CN112015844B - Mineral resource multi-element information processing method based on GIS - Google Patents

Abstract

The invention discloses a mineral resource multi-element information processing method based on GIS, comprising the steps of creating a mineral resource multi-element information processing system based on a geographic database model; creating a transit platform of a portal and grid node calculation pool in the mineral resource multi-element information processing system; creating regional evaluation plates of mineral resources in a network environment; uploading related information data of mineral resources by a user on a transfer platform; an intelligent service engine of a GIS is arranged in the transfer platform, and the intelligent service engine of the GIS is utilized to cooperatively edit data operation and space operation of user uploading data; and providing a WEB service interface to the outside through an intelligent service engine of the GIS, and providing intelligent load balancing for GIS data operation and space operation. The invention evaluates and analyzes mineral resources online, realizes online collaborative editing of different node space data in a network environment, and realizes updating of basic data information and online data updating service in the field of different places.

Description

Mineral resource multi-element information processing method based on GIS

Technical Field

The invention belongs to the technical field of mineral resources, and particularly relates to a GIS-based mineral resource multi-element information processing method.

Background

Mineral resources, also known as mineral resources, are aggregates of minerals or useful elements that are formed by geological mineralization, naturally occurring inside the crust of the earth or buried underground or exposed to the earth, in solid, liquid or gaseous form, and of exploitation and utilization value. Mineral resources are important natural resources, are formed through geological changes of hundreds of thousands of years and even hundreds of millions of years, are an important material basis for the production and development of society, and are not separated from mineral resources in the production and life of people in the modern society.

Geographic Information Systems (GIS), sometimes referred to as "geoscience information systems," are a particular type of very important spatial information system. The system is a technical system for collecting, storing, managing, operating, analyzing, displaying and describing the related geographic distribution data in the whole or partial earth surface (including atmosphere) space under the support of a computer hard and software system, and can be applied to scientific investigation, resource management, property management, development planning, drawing and route planning.

At present, newly discovered geological mineral resource information cannot be timely shared, and the online updating speed is low; the information discussion related to mineral resources cannot be authenticated by authority, so that misleading information is spread over a network environment; the advantage of the large network environment is not well utilized to extract and analyze mineral resource information so as to obtain a new geological mineral resource development area, the interactivity among related users is small, and the diversified information sharing efficiency is low.

Disclosure of Invention

Based on the defects of the prior art, the technical problem solved by the invention is to provide the mineral resource multivariate information processing method based on the GIS, which is used for carrying out on-line evaluation and analysis on mineral resources, realizing on-line collaborative editing of different node space data in a network environment, and realizing updating of basic data information and on-line data updating service in the field in different places.

In order to solve the technical problems, the invention provides a mineral resource multi-element information processing method based on GIS, which comprises the following steps:

s1: creating a mineral resource multi-element information processing system based on a geographic database model, and storing, organizing and managing geological data;

s2: establishing a transit platform of a portal and grid node calculation pool in a mineral resource multi-element information processing system, establishing a geological space information grid platform for sharing and cooperating distributed data resources, software resources and hardware resources, and deploying and distributing nodes;

s3: creating regional evaluation plates of mineral resources in a network environment, and allowing users to comment in the plates;

s4: uploading related information data of mineral resources by a user on a transfer platform, and storing the related information data into a mineral resource multi-element information processing system;

s5: an intelligent service engine of a GIS is arranged in the transfer platform, and the intelligent service engine of the GIS is utilized to cooperatively edit data operation and space operation of user uploading data;

s6: and providing a WEB service interface to the outside through an intelligent service engine of the GIS, and providing intelligent load balancing for GIS data operation and space operation.

Optionally, in the step S5, specifically:

s51: the GIS intelligent service engine compares and analyzes the data uploaded by the user with the data in the geographic database model, screens out the data which has difference with the information stored in the geographic database model, and issues the difference data to the regional evaluation plate for the user to comprehensively discuss;

s52: the intelligent service engine of the GIS extracts the ore finding confidence and the ore control factor from the uploading data of the user, performs basic data preprocessing, spatial analysis and online collaborative editing, and performs online evaluation and analysis on mineral resources.

Furthermore, the intelligent service engine of the GIS comprises a resource information dynamic monitoring function module, an asynchronous communication function module, a load balancing function module, a distributed GIS collaborative editing function module, a data operation function module, a space operation function module and the like.

Furthermore, an auditing module for user registration is arranged in the mineral resource multi-element information processing system, and user auditing conditions for entering the system are set.

Optionally, a resource information sensor is used to monitor various information of each target host in the virtual node.

Optionally, the background of the regional evaluation board is provided with an expert supervision group for supervising the discussion information in the regional evaluation board in real time, providing authoritative explanation for the contented topic and correcting the incorrect cognition.

Optionally, the mineral resource multivariate information processing system provides a retrieval and demand query port for geological data, materials and information products.

Further, the mineral control factors include structure, magma activity, stratum, lithology, paleogeography, regional geochemistry, deterioration, lithology, paleohydrology, weathering, and artifacts.

Compared with the prior art, the GIS-based mineral resource multi-element information processing method has at least the following beneficial effects:

the invention provides a resource sharing platform for users, can search geological data, data and information products and inquire requirements, can perform online discussion of mineral resources, and can obtain professional judgment, thereby reducing the diffusion of error information; the intelligent service engine of the GIS is utilized to extract the ore finding confidence and the ore control factor from the uploading data of the user, and perform basic data preprocessing, spatial analysis and online collaborative editing to perform online evaluation and analysis on mineral resources; the distributed data resource, software resource and hardware resource sharing and cooperative geological space information grid platform is established, so that online cooperative editing of different node space data in a network environment is realized, and updating of basic data information and online data updating service in the field in different places are realized.

The foregoing description is only an overview of the present invention, and is intended to be implemented in accordance with the teachings of the present invention, as well as to provide further clarity and understanding of the above and other objects, features and advantages of the present invention, as described in the following detailed description of the preferred embodiments, taken in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

Fig. 1 is a flow chart of a mineral resource multivariate information processing method based on GIS.

Detailed Description

The following detailed description of the invention, taken in conjunction with the accompanying drawings, illustrates the principles of the invention by way of example and by way of a further explanation of the principles of the invention, and its features and advantages will be apparent from the detailed description. In the drawings to which reference is made, the same or similar components in different drawings are denoted by the same reference numerals.

As shown in fig. 1, the invention provides a mineral resource multi-element information processing method based on a GIS, which comprises the following specific steps:

s1: and creating a mineral resource multi-element information processing system based on the geographic database model, and storing, organizing and managing the geological data.

S2: and establishing a transit platform of a portal and grid node calculation pool in the mineral resource multi-element information processing system, establishing a geological space information grid platform for sharing and cooperating distributed data resources, software resources and hardware resources, and deploying and distributing the nodes. In addition, an auditing module for user registration is arranged in the mineral resource multi-element information processing system, and user auditing conditions for entering the system are set for screening user qualification. And monitoring various information of each target host in the virtual node by adopting a resource information sensor. The mineral resource multi-element information processing system provides a retrieval and demand query port for geological data, data and information products.

S3: and creating regional evaluation plates of mineral resources in a network environment for users to comment in the plates, wherein an expert supervision group is established in the background of the regional evaluation plates and is used for supervising the discussion information in the regional evaluation plates in real time, providing authoritative explanation for the topics with disputes and correcting the miscognition.

S4: and uploading related information data of the mineral resources on the transit platform by the user, and storing the related information data into the mineral resource multi-element information processing system.

S5: the intelligent service engine of the GIS is arranged in the transfer platform, and the intelligent service engine of the GIS is utilized to cooperatively edit data operation and space operation of user uploading data, and specifically comprises the following steps:

s51: the intelligent service engine of the GIS performs comparison analysis on the data uploaded by the user and the data in the geographic database model, screens out data which are different from the information stored in the geographic database model, and issues the difference data to the regional evaluation plate for the user to comprehensively discuss;

s52: the intelligent service engine of the GIS extracts the ore finding confidence and the ore control factor from the uploading data of the user, performs basic data preprocessing, spatial analysis and online collaborative editing, and performs online evaluation and analysis on mineral resources; the mineral control factors comprise structures, magma activities, strata, lithofacies, paleogeography, regional geochemical factors, deterioration factors, lithology, paleohydrology, weathering factors and human factors.

S6: and providing a WEB service interface to the outside through an intelligent service engine of the GIS, and providing intelligent load balancing for GIS data operation and space operation.

In this embodiment, the intelligent service engine of the GIS includes a functional module for dynamic monitoring of resource information, asynchronous communication and load balancing, collaborative editing of the distributed GIS, data operation, space operation, and the like. Various information of each target host covers the host performance, the architecture and the current state.

The invention provides a resource sharing platform for users, can search geological data, data and information products and inquire requirements, can perform online discussion of mineral resources, and can obtain professional judgment, thereby reducing the diffusion of error information; the intelligent service engine of the GIS is utilized to extract the ore finding confidence and the ore control factor from the uploading data of the user, and perform basic data preprocessing, spatial analysis and online collaborative editing to perform online evaluation and analysis on mineral resources; the distributed data resource, software resource and hardware resource sharing and cooperative geological space information grid platform is established, so that online cooperative editing of different node space data in a network environment is realized, and updating of basic data information and online data updating service in the field in different places are realized.

While the invention has been described with respect to the preferred embodiments, it will be understood that the invention is not limited thereto, but is capable of modification and variation without departing from the spirit of the invention, as will be apparent to those skilled in the art.

Claims (6)

1. A mineral resource multi-element information processing method based on GIS is characterized by comprising the following steps:

s1: creating a mineral resource multi-element information processing system based on a geographic database model, and storing, organizing and managing geological data;

s2: establishing a transit platform of a portal and grid node calculation pool in a mineral resource multi-element information processing system, establishing a geological space information grid platform for sharing and cooperating distributed data resources, software resources and hardware resources, and deploying and distributing nodes;

s3: creating regional evaluation plates of mineral resources in a network environment, and allowing users to comment in the plates;

s4: uploading related information data of mineral resources by a user on a transfer platform, and storing the related information data into a mineral resource multi-element information processing system;

s5: an intelligent service engine of a GIS is arranged in the transfer platform, and the intelligent service engine of the GIS is utilized to cooperatively edit data operation and space operation of user uploading data;

s6: providing a WEB service interface to the outside through an intelligent service engine of the GIS, and providing intelligent load balancing for GIS data operation and space operation;

in the step S5, specifically:

s51: the GIS intelligent service engine compares and analyzes the data uploaded by the user with the data in the geographic database model, screens out the data which has difference with the information stored in the geographic database model, and issues the difference data to the regional evaluation plate for the user to comprehensively discuss;

s52: the intelligent service engine of the GIS extracts the ore finding confidence and the ore control factor from the uploading data of the user, performs basic data preprocessing, spatial analysis and online collaborative editing, and performs online evaluation and analysis on mineral resources;

the regional evaluation plate background is provided with an expert supervision group for supervising the discussion information in the regional evaluation plate in real time, providing authoritative explanation for the topics in question and correcting the incorrect cognition.

2. The GIS-based mineral resource multivariate information processing method according to claim 1, wherein the intelligent service engine of the GIS comprises resource information dynamic monitoring, asynchronous communication and load balancing, distributed GIS collaborative editing, data operation and space operation function modules.

3. The GIS-based mineral resource multivariate information processing method according to claim 1, wherein a user registration auditing module is arranged in a mineral resource multivariate information processing system, and user auditing conditions entering the system are set.

4. The GIS-based mineral resource multivariate information processing method of claim 1, wherein the resource information sensors are used for monitoring various information of each target host in the virtual nodes.

5. The GIS-based mineral resource multi-element information processing method according to claim 1, wherein the mineral resource multi-element information processing system provides a retrieval and demand query port for geological data, materials and information products.

6. The GIS-based mineral resource multivariate information processing method of claim 1, wherein the mineral control factors comprise formations, magma activities, strata, lithofacies, paleogeographies, regional geochemistry factors, metamorphism factors, lithology, paleohydrology, weathering factors, and human factors.