CN117743347A - System for storing and utilizing investigation result data - Google Patents

Abstract

The invention relates to the technical field of data processing, in particular to a system for storing and utilizing investigation result data, which comprises: the information inquiry subsystem is used for collecting user information and providing inquiry service of investigation result data for the user; the data acquisition subsystem is used for acquiring investigation result data; the database stores investigation result data and user information; the information management subsystem monitors and updates investigation result data and provides data query service for users in cooperation with the information query subsystem; the data utilization subsystem is used for constructing a standardized regional stratum model so as to perform professional analysis and application. The invention can improve the storage and management efficiency of the investigation result data, provide convenient and quick data query service, reuse the investigation result data, improve the utilization rate of the investigation result data, and fully mine the value of the existing engineering data.

Description

System for storing and utilizing investigation result data

Technical Field

The invention relates to the technical field of data processing, in particular to a system for storing and utilizing investigation result data.

Background

In the fields of geological exploration, engineering design, urban planning and the like, the storage and processing of exploration result data is a core problem. Conventional survey result data storage methods generally take the form of paper or electronic forms, which have problems in that data is difficult to manage, query and utilize. Data in paper form not only occupies a large real space, but also is difficult to perform data mining and statistical analysis. Although the data in the form of the electronic form solves the space problem to a certain extent, the problems of difficult data sharing, low query efficiency and the like still exist. Developments in computer technology and big data technology offer new possibilities for solving the above problems. The computer and the internet technology can realize the rapid storage, inquiry and processing of a large amount of data, and the data processing efficiency is improved. By utilizing the technologies, the high-efficiency processing and deep utilization of the investigation result data can be realized, and the accuracy and efficiency of engineering decision making are improved.

However, how to apply these techniques to the processing of survey outcome data, further research and development is still needed. The method comprises the steps of realizing simultaneous and rapid query of a plurality of historical engineering result data around a target area, ensuring the real-time performance and accuracy of data processing and analysis, ensuring the safety and privacy of the data and the like. In addition, the common utilization of a plurality of historical data around the target area is considered, so that the analysis of geotechnical engineering of the target area is realized. Therefore, there is a need for a system that can efficiently store, process and utilize survey outcome data, providing a powerful support for the development of the geological survey field.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a system for storing and utilizing investigation result data.

To achieve the above object, the present invention provides a system for storing and utilizing survey result data, the system comprising:

the information inquiry subsystem is used for collecting user information and providing inquiry service of investigation result data for the user;

the data acquisition subsystem is used for acquiring investigation result data in real time;

the database is used for storing the investigation result data and the user information;

the information management subsystem is used for monitoring and updating the investigation result data and providing inquiry service of the investigation result data for a user in cooperation with the information inquiry subsystem;

the data utilization subsystem is used for constructing a standardized regional stratum model according to the data stored in the database, and further performing professional analysis and application according to the standardized regional stratum model, and comprises a regional stratum construction module and an engineering creation analysis module;

according to the data stored in the database, the regional stratum construction module establishes a standardized regional stratum model by using the standardized model, the regional stratum construction module comprises a computer storage medium for constructing regional stratum, a second computer program is stored in the computer storage medium for constructing regional stratum, and the second computer program executes the following steps when running:

normalizing the drilling data in the investigation result data by using a normalization model to obtain normalized drilling data;

matching the normalized drilling data into the constructed stratum standardized model one by one, and further obtaining the stratum model of the standardized region;

and the engineering creation analysis module performs professional analysis and application according to the standardized regional stratum model.

The invention can improve the storage and management efficiency of the investigation result data, provide convenient and quick data query service, reuse the investigation result data, improve the utilization rate of the investigation result data, and fully mine the value of the existing engineering data.

Optionally, the information query subsystem includes:

the data query user terminal is used for querying the investigation result data by a user;

and the data query user side is an extension program of the Web browser.

Furthermore, the data query user terminal is used as a plug-in of the Web browser, so that cross-platform operation can be realized, deployment is easy, and the process of user management is simplified.

Optionally, the data query client includes:

the user login module is used for collecting user information and determining user identity;

and the classified query module is used for providing classified query service of investigation result data for the user.

Further, the classified query makes the data query more convenient and quick.

Optionally, the information management subsystem includes:

the data updating module is used for monitoring the investigation result data acquired by the data acquisition subsystem in real time and updating the investigation result data in the database in time;

and the query management module is used for responding to the query requirement of the user and further providing query service of the investigation result data for the user by matching with the classified query module.

Furthermore, the data are updated in time on the basis of unified storage and management of the investigation result data, so that a user can master the latest and most reliable investigation result data in real time, and meanwhile, data support is provided for data reuse.

Optionally, the information management subsystem further comprises:

and the login response module is used for providing login and registration services for the user in cooperation with the user login module.

Optionally, the query management module includes a computer storage medium for information query, where a first type of computer program is stored in the computer storage medium for information query, and when the first type of computer program is executed, the following steps are executed:

receiving and identifying a query requirement from the information query subsystem;

and screening investigation result data in the database according to the inquiry requirement, and feeding back the screened result to the information inquiry subsystem.

Furthermore, the method and the device respond to the query requirement of the user in time on the basis of updating the data in real time, so that the user can grasp the latest investigation result data in time and accurately.

Optionally, the normalization model satisfies the following relationship:

wherein,for normalizing the borehole data, +.>For normalizing the template, < > is>Is the ith data in the drilling data and。

optionally, the engineering creation analysis module includes a computer storage medium of engineering creation analysis, where a third computer program is stored in the computer storage medium of engineering creation analysis, and when the third computer program is executed, the following steps are executed:

selecting a borehole on the standardized regional stratum model, and further formulating an engineering range region to create a virtual engineering;

and generating an engineering area section diagram on the standardized area stratum model according to a set section line aiming at the virtual engineering, and performing professional analysis and application by utilizing the engineering area section diagram.

Furthermore, the engineering creation analysis module can provide theoretical support for actual engineering, and is beneficial to improving the professional and practical applicability of engineering design.

In summary, the system provided by the invention uses the data query client as the plug-in of the Web browser, can realize cross-platform operation and is easy to deploy, is beneficial to simplifying the process of user management, ensures that users can query data in real time without installing additional client software, improves the universality of the system, and ensures that data sharing becomes more convenient. Secondly, the user can inquire the data through logging in, so that the safety of the data is improved; thirdly, the investigation result data is updated in real time, the query requirement of the user is responded in time, the user is facilitated to grasp the latest investigation result data in time and accurately, and reliable data support is provided for the reuse of the data; finally, by constructing a standardized regional stratum model containing a wider region, the utilization rate of investigation result data is improved, multiple historical data around a target region can be utilized together, and then analysis of geotechnical engineering of the target region is realized, theoretical support is provided for actual engineering, and the specialty and practicality of engineering design are improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered limiting in scope, and that other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a system framework for storing and utilizing survey result data according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a second computer program operation flow according to an embodiment of the present invention.

Detailed Description

Specific embodiments of the invention will be described in detail below, it being noted that the embodiments described herein are for illustration only and are not intended to limit the invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. However, it will be apparent to one of ordinary skill in the art that: no such specific details are necessary to practice the invention. In other instances, well-known circuits, software, or methods have not been described in detail in order not to obscure the invention.

Throughout the specification, references to "one embodiment," "an embodiment," "one example," or "an example" mean: a particular feature, structure, or characteristic described in connection with the embodiment or example is included within at least one embodiment of the invention. Thus, the appearances of the phrases "in one embodiment," "in an embodiment," "one example," or "an example" in various places throughout this specification are not necessarily all referring to the same embodiment or example. Furthermore, the particular features, structures, or characteristics may be combined in any suitable combination and/or sub-combination in one or more embodiments or examples. Moreover, those of ordinary skill in the art will appreciate that the illustrations provided herein are for illustrative purposes and that the illustrations are not necessarily drawn to scale.

It should be noted in advance that in an alternative embodiment, the same symbols or alphabet meaning and number are the same as those present in all formulas, except where separate descriptions are made.

In an alternative embodiment, referring to FIG. 1, the present invention provides a system for survey outcome data storage and utilization, the system comprising an information query subsystem A1, a data acquisition subsystem A2, a database A3, an information management subsystem A4, and a data utilization subsystem A5.

Specifically, in this embodiment, the information query subsystem A1 is configured to collect user information and provide a query service for the user to survey result data; the data acquisition subsystem A2 is used for acquiring investigation result data in real time; the database A3 is used for storing the investigation result data and the user information; the information management subsystem A4 is used for monitoring and updating the investigation result data and providing inquiry service of the investigation result data for a user in cooperation with the information inquiry subsystem A1; the data utilization subsystem A5 is used for constructing a standardized regional stratum model according to the data stored in the database A3, and further performing professional analysis and application according to the standardized regional stratum model. The information query subsystem A1 and the data acquisition subsystem A2 both use the Internet to transfer information with the information management subsystem A4, the information management subsystem A4 transfers information with the database A3 through the Internet, and the data utilization subsystem A5 transfers information with the database A3 through a data line.

In an alternative embodiment, the survey outcome data collected by the data collection subsystem A2 includes the topography data, hydrologic data, geotechnical physical properties, drilling data, meteorological data, and the like of the survey area. The source of the survey outcome data acquired by the data acquisition subsystem A2 is not unique. On one hand, the investigation result data can be acquired by various existing investigation result data acquisition equipment, and then related personnel input the acquired data into a data acquisition subsystem A2; on the other hand, the relevant personnel searches the latest investigation result data input data acquisition subsystem A2 on the Internet according to the set search period. Therefore, the data acquisition subsystem A2 can contain all instruments for acquiring the investigation result data in the prior art, and the acquisition of the investigation result data is realized by the cooperation of related personnel, so that the investigation result data can be updated in real time, and the instantaneity and the accuracy of the investigation result data can be ensured. In other alternative embodiments, the survey outcome data may also include other types of data.

In an alternative embodiment, the information query subsystem A1 includes a data query client and a Web browser, where the data query client includes a user login module and a category query module. The data query user side is an extension program of the Web browser, and a user queries investigation result data by using the data query user side. The data query user side is used as a plug-in of the Web browser, can realize cross-platform operation and is easy to deploy, the process of user management is facilitated to be simplified, the user does not need to install additional client software, and the space of the user equipment can be saved while the data query is more convenient. In addition, since the Web browser extension program can be used on a plurality of operating system platforms, this improves the versatility of the system.

In an alternative embodiment, information management subsystem A4 includes a data update module, a login response module, and a query management module. The data updating module is used for monitoring the investigation result data acquired by the data acquisition subsystem A2 in real time and updating the investigation result data in the database A3 in time; the login management module is used for providing login and registration services for a user in cooperation with the user login module; the query management module is used for responding to the query requirement of the user and further providing query service of the investigation result data for the user in cooperation with the classified query module.

Specifically, in this embodiment, after the information management subsystem A4 receives the investigation result data of a certain location collected by the data collecting subsystem A2, the data updating module determines whether there is investigation result data of the location in the database A3. If the database A3 does not have the investigation result data of the place, the data updating module directly stores the investigation result data of the place into the database A3; if the survey result data of the location already exists in the database A3, the data updating module compares the survey result data already existing in the database A3 with the new survey result data, and uses the new survey result data to modify and supplement the survey result data already existing in the database A3, thereby updating the survey result data in the database A3. The method and the system update the data in time on the basis of uniformly storing and managing the investigation result data, are favorable for users to grasp the latest and most reliable investigation result data in real time, and provide data support for the reuse of the data.

Further, the user information includes user basic information including a name and a sex, and user login information including a user name and a login password. The user completes registration on the user login module to realize the determination of the user identity, the user needs to fill in user information during registration, and then the login response module stores the user information into the database A3. After registration is completed, the user can log in using his own filled user login information. When a user logs in, the login response module searches user login information filled by the user in the database A3 and feeds back a search result to the user login module, and if the login response module does not search corresponding user login information in the database A3, the user login module reminds the user to register, otherwise, the login is successful. The user can inquire the data through logging in, which is beneficial to improving the security of the data.

Furthermore, in the classification inquiry module, the exploration result data are divided into four data types of basic geological data, drilling data, meteorological data and reuse result data, wherein the basic geological data comprise topographic and geomorphic data, hydrological data and geotechnical physical properties, the reuse result data comprise a standardized regional stratum model, an engineering range region and an engineering region profile map, and the classification inquiry can enable the data inquiry to be more convenient and quicker. When inquiring the exploration result data, the user selects an inquiry place in the classified inquiry module, then selects a data type, and the inquiry management module retrieves corresponding data in the database A3 according to the inquiry place and the data type selected by the user and transmits the corresponding data to the classified inquiry module, so that the user can check the corresponding exploration result data. In other alternative embodiments, user permissions may also be set and query services for the user for the survey outcome data may be provided based on the user permissions.

More specifically, the query management module includes a computer storage medium for information query, where a first type of computer program is stored in the computer storage medium for information query, and when the first type of computer program is executed, the following steps are executed:

b1, receiving and identifying the query requirement from the information query subsystem.

Specifically, in this embodiment, the query requirement from the information query subsystem is the query location and data type selected by the user in the classified query module.

And B2, screening investigation result data in the database according to the inquiry requirement, and feeding back the screened result to the information inquiry subsystem.

In an alternative embodiment, the data utilization subsystem A5 includes a regional stratigraphic framework module and an engineering creation analysis module.

Specifically, in this embodiment, according to the data stored in the database A3, the regional stratum construction module establishes a standardized regional stratum model by using a standardized model; and the engineering creation analysis module performs professional analysis and application according to the standardized regional stratum model.

More specifically, referring to fig. 2, the regional stratum construction module includes a computer storage medium for constructing a regional stratum, where a second computer program is stored in the computer storage medium for constructing a regional stratum, and when the second computer program is executed, the second computer program performs the following steps:

and C1, carrying out normalization processing on the drilling data in the investigation result data by using a normalization model to obtain normalized drilling data.

The normalization model satisfies the following relationship:

wherein,for normalizing the borehole data, +.>For normalizing the template, < > is>Is the ith data in the drilling data and。

the drilling data includes data such as hole diameter, hole depth, hole direction and stratum information revealed by drilling, and the description methods of the drilling data may be different in different investigation result data, for example, the description order of the various data in the drilling data may be different. Thus, normalizing the borehole data aims at processing all borehole data with one fixed description template, the normalization template, so that the borehole data of different sources has the same description method in order to construct a normalized regional formation model. For example, in describing borehole data, a description template may be provided to first describe sequentially the pore size, pore depth, and pore direction, and then describe formation information revealed by the borehole for lithology, thickness, chronology, etc.

Furthermore, the normalization processing of the drilling data enhances the comparability and operability of the data, and is beneficial to obtaining an accurate and reliable standardized regional stratum model. In addition, the description templates can be set by related personnel according to actual needs, so that detailed description is omitted here.

And C2, matching the normalized drilling data into the constructed stratum standardized model one by one, and further obtaining the stratum model of the standardized region.

The formation normalization model in the regional formation construction module is already constructed. When the stratum standardized model is built, firstly, stratum division basis needs to be determined, and then the stratum standardized model is built according to the stratum division basis. The stratum division is based on lithology, age, cause, compactness, plasticity, weathering degree and the like of a rock-soil body. The establishment of a formation standardization model according to the formation classification basis is known in the art and will not be described in detail herein. In other alternative embodiments, formation normalization models may also be constructed in other ways.

And matching the normalized drilling data into the stratum standardized model one by one, namely supplementing the data such as stratum information revealed by drilling and the like to the corresponding stratum in the stratum standardized model, and obtaining the stratum model of the standardized region. Because the borehole data is not limited to a particular location, the normalized regional stratigraphic model is capable of resolving the distribution of the rock and soil mass at the target exploration location and its neighboring exploration locations.

More specifically, the engineering creation analysis module includes a computer storage medium of engineering creation analysis, where a third computer program is stored in the computer storage medium of engineering creation analysis, and when the third computer program runs, the following steps are executed:

and E1, selecting a drilling hole on the standardized regional stratum model, and further formulating an engineering range region to create a virtual engineering.

And E2, generating an engineering area section diagram on the standardized area stratum model according to the set section line aiming at the virtual engineering, and performing professional analysis and application by utilizing the engineering area section diagram.

Professionals can use the obtained engineering area profile to carry out professional analysis and application. By creating virtual engineering and generating engineering area sectional views, the engineering creation analysis module can provide theoretical support for actual engineering, and is beneficial to improving the professional and practical applicability of engineering design.

Both steps E1 and E2 can be implemented by means of existing techniques, and will not be described in detail here.

It should be noted that, in some cases, the actions described in the specification may be performed in a different order and still achieve desirable results, and in this embodiment, the order of steps is merely provided to make the embodiment more clear, and it is convenient to describe the embodiment without limiting it.

In summary, the data query client is used as the plug-in of the Web browser, so that the cross-platform operation can be realized, the deployment is easy, the process of user management is simplified, the user can query the data in real time without installing additional client software, the universality of the system is improved, and the data sharing becomes more convenient. Secondly, the user can inquire the data through logging in, so that the safety of the data is improved; thirdly, the investigation result data is updated in real time, the query requirement of the user is responded in time, the user is facilitated to grasp the latest investigation result data in time and accurately, and reliable data support is provided for the reuse of the data; finally, by constructing a standardized regional stratum model containing a wider region, the utilization rate of investigation result data is improved, multiple historical data around a target region can be utilized together, and then the geotechnical engineering of the target region is analyzed, the value of existing engineering data is fully excavated, theoretical support is provided for actual engineering, and the professionality and practicality of engineering design are improved.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention, and are intended to be included within the scope of the appended claims and description.

Claims (8)

1. A system for storing and utilizing survey outcome data, comprising:

the information inquiry subsystem is used for collecting user information and providing inquiry service of investigation result data for the user;

the data acquisition subsystem is used for acquiring investigation result data in real time;

the database is used for storing the investigation result data and the user information;

the information management subsystem is used for monitoring and updating the investigation result data and providing inquiry service of the investigation result data for a user in cooperation with the information inquiry subsystem;

the data utilization subsystem is used for constructing a standardized regional stratum model according to the data stored in the database, and further performing professional analysis and application according to the standardized regional stratum model, and comprises a regional stratum construction module and an engineering creation analysis module;

according to the data stored in the database, the regional stratum construction module establishes a standardized regional stratum model by using the standardized model, the regional stratum construction module comprises a computer storage medium for constructing regional stratum, a second computer program is stored in the computer storage medium for constructing regional stratum, and the second computer program executes the following steps when running:

normalizing the drilling data in the investigation result data by using a normalization model to obtain normalized drilling data;

matching the normalized drilling data into the constructed stratum standardized model one by one, and further obtaining the stratum model of the standardized region;

and the engineering creation analysis module performs professional analysis and application according to the standardized regional stratum model.

2. The system for storing and utilizing survey outcome data of claim 1 wherein the information query subsystem comprises:

the data query user terminal is used for querying the investigation result data by a user;

and the data query user side is an extension program of the Web browser.

3. The system for storing and utilizing survey outcome data of claim 2 wherein the data query client comprises:

the user login module is used for collecting user information and determining user identity;

and the classified query module is used for providing classified query service of investigation result data for the user.

4. A system for storing and utilizing survey outcome data according to claim 3 wherein said information management subsystem comprises:

the data updating module is used for monitoring the investigation result data acquired by the data acquisition subsystem in real time and updating the investigation result data in the database in time;

and the query management module is used for responding to the query requirement of the user and further providing query service of the investigation result data for the user by matching with the classified query module.

5. The survey outcome data storage and utilization system of claim 4 wherein the information management subsystem further comprises:

and the login response module is used for providing login and registration services for the user in cooperation with the user login module.

6. The system for storing and utilizing survey outcome data of claim 5 wherein the query management module comprises a computer storage medium for information queries, the computer storage medium for information queries having a first computer program stored therein, the first computer program executing the steps of:

receiving and identifying a query requirement from the information query subsystem;

and screening investigation result data in the database according to the inquiry requirement, and feeding back the screened result to the information inquiry subsystem.

7. The system for storing and utilizing survey outcome data of claim 1 wherein the normalization model satisfies the relationship:

，

wherein,for normalizing the borehole data, +.>For normalizing the template, < > is>Is the ith data in the drilling data and。

8. the system for storing and utilizing survey outcome data of claim 6 wherein the engineering analysis module comprises an engineering analysis computer storage medium having a third computer program stored therein, the third computer program executing the following steps when executed:

selecting a borehole on the standardized regional stratum model, and further formulating an engineering range region to create a virtual engineering;

and generating an engineering area section diagram on the standardized area stratum model according to a set section line aiming at the virtual engineering, and performing professional analysis and application by utilizing the engineering area section diagram.