CN113627774A - Road component quality management tracking method based on block chain technology - Google Patents

Abstract

The invention discloses a road component quality management tracking method based on a block chain technology, which belongs to the technical field of block chains and comprises the following steps: introducing a system building system, building a system model, recording all the brand new road component information which is not configured yet, recording the brand new road component information into the system building system, processing all the component information which is not configured yet in the system, deleting some invalid information, and storing the processed component information which is not configured yet into the system building system; the BIM building management system is introduced, the module layer, the data layer and the application layer are arranged, the component information can be effectively classified and stored, the block chain technology is introduced, the whole life cycle of the component is managed, the traceability is realized by using the block chain technology, the rapidity of information calling is ensured, the component information can be effectively tracked, the highway component information can be changed according to the actual condition, and the problems that the block chain and the quality are credible and cannot be falsified are effectively solved.

Description

Road component quality management tracking method based on block chain technology

Technical Field

The invention belongs to the technical field of block chains, and particularly relates to a road component quality management tracking method based on a block chain technology.

Background

The road member is a member applied to a road as the name implies, and on the road, the road member is one of the most basic and important structures, and the variety of the road member is various, and a plurality of road members are applied when the road construction is performed, and a management method for the road member is required for performing good management on the road member.

Chinese patent discloses (CN201811549033.6) a parts tracking management system and parts tracking management method for reducing a product group using a signboard-attached part by defining a period from a reading time of a signboard group collected twice before collecting signboards to a reading time of a signboard group collected immediately after collecting signboards as a period during which the signboard-attached part is used in a production line. The components to which the signboards are attached are never used until the reading time of the set of signboards collected twice before the signboards are collected. Further, the components to which the signboards are attached are never used after the reading time of the set of signboards collected immediately after the collection of the signboards. For the above reasons, the number of products to be extracted can be reduced, and all products using defective parts can be completely extracted, but the block chain technology is not introduced in the method, the full life cycle of the component cannot be managed, the rapidity of information retrieval cannot be ensured, and the component information cannot be tracked more effectively, which needs to be improved to some extent.

Disclosure of Invention

The invention aims to: the block chain technology-based road component quality management tracking method aims to solve the problems that a block chain technology is not introduced into a traditional component management method, the full life cycle of a component cannot be managed, the rapidity of information calling cannot be guaranteed, and component information cannot be tracked more effectively.

In order to achieve the purpose, the invention adopts the following technical scheme: the road component quality management tracking method based on the block chain technology comprises the following steps:

s1, introducing a system building system and building a system model;

s2, recording the information of all the newly-new road components which are not configured yet, and recording the information into a building management system;

s3, processing the information of each component which is not configured in the system;

s4, deleting some invalid information, and storing the processed information of the configured members into a building management system;

s5, randomly selecting a certain area, and acquiring information of some configured road components in the area;

s6, inputting the acquired component information into a building management system for data processing;

s7, acquiring a final processing result;

s8, analyzing the quality of the road component;

and S9, tracing the road component information.

As a further description of the above technical solution:

in the step S1, a BIM building system is introduced, and system models are created, which are a model layer, a data layer and an application layer, respectively, where the model layer is used to store each BIM building component model in a classified manner, the data layer is used to store component information of each building component, and the application layer is used to call and obtain the building component model.

As a further description of the above technical solution:

in S2, the information of each newly-new road component that has not been configured is recorded and recorded into the BIM building management system.

As a further description of the above technical solution:

in S3, the method specifically includes the following steps for processing each piece of component information in the system:

s301, adjusting the gray scale of the image;

s302, adjusting the contrast of the image;

s303, adjusting the brightness of the image;

s304, denoising the image;

s305, classifying the images;

s306, sorting and integrating the parameter information of the components;

and S307, integrating the integrated component parameter information and the corresponding processed image information, and numbering.

As a further description of the above technical solution:

in S4, some invalid information is deleted, and the processed information of the not-yet-configured component is stored in the building management system.

As a further description of the above technical solution:

in S5, a certain area is randomly selected, and some configured road component information in the area is acquired, where the acquired information includes image information and component parameter information.

As a further description of the above technical solution:

and in the step S6, the acquired component information is input into the system for building the management, and the configured road component information is compared with the information stored in the system for building the management through data processing.

As a further description of the above technical solution:

in S7, the obtaining of the final processing result includes obtaining a deformation degree of the road component, a damage degree of the road component, and a time interval.

As a further description of the above technical solution:

in S8, the quality of the road component is analyzed and input into the road component information of the number corresponding to the BIM building and management system.

As a further description of the above technical solution:

in S9, the road component information is traced by the block chain technique, and the road component information can be changed according to the actual situation.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

in the invention, a BIM building management system is introduced, a model layer, a data layer and an application layer are arranged, the model layer is used for classifying and storing each BIM building component model, the data layer is used for storing component information of each building component, the application layer is used for calling and acquiring the building component model, the highway component information can be effectively stored and processed, when the component information is processed, the image is processed and integrated with the component information and the image information, the definition of the acquired component image information can be effectively improved, meanwhile, the definition of the component information can be improved by corresponding matching of the component information, the management effect of the component information is ensured, meanwhile, a block chain technology is introduced to manage the whole life cycle of the component, the source tracing is carried out by utilizing the block chain technology, the rapidity of information calling is ensured, and the component information can be effectively tracked, meanwhile, the information of the road component can be changed according to the actual situation, and the problems that the block chain and the quality are credible and cannot be tampered are solved effectively.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a technical scheme that: the road component quality management tracking method based on the block chain technology comprises the following steps:

s1, introducing a BIM building management system, and creating system models which are respectively a model layer, a data layer and an application layer, wherein the model layer is used for classifying and storing each BIM building component model, the data layer is used for storing component information of each building component, and the application layer is used for calling and obtaining the building component model;

s2, recording all the information of the brand new road components which are not configured yet, and recording the information into a BIM building management system;

s3, processing the information of each component in the system, specifically including the following steps:

s301, adjusting the gray scale of the image;

s302, adjusting the contrast of the image;

s303, adjusting the brightness of the image;

s304, denoising the image;

s305, classifying the images;

s306, sorting and integrating the parameter information of the components;

s307, integrating the integrated component parameter information with the corresponding processed image information, and numbering;

s4, deleting some invalid information, and storing the processed information of the configured members into a building management system;

s5, randomly selecting a certain area, and acquiring some configured road component information in the area, wherein the acquired information comprises image information and component parameter information;

s6, inputting the acquired component information into a building management system, and performing data processing to compare the configured road component information with the information stored in the building management system;

s7, obtaining a final processing result, including obtaining the deformation degree, the damage degree and the time interval of the road component;

s8, analyzing the quality of the road component, and inputting the quality into road component information with a number corresponding to the BIM building management system;

and S9, tracing the road component information by the block chain technology, and changing the road component information according to the actual situation.

In the embodiment, a BIM building management system is introduced, a model layer, a data layer and an application layer are arranged, the model layer is used for classifying and storing each BIM building component model, the data layer is used for storing component information of each building component, the application layer is used for calling and acquiring the building component model, road component information can be effectively stored and processed, when the component information is processed, image processing and integration of the component information and the image information are included, the definition of the acquired component image information can be effectively improved, meanwhile, the definition of the component information can be improved by corresponding matching of the component information, the management effect of the component information is ensured, meanwhile, a block chain technology is introduced, the whole life cycle of the component is managed, the source tracing is carried out by using the block chain technology, the rapidity of information calling is ensured, and meanwhile, the component information can be effectively tracked, meanwhile, the information of the road component can be changed according to the actual situation, and the problems that the block chain and the quality are credible and cannot be tampered are solved effectively.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The road component quality management tracking method based on the block chain technology comprises the following steps:

s1, introducing a system building system and building a system model;

s2, recording the information of all the newly-new road components which are not configured yet, and recording the information into a building management system;

s3, processing the information of each component which is not configured in the system;

s4, deleting some invalid information, and storing the processed information of the configured members into a building management system;

s5, randomly selecting a certain area, and acquiring information of some configured road components in the area;

s6, inputting the acquired component information into a building management system for data processing;

s7, acquiring a final processing result;

s8, analyzing the quality of the road component;

and S9, tracing the road component information.

2. The method for managing and tracking the quality of road components based on the block chain technology as claimed in claim 1, wherein in S1, a BIM building system is introduced, and system models are created, which are a model layer, a data layer and an application layer, respectively, wherein the model layer is used for classifying and storing the building component models of the BIM, the data layer is used for storing component information of each building component, and the application layer is used for calling and obtaining the building component models.

3. The method for managing and tracking the quality of road components based on the block chain technology as claimed in claim 1, wherein in S2, information of each completely new road component which is not configured yet is recorded and recorded into the BIM building management system.

4. The method for managing and tracking the quality of road components based on the blockchain technology as claimed in claim 1, wherein the step of processing the information of each component in the system in S3 specifically comprises the following steps:

s301, adjusting the gray scale of the image;

s302, adjusting the contrast of the image;

s303, adjusting the brightness of the image;

s304, denoising the image;

s305, classifying the images;

s306, sorting and integrating the parameter information of the components;

and S307, integrating the integrated component parameter information and the corresponding processed image information, and numbering.

5. The method for tracking quality of road components based on blockchain technology as claimed in claim 1, wherein in step S4, some invalid information is deleted, and the processed information of not configured components is stored in the building management system.

6. A road component quality management tracking method based on block chain technology as claimed in claim 1, wherein in S5, a certain area is randomly selected, and some configured road component information in the area is obtained, and the obtained information includes image information and component parameter information.

7. The method for road component quality management tracking based on blockchain technology of claim 5, wherein in step S6, the obtained component information is inputted into the system for data processing, and the configured road component information is compared with the information stored in the system for managing the road component.

8. The method for managing and tracking the quality of road components according to claim 5, wherein in step S7, the obtaining of the final processing result comprises obtaining the deformation degree, the breakage degree and the time interval of the road components.

9. A road component quality management tracking method based on block chain technology as claimed in claim 1, wherein in S8, the road component quality is analyzed and inputted into the road component information of the corresponding number of the BIM building management system.

10. The method for managing and tracking the quality of road components based on the blockchain technology of claim 1, wherein in the step S9, the road component information is traced through the blockchain technology, and the road component information can be changed according to actual conditions.