CN112232784A - Engineering progress inversion method and system based on job ticket information - Google Patents

Abstract

The invention discloses an engineering progress inversion method and system based on operation ticket information, wherein the method comprises the following steps: making a section process plan; inputting risk level information and risk behavior information in a risk library dictionary; inputting a plurality of operation tickets; acquiring a latest operation ticket from a construction recording subsystem; extracting the latest job information from the job ticket; acquiring a milestone schedule of the current stage from the project progress planning subsystem; comparing the latest operation information with the acquired milestone schedule to judge the actual progress of the current project; acquiring the planned progress of the current project from the acquired milestone schedule; and judging whether the current project is overdue. The engineering progress inversion method and system based on the operation ticket information automatically acquire the detailed construction information of the current engineering and compare the detailed construction information with the project progress plan in the milestone schedule to obtain the actual condition of the current engineering.

Description

Engineering progress inversion method and system based on job ticket information

Technical Field

The invention relates to an engineering progress inversion method and system based on operation ticket information.

Background

The existing progress condition of the engineering progress is based on subjective feedback and manual maintenance of workers, the accuracy of the progress condition fed back by the workers can only be checked and confirmed through field visits, the workload of managers is greatly increased, and great risks are brought to construction of engineering projects if the engineering progress is not corrected in time.

Disclosure of Invention

The invention provides an engineering progress inversion method and system based on operation ticket information, which adopts the following technical scheme:

an engineering progress inversion method based on job ticket information comprises the following steps:

making a section process plan in the project progress plan subsystem, wherein the section process plan comprises a plurality of milestone schedules;

inputting risk level information and risk behavior information in a risk library dictionary;

a plurality of operation tickets are input into the construction recording subsystem, and construction detailed behavior information is recorded in each operation ticket discipline;

acquiring a latest operation ticket from a construction recording subsystem;

extracting the latest job information from the job ticket;

acquiring a milestone schedule of the current stage from the project progress planning subsystem;

comparing the latest operation information with the acquired milestone schedule to judge the actual progress of the current project;

acquiring the planned progress of the current project from the acquired milestone schedule;

and comparing the actual progress with the planned progress to obtain the progress difference between the actual progress and the planned progress, and judging whether the current project is overdue according to the progress difference.

Further, the engineering progress inversion method based on the job ticket information further comprises the following steps:

matching the overdue level of the current project from the risk library dictionary according to the progress difference after the current project is overdue;

and generating a deviation correction list according to the overdue grade and sending the deviation correction list to corresponding engineering management personnel.

Further, the engineering progress inversion method based on the job ticket information further comprises the following steps:

and receiving the rectification schedule sent by the corresponding engineering management personnel.

Further, the engineering progress inversion method based on the job ticket information further comprises the following steps:

and updating the project state of the current project in the project progress planning subsystem according to the overdue level.

Further, the engineering progress inversion method based on the job ticket information further comprises the following steps:

intelligently analyzing the latest job information according to the risk library dictionary to identify job risk information in the latest job information;

and generating a risk reminding list according to the operation risk information and sending the risk reminding list to corresponding engineering management personnel.

An engineering progress inversion system based on job ticket information comprises:

the project progress plan subsystem is used for making a section process plan which comprises a plurality of milestone schedules;

the risk library dictionary is used for inputting risk level information and risk behavior information;

the construction recording subsystem is used for recording a plurality of operation tickets, and each operation ticket disciplines and records construction detailed behavior information;

the acquisition module is used for acquiring the latest operation ticket from the construction recording subsystem and acquiring the milestone schedule of the current stage from the project progress planning subsystem;

the extraction module is used for extracting the latest job information from the job ticket;

the analysis module is used for comparing the latest operation information with the acquired milestone schedule to judge the actual progress of the current project;

and the comparison module is used for comparing the actual progress with the planned progress to obtain the progress difference between the actual progress and the planned progress and judging whether the current project is overdue according to the progress difference.

Further, the system for inverting the engineering progress based on the job ticket information further comprises:

the matching module is used for matching the overdue level of the current project from the risk library dictionary according to the progress difference after the current project is overdue;

and the first generation module is used for generating a correction list according to the overdue grade and sending the correction list to corresponding engineering management personnel.

Further, the system for inverting the engineering progress based on the job ticket information further comprises:

and the receiving module is used for receiving the rectification schedule sent by the corresponding engineering management personnel.

Further, the system for inverting the engineering progress based on the job ticket information further comprises:

and the updating module is used for changing the project state of the current project in the project progress planning subsystem according to the overdue level.

Further, the system for inverting the engineering progress based on the job ticket information further comprises:

the recognition module is used for intelligently analyzing the latest job information according to the risk library dictionary to recognize job risk information in the latest job information;

and the second generation module is used for generating a risk reminding list according to the operation risk information and sending the risk reminding list to corresponding engineering management personnel.

The construction progress inversion method and the system based on the operation ticket information have the advantages that the detailed construction information of the current project is automatically acquired, and the detailed construction information is compared with the project progress plan in the milestone schedule to obtain the actual condition of the current project.

Drawings

FIG. 1 is a schematic diagram of a job ticket information-based project progress inversion method of the present invention.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Fig. 1 shows an engineering progress inversion method based on job ticket information, which mainly includes the following steps: s1: and making a section process plan in the project progress plan subsystem, wherein the section process plan comprises a plurality of milestone schedules. S2: and entering risk level information and risk behavior information in a risk library dictionary. S3: and a plurality of operation tickets are input into the construction recording subsystem, and construction detailed behavior information is recorded by each operation ticket discipline. S4: and acquiring the latest operation ticket from the construction record subsystem. S5: the latest job information is extracted from the job ticket. S6: and acquiring the milestone schedule of the current stage from the project progress planning subsystem. S7: and comparing the latest operation information with the acquired milestone schedule to judge the actual progress of the current project. S8: and acquiring the planned progress of the current project from the acquired milestone schedule. S9: and comparing the actual progress with the planned progress to obtain the progress difference between the actual progress and the planned progress, and judging whether the current project is overdue according to the progress difference. Through the steps, the detailed construction information of the current project is automatically obtained and compared with the project schedule in the milestone schedule to obtain the actual condition of the current project. The above steps are specifically described below.

For step S1, a benchmarking process plan is created in the project progress planning subsystem, the benchmarking process plan including a plurality of milestone schedules.

First, a range process plan is assigned to the current project, and each range process plan is divided into a plurality of milestone schedules according to actual conditions. Each milestone schedule includes specific project phases, phase completion times, and specific project tasks for each phase. By comparing with the milestone schedule, the current project can be judged at what stage.

For step S2: and entering risk level information and risk behavior information in a risk library dictionary.

The risk library dictionary defines risk levels corresponding to different overdue times and specific behavior information which may have risk hidden dangers.

For step S3: and a plurality of operation tickets are input into the construction recording subsystem, and construction detailed behavior information is recorded by each operation ticket discipline.

All the behavior information related to the project is recorded in the construction recording subsystem, and the behavior information is recorded in the construction recording subsystem in the form of a job ticket. The job ticket records the name, the executor, the execution time, and the specific content information of the behavior information. All information related to the project progress can be acquired through the operation tickets.

For step S4: and acquiring the latest operation ticket from the construction record subsystem.

And when the project progress needs to be judged, acquiring the latest operation ticket from the construction record subsystem. The latest job ticket refers to a job ticket which is recorded into the construction recording subsystem within a certain time from the current statistical time node. The time can be set according to actual requirements. In the present invention, it is set that all newly entered job tickets on the day are counted as the latest job tickets.

For step S5: the latest job information is extracted from the latest job ticket.

And extracting key words from the extracted latest job ticket through a related algorithm to obtain latest job information.

For step S6: and acquiring the milestone schedule of the current stage from the project progress planning subsystem.

The section process plan comprises a plurality of milestone schedules, and the milestone schedule of the current stage of the project is selected from the milestone schedules.

For step S7: and comparing the latest operation information with the acquired milestone schedule to judge the actual progress of the current project.

And intelligently analyzing and comparing the extracted latest operation information with the milestone schedule, and judging the actual progress of the current project in the milestone schedule.

For step S8: and acquiring the planned progress of the current project from the acquired milestone schedule.

And acquiring the planned progress of the current project from the milestone schedule according to the current time of statistical analysis.

For step S9: and comparing the actual progress with the planned progress to obtain the progress difference between the actual progress and the planned progress, and judging whether the current project is overdue according to the progress difference.

And judging whether the actual progress and the planned progress are matched or not by comparing the actual progress and the planned progress. And when the current actual progress is the same as the planned progress or the actual progress exceeds the planned progress, indicating that the current project is not overdue. And when the current actual progress is backward and the planned progress, indicating that the current project is in an overdue state.

As a preferred embodiment, the method for inverting the progress of the project based on the job ticket information further includes: and matching the overdue level of the current project from the risk library dictionary according to the progress difference after the current project is overdue. And generating a deviation correction list according to the overdue grade and sending the deviation correction list to corresponding engineering management personnel.

Specifically, the overdue level of the current schedule is judged according to the difference between the actual schedule and the schedule quarterly schedule. And setting overdue grades corresponding to different overdue time according to risk grade information in the risk library dictionary. The longer the expiration time, the higher the expiration level. And generating correction orders of different levels according to the overdue level, and sending the correction orders to corresponding engineering management personnel.

As a preferred embodiment, the method for inverting the progress of the project based on the job ticket information further includes: and receiving the rectification schedule sent by the corresponding engineering management personnel.

And when receiving the deviation correction order, the engineering management personnel formulate a rectification plan according to the overdue condition. And receiving and storing the rectification schedule finished by the engineering management personnel.

As a preferred embodiment, the method for inverting the progress of the project based on the job ticket information further includes: and updating the project state of the current project in the project progress planning subsystem according to the overdue level.

It can be understood that when the overdue level of the current project is confirmed, the project state is updated in the project schedule subsystem, so that other related personnel can check the current schedule of the project at any time.

As a preferred embodiment, the method for inverting the progress of the project based on the job ticket information further includes: and intelligently analyzing the latest job information according to the risk library dictionary to identify job risk information in the latest job information. And generating a risk reminding list according to the operation risk information and sending the risk reminding list to corresponding engineering management personnel.

It is understood that certain construction projects may present construction risks. And when the operation risk information is identified from the latest operation information according to the risk behavior information in the risk library dictionary, generating a risk reminding sheet according to the operation risk information and sending the risk reminding sheet to a corresponding engineering manager.

The engineering progress inversion method based on the operation ticket information can be applied to different construction fields, and in the invention, the engineering progress inversion method based on the operation ticket information is preferably applied to power grids and construction engineering.

The invention also discloses an engineering progress inversion system based on the operation ticket information, which is used for realizing the engineering progress inversion method based on the operation ticket information and mainly comprises the following steps: the system comprises an engineering progress planning subsystem, a risk library dictionary, a construction record subsystem, an acquisition module, an extraction module, an analysis module and a comparison module. Specifically, the project progress planning subsystem is used for making a section process plan, and the section process plan comprises a plurality of milestone schedules. And the risk library dictionary is used for inputting risk level information and risk behavior information. The construction recording subsystem is used for recording a plurality of operation tickets, and each operation ticket disciplines and records construction detailed behavior information. The acquisition module is used for acquiring the latest operation ticket from the construction recording subsystem and acquiring the milestone schedule of the current stage from the project progress planning subsystem. The extraction module is used for extracting the latest job information from the job ticket. And the analysis module is used for comparing the latest operation information with the acquired milestone schedule to judge the actual progress of the current project. The comparison module is used for comparing the actual progress with the planned progress to obtain the progress difference between the actual progress and the planned progress and judging whether the current project is overdue according to the progress difference.

As a preferred embodiment, the work progress inversion system based on the job ticket information further includes: the device comprises a matching module and a first generating module.

And the matching module is used for matching the overdue level of the current project from the risk library dictionary according to the progress difference after the current project is overdue. The first generation module is used for generating a correction list according to the overdue level and sending the correction list to corresponding engineering management personnel.

As a preferred embodiment, the work schedule inversion system based on the work ticket information further includes a receiving module for receiving the rectification schedule sent by the corresponding engineering manager.

In a preferred embodiment, the work schedule information-based project progress inversion system further comprises an updating module for changing the project state of the current project in the project progress planning subsystem according to the overdue level.

As a preferred embodiment, the work progress inversion system based on the job ticket information further includes: the device comprises an identification module and a second generation module.

The recognition module is used for intelligently analyzing the latest job information according to the risk library dictionary to recognize job risk information in the latest job information. And the second generation module is used for generating a risk reminding list according to the operation risk information and sending the risk reminding list to corresponding engineering management personnel.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.

Claims (10)

1. An engineering progress inversion method based on job ticket information is characterized by comprising the following steps:

making a section process plan in an engineering progress plan subsystem, wherein the section process plan comprises a plurality of milestone schedules;

inputting risk level information and risk behavior information in a risk library dictionary;

a plurality of operation tickets are input into the construction recording subsystem, and construction detailed behavior information is recorded in each operation ticket discipline;

acquiring the latest operation ticket from the construction recording subsystem;

extracting latest job information from the latest job ticket;

acquiring the milestone schedule of the current stage from the project progress planning subsystem;

comparing the latest operation information with the acquired milestone schedule to judge the actual progress of the current project;

acquiring the planned progress of the current project from the acquired milestone schedule;

and comparing the actual progress with the planned progress to obtain the progress difference between the actual progress and the planned progress, and judging whether the current project is overdue according to the progress difference.

2. The job ticket information-based project progress inversion method according to claim 1,

the engineering progress inversion method based on the operation ticket information further comprises the following steps:

matching the overdue grade of the current project from the risk library dictionary according to the progress difference after the current project is overdue;

and generating a correction order according to the overdue grade and sending the correction order to corresponding engineering management personnel.

3. The job ticket information-based project progress inversion method according to claim 2,

the engineering progress inversion method based on the operation ticket information further comprises the following steps:

and receiving the rectification schedule sent by the corresponding engineering management personnel.

4. The job ticket information-based project progress inversion method according to claim 3,

the engineering progress inversion method based on the operation ticket information further comprises the following steps:

and updating the project state of the current project in the project progress planning subsystem according to the overdue level.

5. The job ticket information-based project progress inversion method according to claim 1,

the engineering progress inversion method based on the operation ticket information further comprises the following steps:

intelligently analyzing the latest operation information according to the risk library dictionary to identify operation risk information in the latest operation information;

and generating a risk reminding list according to the operation risk information and sending the risk reminding list to corresponding engineering management personnel.

6. An engineering progress inversion system based on job ticket information is characterized by comprising:

the project progress plan subsystem is used for making a section process plan, and the section process plan comprises a plurality of milestone schedules;

the risk library dictionary is used for inputting risk level information and risk behavior information;

the construction recording subsystem is used for inputting a plurality of operation tickets, and each operation ticket disciplines records construction detailed behavior information;

the acquisition module is used for acquiring the latest operation ticket from the construction recording subsystem and acquiring the milestone schedule of the current stage from the project progress planning subsystem;

the extraction module is used for extracting the latest job information from the latest job ticket;

the analysis module is used for comparing the latest operation information with the acquired milestone schedule to judge the actual progress of the current project;

and the comparison module is used for comparing the actual progress with the planned progress to obtain the progress difference between the actual progress and the planned progress and judging whether the current project is overdue according to the progress difference.

7. The job ticket information-based project progress inversion system of claim 6,

the work schedule information-based engineering progress inversion system further comprises:

the matching module is used for matching the overdue level of the current project from the risk library dictionary according to the progress difference after the current project is overdue;

and the first generation module is used for generating a correction order according to the overdue grade and sending the correction order to corresponding engineering management personnel.

8. The job ticket information-based project progress inversion system of claim 7,

the work schedule information-based engineering progress inversion system further comprises:

and the receiving module is used for receiving the rectification schedule sent by the corresponding engineering management personnel.

9. The job ticket information-based project progress inversion system of claim 8,

the work schedule information-based engineering progress inversion system further comprises:

and the updating module is used for changing the project state of the current project in the project progress planning subsystem according to the overdue level.

10. The job ticket information-based project progress inversion system of claim 6,

the work schedule information-based engineering progress inversion system further comprises:

the recognition module is used for intelligently analyzing the latest operation information according to the risk library dictionary so as to recognize operation risk information in the latest operation information;

and the second generation module is used for generating a risk reminding list according to the operation risk information and sending the risk reminding list to corresponding engineering management personnel.

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