: dividing each field to be verified in the power operation ticket according to the positional characteristics of each field to be verified in the power operation ticket to obtain each set of fields to be verified; performing a self-check on each set of fields to be verified according to the correlation characteristics between each field to be verified in the set of fields to be verified to obtain a self-checked set of fields to be verified; and performing region transformation on the self-checked set of fields to be verified to obtain the verification region in the power operation ticket.
[0011] In one embodiment, the step of distributing the power operation ticket according to the operation object matched by the weighted verification value in the weighted verification result includes: matching the weighted verification value in the weighted verification result with a set of operation objects; if there is a basic object in the set of operation objects that matches the weighted verification value, then the basic object is identified as the operation object, and the power operation ticket is distributed to the operation object; if there is no basic object in the set of operation objects that matches the weighted verification value, then the level of each basic object in the set of operation objects is predicted based on the historical operation information of each basic object to obtain the predicted level of each basic object; based on the predicted level of each basic object and the weighted verification value in the weighted verification result, each basic object in the set of operation objects is filtered to obtain the operation object of the power operation ticket, and the power operation ticket is distributed to the operation object.
[0012] In one embodiment, the step of distributing the power operation ticket to the operation object of the operation ticket includes: determining the terminal held by the operation object of the power operation ticket; distributing the power operation ticket to the terminal; the method further includes: receiving feedback messages from the terminal; parsing the feedback messages to obtain operation information of each of the basic objects.
[0013] Secondly, this application also provides a dispatching device for power operation tickets. The device includes:
[0014] The field segmentation module is used to segment each field to be verified into regions based on the correlation characteristics between each field to be verified in the power operation ticket and the location characteristics of each field to be verified, so as to obtain each region to be verified in the power operation ticket.
[0015] The region verification module is used to verify the fields to be verified in each of the regions to be verified, and to obtain the verification results for each region to be verified.
[0016] The verification value weighting module is used to weight the verification values of each verification result according to the type of the verification result and the order among the verification areas to be verified, so as to obtain the weighted verification result of the power operation ticket.
[0017] The distribution module is used to distribute the power operation ticket according to the operation object of the power operation ticket matched by the weighted verification value in the weighted verification result.
[0018] Thirdly, this application also provides a computer device. The computer device includes a memory and a processor, the memory storing a computer program, and the processor executing the computer program to perform the following steps:
[0019] Based on the correlation characteristics between the fields to be verified in the power operation ticket and the positional characteristics of each field to be verified, the fields to be verified are divided into regions to obtain each region to be verified in the power operation ticket; the fields to be verified in each region are verified to obtain the verification result of each region; the verification values of each verification result are weighted according to the type of the verification result and the order of the regions to be verified to obtain the weighted verification result of the power operation ticket; the power operation ticket is distributed according to the operation object of the power operation ticket matched by the weighted verification value in the weighted verification result.
[0020] Fourthly, this application also provides a computer-readable storage medium. The computer-readable storage medium stores a computer program thereon, which, when executed by a processor, performs the following steps:
[0021] Based on the correlation characteristics between the fields to be verified in the power operation ticket and the positional characteristics of each field to be verified, the fields to be verified are divided into regions to obtain each region to be verified in the power operation ticket; the fields to be verified in each region are verified to obtain the verification result of each region; the verification values of each verification result are weighted according to the type of the verification result and the order of the regions to be verified to obtain the weighted verification result of the power operation ticket; the power operation ticket is distributed according to the operation object of the power operation ticket matched by the weighted verification value in the weighted verification result.
[0022] Fifthly, this application also provides a computer program product. The computer program product includes a computer program that, when executed by a processor, performs the following steps:
[0023] Based on the correlation characteristics between the fields to be verified in the power operation ticket and the positional characteristics of each field to be verified, the fields to be verified are divided into regions to obtain each region to be verified in the power operation ticket; the fields to be verified in each region are verified to obtain the verification result of each region; the verification values of each verification result are weighted according to the type of the verification result and the order of the regions to be verified to obtain the weighted verification result of the power operation ticket; the power operation ticket is distributed according to the operation object of the power operation ticket matched by the weighted verification value in the weighted verification result.
[0024] The aforementioned power operation ticket dispatching method, device, computer equipment, storage medium, and computer program product, based on the correlation characteristics between the fields to be verified in the power operation ticket and the positional characteristics of each field, sequentially divides each field to be verified into regions, obtaining each region to be verified in the power operation ticket. This allows for the acquisition of each filled-in region, facilitating subsequent verification of the content in different filled-in regions and improving verification efficiency. The fields to be verified in each region are verified separately, obtaining the verification result for each region. Based on the type of verification result and the order of the regions to be verified, the verification values of each result are weighted to obtain the weighted verification result of the power operation ticket. By weighting the verification results of multiple regions, the weighted verification result of the power operation ticket is obtained quickly and accurately. Power operation tickets are distributed according to the operation objects of the power operation tickets matched by the weighted verification values in the weighted verification results. This method has two advantages: firstly, it eliminates the need for manual verification of the fields to be verified, reducing the verification time of power operation tickets and thus improving the maintenance efficiency of the power system; secondly, by weighting the verification values according to the type of verification results, a weighted verification result of the power operation tickets is obtained, which improves the accuracy of the verification results. Attached Figure Description
[0025] Figure 1 This is a diagram illustrating the application environment of a power operation ticket scheduling method in one embodiment.
[0026] Figure 2 This is a flowchart illustrating the scheduling method for power operation tickets in one embodiment;
[0027] Figure 3 This is a flowchart illustrating the weighting method for the verification values of each verification result in one embodiment;
[0028] Figure 4 This is a schematic diagram of a method for distributing power operation tickets in one embodiment;
[0029] Figure 5 This is a flowchart illustrating a method for distributing power operation tickets in one embodiment;
[0030] Figure 6 This is a structural block diagram of a dispatching device for power operation tickets in one embodiment;
[0031] Figure 7 This is an internal structural diagram of a computer device in one embodiment. Detailed Implementation
[0032] To make the objectives, technical solutions, and advantages of this application clearer, the following detailed description is provided in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative and not intended to limit the scope of this application.
[0033] The power operation ticket scheduling method provided in this application embodiment can be applied to, for example, Figure 1 In the application environment shown, terminal 102 communicates with server 104 via a network. A data storage system can store the data that server 104 needs to process. The data storage system can be integrated onto server 104, or it can be located in the cloud or on another network server.
[0034] Server 104 divides the fields to be verified in the power operation ticket into regions based on the correlation characteristics and positional characteristics of each field. Server 104 then verifies the fields in each region, obtaining a verification result for each region. Based on the type of the verification result and the order of the regions, server 104 weights the verification values of each result to obtain a weighted verification result for the power operation ticket. Server 104 then distributes the power operation ticket according to the operation object matched by the weighted verification value in the weighted verification result. The power operation ticket can then be distributed to terminal 102.
[0035] The terminal 102 can be, but is not limited to, various personal computers, laptops, smartphones, tablets, IoT devices, and portable wearable devices. IoT devices can include smart speakers, smart TVs, smart air conditioners, and smart in-vehicle systems. Portable wearable devices can include smartwatches, smart bracelets, and head-mounted devices. The server 104 can be implemented using a standalone server or a server cluster consisting of multiple servers.
[0036] In one embodiment, such as Figure 2 As shown, a scheduling method for power operation tickets is provided, which can be applied to... Figure 1 Taking the server in the example of this, the explanation includes:
[0037] S202, based on the correlation characteristics between the fields to be verified in the power operation ticket and the location characteristics of each field to be verified, the fields to be verified are divided into regions in sequence to obtain each region to be verified in the power operation ticket.
[0038] Among them, the power operation ticket can be a pre-filled operation ticket. The form of the power operation ticket can be a form, document or other form, which is not limited here. The object of the power operation ticket can be electrical equipment or various components in the power circuit, such as circuit breakers, contactors, etc.
[0039] Specifically, the type of power operation ticket can be determined based on the object of the ticket. The object can be equipment on a high-voltage circuit. When maintaining high-voltage equipment, complete or partial power outages are required. Work must be performed on the secondary circuit of the high-voltage equipment, necessitating power outages or safety measures. The object can also be low-voltage equipment, such as control devices on a 24V control circuit. If the object is high-voltage equipment, a Type I power operation ticket is generated based on the high-voltage equipment, related electrical equipment, or various components in the high-voltage circuit. If the object is low-voltage equipment, a Type II power operation ticket is generated based on the low-voltage equipment, related electrical equipment, or various components in the low-voltage circuit. In complex scenarios, power operation tickets may need to be generated for both high-voltage and low-voltage circuits simultaneously; that is, both Type I and Type II power operation tickets may need to be generated concurrently. The first type of power operation ticket and the second type of power operation ticket are linked together. When both types of power operation tickets are approved at the same time, they can be distributed to the corresponding operators. The operators can then operate the high-voltage circuit and the low-voltage circuit respectively according to the first type of power operation ticket and the second type of power operation ticket.
[0040] The fields to be verified in the power operation ticket include: content to be verified and an identifier to be verified. The identifier can be the title or name of the content to be verified, for example, the identifier could be "Operation Start Time" and the content to be verified could be "Year Y Month Z Day". The identifier can be template information from a standard power operation ticket. Once the power operation ticket is obtained, the identifier to be verified is determined. The content to be verified can include, specifically, content to be verified can be extracted using semantic extraction.
[0041] Among them, the correlation features between each field to be verified represent the degree of correlation between each field to be verified. Several fields to be verified with high correlation can be combined to obtain the area to be verified for the power operation ticket.
[0042] Furthermore, association features can also characterize the sequential relationship and the categorical relationship between the fields to be verified. The sequential relationship indicates the actual order in which the fields to be verified are entered. For example, in an operation ticket, the issuer's name might precede the recipient's name. However, during the actual filling process, operator errors could lead to incorrect placement of the issuer's and recipient's names, causing confusion. The categorical relationship indicates the category to which each field to be verified belongs. For example, verification field 1 "Check that circuit breaker Q1 is in the open state" and verification field 2 "Check that the line ammeter has no indication" both belong to the same operation item category.
[0043] The location feature of each field to be verified represents its coordinates within the power operation ticket. If the power operation ticket is in tabular form, the location feature can be represented by the position of the table.
[0044] Specifically, based on the correlation characteristics between the fields to be verified in the power operation ticket, the fields to be verified can be divided into regions to obtain the regions to be verified in the power operation ticket. Alternatively, the fields to be verified can be divided into regions based on their location characteristics to obtain the regions to be verified in the power operation ticket.
[0045] Alternatively, the fields to be verified can be divided firstly based on the correlation characteristics between them, resulting in first division results. Then, the first division results can be adjusted based on the positional characteristics of the fields to be verified in the first division results to obtain the areas to be verified in the power operation ticket. Similarly, the fields to be verified can be divided secondly based on the positional characteristics, resulting in second division results. Then, the second division results can be adjusted based on the correlation characteristics between them to obtain the areas to be verified in the power operation ticket.
[0046] The area to be verified includes at least one field to be verified and the area corresponding to that field. Based on the areas to be verified in the power operation ticket, image recognition techniques can be used to extract these areas, enabling rapid and accurate feature extraction and improving the efficiency and accuracy of semantic extraction of the fields to be verified. Each area to be verified can include one field, in which case each field can be considered a separate area to be verified.
[0047] S204, verify the fields to be verified in each area to be verified, and obtain the verification result for each area to be verified.
[0048] The fields to be verified may include at least one of the following: ticket number, operation task, operation sequence, issuer, recipient, operator, supervisor, and operation time. The operation task, also known as the operation item, represents the specific operation performed on the object of the power operation ticket. For example, operation task 1 is "determine that circuit breaker Q1 is in an open circuit state," and operation task 2 is "determine that circuit breaker Q2 is in an open circuit state."
[0049] This process involves comparing the field to be verified with a standard field to determine the degree of matching. The degree of matching can be described as a percentage. For example, if the field to be verified is "determines that circuit breaker Q1 is in an open circuit state," and the standard field is "determines that circuit breaker Q1 is in a closed circuit state," the degree of matching can be 100%.
[0050] The verification results include a verification result type and a verification value. The verification result type indicates whether the field to be verified is of a normal or abnormal type. The verification value can be represented by the degree of matching. Specifically, the verification value can also be obtained based on the semantic similarity between the field to be verified and the labeled field. For example, the semantic similarity is obtained by comparing the part-of-speech, word order, and standard field of each word in the field to be verified.
[0051] S206, based on the type of verification result and the order among the areas to be verified, the verification values of each verification result are weighted to obtain the weighted verification result of the power operation ticket.
[0052] First, based on the type of verification result, it can be determined whether to weight the verification values of each result. Specifically, if the verification result is of the normal type, no weighting is applied to the verification values of each result. If the verification result is of the abnormal type, then the verification values of each result are weighted. The weighted verification values of the power operation ticket can be increased or decreased to highlight the magnitude of each verification result, resulting in an accurate weighted verification value for the power operation ticket and improving its accuracy.
[0053] If the verification result is an abnormality, the verification value of other verification results can be reduced.
[0054] The verification values of each verification result are weighted according to the order among the areas to be verified. This includes: weighting the verification values of the verification results that are ranked lower according to the type of the verification results that are ranked higher, so as to obtain the weighted verification values of each verification result; and summing the weighted verification values of each verification result to obtain the weighted verification result of the power operation ticket.
[0055] S208. Distribute power operation tickets according to the operation objects of the power operation tickets matched by the weighted verification values in the weighted verification results.
[0056] The weighted verification values of each verification result can be summed to obtain the weighted verification value in the weighted verification result. A larger weighted verification value indicates a smaller abnormal part of the power operation ticket, while a smaller weighted verification value indicates a larger abnormal part of the power operation ticket.
[0057] The target of an operation ticket can be the person executing the operation ticket or the terminal corresponding to that person. For example, personnel can be sorted according to their experience level, and power operation tickets with smaller weighted verification values can be distributed to personnel with higher experience levels. This ensures that the degree of abnormality of the power operation ticket matches the experience level of the personnel, which not only ensures that the power operation ticket can be executed accurately and efficiently, but also ensures the accuracy of the scheduling of personnel.
[0058] In the aforementioned dispatching method for operation tickets, based on the correlation characteristics between the fields to be verified in the power operation ticket and the positional characteristics of each field, the fields to be verified are sequentially divided to obtain the verification areas in the power operation ticket. This allows for the acquisition of each filled-in area, facilitating subsequent verification of the content in different filled-in areas and improving verification efficiency. The fields to be verified in each verification area are verified separately, yielding the verification results for each area. Based on the type of verification result and the order of the verification areas, the verification values of each result are weighted to obtain the weighted verification result of the power operation ticket. By weighting the verification results of multiple verification areas, the weighted verification result of the power operation ticket is obtained quickly and accurately. Power operation tickets are distributed according to the operation objects of the operation tickets matched by the weighted verification values in the weighted verification results. This method has two advantages: firstly, it eliminates the need for manual verification of the fields to be verified, reducing the verification time of power operation tickets and thus improving the maintenance efficiency of the power system; secondly, by weighting the verification values according to the type of verification results, a weighted verification result of the power operation ticket is obtained, which improves the accuracy of the verification results.
[0059] In one embodiment, such as Figure 3 The flowchart shown illustrates the weighting method for the verification values of each verification result. The steps involved in weighting the verification values of each result according to the type of verification result and the order of the areas to be verified, to obtain the weighted verification result of the power operation ticket, include:
[0060] S302, convert each area to be verified into a verification sequence according to the order between the areas to be verified.
[0061] The order of the areas to be verified refers to their positional sequence, including left to right, top to bottom, and top left to bottom right. Understandably, the verification sequence can be an abstract line connecting the areas to be verified in the power operation ticket.
[0062] S304, Based on the type of the verification result, query the initial weight coefficient that matches the type of the verification result.
[0063] The verification result type can include normal and abnormal. The initial weight coefficient matching the normal type of the verification result can be 1, and the initial weight coefficient matching the abnormal type of the verification result is less than 1, which can be 0.9.
[0064] S306, based on the initial weight coefficient of the target region to be verified in the verification sequence, adjust the initial weight coefficient of at least a portion of the regions to be verified in the verification sequence other than the target region to be verified, to obtain the weight coefficient corresponding to each region to be verified in the verification sequence.
[0065] The target region to be verified can be a randomly selected region from the verification sequence. The target region to be verified can also be a region of type "abnormal".
[0066] Among them, at least a portion of the areas to be verified can be areas that are ranked before the target area to be verified, or areas that are ranked after the target area to be verified.
[0067] Specifically, adjusting the initial weight coefficients of at least a portion of the areas to be verified, excluding the target area to be verified, in the verification sequence includes: adjusting the initial weight coefficients of at least a portion of the areas to be verified that are of anomaly type, excluding the target area to be verified. By adjusting the initial weight coefficients of the abnormal areas to be verified, the abnormal areas to be verified are highlighted, resulting in more accurate verification results for power operation tickets.
[0068] The weight coefficient can be the initial weight coefficient obtained directly from the query, or it can be the weight coefficient after adjustment.
[0069] S308, according to the weight coefficient corresponding to each area to be verified, the verification value corresponding to each area to be verified is weighted to obtain the weighted verification result of the power operation ticket.
[0070] Specifically, if the weight coefficient in the region to be verified fails to pass adjustment, the weight coefficient in that region becomes the initial weight coefficient. If the weight coefficient in the region to be verified passes adjustment, the weight coefficient in that region becomes the adjusted weight coefficient. The adjusted weight coefficient is obtained by adjusting the initial weight coefficient of the target region to be verified.
[0071] Specifically, the verification results of the areas to be verified can be obtained by multiplying the weighting coefficient by the verification value. Then, the weighted verification result of the power operation ticket is obtained by averaging the verification results of each area to be verified.
[0072] In this embodiment, by adjusting the initial weight coefficients of at least a portion of the areas to be verified in the verification sequence, excluding the target area to be verified, based on the initial weight coefficients of the target area to be verified in the verification sequence, abnormal areas to be verified are highlighted, resulting in more accurate verification results for power operation tickets.
[0073] In one embodiment, the step of adjusting the initial weight coefficients of at least a portion of the regions to be verified in the verification sequence, excluding the target region to be verified, based on the initial weight coefficient of the target region to be verified in the verification sequence, to obtain the weight coefficient corresponding to each region to be verified in the verification sequence, includes: adjusting the initial weight coefficients of other regions to be verified in the verification sequence that are ordered after the target region to be verified, according to the order between the regions to be verified in the verification sequence and the initial weight coefficient of the target region to be verified in the verification sequence, to obtain the weight coefficient corresponding to each region to be verified in the verification sequence.
[0074] The target area to be verified can be either the first area to be verified in the verification sequence or the second to last area to be verified.
[0075] The target area to be verified can be an area whose verification result is of the abnormal type.
[0076] The adjustment can be performed multiple times. Specifically, the areas to be verified with abnormal verification results are identified as target areas to be verified. The first target area to be verified is selected and ranked first. Based on the initial weight coefficient, the initial weight coefficients of the areas to be verified after the first target area to be verified are adjusted. Then, the second target area to be verified is selected and ranked second. Based on the initial weight coefficient, the initial weight coefficients of the areas to be verified after the second target area to be verified are adjusted. This process is repeated until all areas to be verified are adjusted.
[0077] For example, a power operation ticket typically includes, in sequence: ticket number, operation task, operation sequence, issuer, recipient, operator, supervisor, and operation time. If the ticket number is entered incorrectly, subsequent content is likely to contain errors as well. Similarly, if the operation instructions within the operation task are entered incorrectly, other operation instructions may also be incorrect. Therefore, it is necessary to adjust the initial weight coefficients of other areas in the verification sequence that are ordered after the target area based on the initial weight coefficient corresponding to the target area. This yields the weight coefficient for each area in the verification sequence, highlighting any abnormal areas. This provides a basis for improving the weighted verification results of power operation tickets in the future.
[0078] In this embodiment, based on the initial weight coefficient corresponding to the target verification area, the initial weight coefficients of other verification areas ranked after the target verification area in the verification sequence are adjusted to obtain the weight coefficient corresponding to each verification area in the verification sequence, highlighting abnormal verification areas in the verification sequence. This provides a basis for subsequently improving the weighted verification results of power operation tickets.
[0079] In one embodiment, the step of dividing each field to be verified in the power operation ticket into regions according to the correlation characteristics between each field to be verified and the positional characteristics of each field to be verified, to obtain the verification region in the power operation ticket, includes: dividing each field to be verified in the power operation ticket according to the positional characteristics of each field to be verified, to obtain each set of fields to be verified; performing a self-check on each set of fields to be verified according to the correlation characteristics between each field to be verified in the set of fields to be verified, to obtain a self-checked set of fields to be verified; and performing region transformation on the self-checked set of fields to be verified, to obtain the verification region in the power operation ticket.
[0080] The location feature of each field to be verified represents its coordinates within the power operation ticket. If the power operation ticket is in tabular form, the location feature can be represented by the position of the table.
[0081] The set of fields to be verified includes at least one field to be verified.
[0082] Specifically, each field to be verified can be divided according to its location characteristics in the power operation ticket to obtain a set of fields to be verified.
[0083] Among them, the correlation features between each field to be verified represent the degree of correlation between each field to be verified. Several fields to be verified with high correlation can be combined to obtain the area to be verified for the power operation ticket.
[0084] Furthermore, association features can also characterize the sequential relationship and the categorical relationship between the fields to be verified. The sequential relationship indicates the actual order in which the fields to be verified are entered. For example, in an operation ticket, the issuer's name might precede the recipient's name. However, during the actual filling process, operator errors could lead to incorrect placement of the issuer's and recipient's names, causing confusion. The categorical relationship indicates the category to which each field to be verified belongs. For example, verification field 1 "Check that circuit breaker Q1 is in the open state" and verification field 2 "Check that the line ammeter has no indication" both belong to the same operation item category.
[0085] Specifically, a self-check can be performed on each set of fields to be verified based on the sequential relationship between the fields in the associated features. If the self-check passes, it means that the field set to be verified is accurately divided, and a self-checked set of fields to be verified is obtained. If the self-check fails, it means that the field set to be verified is not accurately divided, and the field set to be verified can be re-divided based on the sequential relationship between the fields to be verified, resulting in a self-checked set of fields to be verified.
[0086] It should be noted that the computational complexity of location feature-related operations is less than that of association feature-related operations. Location feature operations can calculate spatial distances using table coordinates, while association feature operations require semantic extraction of each field to be verified. By performing location feature-related operations first to obtain the set of fields to be verified, instead of performing operations based on association features, computational resources are saved. Subsequent self-checks based on association features significantly reduce computational difficulty and improve the efficiency of power operation ticket distribution.
[0087] Among them, the region conversion means converting the fields to be verified in the set of fields to be verified into a region to be verified, thus obtaining the region to be verified in the power operation ticket.
[0088] In this embodiment, the set of fields to be verified is obtained by first performing location feature correlation calculations, instead of obtaining the set of fields to be verified based on association feature correlation calculations, thus saving computational resources. Subsequent self-checks based on association features are then required, significantly reducing computational complexity and improving the efficiency of power operation ticket distribution.
[0089] In one embodiment, such as Figure 4 The diagram illustrates a method for distributing power operation tickets. The steps for distributing power operation tickets, based on the operation object matched by the weighted verification value in the weighted verification results, include:
[0090] S402 matches the weighted verification value in the weighted verification result with the set of operation objects.
[0091] In the weighted verification result, the weighted verification value represents the overall degree of abnormality of the power operation ticket. The larger the weighted verification value, the smaller the degree of abnormality of the power operation ticket, and the closer it is to normal. Conversely, the larger the weighted verification value, the greater the degree of abnormality of the power operation ticket. In other words, if the weighted verification value in the weighted verification result is larger, the abnormality of the power operation ticket is also greater, and the power operation ticket needs to be assigned to a more experienced operator.
[0092] The target of the operation can be the reviewer.
[0093] The set of operational objects can be a collection of all auditors, and includes each operational object and its preset level.
[0094] Specifically, the weighted verification value in the weighted verification result is matched with the preset level of each operation object in the operation object set to obtain the matching result.
[0095] S404 If there is a base object in the operation object set that matches the weighted verification value, then the base object is identified as the operation object, and an electricity operation ticket is issued to the operation object.
[0096] The grade range can be obtained by mapping the verification value to the object grade and by using a weighted verification value. For example, the object grade can be 1-10, and the verification value can be 0-100. If the weighted verification value is 72, the grade range is 3-10; if the weighted verification value is 25, the grade range is 8-10. Based on this grade range, the basic objects in the operation object set are then filtered to obtain the operation objects, and power operation tickets are distributed to these operation objects.
[0097] S406 If there is no base object in the operation object set that matches the weighted verification value, then the level of each base object in the operation object set is predicted based on the historical operation information of each base object, so as to obtain the predicted level of each base object.
[0098] Among these issues, the number of errors in the power operation tickets corresponding to the weighted verification values may be too large and complex, and there may not be a matching basic object in the set of operation objects.
[0099] In some cases, although there may be a base object in the set of objects that matches the weighted verification value, the base object may already be in the state of executing a task during the current time period.
[0100] Based on the two reasons mentioned above, the levels of each basic object in the operation object set are predicted according to the historical operation information of each basic object, and the predicted levels of each basic object are obtained.
[0101] S408: Based on the prediction level of each basic object and the weighted verification value in the weighted verification result, the basic objects in the operation object set are screened to obtain the operation objects of the power operation ticket, and the power operation ticket is distributed to the operation objects.
[0102] In this embodiment, by predicting the level of each basic object, and based on the predicted level of each basic object and the weighted verification value in the weighted verification result, the basic objects in the operation object set are screened to obtain the operation objects of the power operation ticket, and the power operation ticket is distributed to the operation objects, thereby improving the distribution efficiency of the power operation ticket.
[0103] In one embodiment, the step of distributing a power operation ticket to the object of the operation ticket includes: determining the terminal held by the object of the operation ticket; distributing the power operation ticket to the terminal; and the scheduling method of the operation ticket further includes: receiving feedback messages from the terminal; and parsing the feedback messages to obtain operation information of each basic object.
[0104] Among them, the terminal can be a specialized terminal developed for power operation tickets in the power industry.
[0105] The feedback message can be the processing information of the operation object on the power operation ticket. This processing information can include: the number of times the power operation ticket has been processed, the success rate of the power operation ticket processing, etc.
[0106] Specifically, the more times a power operation ticket is processed and the higher the success rate of processing the power operation ticket, the higher the prediction level of the basic object.
[0107] In this embodiment, by distributing power operation tickets to the terminal and receiving feedback messages from the terminal, the operation information of each basic object is updated, which helps to obtain a more accurate prediction level of the basic object.
[0108] Operation tickets are a primary measure to prevent misoperations (accidental opening or closing, opening or closing disconnect switches under load, closing disconnect switches with ground wires, etc.). Currently, operation tickets require manual review and confirmation, incurring significant time costs and preparation time. This hinders timely maintenance of power transmission and transformation equipment, failing to effectively guarantee maintenance time and increasing the risk of safety accidents caused by equipment defects. Therefore, in one embodiment, such as... Figure 5 As shown, a method for distributing power operation tickets is provided, and the method is illustrated by its application in a dispatching system. The method includes:
[0109] S500: Based on the location characteristics of each field to be verified in the power operation ticket, the fields to be verified are divided to obtain a set of fields to be verified.
[0110] The fields to be verified include at least one of the following: ticket number, operation task, issuer, recipient, operator, guardian, and operation time.
[0111] Specifically, if an abnormality occurs in an electrical operation ticket, the ticket number, operation task, issuer, recipient, operator, supervisor, and operation time can be locked and marked, making it easier for the review module to assign corresponding responsibilities.
[0112] S504. Based on the correlation characteristics between the fields to be verified in the field set to be verified, perform a self-check on each field set to be verified to obtain the field set to be verified after the self-check.
[0113] S504 transforms the set of fields to be verified after self-inspection into regions to obtain the regions to be verified in the power operation ticket.
[0114] S506, verify the fields to be verified in each area to be verified, and obtain the verification result for each area to be verified.
[0115] S508, convert each area to be verified into a verification sequence according to the order between the areas to be verified.
[0116] S510, based on the type of the verification result, query the initial weight coefficient that matches the type of the verification result.
[0117] S512, according to the order of each region to be verified in the verification sequence and the initial weight coefficient of the target region to be verified in the verification sequence, adjust the initial weight coefficient of other regions to be verified in the verification sequence that are ordered after the target region to be verified, so as to obtain the weight coefficient corresponding to each region to be verified in the verification sequence.
[0118] S514, according to the weight coefficient corresponding to each area to be verified, the verification value corresponding to each area to be verified is weighted to obtain the weighted verification result of the power operation ticket.
[0119] S516 matches the weighted verification value in the weighted verification result with the set of operation objects.
[0120] S518, if there is a base object in the operation object set that matches the weighted verification value, then the base object is identified as the operation object, and an electricity operation ticket is issued to the operation object, and S524 is executed.
[0121] S520 If there is no base object in the operation object set that matches the weighted verification value, then the level of each base object in the operation object set is predicted based on the historical operation information of each base object, and the predicted level of each base object is obtained.
[0122] S522, based on the prediction level of each basic object and the weighted verification value in the weighted verification result, filter each basic object in the operation object set to obtain the operation objects of the power operation ticket, and distribute the power operation ticket to the operation objects, and execute S524.
[0123] S524, determine the terminal held by the operator of the power operation ticket.
[0124] S526, distributing power operation tickets to terminals.
[0125] S528, receiving feedback messages from the terminal.
[0126] S530 parses the feedback message to obtain the operation information of each basic object.
[0127] In this embodiment, by dividing each field to be verified in the power operation ticket into regions according to the correlation characteristics between the fields to be verified and the positional characteristics of each field, the power operation ticket is divided into regions to be verified. This allows for the acquisition of each filled-in area in the power operation ticket, facilitating subsequent verification of the content in different filled-in areas and improving verification efficiency. Each field to be verified in each region is verified separately, resulting in a verification result for each region. Based on the type of verification result and the order of the regions to be verified, the verification values of each result are weighted to obtain the weighted verification result of the power operation ticket. By weighting the verification results of multiple regions, the weighted verification result of the power operation ticket is obtained quickly and accurately. According to the operation object of the power operation ticket matched by the weighted verification value in the weighted verification result, the power operation ticket is distributed. This method, on the one hand, eliminates the need for manual verification of the fields to be verified, reduces the verification time of the power operation ticket, and thus improves the maintenance efficiency of the power system. On the other hand, the verification value is weighted according to the type of verification result to obtain the weighted verification result of the power operation ticket, which improves the accuracy of the verification result. This method, (1) The power operation ticket dispatching system implemented in this embodiment greatly improves the pre-issuance and dispatching speed of operation instruction tickets, greatly reduces the operation preparation time, enables the transmission and transformation equipment to be repaired in a timely manner, effectively ensures the repair time, enables the equipment to be repaired as soon as possible and to be powered up as soon as possible, avoids accidents caused by equipment defects, and saves a lot of costs. (2) The power operation ticket dispatching system implemented in this embodiment enables the transmission and transformation equipment to be repaired as soon as possible, restores power to users who have lost power due to repair in advance, increases the sales volume, and achieves huge economic benefits. (3) The power operation ticket dispatching system implemented in this embodiment enables users who have lost power to resume production in a timely manner, and the electricity consumption of residents is restored in a timely manner, achieving good social benefits.
[0128] It should be understood that although the steps in the flowcharts of the embodiments described above are shown sequentially according to the arrows, these steps are not necessarily executed in the order indicated by the arrows. Unless explicitly stated herein, there is no strict order restriction on the execution of these steps, and they can be executed in other orders. Moreover, at least some steps in the flowcharts of the embodiments described above may include multiple steps or multiple stages. These steps or stages are not necessarily completed at the same time, but can be executed at different times. The execution order of these steps or stages is not necessarily sequential, but can be performed alternately or in turn with other steps or at least some of the steps or stages of other steps.
[0129] Based on the same inventive concept, this application also provides a power operation ticket scheduling device for implementing the power operation ticket scheduling method described above. The solution provided by this device is similar to the solution described in the above method; therefore, the specific limitations in one or more power operation ticket scheduling device embodiments provided below can be found in the limitations of the power operation ticket scheduling method described above, and will not be repeated here.
[0130] In one embodiment, such as Figure 6 As shown, a dispatching device for power operation tickets is provided, including: a field division module 602, a region verification module 604, a verification value weighting module 606, and a distribution module 608, wherein:
[0131] The field segmentation module 602 is used to divide each field to be verified into regions based on the correlation characteristics between each field to be verified in the power operation ticket and the location characteristics of each field to be verified, so as to obtain each region to be verified in the power operation ticket.
[0132] The area verification module 604 is used to verify the fields to be verified in each area to be verified, and obtain the verification results for each area to be verified.
[0133] The verification value weighting module 606 is used to weight the verification values of each verification result according to the type of verification result and the order between each area to be verified, so as to obtain the weighted verification result of the power operation ticket.
[0134] The distribution module 608 is used to distribute power operation tickets according to the operation objects of the power operation tickets matched by the weighted verification values in the weighted verification results.
[0135] In one embodiment, the verification value weighting module 606 is further configured to: convert each region to be verified into a verification sequence according to the order between the regions to be verified; query an initial weight coefficient that matches the type of the verification result according to the type of the verification result; adjust the initial weight coefficients of at least a portion of the regions to be verified in the verification sequence, excluding the target region to be verified, according to the initial weight coefficient of the target region to be verified in the verification sequence, to obtain the weight coefficient corresponding to each region to be verified in the verification sequence; and weight the verification value corresponding to each region to be verified according to the weight coefficient corresponding to each region to be verified, to obtain the weighted verification result of the power operation ticket.
[0136] In one embodiment, the verification value weighting module 606 is further configured to adjust the initial weight coefficients of other regions to be verified in the verification sequence that are ordered after the target region to be verified, according to the order between the regions to be verified in the verification sequence and the initial weight coefficient of the target region to be verified in the verification sequence, so as to obtain the weight coefficient corresponding to each region to be verified in the verification sequence.
[0137] In one embodiment, the field segmentation module 602 is further configured to segment each field to be verified according to the positional characteristics of each field to be verified in the power operation ticket, to obtain each set of fields to be verified; to perform a self-check on each set of fields to be verified according to the correlation characteristics between each set of fields to be verified, to obtain a set of fields to be verified after self-check; and to perform regional transformation on the set of fields to be verified after self-check, to obtain the area to be verified in the power operation ticket.
[0138] In one embodiment, the distribution module 608 is further configured to match the weighted verification value in the weighted verification result with the set of operation objects; if there is a basic object in the set of operation objects that matches the weighted verification value, then the basic object is identified as the operation object, and an electricity operation ticket is distributed to the operation object; if there is no basic object in the set of operation objects that matches the weighted verification value, then the level of each basic object in the set of operation objects is predicted based on the historical operation information of each basic object, and the predicted level of each basic object is obtained; based on the predicted level of each basic object and the weighted verification value in the weighted verification result, each basic object in the set of operation objects is filtered to obtain the operation object of the electricity operation ticket, and an electricity operation ticket is distributed to the operation object.
[0139] In one embodiment, the distribution module 608 is further configured to determine the terminal holding the power operation ticket; distribute the power operation ticket to the terminal; the power operation ticket scheduling device further includes: a parsing module, configured to receive feedback messages from the terminal; parse the feedback messages to obtain operation information for each basic object.
[0140] The various modules in the aforementioned power operation ticket dispatching device can be implemented entirely or partially through software, hardware, or a combination thereof. These modules can be embedded in or independent of the processor in a computer device, or stored in the memory of a computer device as software, so that the processor can call and execute the operations corresponding to each module.
[0141] In one embodiment, a computer device is provided, which may be a server, and its internal structure diagram may be as follows: Figure 7As shown, this computer device includes a processor, memory, input / output (I / O) interfaces, and a communication interface. The processor, memory, and I / O interfaces are connected via a system bus, and the communication interface is also connected to the system bus via the I / O interfaces. The processor provides computational and control capabilities. The memory includes non-volatile storage media and internal memory. The non-volatile storage media stores the operating system, computer programs, and a database. The internal memory provides the environment for the operation of the operating system and computer programs stored in the non-volatile storage media. The database stores weighted verification result data. The I / O interfaces are used for exchanging information between the processor and external devices. The communication interface is used for communicating with external terminals via a network connection. When executed by the processor, the computer program implements a power operation ticket scheduling method.
[0142] Those skilled in the art will understand that Figure 7 The structure shown is merely a block diagram of a portion of the structure related to the present application and does not constitute a limitation on the computer device to which the present application is applied. Specific computer devices may include more or fewer components than those shown in the figure, or combine certain components, or have different component arrangements.
[0143] In one embodiment, a computer device is provided, including a memory and a processor, wherein the memory stores a computer program, and the processor executes the computer program to perform the following steps:
[0144] Based on the correlation characteristics and positional characteristics of the fields to be verified in the power operation ticket, the fields to be verified are divided into regions to obtain the regions to be verified in the power operation ticket. The fields to be verified in each region are verified separately to obtain the verification results for each region. The verification values of each verification result are weighted according to the type of verification result and the order of the regions to be verified to obtain the weighted verification result of the power operation ticket. Power operation tickets are distributed according to the operation objects of the power operation tickets matched by the weighted verification values in the weighted verification results.
[0145] In one embodiment, the processor, when executing a computer program, also performs the following steps:
[0146] Based on the order of the areas to be verified, each area to be verified is transformed into a verification sequence; based on the type of verification result, the initial weight coefficient matching the type of verification result is queried; based on the initial weight coefficient of the target area to be verified in the verification sequence, the initial weight coefficients of at least a portion of the areas to be verified in the verification sequence, excluding the target area to be verified, are adjusted to obtain the weight coefficient corresponding to each area to be verified in the verification sequence; based on the weight coefficient corresponding to each area to be verified, the verification values corresponding to each area to be verified are weighted to obtain the weighted verification result of the power operation ticket.
[0147] In one embodiment, the processor, when executing a computer program, also performs the following steps:
[0148] Based on the order of the regions to be verified in the verification sequence and the initial weight coefficient of the target region to be verified in the verification sequence, the initial weight coefficients of the other regions to be verified in the verification sequence that are ordered after the target region to be verified are adjusted to obtain the weight coefficient corresponding to each region to be verified in the verification sequence.
[0149] In one embodiment, the processor, when executing a computer program, also performs the following steps:
[0150] Based on the location characteristics of each field to be verified in the power operation ticket, each field to be verified is divided into a set of fields to be verified. Based on the correlation characteristics between each field to be verified in the set of fields to be verified, each set of fields to be verified is self-checked to obtain a set of fields to be verified after self-checking. The set of fields to be verified after self-checking is transformed into a region to obtain the region to be verified in the power operation ticket.
[0151] In one embodiment, the processor, when executing a computer program, also performs the following steps:
[0152] The weighted verification value in the weighted verification result is matched with the set of operation objects. If there is a basic object in the set of operation objects that matches the weighted verification value, the basic object is identified as the operation object, and an electricity operation ticket is issued to the operation object. If there is no basic object in the set of operation objects that matches the weighted verification value, the level of each basic object in the set of operation objects is predicted based on the historical operation information of each basic object, and the predicted level of each basic object is obtained. Based on the predicted level of each basic object and the weighted verification value in the weighted verification result, each basic object in the set of operation objects is screened to obtain the operation object of the electricity operation ticket, and the electricity operation ticket is issued to the operation object.
[0153] In one embodiment, the processor, when executing a computer program, also performs the following steps:
[0154] The system identifies the terminal holding the power operation ticket; distributes the power operation ticket to the terminal; receives feedback messages from the terminal; and parses the feedback messages to obtain the operation information of each basic object.
[0155] In one embodiment, a computer-readable storage medium is provided having a computer program stored thereon, the computer program performing the following steps when executed by a processor:
[0156] Based on the correlation characteristics and positional characteristics of the fields to be verified in the power operation ticket, the fields to be verified are divided into regions to obtain the regions to be verified in the power operation ticket. The fields to be verified in each region are verified separately to obtain the verification results for each region. The verification values of each verification result are weighted according to the type of verification result and the order of the regions to be verified to obtain the weighted verification result of the power operation ticket. Power operation tickets are distributed according to the operation objects of the power operation tickets matched by the weighted verification values in the weighted verification results.
[0157] In one embodiment, when the computer program is executed by a processor, it also performs the following steps:
[0158] Based on the order of the areas to be verified, each area to be verified is transformed into a verification sequence; based on the type of verification result, the initial weight coefficient matching the type of verification result is queried; based on the initial weight coefficient of the target area to be verified in the verification sequence, the initial weight coefficients of at least a portion of the areas to be verified in the verification sequence, excluding the target area to be verified, are adjusted to obtain the weight coefficient corresponding to each area to be verified in the verification sequence; based on the weight coefficient corresponding to each area to be verified, the verification values corresponding to each area to be verified are weighted to obtain the weighted verification result of the power operation ticket.
[0159] In one embodiment, when the computer program is executed by a processor, it also performs the following steps:
[0160] Based on the order of the regions to be verified in the verification sequence and the initial weight coefficient of the target region to be verified in the verification sequence, the initial weight coefficients of the other regions to be verified in the verification sequence that are ordered after the target region to be verified are adjusted to obtain the weight coefficient corresponding to each region to be verified in the verification sequence.
[0161] In one embodiment, when the computer program is executed by a processor, it also performs the following steps:
[0162] Based on the location characteristics of each field to be verified in the power operation ticket, each field to be verified is divided into a set of fields to be verified. Based on the correlation characteristics between each field to be verified in the set of fields to be verified, each set of fields to be verified is self-checked to obtain a set of fields to be verified after self-checking. The set of fields to be verified after self-checking is transformed into a region to obtain the region to be verified in the power operation ticket.
[0163] In one embodiment, when the computer program is executed by a processor, it also performs the following steps:
[0164] The weighted verification value in the weighted verification result is matched with the set of operation objects. If there is a basic object in the set of operation objects that matches the weighted verification value, the basic object is identified as the operation object, and an electricity operation ticket is issued to the operation object. If there is no basic object in the set of operation objects that matches the weighted verification value, the level of each basic object in the set of operation objects is predicted based on the historical operation information of each basic object, and the predicted level of each basic object is obtained. Based on the predicted level of each basic object and the weighted verification value in the weighted verification result, each basic object in the set of operation objects is screened to obtain the operation object of the electricity operation ticket, and the electricity operation ticket is issued to the operation object.
[0165] In one embodiment, when the computer program is executed by a processor, it also performs the following steps:
[0166] The system identifies the terminal holding the power operation ticket; distributes the power operation ticket to the terminal; receives feedback messages from the terminal; and parses the feedback messages to obtain the operation information of each basic object.
[0167] In one embodiment, a computer program product is provided, including a computer program that, when executed by a processor, performs the following steps:
[0168] Based on the correlation characteristics and positional characteristics of the fields to be verified in the power operation ticket, the fields to be verified are divided into regions to obtain the regions to be verified in the power operation ticket. The fields to be verified in each region are verified separately to obtain the verification results for each region. The verification values of each verification result are weighted according to the type of verification result and the order of the regions to be verified to obtain the weighted verification result of the power operation ticket. Power operation tickets are distributed according to the operation objects of the power operation tickets matched by the weighted verification values in the weighted verification results.
[0169] In one embodiment, when the computer program is executed by a processor, it also performs the following steps:
[0170] Based on the order of the areas to be verified, each area to be verified is transformed into a verification sequence; based on the type of verification result, the initial weight coefficient matching the type of verification result is queried; based on the initial weight coefficient of the target area to be verified in the verification sequence, the initial weight coefficients of at least a portion of the areas to be verified in the verification sequence, excluding the target area to be verified, are adjusted to obtain the weight coefficient corresponding to each area to be verified in the verification sequence; based on the weight coefficient corresponding to each area to be verified, the verification values corresponding to each area to be verified are weighted to obtain the weighted verification result of the power operation ticket.
[0171] In one embodiment, when the computer program is executed by a processor, it also performs the following steps:
[0172] Based on the order of the regions to be verified in the verification sequence and the initial weight coefficient of the target region to be verified in the verification sequence, the initial weight coefficients of the other regions to be verified in the verification sequence that are ordered after the target region to be verified are adjusted to obtain the weight coefficient corresponding to each region to be verified in the verification sequence.
[0173] In one embodiment, when the computer program is executed by a processor, it also performs the following steps:
[0174] Based on the location characteristics of each field to be verified in the power operation ticket, each field to be verified is divided into a set of fields to be verified. Based on the correlation characteristics between each field to be verified in the set of fields to be verified, each set of fields to be verified is self-checked to obtain a set of fields to be verified after self-checking. The set of fields to be verified after self-checking is transformed into a region to obtain the region to be verified in the power operation ticket.
[0175] In one embodiment, when the computer program is executed by a processor, it also performs the following steps:
[0176] The weighted verification value in the weighted verification result is matched with the set of operation objects. If there is a basic object in the set of operation objects that matches the weighted verification value, the basic object is identified as the operation object, and an electricity operation ticket is issued to the operation object. If there is no basic object in the set of operation objects that matches the weighted verification value, the level of each basic object in the set of operation objects is predicted based on the historical operation information of each basic object, and the predicted level of each basic object is obtained. Based on the predicted level of each basic object and the weighted verification value in the weighted verification result, each basic object in the set of operation objects is screened to obtain the operation object of the electricity operation ticket, and the electricity operation ticket is issued to the operation object.
[0177] In one embodiment, when the computer program is executed by a processor, it also performs the following steps:
[0178] The system identifies the terminal holding the power operation ticket; distributes the power operation ticket to the terminal; receives feedback messages from the terminal; and parses the feedback messages to obtain the operation information of each basic object.
[0179] It should be noted that the user information (including but not limited to user device information, user personal information, etc.) and data (including but not limited to data used for analysis, data stored, data displayed, etc.) involved in this application are all information and data authorized by the user or fully authorized by all parties, and the collection, use and processing of the relevant data must comply with relevant regulations.
[0180] Those skilled in the art will understand that all or part of the processes in the above embodiments can be implemented by a computer program instructing related hardware. The computer program can be stored in a non-volatile computer-readable storage medium. When executed, the computer program can include the processes of the embodiments described above. Any references to memory, databases, or other media used in the embodiments provided in this application can include at least one of non-volatile and volatile memory. Non-volatile memory can include read-only memory (ROM), magnetic tape, floppy disk, flash memory, optical memory, high-density embedded non-volatile memory, resistive random access memory (ReRAM), magnetic random access memory (MRAM), ferroelectric random access memory (FRAM), phase change memory (PCM), graphene memory, etc. Volatile memory can include random access memory (RAM) or external cache memory, etc. 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). The databases involved in the embodiments provided in this application may include at least one type of relational database and non-relational database. Non-relational databases may include, but are not limited to, blockchain-based distributed databases. The processors involved in the embodiments provided in this application may be general-purpose processors, central processing units, graphics processing units, digital signal processors, programmable logic devices, quantum computing-based data processing logic devices, etc., and are not limited to these.
[0181] The technical features of the above embodiments can be combined in any way. For the sake of brevity, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.
[0182] The embodiments described above are merely illustrative of several implementation methods of this application, and while the descriptions are specific and detailed, they should not be construed as limiting the scope of this patent application. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this application, and these all fall within the protection scope of this application. Therefore, the protection scope of this application should be determined by the appended claims.
Claims
1. A method for dispatching power operation tickets, characterized in that, The method includes: Based on the location characteristics of each field to be verified in the power operation ticket, each field to be verified is divided to obtain a set of each field to be verified. Based on the correlation characteristics between each field to be verified in the set of fields to be verified, a self-check is performed on each set of fields to be verified to obtain the self-checked set of fields to be verified. The set of fields to be verified after self-inspection is converted into regions to obtain the regions to be verified in the power operation ticket. Each field to be verified in each of the regions to be verified is verified to obtain the verification result for each region to be verified. Based on the order among the regions to be verified, each of the regions to be verified is converted into a verification sequence; Based on the type of the verification result, query the initial weight coefficient that matches the type of the verification result; According to the order between the regions to be verified in the verification sequence and the initial weight coefficient of the target region to be verified in the verification sequence, the initial weight coefficients of other regions to be verified in the verification sequence that are ordered after the target region to be verified are adjusted to obtain the weight coefficient corresponding to each region to be verified in the verification sequence. Based on the weight coefficient corresponding to each area to be verified, the verification values corresponding to each area to be verified are weighted to obtain the weighted verification result of the power operation ticket. The power operation ticket is distributed according to the operation object of the power operation ticket matched by the weighted verification value in the weighted verification result.
2. The method according to claim 1, characterized in that, The step of distributing the power operation ticket according to the operation object of the power operation ticket matched by the weighted verification value in the weighted verification result includes: Match the weighted verification values in the weighted verification results with the set of operation objects; If there is a base object in the set of operation objects that matches the weighted verification value, then the base object is identified as the operation object, and the power operation ticket is distributed to the operation object; If there is no base object in the set of operation objects that matches the weighted verification value, then the level of each base object in the set of operation objects is predicted based on the historical operation information of each base object, so as to obtain the predicted level of each base object. Based on the prediction level of each basic object and the weighted verification value in the weighted verification result, the basic objects in the operation object set are filtered to obtain the operation objects of the power operation ticket, and the power operation ticket is distributed to the operation objects.
3. The method according to claim 2, characterized in that, The step of distributing the power operation ticket to the target of the operation ticket includes: Determine the terminal held by the user of the power operation ticket; Distribute the power operation ticket to the terminal; The method further includes: Receive feedback messages from the terminal; The feedback message is parsed to obtain the operation information of each of the basic objects.
4. A dispatching device for an electricity operation ticket, characterized in that, The device includes: The field segmentation module is used to segment each field to be verified in the power operation ticket according to the location characteristics of each field to be verified, to obtain each set of fields to be verified; to perform a self-check on each set of fields to be verified according to the correlation characteristics between each set of fields to be verified, to obtain a set of fields to be verified after self-check; and to perform regional transformation on the set of fields to be verified after self-check, to obtain the area to be verified in the power operation ticket. The region verification module is used to verify the fields to be verified in each of the regions to be verified, and to obtain the verification results for each region to be verified. The verification value weighting module is used to convert each region to be verified into a verification sequence according to the order between the regions to be verified; query the initial weight coefficient that matches the type of the verification result according to the type of the verification result; adjust the initial weight coefficients of other regions to be verified in the verification sequence that are ordered after the target region to be verified according to the order between the regions to be verified in the verification sequence and the initial weight coefficient of the target region to be verified in the verification sequence, so as to obtain the weight coefficient corresponding to each region to be verified in the verification sequence; and weight the verification value corresponding to each region to be verified according to the weight coefficient corresponding to each region to be verified, so as to obtain the weighted verification result of the power operation ticket. The distribution module is used to distribute the power operation ticket according to the operation object of the power operation ticket matched by the weighted verification value in the weighted verification result.
5. A computer device comprising a memory and a processor, wherein the memory stores a computer program, characterized in that, When the processor executes the computer program, it implements the steps of the method according to any one of claims 1 to 3.
6. A computer-readable storage medium having a computer program stored thereon, characterized in that, When the computer program is executed by a processor, it implements the steps of the method according to any one of claims 1 to 3.
7. A computer program product, comprising a computer program, characterized in that, When the computer program is executed by a processor, it implements the steps of the method according to any one of claims 1 to 3.