CN115829296B - Construction state information adjustment method, equipment and medium - Google Patents

Abstract

The embodiment of the invention discloses a construction state information adjustment method, equipment and medium. One embodiment of the method comprises the following steps: generating a plurality of start-up application forms in response to determining that the construction state information is information representing that the construction is not started up; for each of a plurality of work orders, performing the following first adjustment step: for each of the at least one fill-in area, displaying information characterizing the fill-in error in the fill-in area; determining the amount of information characterizing the filling error; determining the filled out work starting application form as a post-filling work starting application form; generating the qualification rate of the post-filling start application form according to the quantity of the information representing the filling errors; sending the filled out start application form to an auditing end; and in response to determining that the auditing result is a qualified characterization result, adjusting the construction state information to be the information characterizing that the construction is started. The embodiment can improve the efficiency and accuracy of the whole work.

Description

Construction state information adjustment method, equipment and medium

Technical Field

The embodiment of the disclosure relates to the technical field of computers, in particular to a construction state information adjustment method, equipment and medium.

Background

The construction state information adjustment method is a method of adjusting construction state information. In order to adjust the construction state information, a method is generally used in which an application form is first filled out in an offline manner. And then, the filled application form is sent to an auditing department for auditing by related personnel of the auditing department, and an auditing result is obtained to adjust the construction state information.

However, the inventors found that when the construction state information is adjusted in the above manner, there are often the following technical problems:

firstly, fill out with the off-line mode to carry out the audit, efficiency and the rate of accuracy of whole work are not high.

Second, filling in an off-line handwriting manner results in a low processing speed of the overall job.

Thirdly, auditing is performed in a visual manner, so that the efficiency and accuracy of the whole work are not high.

Fourth, construction in a conventional manner results in low efficiency of construction and safety and quality of the abutment.

The above information disclosed in this background section is only for enhancement of understanding of the background of the inventive concept and, therefore, may contain information that does not form the prior art that is already known to those of ordinary skill in the art in this country.

Disclosure of Invention

The disclosure is in part intended to introduce concepts in a simplified form that are further described below in the detailed description. The disclosure is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.

Some embodiments of the present disclosure propose construction status information adjustment methods, apparatuses, and media to solve one or more of the technical problems mentioned in the background section above.

In a first aspect, some embodiments of the present disclosure provide a construction status information adjustment method, the method including: generating a plurality of start application forms for filling by a form filling staff in response to the fact that the construction state information is information representing that the construction is not started, wherein the start application forms have at least one filling area; for each of the plurality of start applications, performing the following first adjustment step: for each of the at least one filling area, in response to determining that the filling of the filling area is complete and that the content filled in the filling area does not meet a preset filling criterion, displaying information characterizing a filling error in the filling area; determining the quantity of information characterizing the filling errors in response to determining that the start application form is completed; determining the filled out work starting application form as a post-filling work starting application form; generating the qualification rate of the post-filling start application form according to the quantity of the information representing the filling errors; in response to determining that the qualification rate is greater than or equal to a preset approval qualification rate, the filled-in start-up application form is sent to an auditing end, and the auditing end is used for auditing the filled-in start-up application form; and in response to determining that the auditing result is a qualified representation result, adjusting the construction state information to be the information representing that the construction is started.

In a second aspect, some embodiments of the present disclosure provide an electronic device comprising: one or more processors; a storage device having one or more programs stored thereon, which when executed by one or more processors causes the one or more processors to implement the method described in any of the implementations of the first aspect above.

In a third aspect, some embodiments of the present disclosure provide a computer readable medium having a computer program stored thereon, wherein the computer program, when executed by a processor, implements the method described in any of the implementations of the first aspect.

The above embodiments of the present disclosure have the following advantageous effects: by the construction state information adjustment method of some embodiments of the present disclosure, the efficiency and accuracy of the overall work can be improved. Specifically, the reason why the efficiency and accuracy of the overall work are not high is that: filling in an off-line manner and auditing are performed, resulting in low efficiency and accuracy of the overall work. Based on the above, in the construction status information adjustment method of some embodiments of the present disclosure, in response to determining that the construction status information is information representing that no work is done, a plurality of work application forms are generated for the staff filling in the form, where the work application form has at least one filling area, and the plurality of work application forms are automatically generated through the construction status information, so that the working efficiency can be improved; for each of the plurality of start applications, performing the following first adjustment step: for each filling area in the at least one filling area, in response to determining that the filling of the filling area is completed, and the contents filled in the filling area do not meet a preset filling standard, displaying information representing filling errors in the filling area, wherein the information representing filling errors does not meet the preset filling standard to prompt the staff to fill errors, and facilitating the staff to modify the filling area to reduce filling time; determining the quantity of information characterizing the filling errors in response to determining that the start application form is completed; determining the filled out work starting application form as a post-filling work starting application form; generating the qualification rate of the post-filling work application form according to the quantity of the information representing the filling errors, wherein the qualification rate of the post-filling work application form can be generated according to the quantity of the information representing the filling errors, and the higher the qualification rate is, the higher the accuracy rate of the whole work is; in response to determining that the qualification rate is greater than or equal to a preset approval qualification rate, the filled-in start-up application form is sent to an auditing end, and the auditing end is used for auditing the filled-in start-up application form; and finally, in response to determining that the auditing result is a qualified representation result, adjusting the construction state information to be information representing that the construction is started, wherein the construction application form is filled in an online mode, and the working efficiency can be improved. When filling is completed, the qualification rate can be obtained by the quantity that the filling area does not meet the preset filling standard. The qualification rate is greater than or equal to the preset report qualification rate, and the filled out start application form can be sent to an auditing end for auditing, so that an auditing result is obtained. And in response to the checking result being a qualified representation result, the construction state information can be adjusted to be information representing that the construction is started. The embodiment realizes that the efficiency and the accuracy of the whole work can be improved.

Drawings

The above and other features, advantages, and aspects of embodiments of the present disclosure will become more apparent by reference to the following detailed description when taken in conjunction with the accompanying drawings. The same or similar reference numbers will be used throughout the drawings to refer to the same or like elements. It should be understood that the figures are schematic and that elements and components are not necessarily drawn to scale.

FIG. 1 is a flow chart of some embodiments of a construction status information adjustment method according to the present disclosure;

fig. 2 is a schematic structural diagram of an electronic device suitable for use in implementing some embodiments of the present disclosure.

Description of the embodiments

Embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While certain embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete. It should be understood that the drawings and embodiments of the present disclosure are for illustration purposes only and are not intended to limit the scope of the present disclosure.

It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings. Embodiments of the present disclosure and features of embodiments may be combined with each other without conflict.

It should be noted that the terms "first," "second," and the like in this disclosure are merely used to distinguish between different devices, modules, or units and are not used to define an order or interdependence of functions performed by the devices, modules, or units.

It should be noted that references to "one", "a plurality" and "a plurality" in this disclosure are intended to be illustrative rather than limiting, and those of ordinary skill in the art will appreciate that "one or more" is intended to be understood as "one or more" unless the context clearly indicates otherwise.

The names of messages or information interacted between the various devices in the embodiments of the present disclosure are for illustrative purposes only and are not intended to limit the scope of such messages or information.

The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Fig. 1 illustrates a flow 100 of some embodiments of a construction status information adjustment method according to the present disclosure. The process 100 of the construction status information adjustment method includes the following steps:

step 101, in response to determining that the construction state information is information representing that the construction is not started, generating a plurality of construction application forms for filling by a form filling staff.

In some embodiments, in response to determining that the construction status information is information characterizing a non-start-up, an executing body (e.g., an electronic device) of the construction status information adjustment method may generate a plurality of start-up application forms for the form filling personnel to fill in. Wherein, the said start application form has at least one filling area. The filling area may be an area to be filled by the form filling person in the start application form. For example, the filling area may be an area for filling in the project name. The construction status information may be information of a construction progress of the construction project. For example, the construction work may be a bridge. The information of the construction progress may include: information characterizing a non-startup, information characterizing a non-rated, information characterizing a rated, and information characterizing a rated. The information indicating that the construction is not performed may be information indicating that the construction is not performed. The information indicating that the construction is started may be information on the construction. The information characterizing unrated may be information that is not rated for parameters of the construction work. For example, the parameter of the construction work may be a parameter of a abutment body of the abutment. For example, the parameter of the table body may be the length of the table body, or the width of the table body. The information in the characterization evaluation may be information that is being evaluated for parameters of the construction work. The information that the characterization has been assessed may be information after the parameter of the construction has been assessed. Each of the plurality of start application forms is different, for example, the start application form may be a start application form in which construction information needs to be filled, or a start application form in which construction application needs to be filled. For example, the construction information may be a construction unit or a construction budget. For example, the above-described application may be an application that the construction team has prepared to complete and the start-up condition has been provided.

Step 102, for each of the plurality of start application forms, executing the following first adjustment step:

step 1021, for each of at least one filling area, in response to determining that filling of the filling area is completed, and that contents filled in the filling area do not satisfy a preset filling criterion, displaying information characterizing a filling error in the above-mentioned filling area.

In some embodiments, for each of the at least one filling area, the execution subject may display information characterizing a filling error in the filling area in response to determining that the filling of the filling area is completed and that the content filled in the filling area does not satisfy a preset filling criterion. The preset filling standard may be a word number limitation standard. For example, the preset filling standard may be that the project name does not exceed twenty words. For example, displaying information characterizing the filling error may be displaying a red exclamation mark in the lower right hand corner of the filling area. For example, the content filled in the above-described filling area may be a work unit name.

Optionally, for each of the at least one filling area, in response to determining that filling of the filling area is completed and that contents filled in the filling area do not meet a preset filling criterion, the executing body may display information characterizing a filling error in the filling area, and may include the steps of:

And a first sub-step, receiving the filling voice of the table filling personnel.

And a second sub-step of converting the filling voice of the form filling person into text to fill in the filling area.

In practice, the method for converting the filling voice of the form filling person into text may include the following steps:

first, the filled-in voice is processed by Mel frequency cepstrum coefficient (Mel-Frequency Cepstral Coefficients, MFCC) to obtain a first voice feature. The first voice feature may be the feature of the filling voice.

And secondly, carrying out Mel frequency cepstrum coefficient processing on each voice data in the voice database to generate a second voice feature, and obtaining a second voice feature set. The second voice feature may be a feature of corresponding voice data in the voice database. The voice data in the voice database may be voice.

And thirdly, inputting each second voice feature in the second voice feature set to a voice extraction layer included in the first voice syllable conversion model to generate a third voice feature, and obtaining a third voice feature set. The third voice feature may be a feature of the corresponding voice data in the voice database. The above-described speech extraction layer may be used to extract features of speech. The first phonetic syllable conversion model may be a model for converting phonetic into syllables. The first phonetic syllable conversion model further includes: a first fully-connected layer. The first full-connection layer described above may be used to extract syllables of speech. For example, the speech extraction layer may be a deep neural network (Deep Neural Networks, DNN).

Fourth, combining the second voice feature in the second voice feature set with the third voice feature corresponding to the third voice feature set to generate a fourth voice feature, and obtaining a fourth voice feature set.

And fifthly, inputting each fourth voice feature in the fourth voice feature set into the first full-connection layer to generate voice data syllables, and obtaining a voice data syllable set.

And sixthly, inputting each phonetic data syllable in the phonetic data syllable set to a first syllable extraction layer included in the first text syllable conversion model to generate a first syllable characteristic, and obtaining a first syllable characteristic set. The first syllable feature may be a feature of a corresponding syllable of the syllable set of phonetic data. The syllable extraction layer can be used for extracting the characteristics of syllables of the voice data. The first text syllable conversion model may be a model that converts syllables into text. The first text syllable conversion model further includes: a second syllable extraction layer and a second full-connection layer. The second full-join layer described above may be used to extract syllables of text. For example, the first syllable extraction layer may be a recurrent neural network (Recurrent Neural Network, RNN) layer. The second syllable extraction layer can be used to extract features of syllables of the speech data. For example, the second syllable extraction layer may be a recurrent neural network layer.

Seventh, each first syllable feature in the first syllable feature set is input into the second syllable extraction layer to generate a second syllable feature, and a second syllable feature set is obtained. The second syllable feature may be a feature of a corresponding syllable of the syllable set of phonetic data.

Eighth, combining the first syllable features in the first syllable feature set with the second syllable features corresponding to the second syllable feature set to generate a third syllable feature, and obtaining a third syllable feature set.

And a ninth step of inputting each third syllable characteristic in the third syllable characteristic set into the second full-connection layer to generate a voice data text, so as to obtain a voice data text set. The voice data text may be a text corresponding to a syllable of the voice data.

And tenth, inputting the first voice characteristic into the first voice syllable conversion model to obtain the syllable filled in voice.

Eleventh, inputting the syllable of the filling-in voice and each syllable of the syllable set of the voice data into a syllable probability determination model to generate a probability value of the syllable of the filling-in voice and each syllable of the voice data in syllable set. Wherein the syllable probability determination model can be used to determine a probability value for each syllable of the filled-in syllable and each syllable of the set of syllables of the phonetic data. For example, the syllable probability determination model may be a conditional random field (conditional random field, CRF) model.

And a twelfth step of determining, as converted text syllables, phonetic data syllables having the highest probability value between the phonetic data syllable set and the syllables filled in phonetic data.

And thirteenth step, determining the voice data text corresponding to the converted text syllable in the voice data text set as filling text.

And a third sub-step in which the execution subject may display information representing a filling error in the filling area in response to determining that the filling of the filling area is completed and that the contents filled in the filling area do not satisfy a preset filling criterion.

The first to third substeps described above are an invention point of the embodiments of the present disclosure, and solve the second technical problem mentioned in the background art, that is, filling in an offline handwriting manner, resulting in a low processing speed of the overall operation. Factors that cause the processing speed of the overall operation to be low tend to be as follows: filling in an off-line handwriting manner results in a low processing speed of the overall job. If the above factors are solved, the effect of the processing speed of the work can be improved. To achieve this effect, first, the filling speech of the above-mentioned form filler is received. And secondly, converting the filling voice of the form filling personnel into a text so as to fill in the filling area. In practice, the method for converting the filling voice of the form filling person into text may include the following steps: first, the above-mentioned filled-in voice is processed by Mel frequency cepstrum coefficient (Mel-Frequency Cepstral Coefficients, MFCC) to obtain a first voice feature. The first voice feature may be the voice feature of the filling voice. Second, each voice data in the voice database is processed by Mel frequency cepstrum coefficients to generate a second voice feature, and a second voice feature set is obtained. Thirdly, inputting each second voice feature in the second voice feature set to a voice extraction layer included in the first voice syllable conversion model to generate a third voice feature, and obtaining a third voice feature set. Fourth, the second voice feature in the second voice feature set and the third voice feature corresponding to the third voice feature set are combined to generate a fourth voice feature, and a fourth voice feature set is obtained. Extracting each voice data in the voice database twice can enable the extracted features to be deeper and more accurate. Combining the third set of speech features with the second set of speech features may enrich the fourth speech features. Fifth, inputting each fourth voice feature in the fourth voice feature set into the first full-connection layer to generate a voice data syllable, and obtaining a voice data syllable set. The rich fourth voice features are input to the first full-connection layer, so that syllables of voice data can be obtained more accurately. Sixth, inputting each syllable of the syllable set of the phonetic data to a first syllable extraction layer included in the first text syllable conversion model to generate a first syllable feature, thereby obtaining a first syllable feature set. Seventh, each first syllable feature in the first syllable feature set is input into the second syllable extraction layer to generate a second syllable feature, and a second syllable feature set is obtained. The second syllable feature may be a feature of a corresponding syllable of the syllable set of phonetic data. Eighth, the first syllable feature in the first syllable feature set and the second syllable feature corresponding to the second syllable feature set are combined to generate a third syllable feature, and a third syllable feature set is obtained. Wherein, extracting each syllable of the phonetic data syllable set twice can make the extracted feature deeper and more accurate. Combining the first syllable feature set with the second syllable feature set can enrich the features contained in the third syllable feature. And ninth, inputting each third syllable characteristic in the third syllable characteristic set into the second full-connection layer to generate a voice data text, so as to obtain a voice data text set. The rich third syllable features are input to the second full-connection layer, so that the voice data text can be obtained more accurately. The voice data in the voice database is converted into voice data syllables so as to be converted into voice data texts, and the accuracy of the converted voice data texts can be improved. Tenth, inputting the first phonetic feature into the first phonetic syllable conversion model to obtain the syllable of the filling phonetic. Eleventh, inputting the syllable of the filling-in voice and each syllable of the syllable set of the voice data into a syllable probability determination model to generate a probability value of the syllable of the filling-in voice and each syllable of the voice data in syllable set. Twelfth, the syllable of the phonetic data having the highest probability value between the syllable set of phonetic data and the syllable of the filling-in phonetic data is determined as a converted text syllable. Thirteenth, the voice data text corresponding to the converted text syllable in the voice data text set is determined as a filling text. And a fourth sub-step in which the execution subject may display information representing a filling error in the filling area in response to determining that the filling of the filling area is completed and that the contents filled in the filling area do not satisfy a preset filling criterion. Finally, in response to determining that the filling of the filling area is completed and that the content filled in the filling area does not meet a preset filling criterion, the execution subject may display information characterizing a filling error in the filling area. The staff can fill in the voice aiming at the problem of the filling area, and convert the voice of the filling voice of the staff into characters so as to fill in the converted characters into the filling area, thereby using voice filling and improving the processing speed of the whole work.

Optionally, after the execution subject displays the information characterizing the filling error in the filling area, the following steps may be further executed:

and canceling to display the information representing the filling errors in response to determining that the modified filling content meets the preset filling standard. The modified filling content is obtained by modifying the content which does not meet the preset filling standard by the form filling personnel.

Step 1022, in response to determining that the start application form is complete, determines an amount of information characterizing the fill-in error.

In some embodiments, in response to determining that the start application form is complete, the executing entity may determine an amount of information characterizing the fill-in error. In practice, the completion of the filling of the start application form can be obtained through the following steps:

and in response to determining that the filling personnel completes the starting application form, clicking to complete filling so as to determine that the starting application form is completed.

Step 1023, determining the filled out work application form as a post-filling work application form.

In some embodiments, the executing entity may determine the filled out start application form as a post-filling start application form.

Step 1024, generating the qualification rate of the post-filling start application form according to the quantity of the information representing the filling errors.

In some embodiments, the execution body may generate the qualification rate of the post-filling job application form according to the number of the information characterizing the filling error. The qualification rate may be an accuracy rate of contents filled in the start application form.

In practice, the qualification rate of the post-filling start application form can be obtained through the following steps:

the first step, the ratio of the number of the information representing the filling errors to the number of the filling areas in the filling-in work application form is determined as the reject ratio of the filling-in work application form.

And secondly, determining the difference between the numerical value '1' and the reject ratio as the reject ratio of the post-filling start application form.

And step 1025, in response to determining that the qualification rate is greater than or equal to the preset approval qualification rate, transmitting the filled out start-up application form to an auditing end for the auditing end to audit the filled out start-up application form.

In some embodiments, in response to determining that the qualification rate is greater than or equal to a preset approval qualification rate, the execution body may send the post-filling start application form to an auditing end, so that the auditing end can audit the post-filling start application form. The auditing terminal can be used for auditing the filled-in application form to generate an auditing result of the filled-in application form. For example, the predetermined approval rate may be 0.9.

Optionally, after the executing body sends the post-filling start application form to the auditing end in response to determining that the qualification rate is greater than or equal to a preset approval qualification rate, the following steps may be further executed:

and in response to determining that the qualification rate is less than the preset approval qualification rate, displaying the filled content which does not meet the preset filling standard in the filled-in start-up application form, checking by the form filling personnel to refill the filled-in start-up application form, and executing the first adjustment step again.

And step 103, in response to determining that the auditing result is a qualified representation result, the construction state information is adjusted to be the information representing that the construction is started.

In some embodiments, in response to determining that the audit result is a qualified characterization result, the execution body may adjust the construction status information to information characterizing that the work has been performed.

Optionally, the auditing result may be determined by:

the first step, a plurality of filled out work starting application forms are received.

The second step, for each of the plurality of post-filling work orders, executing the following steps:

and a first substep, for each filling content in the post-filling work application form, in response to determining that the filling content does not meet the preset auditing standard, displaying information representing that the filling content does not meet the preset auditing standard in a filling area corresponding to the filling content. For example, the information indicating that the filling does not meet the preset audit criteria may be a yellow exclamation mark displayed in the lower right corner of the filling area.

In practice, the preset auditing standard may be determined by:

and step 1, inputting the questions corresponding to the filling content into a first characteristic extraction layer included in the auditing standard output model, and inputting a first question characteristic vector. The audit standard output model can be used for outputting the problems corresponding to the filling content and the corresponding audit standard model. The audit standard model further comprises: a second feature extraction layer and a contrast layer. The first feature extraction layer may be configured to perform feature extraction on the question corresponding to the filling content. The second feature extraction layer may be configured to perform feature extraction on a problem corresponding to each preset standard in the preset standard set. The preset standard may be a standard in a construction standard.

And step 2, inputting the problems corresponding to each preset standard in the preset standard set into the second characteristic extraction layer to generate a second problem characteristic vector, and obtaining a second problem characteristic vector set.

And step 3, inputting each second problem feature vector in the first problem feature vector and the second problem feature vector set to a comparison layer to obtain a second problem feature vector equal to the first problem feature vector. The comparison layer may be configured to obtain a second problem feature vector that is equal to the first problem feature vector in the second problem feature vector set.

And step 4, determining a preset standard corresponding to a second problem feature vector equal to the first problem feature vector as a preset auditing standard.

And a second sub-step of displaying the information representing the filling error in a filling area corresponding to the filling content in response to determining that the filling content does not meet the preset filling standard.

And a third sub-step of displaying information representing that the filling content does not meet the preset filling standard and does not meet the preset auditing standard in a filling area corresponding to the filling content in response to determining that the filling content does not meet the preset filling standard and the filling content does not meet the preset auditing standard. For example, the information indicating that the preset filling criteria are not satisfied and that the preset auditing criteria are not satisfied may be that a red asterisk is displayed in the lower right corner of the filling area.

And a fourth sub-step, determining the auditing result of the filled out start application form. The auditing result can be that related personnel audit the filled out work application form to obtain the auditing result of the filled out work application form.

And thirdly, determining an auditing result. The auditing results can be obtained by considering the auditing results of a plurality of filled out work application forms by related personnel.

The first step to the third step are taken as an invention point of the embodiment of the disclosure, so that the technical problem three' mentioned in the background art is solved, and the auditing is performed in a visual manner, which results in low efficiency and accuracy of the whole work. Factors that lead to inefficiency of overall operation tend to be as follows: auditing in a visual manner results in low efficiency and accuracy of the overall job. If the above factors are solved, the effect of high efficiency and accuracy can be achieved. To achieve this, first, a plurality of post-filling job tickets are received. Secondly, for each of the plurality of post-filling work application forms, executing the following steps: first, for each filling content in the post-filling start application form, in response to determining that the filling content does not meet a preset auditing standard, displaying information representing that the filling content does not meet the preset auditing standard in a filling area corresponding to the filling content. For example, the information indicating that the filling does not meet the preset audit criteria may be a yellow exclamation mark displayed in the lower right corner of the filling area. In practice, the preset auditing standard may be determined by: and step 1, inputting the questions corresponding to the filling content into a first characteristic extraction layer included in the auditing standard output model, and inputting a first question characteristic vector. The audit standard output model can be used for outputting the problems corresponding to the filling content and the corresponding audit standard model. The audit standard model further comprises: a second feature extraction layer and a contrast layer. The first feature extraction layer may be configured to perform feature extraction on the question corresponding to the filling content. The second feature extraction layer may be configured to perform feature extraction on a problem corresponding to each preset standard in the preset standard set. The preset standard may be a standard in a construction standard. And step 2, inputting the problems corresponding to each preset standard in the preset standard set into the second characteristic extraction layer to generate a second problem characteristic vector, and obtaining a second problem characteristic vector set. And step 3, inputting each second problem feature vector in the first problem feature vector and the second problem feature vector set to a comparison layer to obtain a second problem feature vector equal to the first problem feature vector. The comparison layer may be configured to obtain a second problem feature vector that is equal to the first problem feature vector in the second problem feature vector set. And step 4, determining a preset standard corresponding to a second problem feature vector equal to the first problem feature vector as a preset auditing standard. And inputting the problems corresponding to the filling content into the auditing standard output model to obtain a preset auditing standard. The method can be used for related personnel to check information representing that the filling content does not accord with the preset auditing standard, so that auditing efficiency is improved. Second, in response to determining that the filling content does not meet the preset filling standard, displaying the information representing the filling error in a filling area corresponding to the filling content. Third, in response to determining that the filling content does not meet the preset filling standard and the filling content does not meet the preset auditing standard, displaying information representing that the filling content does not meet the preset filling standard and the preset auditing standard in a filling area corresponding to the filling content. For example, the information indicating that the preset filling criteria are not satisfied and that the preset auditing criteria are not satisfied may be that a red asterisk is displayed in the lower right corner of the filling area. Fourth, confirm the above-mentioned audit result of the application form of opening work after filling out. The auditing result can be that related personnel audit the filled out work application form to obtain the auditing result of the filled out work application form. And finally, determining the auditing result. The auditing results can be obtained by considering the auditing results of a plurality of filled out work application forms by related personnel. The related personnel can audit the text of the filling area, and convert the text of the filling area into voice so that the related personnel can audit and see, and therefore the efficiency of the whole work can be improved. Through the preset auditing standards and the preset filling standards, the information that the filling content of the mark does not meet the preset auditing standards, the information that the mark is in filling errors and the information that the mark does not meet the preset auditing standards in each of the plurality of filled work application forms can be determined, so that auditing efficiency and accuracy can be improved.

Optionally, after the construction status information is adjusted to the information representing that the construction is started, the method further includes the following steps:

and prompting relevant constructors to perform construction treatment on the relevant projects by the relevant constructors in response to the fact that the construction state information is determined to be information representing that the construction is started. For example, the relevant project may be an abutment.

Optionally, the construction process for the related engineering by the related constructor may include the following steps:

the first step, determining the size of a foundation pit according to the size of a preset abutment base. In practice, determining the sum of the length and 1.5m of the preset abutment base size as the length of the foundation pit, and determining the sum of the width and 1.5m of the preset abutment base size as the width of the foundation pit to obtain the size of the foundation pit. The preset abutment base size may be the abutment foundation size.

And secondly, determining the excavated foundation pit according to the preset excavation depth and the foundation pit size. The excavated foundation pit can be a foundation pit with the preset excavation depth and the foundation pit size, which is excavated at a preset position by the execution body control excavation equipment, and the excavated foundation pit is used as the excavated foundation pit. For example, the preset excavation depth may be 3m. For example, the excavating equipment may be an excavator.

And thirdly, determining a bearing platform position coordinate set by using lofting. The layer table position coordinates in the layer table position coordinates can be position coordinates of the sub-foundation pit in the foundation pit after excavation.

And fourthly, excavating the excavated foundation pit according to the position coordinates of each bearing platform in the bearing platform position coordinate set to obtain excavated sub-pits corresponding to the position coordinates of each bearing platform in the bearing platform position coordinate set, and taking the excavated sub-pits as an excavated sub-pit set. The excavated sub-pit can be a pit with a preset circular size excavated in the excavated sub-pit. For example, the diameter of the predetermined circular size may be 50cm.

And fifthly, pouring the excavated sub-pits corresponding to the position coordinates of each bearing platform in the position coordinates of the bearing platform to obtain a poured sub-pit set, and inserting a preset number of reinforcing steel bars into the excavated sub-pits corresponding to the position coordinates of each bearing platform in the position coordinates of the bearing platform. The post-irrigation sub-pit set may be an post-irrigation sub-pit in which each of the post-excavation sub-pits in the post-irrigation sub-pit set is irrigated. The casting may be casting concrete. The irrigation height of each post-irrigation sub-pit in the post-irrigation sub-pit set may be a preset irrigation height. For example, the predetermined irrigation height may be 20cm. And the length of each reinforcing steel bar in the preset number of reinforcing steel bars is equal.

And sixthly, pouring the position outside the poured sub-pit set of the excavated foundation pit to obtain the foundation pit bottom layer. The casting may be casting concrete. The size of the foundation pit bottom layer can be a preset abutment base size.

And seventh, pouring the foundation pit bottom layer to obtain the poured foundation pit bottom layer. The irrigation height of the foundation pit bottom layer after irrigation can be 10cm lower than the preset irrigation height.

Eighth, for the reinforcement bars in each poured sub-foundation pit in the poured sub-foundation pit, the following steps are executed: the casting may be casting concrete.

And a first substep, in response to determining that the length of the leakage of the reinforcing steel bar is greater than or equal to 50cm, binding the reinforcing steel bar to obtain the bound reinforcing steel bar.

And a second substep, in response to determining that the length of the leakage of the steel bar is less than 50cm, welding the steel bar to obtain the welded steel bar. Wherein, the length of the welded steel bar leakage is more than 50cm.

And a third substep, binding the welded steel bars.

And ninth, determining the welded steel bars subjected to binding and the steel bars subjected to binding as the foundation pit subjected to binding. Wherein. The height of the foundation pit after binding can be the preset excavation depth. The size of the foundation pit after binding can be the size of the foundation pit base.

And tenth, binding the middle position of the foundation pit after binding to obtain a binding rear abutment. The size of the binding rear abutment can be a preset abutment size. The height of the binding rear abutment can be a preset abutment height. The height of the ligating rear abutment may be 6m.

And eleventh step, determining the foundation pit after the firmness is ensured. Wherein, the firm back foundation pit can be the foundation pit surrounding the foundation pit after the binding with the steel plate mould of preset abutment base size.

And twelfth, pouring the firm rear foundation pit to obtain the base of the pouring rear abutment.

And thirteenth step, using a concrete vibrator to vibrate the concrete in the base of the pouring rear abutment. Wherein the vibration duration is 20 seconds. The casting may be casting concrete.

And fourteenth step, in response to determining that the concrete in the pouring rear abutment base is the concrete after setting and hardening, cleaning the concrete in the pouring rear abutment base to obtain a clean rear abutment base. Cleaning may be by rinsing with water and removing residue from the surface of the foundation of the post-irrigation abutment.

And fifteenth, pouring the binding rear abutment by using a preset abutment mould to obtain a pouring rear abutment. Wherein, the pouring back bridge abutment can be to enclose the bridge mould of predetermineeing around above-mentioned ligature back bridge abutment in order to water above-mentioned ligature back bridge abutment. The casting may be casting concrete.

Sixteenth, vibrating the concrete in the post-pouring bridge abutment by using a concrete vibrator.

Seventeenth, in response to determining that the concrete in the post-cast abutment is set-hardened concrete, determining the set-hardened post-cast abutment as an abutment. Wherein, the concrete in the pouring rear bridge abutment can be poured after being solidified and hardened.

The first to seventeenth steps described above are taken as an invention point of the embodiment of the present disclosure, and solve the fourth technical problem mentioned in the background art, that is, construction in a conventional manner, resulting in low efficiency of construction and low safety and quality of the abutment. Factors that lead to low efficiency of construction and low safety and quality of the abutment are often as follows: construction in a conventional manner results in low efficiency of construction and low safety and quality of the abutment. If the factors are solved, the construction efficiency, the safety degree of the bridge abutment and the high quality effect can be achieved. To achieve this, first, the foundation pit size is determined based on the preset abutment base size. In practice, determining the sum of the length and 1.5m of the preset abutment base size as the length of the foundation pit, and determining the sum of the width and 1.5m of the preset abutment base size as the width of the foundation pit to obtain the size of the foundation pit. The preset abutment base size may be the abutment foundation size. And secondly, determining the excavated foundation pit according to the preset excavation depth and the foundation pit size. The excavated foundation pit can be a foundation pit with the preset excavation depth and the foundation pit size, which is excavated at a preset position by the execution body control excavation equipment, and the excavated foundation pit is used as the excavated foundation pit. For example, the excavating equipment may be an excavator. For example, the preset excavation depth may be 3m. The preset excavation depth of 3m can guarantee the safety of abutment. Thirdly, determining a bearing platform position coordinate set by using lofting. The layer table position coordinates in the layer table position coordinates can be position coordinates of the sub-foundation pit in the foundation pit after excavation. Fourthly, excavating the excavated foundation pit according to each bearing platform position coordinate in the bearing platform position coordinate set to obtain excavated sub-pits corresponding to each bearing platform position coordinate in the bearing platform position coordinate set, and taking the excavated sub-pits as an excavated sub-pit set. The excavated sub-pit can be a pit with a preset circular size excavated in the excavated sub-pit. For example, the diameter of the predetermined circular size may be 50cm. Fifth, pouring the excavated sub-pits corresponding to the position coordinates of each bearing platform in the position coordinates set of the bearing platform to obtain a poured sub-pit set, and inserting a preset number of reinforcing steel bars into the excavated sub-pits corresponding to the position coordinates of each bearing platform in the position coordinates set of the bearing platform. The post-irrigation sub-pit set may be an post-irrigation sub-pit in which each of the post-excavation sub-pits in the post-irrigation sub-pit set is irrigated. The casting may be casting concrete. The irrigation height of each post-irrigation sub-pit in the post-irrigation sub-pit set may be a preset irrigation height. For example, the predetermined irrigation height may be 20cm. And the length of each reinforcing steel bar in the preset number of reinforcing steel bars is equal. And sixthly, pouring the position outside the poured sub-pit set of the excavated foundation pit to obtain the foundation pit bottom layer. The casting may be casting concrete. The size of the foundation pit bottom layer can be a preset abutment base size. Seventh, the foundation pit bottom layer is irrigated, and the irrigated foundation pit bottom layer is obtained. The irrigation height of the foundation pit bottom layer after irrigation can be 10cm lower than the preset irrigation height. The irrigation height of the foundation pit bottom layer after irrigation is 10cm lower than the preset irrigation height, and pile breaking of the foundation pit with the foundation pit bottom layer 10cm higher than the foundation pit bottom layer after irrigation due to concentration of the foundation pit after irrigation can be avoided. The efficiency of construction can be improved. Eighth, for the reinforcement bars in each post-irrigation sub-pit in the post-irrigation sub-pit set, the following steps are executed: the casting may be casting concrete. Firstly, binding the reinforcing steel bars in response to the fact that the length of the outer leakage of the reinforcing steel bars is greater than or equal to 50cm, and obtaining the bound reinforcing steel bars. And secondly, in response to determining that the length of the outer leakage of the steel bar is less than 50cm, welding the steel bar to obtain the welded steel bar. Wherein, the length of the welded steel bar leakage is more than 50cm. And finally binding the welded steel bars. Wherein, the length of above-mentioned reinforcing bar hourglass is greater than 50cm, and the ligature is easier more easily when the ligature, efficiency that can be under construction. And ninth, determining the welded steel bars subjected to binding and the steel bars subjected to binding as the foundation pit subjected to binding. Wherein. The height of the foundation pit after binding can be the preset excavation depth. The size of the foundation pit after binding can be the size of the foundation pit base. And tenth, binding the middle position of the foundation pit after binding to obtain a binding rear abutment. The size of the binding rear abutment can be a preset abutment size. The height of the binding rear abutment can be a preset abutment height. The height of the ligating rear abutment may be 6m. Eleventh, confirm the firm foundation ditch. Wherein, the firm back foundation pit can be the foundation pit surrounding the foundation pit after the binding with the steel plate mould of preset abutment base size. And twelfth, pouring the firm rear foundation pit to obtain the pouring rear abutment base. Thirteenth, the concrete in the foundation of the post-pouring bridge is vibrated by a concrete vibrator. Wherein the vibration duration is 20 seconds. The casting may be casting concrete. The concrete vibrator can be used for compacting the concrete in the base of the pouring rear bridge abutment, and the hardness of the base of the pouring rear bridge abutment can be improved. Thereby improving the safety of the base of the rear irrigation bridge abutment. And fourteenth, in response to determining that the concrete in the post-pouring abutment base is set and hardened concrete, cleaning the concrete in the post-pouring abutment base to obtain a clean post-pouring abutment base. The cleaning can be to wash and remove residues on the surface of the foundation of the post-irrigation abutment with water. Fifteenth, the binding rear abutment is irrigated by utilizing a preset abutment mould, so that an irrigation rear abutment is obtained. Wherein, the pouring back bridge abutment can be to enclose the bridge mould of predetermineeing around above-mentioned ligature back bridge abutment in order to water above-mentioned ligature back bridge abutment. The casting may be casting concrete. Sixthly, the concrete in the post-pouring bridge abutment is vibrated by a concrete vibrator. The concrete vibrator can tap the concrete in the post-pouring bridge abutment, and can improve the hardness in the post-pouring bridge abutment. Thereby improving the safety of the irrigation rear abutment. Seventeenth, in response to determining that the concrete in the post-cast abutment is set-hardened concrete, the set-hardened post-cast abutment is determined as an abutment. Wherein, the concrete in the pouring rear bridge abutment can be poured after being solidified and hardened. The irrigation height of the foundation pit bottom layer after irrigation is 10cm lower than the preset irrigation height, and pile breaking of the foundation pit with the foundation pit bottom layer 10cm higher than the foundation pit bottom layer after irrigation due to concentration of the foundation pit after irrigation can be avoided. The concrete in the pouring rear bridge abutment can be poured after being solidified and hardened. The pouring can be to maintain the abutment to avoid cracks of the abutment, so that the construction efficiency and the safety degree and quality of the abutment are improved.

Optionally, after the step 103, the executing body may further execute the following steps:

the method comprises the steps of firstly, responding to the fact that the auditing result is a result with unqualified characterization, displaying the content of the filled out work starting application form for each filled out work starting application form in the obtained plurality of filled out work starting application forms, and checking by the form filling personnel to refill the filled out work starting application form so as to obtain the filled out work starting application form.

And a second step of determining each filling start application form in the obtained filling start application forms as a start application form so as to execute the first adjustment step again.

Optionally, after the executing body adjusts the construction status information to the information representing that the construction has been started in response to determining that the audit result is a qualified result, the executing body may further execute the following steps:

and firstly, generating a plurality of detection item record tables for filling by the table filling personnel in response to the fact that the construction state information is determined to be information representing that the construction is started. Wherein, the detection item record table has at least one writing area. The test item record table may be a table for recording construction site information. For example, the test item record table may be a job site inspection record table. The writing area may be an area to be filled by the person filling the list in the test item record list. For example, the above-described writing area may be an area where whether the constructor has been on duty for the certification. Each of the plurality of test item record tables is different, for example, the test item record table may be a test item record table in which parameters of construction work are required to be filled. For example, the parameters of the construction work may be parameters of the abutment cap of the abutment. For example, the parameter of the table top may be the length of the table top, or the width of the table top.

And secondly, in response to determining that the table filling personnel fill in the detection item record table, the construction state information is adjusted to represent unrated information.

Optionally, after the executing body adjusts the construction status information to the unrated information in response to determining that the filling person fills in the test item record table, the executing body may further execute the following steps:

the first step of executing the following second adjustment step for each of the plurality of test item record tables:

a first substep, for each of the at least one writing area, displaying information characterizing a writing area filling error in the writing area in response to determining that the writing area filling is completed, in response to determining that the content filled in the writing area does not satisfy a preset filling criterion. For example, displaying information characterizing the writing area filling-in error may be displaying a red exclamation mark in the lower right hand corner of the writing area.

And a second sub-step, in response to determining that the modified filling content meets the preset filling standard, canceling to display the information representing the filling error of the writing area. The modified filling content is obtained by modifying the content which does not meet the preset filling standard by the form filling personnel.

A third sub-step of determining the quantity of information characterizing the writing area filling errors.

And a fourth sub-step of determining the filled-in test item record as a post-filling test item record in response to determining that the above-mentioned test item record is completed. The completion of the test item record form may be information that the execution body has received the completion of the test item record form. The information of completion of filling the test item record table may be information sent by clicking completion after the filling personnel completes filling the test item record table.

And a fifth substep, generating the qualification rate of the filled test item record table according to the quantity of the information representing the filling errors in the writing area.

In practice, the qualification rate of the test item record table after filling can be obtained through the following steps:

first, determining the difference between the number of the information representing the writing area filling errors and the number of the filling areas in the filled-in detection item record table as the number of the information representing the writing area filling correctness.

And secondly, determining the ratio of the quantity of the information which is correctly filled in the written representation area and the quantity of the filled-in areas in the filled-in test item record table as the qualification rate of the filled-in test item record table.

And a sixth substep, in response to determining that the qualification rate of the filled-in test item record table is greater than or equal to a preset approval qualification rate, transmitting the filled-in test item record table to the auditing terminal, auditing the filled-in test item record table by the auditing terminal, and adjusting the construction state information to be information in the characterization evaluation.

And a seventh substep, in response to determining that the qualification rate of the post-filling test item record table is less than the preset approval qualification rate, displaying contents in the post-filling test item record table for the person filling the table to view, and re-filling the post-filling test item record table to execute the second adjustment step again.

And thirdly, in response to the fact that the obtained auditing result is determined to be qualified in characterization, the construction state information is adjusted to be assessed in characterization.

Optionally, after the execution subject adjusts the construction status information to the information that characterizes the assessed in response to determining that the obtained audit result is a qualified result, the execution subject may further execute the following steps:

the first step, in response to determining that the obtained auditing result is a result of unqualified characterization, for each of the obtained multiple post-filling detection item record tables, displaying the content of the post-filling detection item record table for the staff to check so as to refill the post-filling detection item record table, thereby obtaining a filling detection item record table. The obtained auditing result can be the result obtained by the auditing personnel.

And a second step of determining each of the obtained filling detection item record tables as a detection item record table to execute the second adjustment step again.

The above embodiments of the present disclosure have the following advantageous effects: by the construction state information adjustment method of some embodiments of the present disclosure, the efficiency and accuracy of the overall work can be improved. Specifically, the reason why the efficiency and accuracy of the overall work are not high is that: filling in an off-line manner and auditing are performed, resulting in low efficiency and accuracy of the overall work. Based on this, in response to determining that the construction status information is information representing that no work is done, the construction status information adjustment method of some embodiments of the present disclosure generates a plurality of work application forms for the staff to fill in, where the work application forms have at least one filling area, and where the plurality of work application forms can be automatically generated through the construction status information; for each of the plurality of start applications, performing the following first adjustment step: for each of the at least one filling area, in response to determining that the filling of the filling area is completed and that the content filled in the filling area does not meet a preset filling criterion, displaying information characterizing a filling error in the filling area, wherein it may be determined whether the content filled in the filling area meets the preset filling criterion or not and the information characterizing the filling error is displayed to prompt the staff to fill the error; determining the quantity of information characterizing the filling errors in response to determining that the start application form is completed; determining the filled out work starting application form as a post-filling work starting application form; generating the qualification rate of the post-filling work application form according to the quantity of the information representing the filling errors, wherein the qualification rate of the post-filling work application form can be generated through the quantity of the information representing the filling errors, so that the accuracy rate of the overall work can be improved; in response to determining that the qualification rate is greater than or equal to a preset approval qualification rate, the filled-in start-up application form is sent to an auditing end, and the auditing end is used for auditing the filled-in start-up application form; and in response to determining that the auditing result is a qualified representation result, adjusting the construction state information to be information representing that the construction is started, wherein the construction application form is filled in an online mode, and the working efficiency can be improved. And secondly, when filling is completed, the qualification rate can be obtained through the quantity that the filling area does not meet the preset filling standard. The qualification rate is greater than or equal to the preset report qualification rate, and the filled out start application form can be sent to an auditing end for auditing, so that an auditing result is obtained. And finally, the auditing result is a qualified characterization result, and the construction state information can be adjusted. The embodiment realizes that the efficiency and the accuracy of the whole work can be improved.

Referring now to fig. 2, a schematic diagram of an electronic device 200 suitable for use in implementing some embodiments of the present disclosure is shown. The electronic device shown in fig. 2 is merely an example and should not impose any limitations on the functionality and scope of use of embodiments of the present disclosure.

As shown in fig. 2, the electronic device 200 may include a processing means (e.g., a central processing unit, a graphics processor, etc.) 201, which may perform various appropriate actions and processes according to a program stored in a Read Only Memory (ROM) 202 or a program loaded from a storage means 208 into a Random Access Memory (RAM) 203. In the RAM 203, various programs and data necessary for the operation of the electronic apparatus 200 are also stored. The processing device 201, ROM 202, and RAM 203 are connected to each other through a bus 204. An input/output (I/O) interface 205 is also connected to bus 204.

In general, the following devices may be connected to the I/O interface 205: input devices 206 including, for example, a touch screen, touchpad, keyboard, mouse, camera, microphone, accelerometer, gyroscope, etc.; an output device 207 including, for example, a Liquid Crystal Display (LCD), a speaker, a vibrator, and the like; storage 208 including, for example, magnetic tape, hard disk, etc.; and a communication device 209. The communication means 209 may allow the electronic device 200 to communicate with other devices wirelessly or by wire to exchange data. While fig. 2 shows an electronic device 200 having various means, it is to be understood that not all of the illustrated means are required to be implemented or provided. More or fewer devices may be implemented or provided instead. Each block shown in fig. 2 may represent one device or a plurality of devices as needed.

In particular, according to some embodiments of the present disclosure, the processes described above with reference to flowcharts may be implemented as computer software programs. For example, some embodiments of the present disclosure include a computer program product comprising a computer program embodied on a computer readable medium, the computer program comprising program code for performing the method shown in the flow chart. In such embodiments, the computer program may be downloaded and installed from a network via the communication device 209, or from the storage device 208, or from the ROM 202. The above-described functions defined in the methods of some embodiments of the present disclosure are performed when the computer program is executed by the processing device 201.

It should be noted that, in some embodiments of the present disclosure, the computer readable medium may be a computer readable signal medium or a computer readable storage medium, or any combination of the two. The computer readable storage medium can be, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or a combination of any of the foregoing. More specific examples of the computer-readable storage medium may include, but are not limited to: an electrical connection having one or more wires, a portable computer diskette, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber, a portable compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing. In some embodiments of the present disclosure, a computer readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device. In some embodiments of the present disclosure, however, the computer-readable signal medium may comprise a data signal propagated in baseband or as part of a carrier wave, with the computer-readable program code embodied therein. Such a propagated data signal may take any of a variety of forms, including, but not limited to, electro-magnetic, optical, or any suitable combination of the foregoing. A computer readable signal medium may also be any computer readable medium that is not a computer readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with an instruction execution system, apparatus, or device. Program code embodied on a computer readable medium may be transmitted using any appropriate medium, including but not limited to: electrical wires, fiber optic cables, RF (radio frequency), and the like, or any suitable combination of the foregoing.

In some implementations, the clients, servers may communicate using any currently known or future developed network protocol, such as HTTP (Hyper Text Transfer Protocol ), and may be interconnected with any form or medium of digital data communication (e.g., a communication network). Examples of communication networks include a local area network ("LAN"), a wide area network ("WAN"), the internet (e.g., the internet), and peer-to-peer networks (e.g., ad hoc peer-to-peer networks), as well as any currently known or future developed networks.

The computer readable medium may be embodied in the apparatus; or may exist alone without being incorporated into the electronic device. The computer readable medium carries one or more programs which, when executed by the electronic device, cause the electronic device to: generating a plurality of start application forms for filling by a form filling staff in response to the fact that the construction state information is information representing that the construction is not started, wherein the start application forms have at least one filling area; for each of the plurality of start applications, performing the following first adjustment step: for each of the at least one filling area, in response to determining that the filling of the filling area is complete and that the content filled in the filling area does not meet a preset filling criterion, displaying information characterizing a filling error in the filling area; determining the quantity of information characterizing the filling errors in response to determining that the start application form is completed; determining the filled out work starting application form as a post-filling work starting application form; generating the qualification rate of the post-filling start application form according to the quantity of the information representing the filling errors; in response to determining that the qualification rate is greater than or equal to a preset approval qualification rate, the filled-in start-up application form is sent to an auditing end, and the auditing end is used for auditing the filled-in start-up application form; and in response to determining that the auditing result is a qualified representation result, adjusting the construction state information to be the information representing that the construction is started.

Computer program code for carrying out operations for some embodiments of the present disclosure may be written in one or more programming languages, including an object oriented programming language such as Java, smalltalk, C ++ and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In the case of a remote computer, the remote computer may be connected to the user's computer through any kind of network, including a Local Area Network (LAN) or a Wide Area Network (WAN), or may be connected to an external computer (for example, through the Internet using an Internet service provider).

The flowcharts and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to various embodiments of the present disclosure. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

The units described in some embodiments of the present disclosure may be implemented by means of software, or may be implemented by means of hardware. The described units may also be provided in a processor, for example, described as: a processor includes a generation unit, an execution unit, and an adjustment unit. Where the names of the units do not constitute a limitation on the unit itself in some cases, for example, the generation unit may also be described as "a unit that generates a plurality of work application forms in response to determination that construction state information is information representing non-work.

The functions described above herein may be performed, at least in part, by one or more hardware logic components. For example, without limitation, exemplary types of hardware logic components that may be used include: a Field Programmable Gate Array (FPGA), an Application Specific Integrated Circuit (ASIC), an Application Specific Standard Product (ASSP), a system on a chip (SOC), a Complex Programmable Logic Device (CPLD), and the like.

The foregoing description is only of the preferred embodiments of the present disclosure and description of the principles of the technology being employed. It will be appreciated by those skilled in the art that the scope of the invention in the embodiments of the present disclosure is not limited to the specific combination of the above technical features, but encompasses other technical features formed by any combination of the above technical features or their equivalents without departing from the spirit of the invention. Such as the above-described features, are mutually substituted with (but not limited to) the features having similar functions disclosed in the embodiments of the present disclosure.

Claims (9)

1. A construction status information adjustment method, characterized by comprising:

generating a plurality of construction application forms for filling by a form filling staff in response to the fact that the construction state information is information representing that construction is not performed, wherein the construction application forms have at least one filling area;

for each of the plurality of start applications, performing the following first adjustment step:

for each filling area in the at least one filling area, in response to determining that the filling of the filling area is completed and that the content filled in the filling area does not meet a preset filling criterion, displaying information characterizing a filling error in the filling area;

determining, in response to determining that the start application form is completed, an amount of information characterizing a fill-in error;

determining the filled out work starting application form as a post-filling work starting application form;

generating the qualification rate of the post-filling start application form according to the quantity of the information representing the filling errors;

in response to determining that the qualification rate is greater than or equal to a preset approval qualification rate, the filled out start-up application form is sent to an auditing end so that the auditing end can audit the filled out start-up application form;

And in response to determining that the auditing result is a qualified representation result, adjusting the construction state information to be the information representing that the construction is started.

2. The method according to claim 1, wherein the method further comprises:

responding to the fact that the auditing result is a result with unqualified characterization, and displaying the content of each filled-in work starting application form in the obtained plurality of filled-in work starting application forms for the staff to check so as to refill the filled-in work starting application forms to obtain the filled-in work starting application forms;

and determining each filling start application form in the obtained filling start application forms as a start application form so as to execute the first adjustment step again.

3. The method of claim 1, further comprising, after the sending the post-filling job ticket to an auditing end in response to determining that the percent of pass is greater than or equal to a preset approval percent of pass:

and in response to determining that the qualification rate is less than a preset approval qualification rate, displaying the filled content which does not meet preset filling standards in the filled-in work application form for the form filling personnel to check to refill the filled-in work application form, and executing the first adjustment step again.

4. The method of claim 1, further comprising, after displaying the information characterizing the filling error in the filling area:

and canceling to display the information representing the filling errors in response to determining that the modified filling content meets the preset filling standard, wherein the modified filling content is obtained by modifying the content which does not meet the preset filling standard by the form filling personnel.

5. The method of claim 1, wherein after adjusting the construction status information to information characterizing a started-up in response to determining that the audit result is a qualified characterization result, further comprising:

generating a plurality of detection item record tables for filling by the table filling staff in response to the fact that the construction state information is information representing that construction is started, wherein the detection item record tables have at least one writing area;

and in response to determining that the filling personnel fill out the detection item record table, adjusting the construction state information to characterize unrated information.

6. The method of claim 5, wherein the method further comprises:

for each of the plurality of test item record tables, performing the following second adjustment step:

For each of the at least one composition area, in response to determining that the composition area is completed and that the content filled in the composition area does not meet preset fill criteria, displaying information in the composition area that characterizes a composition area fill error;

in response to determining that the modified filling content meets the preset filling standard, canceling to display the information representing the filling errors in the writing area, wherein the modified filling content is obtained by modifying the content which does not meet the preset filling standard by the form filling personnel;

determining, in response to determining that the test item record form filling is complete, an amount of information characterizing a writing area filling error;

determining the filled detection item record table as a filled detection item record table;

generating the qualification rate of the filled detection item record table according to the quantity of the information representing the filling errors in the writing area;

in response to determining that the qualification rate of the filled detection item record table is greater than or equal to a preset approval qualification rate, sending the filled detection item record table to the auditing end for the auditing end to audit the filled detection item record table, and adjusting the construction state information into information in characterization evaluation;

In response to determining that the percent of pass of the filled test item record form is less than a preset approval percent, displaying content in the filled test item record form for viewing by the form filling personnel to refill the filled test item record form to again perform the second adjusting step;

and in response to determining that the obtained auditing result is a qualified characterization result, adjusting the construction state information to characterize the assessed information.

7. The method of claim 6, wherein the method further comprises:

in response to determining that the obtained auditing result is a result of unqualified characterization, for each of the obtained plurality of post-filling detection item record tables, displaying the content of the post-filling detection item record table for viewing by the person filling the table to refill the post-filling detection item record table to obtain a filling detection item record table;

and determining each of the obtained filling detection item record tables as a detection item record table to execute the second adjustment step again.

8. An apparatus, comprising:

one or more processors;

A storage device having one or more programs stored thereon,

when executed by the one or more processors, causes the one or more processors to implement the method of any of claims 1-7.

9. A computer readable medium, characterized in that a computer program is stored thereon, wherein the program, when executed by a processor, implements the method according to any of claims 1-7.

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