CN113420954A - Engineering management service informatization method based on mechanism model - Google Patents

Abstract

The invention relates to an engineering management business informatization method based on mechanism model, the step is S1, obtain the engineering management mechanism model that the user defines, the model will manage and analyze as business, key element and characteristic from big to small; s2, acquiring names and parameter names of the elements and the features which are subjected to user standardization processing and can be specifically identified for the computer; s3, acquiring a rule defined by a user and used for obtaining a result after algebraic operation and logical operation are carried out on the features and elements; s4, acquiring a trigger mechanism of the service corresponding to the service defined by the user; s5, identifying names and parameter names of elements and characteristics in the corresponding engineering management service; s6, calculating the corresponding Boolean value of the service based on the identified names and parameter names of the elements and features and in combination with the definitions and related rules of the service, the elements and the features; and S7, based on the calculated Boolean value, and in combination with a corresponding trigger mechanism, judging whether to trigger a corresponding business service. The invention is suitable for the field of engineering management.

Description

Engineering management service informatization method based on mechanism model

Technical Field

The invention relates to an engineering management business informatization method based on a mechanism model. The method is suitable for the field of engineering management.

Background

The engineering management business generally mainly comprises quality management, progress management, safety management and cost management. The traditional engineering management business generally adopts an offline form mode to circulate, and processes are closed-loop and paper data are filed through approval and verification of an owner and each participating party. The method has the problems that each participant of the project is complicated and has different duties, and the procedure of signing and stamping through the paper form is long in time and easy to lose. In addition, conventional offline management is complicated and results in repetitive work if a return or change request is intentionally made.

With the advance of engineering digitization, IT is a trend to combine IT technology with digital technology to assist engineering management business. Some systems for engineering management business, such as foreign Project software and domestic workshop software, are available on the market.

However, the existing software and system are management platforms corresponding to project-specific applications, and can only be managed and controlled by applying a digital technology to a project single dimension, or only for a management platform for project management business form task flow, project management is taken as a main body, and project is not specially promoted for projects. Although the process can be informationized on a line from a service level or a single-item level, from the data enabling point of view, intelligent decision can not be made, and therefore, the quality and the efficiency of engineering management business can not be improved.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the existing problems, an engineering management business informatization method based on a mechanism model is provided.

The technical scheme adopted by the invention is as follows: a mechanism model-based engineering management service informatization method is characterized in that:

s1, acquiring a user-defined engineering management mechanism model, and analyzing management into services, elements and characteristics according to the model from large to small;

s2, acquiring names and parameter names of the elements and the features which are subjected to user standardization processing and can be specifically identified for the computer;

s3, acquiring a rule defined by a user and used for obtaining a result after algebraic operation and logical operation are carried out on the features and elements;

s4, acquiring a trigger mechanism of the service corresponding to the service defined by the user;

s5, identifying names and parameter names of elements and characteristics in the corresponding engineering management service;

s6, calculating the corresponding Boolean value of the service based on the identified names and parameter names of the elements and features and in combination with the definitions and related rules of the service, the elements and the features;

and S7, based on the calculated Boolean value, and in combination with a corresponding trigger mechanism, judging whether to trigger a corresponding business service.

The acquiring a rule defined by a user and used for obtaining a result after algebraic operation and logical operation are carried out on the features and elements comprises the following steps:

calculating the value of the characteristic according to the characteristic definition according to an algebraic operation algorithm;

combining and calculating the characteristics according to an algebraic operation algorithm and a logical operation algorithm and element definitions to obtain corresponding values;

and combining and calculating the elements according to the algebraic operation algorithm and the logical operation algorithm and the service definition to obtain a corresponding Boolean value.

An engineering management service informatization device based on a mechanism model is characterized by comprising the following components:

the engineering management mechanism model definition unit is used for acquiring an engineering management mechanism model defined by a user, and the model analyzes management into services, elements and characteristics from large to small;

the engineering management element and feature semantization unit is used for acquiring names and parameter names of the elements and features which are subjected to user standardization processing and can be specifically identified by a computer;

the engineering management element feature combination unit is used for acquiring a rule which is defined by a user and is used for obtaining a result after algebraic operation and logical operation are carried out on the features and elements;

the engineering management business service triggering configuration unit is used for acquiring a triggering mechanism of business service corresponding to the business defined by a user;

the semantic recognition unit is used for recognizing names and parameter names of elements and features in the concrete engineering management service;

the rule operation unit is used for calculating the corresponding Boolean values of the services by combining the definitions of the services, the elements and the characteristics and the related rules based on the identified names and parameter names of the elements and the characteristics;

and the trigger judging unit is used for judging whether to trigger the corresponding business service or not by combining a corresponding trigger mechanism based on the calculated Boolean value.

The engineering management element feature combination unit comprises:

calculating the value of the characteristic according to the characteristic definition according to an algebraic operation algorithm;

combining and calculating the characteristics according to an algebraic operation algorithm and a logical operation algorithm and element definitions to obtain corresponding values;

and combining and calculating the elements according to the algebraic operation algorithm and the logical operation algorithm and the service definition to obtain a corresponding Boolean value.

A storage medium having a computer program stored thereon for execution by a processor, the computer program comprising: the computer program when executed implements the steps of the mechanistic model-based engineering management business informatization method.

A computer device having a memory and a processor, the memory having stored thereon a computer program executable by the processor, the computer program comprising: the computer program when executed implements the steps of the mechanistic model-based engineering management business informatization method.

The invention has the beneficial effects that: the invention takes a mechanism model as a core, namely, the method of collecting mass data for an engineering management business informatization system as a means, organizes the data to form information, integrates and refines related information, and forms an automatic decision model through training and fitting on the basis of the data.

The invention defines the engineering management business mechanism model, and divides the management into business, elements and characteristics from big to small; then semantization is carried out on engineering management elements and characteristics, and specification and unification are carried out by specific semantics, so that the computer has the same cognition on the same elements and characteristics and can specifically identify the same elements and characteristics for the computer; then, algebraic operation and logic operation are applied, the characteristic value combination is calculated into a certain element value, and the element value combination is calculated into a certain service value; and finally, after judgment is carried out according to the service value, the engineering management service triggering is combined and configured, and a certain service is intelligently executed, wherein the service comprises form initiation, message pushing, machine control and the like.

By combining the mechanism model and the engineering management business, the invention can intelligently service the engineering management business data to the engineering management business, and conforms to the application and development of engineering digitization.

Drawings

Fig. 1 is a schematic diagram of an engineering management service informatization method based on a mechanism model in an embodiment.

FIG. 2 is a schematic diagram of a rule configuration interface of a monitoring data mechanism model in an embodiment.

Detailed Description

Example 1: the embodiment is an engineering management service informatization method based on a mechanism model, which specifically comprises the following steps:

s1, acquiring a user-defined engineering management mechanism model, and analyzing management into services, elements and characteristics from large to small, wherein the services are specific matters needing to be processed in an engineering management range, and a single service can be composed of a plurality of other services; the elements are necessary factors for constituting engineering management business and have common characteristics and relations; features are the smallest units of computation of a constituent element and should have common characteristics and relationships.

In this embodiment, the management is safety management, the service 1 is shield construction excavation surface stability early warning, and the service 2 is ground settlement early warning.

In the example, relevant elements of the service 1 are element 1-1 frictional resistance, element 1-2 tunneling interface supporting force and element 1-3 total thrust, and relevant characteristics of the elements 1-1, 1-2 and 1-3 are effective soil pressure, water pressure and fluctuation pressure, shield machine IoT monitoring construction parameter data, hydraulic oil cylinder total thrust, cutter head torque, soil cabin pressure, tunneling speed, cutter head rotating speed, spiral mapper rotating speed, grouting pressure, grouting amount and the like.

In this embodiment, the service is judged as a multi-service judgment, that is, the shield construction excavation surface stability early warning is not only related to its own elements and features, but also related to the ground settlement early warning. According to the existing scientific research, the method only adopts the ground surface settlement monitoring in the shield construction to judge the stability of the excavation surface, and has hysteresis.

And S2, acquiring the names and parameter names of the elements and features which are subjected to the user standardization processing and can be specifically identified for the computer. The user abstracts and summarizes the elements and features in the engineering management service and makes semantization, so that the names of the elements and features, the names of the parameters and the like are normalized and can be specifically identified for a computer, and the semantization module in the system is defined.

And abstracting and summarizing the service 1, the service 2, the elements 1-1, 1-2 and 1-3 and related characteristics into the specific proper nouns, semantically storing the specific proper nouns in a database, and ensuring that specific names in all engineering management services are standardized and unique. The actual meaning of, for example, effective earth pressure, remains consistent whether defined in this service or in other security management services. The semantization module can be stored after being autonomously defined and can be specifically identified for a computer.

S3, acquiring rules defined by a user for obtaining results after algebraic operation and logical operation are carried out on the features and elements, wherein the rules comprise the step of calculating the values of the features according to the feature definitions according to an algebraic operation algorithm; combining and calculating the characteristics according to an algebraic operation algorithm and a logical operation algorithm and element definitions to obtain corresponding values; and combining and calculating the elements according to the algebraic operation algorithm and the logical operation algorithm and the service definition to obtain a corresponding Boolean value. The step is self-defined and configured by a rule module in the system by a user.

In this embodiment, the data related to the features is calculated from a large amount of monitoring data according to an algebraic operation algorithm on the features in step S1, and a corresponding value is obtained, so as to ensure consistency of feature dimensions in subsequent applications. And (4) performing combined algebraic calculation on the characteristics in the step S1 to obtain corresponding values of the element 1-1 frictional resistance, the element 1-2 tunneling interface supporting force, the element 1-3 total thrust and the three elements. For example, the supporting force of the tunneling interface of the element 1-2 is effective soil pressure, water pressure and fluctuation pressure, and the characteristic values of the three are obtained by addition algebraic operation. And performing algebraic operation and logical operation on all the three elements to obtain the early warning possibility value of the stability of the shield construction excavation surface.

S4, acquiring a triggering mechanism of the business service corresponding to the business defined by the user, wherein the triggering mechanism is to perform logic operation on a plurality of rules to obtain a Boolean value and associate the Boolean value with the engineering management business, thereby achieving the judgment process of triggering a certain business.

In this embodiment, similarly in steps S1-S3, the service 2 is analyzed to obtain a ground settlement early warning possible value, and according to the logical operation, when the ground settlement early warning possible value is greater than a and the shield construction excavation stability early warning possible value is greater than b, the shield construction excavation surface stability early warning is set to 1, and the early warning is triggered, and the relevant personnel are reminded by configuring the short message service function.

And S5, identifying names and parameter names of elements and characteristics in the corresponding engineering management service. The system identifies the names of elements and characteristics and parameter names in corresponding actual engineering management services through automatic semantic recognition so as to facilitate subsequent rule operation.

And S6, calculating the Boolean value corresponding to the service based on the name and parameter name of the identified element and feature, and the definition and relevant rules of the service, the element and the feature in the step S3.

And S7, based on the calculated Boolean value, and in combination with the corresponding trigger mechanism defined in the step S4, determining whether to trigger the corresponding business service.

The engineering management business informatization method based on the mechanism model is mainly used for enabling data of engineering management business, and makes an intelligent decision corresponding to the engineering management business through the application of the mechanism model according to collected engineering management business data, is not limited to an informatization management and control mode, but also has decision efficiency brought by a digital technology.

The embodiment also provides an engineering management business informatization device based on the mechanism model, which comprises an engineering management mechanism model definition unit, an engineering management element and feature semantization unit, an engineering management element feature combination unit, an engineering management business service triggering configuration unit, a semantic identification unit, a rule operation unit and a triggering judgment unit.

In the embodiment, the engineering management mechanism model definition unit is used for acquiring an engineering management mechanism model defined by a user, and the model analyzes management into services, elements and characteristics from size to size; the engineering management element and feature semantization unit is used for acquiring names and parameter names of elements and features which are subjected to user standardization processing and can be specifically identified by a computer; the engineering management element feature combination unit is used for acquiring a rule defined by a user and used for obtaining a result after algebraic operation and logical operation are carried out on the features and elements; the engineering management business service triggering configuration unit is used for acquiring a triggering mechanism of the business service corresponding to the business defined by the user.

The semantic identification unit in the embodiment is used for identifying names and parameter names of elements and features in specific engineering management services; the rule operation unit is used for calculating the corresponding Boolean values of the services by combining the definitions of the services, the elements and the characteristics and the related rules based on the identified names and parameter names of the elements and the characteristics; and the trigger judging unit is used for judging whether to trigger the corresponding business service or not by combining a corresponding trigger mechanism based on the calculated Boolean value.

The project management element feature combination unit in this example includes: calculating the value of the characteristic according to the characteristic definition according to an algebraic operation algorithm; combining and calculating the characteristics according to an algebraic operation algorithm and a logical operation algorithm and element definitions to obtain corresponding values; and combining and calculating the elements according to the algebraic operation algorithm and the logical operation algorithm and the service definition to obtain a corresponding Boolean value.

The present embodiment also provides a storage medium, on which a computer program executable by a processor is stored, where the computer program is executed to implement the steps of the engineering management business informatization method based on mechanism model in the present embodiment.

The embodiment also provides a computer device, which has a memory and a processor, wherein the memory stores a computer program executable by the processor, and the computer program implements the steps of the engineering management service informatization method based on the mechanism model in the embodiment when being executed.

Example 2: the embodiment is an engineering management service informatization method based on a mechanism model, which is characterized in that:

s1, acquiring a user-defined engineering management mechanism model, and analyzing the management into services, elements and characteristics according to the size.

In this embodiment, the set engineering management service range is shield tunneling in safety management. The management is safety management, and the service is equipment fault early warning. The relevant elements are equipment unit coordinate parameters, equipment monitoring parameters and the like. The relevant features are various types of sensor preprocessing values such as maximum values, minimum values, periods, and the like.

And S2, acquiring the names and parameter names of the elements and the features which are subjected to the user standardization processing and can be specifically identified for the computer.

The user abstracts and summarizes the elements and the characteristics into the specific proper nouns, semantically stores the specific proper nouns in the database, ensures that specific names in all engineering management services are standardized and unique, and can be specifically identified by a computer.

And S3, acquiring a rule defined by the user and used for obtaining a result after algebraic operation and logical operation are carried out on the characteristics and the elements.

The data related to the privacy characteristics is calculated from a large amount of monitoring data according to an algebraic operation algorithm on the characteristics in the step S1, and corresponding values of various characteristics are obtained. The combination algebra of the features in step S1 is calculated to obtain values corresponding to the respective elements. And performing algebraic operation and logical operation on all the three elements to obtain whether the equipment fails, wherein if the failure is 1, the failure is not 0.

S4, acquiring the trigger mechanism of the service corresponding to the service defined by the user. And triggering and configuring the engineering management business service according to whether the equipment fails, and if the final business value is 1, triggering information of 'certain equipment fails' to push the mail service to related personnel.

And S5, identifying names and parameter names of elements and characteristics in the corresponding engineering management service. The system identifies the names of elements and characteristics and parameter names in corresponding actual engineering management services through automatic semantic recognition so as to facilitate subsequent rule operation.

And S6, calculating the Boolean value corresponding to the service based on the name and parameter name of the identified element and feature, and combining the definition and relevant rules of the service, the element and the feature in the step S3.

And S7, based on the calculated Boolean value, and in combination with the corresponding trigger mechanism in the step S4, determining whether to trigger the corresponding service.

The embodiment also provides an engineering management business informatization device based on the mechanism model, which comprises an engineering management mechanism model definition unit, an engineering management element and feature semantization unit, an engineering management element feature combination unit, an engineering management business service triggering configuration unit, a semantic identification unit, a rule operation unit and a triggering judgment unit.

In the embodiment, the engineering management mechanism model definition unit is used for acquiring an engineering management mechanism model defined by a user, and the model analyzes management into services, elements and characteristics from size to size; the engineering management element and feature semantization unit is used for acquiring names and parameter names of elements and features which are subjected to user standardization processing and can be specifically identified by a computer; the engineering management element feature combination unit is used for acquiring a rule defined by a user and used for obtaining a result after algebraic operation and logical operation are carried out on the features and elements; the engineering management business service triggering configuration unit is used for acquiring a triggering mechanism of the business service corresponding to the business defined by the user.

The semantic identification unit in the embodiment is used for identifying names and parameter names of elements and features in specific engineering management services; the rule operation unit is used for calculating the corresponding Boolean values of the services by combining the definitions of the services, the elements and the characteristics and the related rules based on the identified names and parameter names of the elements and the characteristics; and the trigger judging unit is used for judging whether to trigger the corresponding business service or not by combining a corresponding trigger mechanism based on the calculated Boolean value.

The project management element feature combination unit in this example includes: calculating the value of the characteristic according to the characteristic definition according to an algebraic operation algorithm; combining and calculating the characteristics according to an algebraic operation algorithm and a logical operation algorithm and element definitions to obtain corresponding values; and combining and calculating the elements according to the algebraic operation algorithm and the logical operation algorithm and the service definition to obtain a corresponding Boolean value.

The present embodiment also provides a storage medium, on which a computer program executable by a processor is stored, where the computer program is executed to implement the steps of the engineering management business informatization method based on mechanism model in the present embodiment.

The embodiment also provides a computer device, which has a memory and a processor, wherein the memory stores a computer program executable by the processor, and the computer program implements the steps of the engineering management service informatization method based on the mechanism model in the embodiment when being executed.

Claims (6)

1. A mechanism model-based engineering management service informatization method is characterized in that:

s1, acquiring a user-defined engineering management mechanism model, and analyzing management into services, elements and characteristics according to the model from large to small;

s2, acquiring names and parameter names of the elements and the features which are subjected to user standardization processing and can be specifically identified for the computer;

s3, acquiring a rule defined by a user and used for obtaining a result after algebraic operation and logical operation are carried out on the features and elements;

s4, acquiring a trigger mechanism of the service corresponding to the service defined by the user;

s5, identifying names and parameter names of elements and characteristics in the corresponding engineering management service;

s6, calculating the corresponding Boolean value of the service based on the identified names and parameter names of the elements and features and in combination with the definitions and related rules of the service, the elements and the features;

and S7, based on the calculated Boolean value, and in combination with a corresponding trigger mechanism, judging whether to trigger a corresponding business service.

2. The method as claimed in claim 1, wherein the obtaining of the rules defined by the user for obtaining the result after performing algebraic operation and logical operation on the features and elements comprises:

calculating the value of the characteristic according to the characteristic definition according to an algebraic operation algorithm;

combining and calculating the characteristics according to an algebraic operation algorithm and a logical operation algorithm and element definitions to obtain corresponding values;

and combining and calculating the elements according to the algebraic operation algorithm and the logical operation algorithm and the service definition to obtain a corresponding Boolean value.

3. An engineering management service informatization device based on a mechanism model is characterized by comprising the following components:

the engineering management mechanism model definition unit is used for acquiring an engineering management mechanism model defined by a user, and the model analyzes management into services, elements and characteristics from large to small;

the engineering management element and feature semantization unit is used for acquiring names and parameter names of the elements and features which are subjected to user standardization processing and can be specifically identified by a computer;

the engineering management element feature combination unit is used for acquiring a rule which is defined by a user and is used for obtaining a result after algebraic operation and logical operation are carried out on the features and elements;

the engineering management business service triggering configuration unit is used for acquiring a triggering mechanism of business service corresponding to the business defined by a user;

the semantic recognition unit is used for recognizing names and parameter names of elements and features in the concrete engineering management service;

the rule operation unit is used for calculating the corresponding Boolean values of the services by combining the definitions of the services, the elements and the characteristics and the related rules based on the identified names and parameter names of the elements and the characteristics;

and the trigger judging unit is used for judging whether to trigger the corresponding business service or not by combining a corresponding trigger mechanism based on the calculated Boolean value.

4. The information device of engineering management business based on mechanism model according to claim 3, wherein the engineering management element feature combining unit comprises:

calculating the value of the characteristic according to the characteristic definition according to an algebraic operation algorithm;

combining and calculating the characteristics according to an algebraic operation algorithm and a logical operation algorithm and element definitions to obtain corresponding values;

and combining and calculating the elements according to the algebraic operation algorithm and the logical operation algorithm and the service definition to obtain a corresponding Boolean value.

5. A storage medium having a computer program stored thereon for execution by a processor, the computer program comprising: the computer program when executed implements the steps of the mechanistic model based engineering management business informatization method of claim 1 or 2.

6. A computer device having a memory and a processor, the memory having stored thereon a computer program executable by the processor, the computer program comprising: the computer program when executed implements the steps of the mechanistic model based engineering management business informatization method of claim 1 or 2.

Images