CN114528442B - Geological analysis process information tracing method based on unique identification - Google Patents

Abstract

The invention discloses a geological analysis process information tracing method based on unique identification, which comprises the following steps: and setting a first table and a second table in the geological database, and obtaining all the exploration points and exploration objects used by the geological object by looking up the first table and the second table when the data source of the geological object needs to be queried. According to the method, the exploration points obtained by exploration and the obtained geometric information are stored separately from engineering geological attribute information, and the geological objects form an organic whole through unique identification association inside the exploration points; on one hand, the basic requirement of geological analysis on tracing is solved, on the other hand, data are analyzed and separated during storage, information redundancy does not exist, the storage space and the editing efficiency are enhanced, the regulations are clear, and the inquiry is convenient.

Description

Geological analysis process information tracing method based on unique identification

Technical Field

The invention relates to the technical field of engineering geological informatization, in particular to a geological analysis process information tracing method based on unique identification.

Background

The geological three-dimensional modeling depends on field exploration original data, and the exploration data comprise data obtained by various exploration means such as engineering geological mapping, drilling, hole exploration, pit and well slot, geophysical exploration and the like, and is multi-source data.

The data contains information such as geometry and geologic body characteristics.

The three-dimensional modeling is to synthesize exploration data of different sources, classify, generalize and summarize the exploration data according to the characteristics of the geologic body, and finally form a three-dimensional modeling result according to the geologic characteristics and the space rule.

Thus, each geological object in the three-dimensional model is built upon the exploration data.

When the geological achievements are consulted, checked and censored and applied to design analysis, the reliability of the geological achievements needs to be verified, the exploration data according to the reliability needs to be checked, and the geological analysis process is traced.

Three-dimensional geologic modeling is accomplished through the construction of objects such as points, lines, planes, volumes, etc.

Specifically, a line object and a surface object are generated by points, then a geometric object of a geologic body is generated by the surface object, and geological attribute information is attached to the geometric object.

The existing solution is to separate the processing of the geometric information and the attribute information, and multiple separation is needed in the modeling process. The links are independent from each other, and each link needs to be respectively associated with the geometric information, the geology and the data attribute information of the operation object.

When the existing three-dimensional geological modeling solution is used for constructing, checking, modifying and using a model, the information of each link needs to be checked, so that the situation of complicated work and high error probability is caused.

The tracing and tracing can only compare through manual listing of data, and the work efficiency is low.

The existing BIM system does not support geological professional services, and although related information can be stored in model information and can be manually inquired on an interface, additional information input is needed, a data source is not unique, information redundancy is caused, and information inconsistency is easy to cause.

Disclosure of Invention

The technical problem to be solved by the invention is that the geological professional service is not supported, the related information can be stored in the model information, and the information can be manually inquired on an interface, but additional information input is needed, the data source is not unique, information redundancy is caused, information inconsistency is easy to cause, and the invention aims to provide a geological analysis process information tracing method based on unique identification, so that the problems are solved.

The invention is realized by the following technical scheme:

a geological analysis process information tracing method based on unique identification comprises the following steps:

setting a first table and a second table in a geological database, wherein the first table is used for establishing geological object reference points, unique identifiers Ai are assigned to the geological object reference points, and the second table is used for recording exploration points and assigning unique identifiers Bi to the exploration points;

when the exploration data are recorded, the space positions of the key exploration points are stored in the second table;

when referencing exploration point data to carry out geological analysis, adding the current analysis object and the referenced key points to store in the table I;

when the reference to a certain key point needs to be deleted, deleting the corresponding record from the first table;

editing a reference relation, adding a current analysis object and a referenced key point to the table one when the geological analysis is carried out by referencing the exploration point data, and deleting a corresponding record from the table one when the reference to a certain key point needs to be deleted;

when the data source of a geological object needs to be queried, all the used exploration points and exploration objects of the geological object can be obtained through querying the first table and the second table.

In some embodiments, the step sets a table one and a table two in the geological database, wherein the table one is used for establishing a geological object reference point, the geological object reference point is endowed with a unique identifier Ai, the table two is used for recording an exploration point, and the exploration point is endowed with a unique identifier Bi, the necessary field of the table one comprises a geological object ID and a reference exploration point ID, the geological object ID represents a geological object or geological analysis, the reference exploration point ID represents an exploration point, and the geological object or geological analysis and the exploration point are in multi-reference and multi-relation.

In some embodiments, the necessary fields of table two include a reference survey point ID and a spatial information field, and the spatial information field includes three fields of spatial coordinates X, Y and Z.

In some embodiments, the step stores the spatial position of the key exploration point in the second table when the exploration data is recorded, the position information of the key exploration point is expressed in a spatial coordinate form or a longitude and latitude form, and the spatial position of the key exploration point is stored in the second table and a new ID is generated.

In some embodiments, the step is to add the current analysis object and the referenced key points to the table when performing the geological analysis by referencing the exploration point data, and to extract a plurality of exploration points from the database for use when creating a geological object or performing a geological analysis by using the exploration point position data.

In some embodiments, a record is added to the table one for each of the used exploration points, the ID of the current geologic object or analysis object is filled into the geologic object ID column, and the exploration point ID is filled into the reference exploration point ID column, thereby establishing a connection between the geologic object and the exploration point.

In some embodiments, a exploration point filtering and screening interface is developed on the basis of a database to facilitate the selection of exploration points, and then in three-dimensional modeling software, when geological objects are constructed, the exploration objects are selected firstly by calling the exploration point filtering and screening interface, and then key exploration points of the exploration objects are selected for reference use.

In some embodiments, when the step needs to delete the reference to a certain key point, the corresponding record is deleted from the table one, when the existing exploration point of the geological object is deleted, all geological object IDs from the table one are the current geological object, and the record of the exploration point ID contained in the exploration point needing to be deleted is referred.

In some embodiments, the editing reference relation is that when the reference exploration point data is subjected to geological analysis, the current analysis object and the referenced key point are added to be stored in the table one, when the reference to a certain key point needs to be deleted, the corresponding record is deleted from the table one, when the geological analysis of the reference exploration point data by the step is realized, the current analysis object and the referenced key point are added to be stored in the table one, when the reference to a certain key point needs to be deleted by the step, the corresponding record is deleted from the table one after the step is firstly performed, when the reference to a certain key point needs to be deleted, the corresponding record is deleted from the table one, and when the geological analysis of the reference exploration point data is performed by the step, the editing and modifying function of the reference relation is realized by adding the current analysis object and the referenced key point to be stored in the table one.

In some embodiments, when the data source of a certain geological object needs to be queried, all the exploration points and exploration objects used by the geological object can be obtained through querying a first table and a second table, the step is realized that when the geological analysis is performed by referencing exploration point data, the current analysis object and the referenced key point are added to be stored in the first table, when the referencing of the certain key point needs to be deleted, the corresponding record is deleted from the first table, the step edits the referencing relation, when the geological analysis is performed by referencing exploration point data, the current analysis object and the referenced key point are added to be stored in the first table, and when the referencing of the certain key point needs to be deleted, the corresponding record is deleted from the first table, and then the functions of creating, deleting and modifying the referencing relation are realized.

Compared with the prior art, the invention has the following advantages and beneficial effects:

according to the method, the exploration points obtained by exploration and the obtained geometric information are stored separately from engineering geological attribute information, and the geological objects form an organic whole through unique identification association inside the exploration points; on one hand, the basic requirement of geological analysis on pursuit is solved, on the other hand, data are analyzed and separated during storage, information redundancy does not exist, the storage space and the editing efficiency are enhanced, the regulations are clear, and the inquiry is convenient; when the information is used, the scheme of the invention is suitable for the current BIM main body mode, and when the scheme is integrated with a BIM system, the geometric parameters and the geological attribute information of geological objects can be respectively extracted according to the characteristics of the BIM system, and the correlation is realized through the unique identifier, so that the optimal combination effect of fully utilizing the advantages of convenient modeling and friendly query display interface of the existing BIM system, avoiding the disadvantage of lack of professional depth of a background database of the existing BIM system is achieved, and the scheme has strong adaptability and strong information interactivity with the existing BIM main stream platform.

Drawings

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

FIG. 1 is a specific logic diagram of an embodiment of the present invention.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present invention, the present invention will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present invention and the descriptions thereof are for illustrating the present invention only and are not to be construed as limiting the present invention.

Referring to fig. 1, a geological analysis process information tracing method based on unique identification includes the following steps:

a first table and a second table are arranged in a geological database, the first table is used for establishing geological object reference points, unique identifiers Ai are assigned to the geological object reference points, the second table is used for recording exploration points, and unique identifiers Bi are assigned to the exploration points.

By establishing a table of geological object reference points and exploration points in a database, the subsequent geological object information input, exploration point information input, call and the like are provided.

And storing the space positions of the key exploration points into the second table when the exploration data are recorded.

In practical use, the exploration data, especially the space position information of the key exploration points, needs to be recorded and stored into the corresponding exploration point columns for subsequent calling.

And when the geological analysis is carried out by referencing the exploration point data, adding the current analysis object and the referenced key points to the table one.

In practical use, geological analysis is required on the exploration point data, so that the analysis object and the referenced key point information are stored in a table one.

When a reference to a certain key point needs to be deleted, the corresponding record is deleted from the table one.

In actual operation, specific exploration key point data is deleted, and in actual operation, corresponding records are only deleted from the first table.

Editing reference relation, when the geological analysis is carried out by referencing the exploration point data, adding the current analysis object and the referenced key point into the table one, and when the reference to a certain key point needs to be deleted, deleting the corresponding record from the table one.

The above two steps are compounded through a database technology, so that editing of the reference relation is realized.

When the data source of a geological object needs to be queried, all the used exploration points and exploration objects of the geological object can be obtained through querying the first table and the second table.

In some embodiments, the step sets a table one and a table two in the geological database, wherein the table one is used for establishing a geological object reference point, the geological object reference point is endowed with a unique identifier Ai, the table two is used for recording an exploration point, and the exploration point is endowed with a unique identifier Bi, the necessary field of the table one comprises a geological object ID and a reference exploration point ID, the geological object ID represents a geological object or geological analysis, the reference exploration point ID represents an exploration point, and the geological object or geological analysis and the exploration point are in multi-reference and multi-relation.

A more transparent referencing relationship is achieved by including the geologic object ID and the referencing survey point ID in tables one and two.

In some embodiments, the necessary fields of table two include a reference survey point ID and a spatial information field, and the spatial information field includes three fields of spatial coordinates X, Y and Z.

In some embodiments, the step stores the spatial position of the key exploration point in the second table when the exploration data is recorded, the position information of the key exploration point is expressed in a spatial coordinate form or a longitude and latitude form, and the spatial position of the key exploration point is stored in the second table and a new ID is generated.

The association and the call are realized by carrying out specific coordinate forms and longitude and latitude forms for the position information of the key exploration points, and simultaneously storing the position information of the key exploration points in a second table to generate a new ID.

In some embodiments, the step is to add the current analysis object and the referenced key points to the table when performing the geological analysis by referencing the exploration point data, and to extract a plurality of exploration points from the database for use when creating a geological object or performing a geological analysis by using the exploration point position data.

In the preferred embodiment, the analysis objects and key points that need to be analyzed and processed are stored in table one, and reference data for the geologic objects and geologic analysis are created for subsequent extraction and recall.

In some embodiments, a record is added to the table one for each of the used exploration points, the ID of the current geologic object or analysis object is filled into the geologic object ID column, and the exploration point ID is filled into the reference exploration point ID column, thereby establishing a connection between the geologic object and the exploration point.

In this particular embodiment, the actually required survey points are added to table one to form a record, and the IDs of the geologic objects or analysis objects are filled in the IDs of the geologic object columns specifically for correlation by database techniques. Specifically by entering ID information into the corresponding column.

In some embodiments, a exploration point filtering and screening interface is developed on the basis of a database to facilitate the selection of exploration points, and then in three-dimensional modeling software, when geological objects are constructed, the exploration objects are selected firstly by calling the exploration point filtering and screening interface, and then key exploration points of the exploration objects are selected for reference use.

In the preferred embodiment, the interfaces are developed on the database, thereby enabling more convenient software referencing.

In some embodiments, when the step needs to delete the reference to a certain key point, the corresponding record is deleted from the table one, when the existing exploration point of the geological object is deleted, all geological object IDs from the table one are the current geological object, and the record of the exploration point ID contained in the exploration point needing to be deleted is referred.

The method for deleting the key points is provided in the preferred embodiment, so that a convenient and efficient method is realized.

In some embodiments, the editing reference relation, when the reference exploration point data is subjected to geological analysis, adding the current analysis object and the referenced key point into the table one, and when the reference to a certain key point needs to be deleted, deleting the corresponding record from the table one. When the geological analysis is carried out by referencing the exploration point data, the current analysis object and the referenced key point are added to be stored in the table I, when the reference to a certain key point needs to be deleted, the corresponding record is deleted from the table I, and when the geological analysis is carried out by referencing the exploration point data, the editing and modifying functions of the referencing relation are realized by adding the current analysis object and the referenced key point to be stored in the table I.

In the present preferred embodiment, the necessary delete and edit modification functions are implemented under the conditions of the steps recited.

In some embodiments, when the data source of a certain geological object needs to be queried, all the exploration points and exploration objects used by the geological object can be obtained through querying a first table and a second table, the step is realized that when the geological analysis is performed by referencing exploration point data, the current analysis object and the referenced key point are added to be stored in the first table, when the referencing of the certain key point needs to be deleted, the corresponding record is deleted from the first table, the step edits the referencing relation, when the geological analysis is performed by referencing exploration point data, the current analysis object and the referenced key point are added to be stored in the first table, and when the referencing of the certain key point needs to be deleted, the corresponding record is deleted from the first table, and then the functions of creating, deleting and modifying the referencing relation are realized.

In the preferred embodiment, specific processing methods at the recited steps are presented, as well as how the create, delete and modify functions are implemented.

According to the invention, information such as exploration information, geological objects, geometric information, attribute information and the like is stored in a classified manner, and each piece of information is attached with a corresponding unique identifier; when in use, the information is respectively extracted according to the BIM platform requirements, and the information is closely related through the unique identifier.

The method is used for realizing a necessary database construction scheme of traceability in a geological analysis process, realizing a traceability method on the basis of the necessary database construction, and classifying and identifying the exploration geometry and attribute aiming at geological objects.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the invention, and is not meant to limit the scope of the invention, but to limit the invention to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (4)

1. A geological analysis process information tracing method based on unique identification is characterized by comprising the following steps:

setting a first table and a second table in a geological database, wherein the first table is used for establishing geological object reference points, unique identifiers Ai are assigned to the geological object reference points, and the second table is used for recording exploration points and assigning unique identifiers Bi to the exploration points;

the necessary fields of the table I comprise a geological object ID and a reference exploration point ID, wherein the geological object ID represents a geological object or geological analysis, the reference exploration point ID represents an exploration point, and the geological object or geological analysis and the exploration point are in a many-to-many relation;

when the exploration data are recorded, the space positions of the key exploration points are stored in the second table;

the position information of the key exploration point is expressed in a space coordinate form or a longitude and latitude form, and the space position of the key exploration point is stored in a second table and a new ID is generated;

when referencing exploration point data to carry out geological analysis, adding the current analysis object and the referenced key points to store in the table I;

when the reference to a certain key point needs to be deleted, deleting the corresponding record from the first table;

editing a reference relation, adding a current analysis object and a referenced key point to the table one when the geological analysis is carried out by referencing the exploration point data, and deleting a corresponding record from the table one when the reference to a certain key point needs to be deleted;

when the corresponding record is deleted from the first table, firstly deleting the corresponding record from the first table when the reference to a certain key point needs to be deleted, and then adding the current analysis object and the referenced key point to store in the first table when the reference exploration point data is subjected to geological analysis, namely realizing the editing and modifying functions of the reference relation;

when the exploration point data are referenced for geological analysis, the current analysis object and the referenced key points are added and stored in the table I, and when a geological object is created or exploration point position data are needed for geological analysis, a plurality of exploration points are extracted from a database for use;

adding a record in the table I for each used exploration point, filling the ID of the current geological object or analysis object into a geological object ID column, and filling the exploration point ID into a reference exploration point ID column, thereby establishing the connection between the geological object and the exploration point;

developing an exploration point filtering and screening interface on the basis of a database to facilitate the selection of exploration points, and further in three-dimensional modeling software, when a geological object is constructed, firstly selecting the exploration object and then selecting key exploration points of the exploration object for reference use by calling the exploration point filtering and screening interface;

when the data source of a geological object needs to be queried, all the used exploration points and exploration objects of the geological object can be obtained through querying the first table and the second table.

2. The unique identification-based geological analysis process information tracing method of claim 1, wherein said table two necessary fields comprise a reference exploration point ID and a spatial information field, and said spatial information field comprises three fields of spatial coordinates X, Y and Z.

3. The unique identification-based geological analysis process information tracing method according to claim 1, wherein when a reference to a certain key point is required to be deleted in said step, corresponding records are deleted from said table one, when an existing exploration point of a geological object is deleted, all geological object IDs from the table one are the current geological object, and the record of the exploration point ID contained in the exploration point required to be deleted is referenced.

4. The geological analysis process information tracing method based on unique identification according to claim 1, wherein when a data source of a geological object needs to be queried, all used exploration points and exploration objects of the geological object can be obtained through querying a first table and a second table, when geological analysis is performed by referencing exploration point data, the current analysis object and referenced key points are added to be stored in the first table, when reference to the certain key point needs to be deleted, corresponding records are deleted from the first table, and the step edits reference relations, when geological analysis is performed by referencing exploration point data, the current analysis object and referenced key points are added to be stored in the first table, and when reference to the certain key point needs to be deleted, the corresponding records are deleted from the first table, and then the creation, deletion and modification functions of the reference relations are realized.