CN114780608B - Online survey system for data of tailing pond - Google Patents

Abstract

The invention discloses an online investigation system for tailing pond data, which comprises: a tailings pond data information collecting subsystem collects basic information of tailings pond data on line through a distributed data collecting terminal; the satellite map position contour marking subsystem integrates basic data information of the tailing pond and a high-grade satellite map, and carries out position contour marking on the tailing pond and the on-line monitoring equipment through a position contour marking module to obtain a position contour map of the tailing pond and the on-line monitoring equipment; the tailing pond data image summarizing subsystem summarizes basic information of tailing pond data, a tailing pond and an on-line monitoring equipment position outline drawing to obtain tailing pond data image summarizing information; and the online management and submission and examination subsystem is used for transmitting the summarized information of the images of the data of the tailing pond to a display for displaying, and performing online management, data submission and examination confirmation on the data of the tailing pond through an online management module to finish online investigation on the data of the tailing pond.

Description

Online investigation system of tailing storehouse data

Technical Field

The invention relates to the technical field of mining data high-resolution satellite map processing, in particular to an online survey system for tailing pond data.

Background

At the present stage, the data information of the national tailings pond is collected, investigated and managed dispersedly, and the types, the content forms and the like of various data are not uniform, so that the investigation and monitoring of the tailings pond data are difficult; the data information of various different tailings ponds is not complete, map marking, area selection and the like are not accurate enough, and the consistency of the information data is poor; each enterprise, each region and each level of management are coordinated slowly, and a unified, efficient, real-time and quick intelligent online management and coordination system is lacked; therefore, there is a need for an online survey system for tailings pond data to at least partially solve the problems in the prior art.

Disclosure of Invention

The summary section introduces a series of concepts in a simplified form that are further described in the detailed description section; this summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

To at least partially solve the above problems, the present invention provides an online survey system for tailings pond data, comprising:

a tailings pond data information collecting subsystem collects basic information of tailings pond data on line through a distributed data collecting terminal;

the satellite map position contour marking subsystem integrates basic data information of the tailing pond and a high-grade satellite map, and carries out position contour marking on the tailing pond and the on-line monitoring equipment through a position contour marking module to obtain a position contour map of the tailing pond and the on-line monitoring equipment;

the tailing pond data image summarizing subsystem summarizes basic information of tailing pond data, a tailing pond and an on-line monitoring equipment position outline drawing to obtain tailing pond data image summarizing information;

and the online management and submission and examination subsystem is used for transmitting the summarized information of the images of the data of the tailing pond to a display for displaying, and performing online management, data submission and examination confirmation on the data of the tailing pond through an online management module to finish online investigation on the data of the tailing pond.

Preferably, the tailings pond data information collecting subsystem includes:

the distributed terminal IP identification subsystem is used for identifying the IP address of the access terminal through the online network access terminal to obtain an online network IP identification result;

the terminal data registration interface subsystem is used for starting a network terminal registration interface module according to the online network IP identification result and performing network terminal entry registration;

and the system login data entry subsystem is used for performing system login entry after the network terminal completes entry and registration and performing online collection of basic data information of the tailing pond.

Preferably, the satellite map position and contour labeling subsystem comprises:

the basic information satellite map integration subsystem is used for searching and integrating basic information and high-grade satellite maps of the tailing pond data through the data information map position;

the system comprises a tailing pond and monitoring equipment calibration subsystem, a position contour marking module and a data processing subsystem, wherein the tailing pond and monitoring equipment calibration subsystem is used for calibrating the position contour of a tailing pond and an online monitoring equipment through the position contour marking module;

and the position contour map generating and adjusting subsystem is used for calibrating the position contour map to generate a calibration image, adjusting according to image display, and obtaining the position contour map of the tailings pond and the online monitoring equipment after the adjustment is finished.

Preferably, the image summarizing subsystem for the data of the tailing pond comprises:

the information marking online detection subsystem is used for detecting the basic information of the data of the tailing pond and the information marking consistency of the position contour map of the tailing pond and the online monitoring equipment on line;

the online detection result judgment subsystem is used for judging the online detection result of the consistency of the information labels to obtain the judgment result of the consistency of the information labels;

and the consistent data image summarizing subsystem is used for summarizing the basic information of the data of the tailing pond, the position outline drawing of the tailing pond and the online monitoring equipment when the judgment result of the consistency of the information labels passes, and summarizing information of the data images of the tailing pond is obtained.

Preferably, the online management and submission auditing subsystem includes:

the terminal and network transmission display subsystem is used for transmitting the data image summary information of the tailing pond to the display for display through the data collection terminal and the data transmission network;

the tailing pond data online management subsystem is used for performing online management on tailing pond data through an online management module;

and the multi-layer submitting and auditing confirmation subsystem is used for carrying out multi-layer data submitting and multi-layer auditing confirmation on the data image summary information of the tailing pond to complete the online investigation of the data of the tailing pond.

Preferably, the system login data entry subsystem includes:

the network terminal login unit is used for performing system login after the network terminal data registration is finished;

the data entry navigation unit is used for carrying out data entry navigation after the system logs in; the data entry navigation includes: basic information filling navigation and online monitoring system construction operation condition filling navigation;

the data entry and collection unit is used for entering data of the tailing pond according to navigation; the tailing pond data entry comprises the following steps: inputting basic information of a tailing pond and inputting construction and operation conditions of an online monitoring system; and carrying out on-line collection of basic data information of the tailings pond.

Preferably, the tailings pond and monitoring equipment calibration subsystem comprises:

the position contour labeling navigation unit is used for creating a position contour labeling module and carrying out position calibration navigation on the tailing pond and the monitoring equipment;

the position outline calibration prompting unit is used for selecting a tailing pond to be calibrated, displaying the position of the tailing pond on a map and selecting the position of the calibrated tailing pond; through a position contour marking module, a contour is marked and selected in a map, and a prompt is given after the contour is closed; the position outline marking module comprises: the multi-level map model building submodule is used for building a multi-level high-grade satellite map model; selecting a high-grade satellite map range, and constructing a multi-grade high-grade satellite map model in the range, wherein the multi-grade high-grade satellite map model comprises two steps of global multi-grade map area division and global multi-grade map area coding;

the map area rasterization submodule is used for rasterizing the planar target; the method comprises the following steps of calculating a planar target boundary map area, calculating a planar target internal map area and combining the planar target internal map area and the planar target boundary map area:

the calculation of the boundary map area of the planar target is based on the latitude interval and longitude interval of a certain level map area, the boundary point set of the planar target is taken as a closed broken line, and the gridding map area of the broken line is calculated;

the step of calculating the internal map area of the planar target is to obtain a planar target bounding box, calculate the line number range of the planar target under the level and comprise the maximum line number and the minimum line number, and sequentially calculate the internal map area of the planar target by traversing the line range;

merging the internal map area of the planar target and the boundary map area of the planar target, wherein the merged map area is used as a result of the grid map area of the planar target at the level;

the map area multi-level aggregation sub-module is used for aggregating multi-level rasterized map areas; according to the step of rasterizing the planar target in the second step, calculating rasterized map areas of the planar target of each level in sequence, and aggregating the rasterized map areas upwards from the nth level in sequence until reaching the 1 st level map area to obtain an aggregated rasterized map area result, wherein the steps of judging the relationship of the adjacent levels of map areas, aggregating and selecting the map areas comprise:

judging whether the parent-child relationship of the adjacent level map areas meets the aggregation condition or not;

selecting map areas which are not successfully aggregated in the next level by aggregating adjacent level rasterized map areas, and forming a new set of the map areas successfully aggregated in the previous level to participate in the aggregation process until the level 1 map area; selecting a map area successfully aggregated in the level 1;

the online monitoring equipment calibration unit is used for selecting a tailing pond, clicking to select the type of equipment to be calibrated, positioning the equipment on a map according to the actual geographical position of the installation of the online monitoring equipment, and prompting to input equipment information; and calibrating the position profiles of the tailing pond and the on-line monitoring equipment.

Preferably, the information labeling online detection subsystem includes:

the satellite map tailing pond searching unit is used for searching a high-resolution satellite map according to the geographical position information of the tailing pond and the description information of the tailing pond in the basic information of the tailing pond data to obtain a satellite map tailing pond searching map;

the intelligent model unit of the position contour map is used for intelligently comparing and detecting the search map of the satellite map tailings pond, the tailings pond and the position contour map of the on-line monitoring equipment to obtain an intelligent detection model of the satellite position contour;

and the information and mark online detection unit is used for detecting the consistency of the basic data information of the tailings pond and the information mark of the position contour map of the tailings pond and the online monitoring equipment on line through the intelligent satellite position contour detection model.

Preferably, the online tailing pond data management subsystem comprises:

the tailing pond enterprise layer online management unit is used for navigating the online monitoring equipment installed in the selected tailing pond to the marked monitoring equipment list data through the online management module to perform enterprise layer online management;

the online management unit of the district and county level of the tailing pond is used for navigating the online monitoring equipment installed in the selected tailing pond to the equipment information data filled by the tailing pond enterprise to perform online management of the district and county level;

the system comprises a tailing pond province and city layer online management unit, a tailing pond city layer online management unit and a tailing pond online management unit, wherein the tailing pond online management unit is used for editing or checking marked monitoring equipment information which is provided by navigation of online monitoring equipment installed in a selected tailing pond to a district and county layer online management confirmation, and performing province and city layer online management; the online management module comprises: the first-layer online management module is used for defining a tailing pond database and a map database service, wherein the tailing pond database points to an online monitoring equipment database, and the map database points to a map database of each application module; configuring a system server cluster of each application module and a tailing pond enterprise layer online management unit, wherein model data externally provided by each application module has a distributed characteristic; completing the mapping relation between each attribute of the data and the corresponding structures of the tailing pond database and the map database through the access interface of the relation and map database; a general processing flow module for compiling various data; compiling data check and data operation models of a tailing database and a map database; the tailing pond database meets the basic characteristics of affairs through the self characteristics of the commercial on-line monitoring equipment database; the map database simulates a plurality of semantic operations of the tailing database through a mechanism of a platform, and defines a plurality of data management operations, so that the map database is ensured to meet the basic characteristics of transactions; configuring a data propagation process: firstly, submitting change data to a distributed application module system server cluster by a tailing pond enterprise layer online management unit, wherein the system server cluster is used as a system data management center of service at the moment, and performing incremental data transmission on each sub-service needing the change data in the whole system and the tailing pond enterprise layer online management unit until the transverse consistency of the system data is achieved; the propagation from the system data management center to each tailing pond enterprise layer online management unit adopts a subscription mode, the tailing pond enterprise layer online management units register in the system data management center at first, and after the system data management center receives incremental change data operation, incremental information is sent to each tailing pond enterprise layer online management unit until the longitudinal consistency of system data is achieved; the same type of data requires submitting data to multiple map database applications.

Preferably, the multi-layer submission and audit confirmation subsystem includes:

the multilevel submitting unit is used for submitting multilevel data of the tailing pond data image summary information to obtain multilevel submitted nuclear data to be examined; multilevel data commit includes: submitting enterprise layer data, submitting district and county layer data and submitting municipal province layer data; submitting enterprise layer data, confirming and submitting basic information, system construction operation conditions, tailing pond position calibration, outline boundary calibration and monitoring equipment calibration through navigation summary, obtaining enterprise layer submitted to-be-audited data, and transmitting the data to a multi-level auditing and surveying unit; performing auditing treatment, wherein the operation of modification and deletion cannot be performed in the process of submitting auditing; submitting county layer data, and confirming and submitting basic information lists of all enterprise layer tailing pond in the county layer data and system construction operation condition lists through navigation gathering; obtaining the data to be audited submitted by the district and county level audit after the district and county level audit is passed, submitting the data to be audited submitted by the district and county level audit and transmitting the data to be audited to a multi-level audit investigation unit; submitting the data of the provincial level of the city, confirming all the areas and counties of the tailing pond to the local city level examination and investigation layer, passing the grade examination, submitting the data to the provincial level emergency management department after confirming that the data are not wrong, and submitting all the tailing pond information to the provincial level emergency management department after confirming that the data are submitted; for provincial users, all the tailings ponds and cities are confirmed and pass the grade audit, and can be submitted to the department-level emergency management department only after the confirmation is correct, and after the confirmation is submitted, all the tailings ponds and cities are submitted to the department-level emergency management department;

the multilevel auditing and surveying unit is used for transmitting multilevel submitted to-be-audited data to a multilevel auditing and surveying layer by layer for multilevel auditing; the multi-level audit investigation layer comprises: a district-county level tailing pond data auditing and surveying layer, a city provincial level tailing pond data auditing and surveying layer and a ministry level tailing pond data auditing and surveying layer; after receiving data reported by users of the tailings pond enterprises, the district-county level tailings pond data auditing and surveying layer can return, edit, summarize, confirm and submit the submitted information of the tailings ponds submitted by the enterprises and the like; after the basic information, the system construction operation condition and the position are independently checked, the page checking state is changed into that the checking is passed, and the information reported by the users of the tailing pond enterprises can not be modified; after the district-county level gathering confirmation is submitted to a city-level emergency management department, the checking state is changed into district-county confirmed state; returning is directly returned to the users of the tailing pond enterprises, the auditing state is changed into returning modification, and the returned tailing pond enterprises need to report again according to the reporting flow; after the municipal level audit survey layer receives the data which are confirmed to be submitted and reported by the county level tailing pond data audit survey layer, the operations of checking, editing, returning, summarizing, confirming and submitting the information of the county level tailing pond and the like can be carried out; after the city grade auditing and surveying layer gathers and confirms to be submitted to provincial emergency management department, the auditing state is changed into confirmed city; returning is directly returning to the users of the tailing pond enterprises, the auditing state is changed into returning and modifying, and the returned tailing pond enterprises need to report again according to the reporting flow; after receiving the data which are confirmed to be submitted and reported by the market level auditing and surveying layer, the provincial user can check, edit, return, summarize, confirm and submit the information of the tailing pond which is confirmed to be submitted by the market level auditing and surveying layer; the provincial users gather and confirm to submit to the department level emergency management department, and the audit state is changed into provincial confirmed state; returning is directly returned to the users of the tailing pond enterprises, the auditing state is changed into returning modification, and the returned tailing pond enterprises need to report again according to the reporting flow;

and the tailing pond investigation and confirmation unit is used for carrying out online investigation and confirmation on the tailing pond data according to the multi-level auditing result to finish the online investigation on the tailing pond data.

Compared with the prior art, the invention at least comprises the following beneficial effects:

the invention relates to an online survey system for data of a tailing pond, which is characterized in that basic information of the data of the tailing pond is collected online by a distributed data collecting terminal through a tailing pond data information collecting subsystem; the satellite map position contour marking subsystem integrates basic data information of the tailing pond and a high-resolution satellite map, and position contour marking of the tailing pond and the on-line monitoring equipment is carried out through a position contour marking module to obtain a position contour map of the tailing pond and the on-line monitoring equipment; the tailing pond data image summarizing subsystem summarizes basic information of tailing pond data, a tailing pond and an on-line monitoring equipment position outline drawing to obtain tailing pond data image summarizing information; the online management and submission and examination subsystem is used for transmitting the summarized information of the images of the data of the tailing pond to the display for display, and performing online management, data submission and examination confirmation on the data of the tailing pond through the online management module to finish online investigation on the data of the tailing pond; the basic conditions of the national tailings ponds and the installation, operation, application and the like of the monitoring equipment and the online monitoring system of the tailings ponds can be investigated and known in a large-scale and consistent manner; the basic information of the data of the tailing pond can be more comprehensively collected through various information searching and inputting modes; tailing pond data with missed registration entry, unregistered entry and inaccurate registration entry can be identified; the accurate base number of the national tailings pond and the accurate construction and application condition of an online monitoring system can be further comprehensively and accurately counted.

Other advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a block diagram of an online investigation system for data of a tailing pond according to the invention.

Fig. 2 is a diagram of a multi-level audit investigation unit in an embodiment of an online tailings pond data investigation system according to the invention.

Fig. 3 is a diagram of an example of a satellite map position outline labeling subsystem of an online survey system for tailings pond data.

Fig. 4 is an example diagram of a tailing pond data image summarizing subsystem of an online tailing pond data investigation system according to the present invention.

Fig. 5 is an example diagram of an online management and submission auditing subsystem of an online survey system for data of a tailing pond according to the present invention.

Detailed Description

The present invention is further described in detail below with reference to the drawings and examples so that those skilled in the art can implement the invention with reference to the description; as shown in fig. 1-3, the present invention provides an online investigation system for tailings pond data, comprising:

a tailing pond data information collecting subsystem collects basic information of tailing pond data on line through a distributed data collecting terminal;

the satellite map position contour marking subsystem integrates basic data information of the tailing pond and a high-grade satellite map, and carries out position contour marking on the tailing pond and the on-line monitoring equipment through a position contour marking module to obtain a position contour map of the tailing pond and the on-line monitoring equipment;

the tailing pond data image summarizing subsystem summarizes basic information of tailing pond data, a tailing pond and an on-line monitoring equipment position outline drawing to obtain tailing pond data image summarizing information;

and the online management and submission and examination subsystem is used for transmitting the summarized information of the images of the data of the tailing pond to a display for displaying, and performing online management, data submission and examination confirmation on the data of the tailing pond through an online management module to finish online investigation on the data of the tailing pond.

The working principle of the technical scheme is as follows: the invention relates to an online survey system for data of a tailing pond, wherein a tailing pond data information collecting subsystem and a satellite image position outline marking subsystem are in data transmission communication, and data are transmitted to a tailing pond data image summarizing subsystem; the satellite map position contour labeling subsystem and the tailing pond data image summarizing subsystem are in data transmission communication; the online management and submission auditing subsystem is respectively in data transmission communication with the tailing pond data image summarizing subsystem, the tailing pond data information collecting subsystem and the satellite map position contour labeling subsystem; the system comprises a tailing pond data information collecting subsystem and a distributed data collecting terminal, wherein the tailing pond data information collecting subsystem collects basic information of tailing pond data on line through the distributed data collecting terminal, and the distributed data collecting terminal comprises: the device terminal, the network terminal and the mobile terminal are used for collecting basic data information of the tailing pond on line through automatic searching or information input; the satellite map position contour marking subsystem integrates basic data information of a tailing pond and a high-resolution satellite map, position contour marking of the tailing pond and the online monitoring equipment is carried out through a position contour marking module, a tailing pond and the online monitoring equipment position contour map is obtained, and the integration of the basic data information of the tailing pond and the high-resolution satellite map comprises the following steps: identifying a tailing pond generally built in a remote area by utilizing an optical remote sensing technology combining high spatial resolution, multispectral and high temporal resolution; the position region map marking region position character information of the tailing pond is less, the multi-load image splicing and fusion technology and the high-resolution data processing are applied to the tailing pond inputting and collecting data technology, the position region information contained in the existing high-resolution satellite map in the basic information of the tailing pond data and the position region information not contained in the existing high-resolution satellite map are integrated, and the map is calibrated through information identification or manual marking; the position area information not included in the existing high-score satellite map includes: the existing map has no text description corresponding to a remote detailed position, and the existing map has no text description corresponding to an irregular specific area; the tailing pond data image summarizing subsystem summarizes basic information of tailing pond data, a tailing pond and an on-line monitoring equipment position outline drawing to obtain tailing pond data image summarizing information; carrying out image intelligent analysis and identification through a high-resolution satellite map according to map image characteristics of a tailing pond, identifying a map identification tailing pond position area with the map image characteristics of the tailing pond, comparing the position area of the map identification tailing pond and position range data information corresponding to the position area of the map identification tailing pond with the data information of the existing tailing pond, intelligently identifying and identifying the tailing pond without registered marks, and further auditing and investigating; the online management and submission and examination subsystem is used for transmitting the summarized information of the images of the data of the tailing pond to the display for display, and performing online management, data submission and examination confirmation on the data of the tailing pond through the online management module to finish online investigation on the data of the tailing pond; the survey system comprises functions of tailing pond enterprise basic information filling, online monitoring equipment information filling, online monitoring system construction operation condition information filling, tailing pond position calibration, tailing pond outline calibration, online monitoring equipment position calibration, tailing pond basic information filling, gathering statistics, calibration result viewing and the like; the first batch of tailings ponds and overhead ponds with the volume of three or more are mainly filled; the functions of auditing, confirming, summarizing and submitting and the like of emergency management departments of all parts; the investigation system is divided into 5 types of users such as department level, provincial level, prefecture level, district level and county level emergency management department users and tailing pond enterprise users, wherein the emergency management department users do not need to register, account numbers are distributed by the system, and the enterprise users need to register by themselves; and various data are filled, audited and submitted according to the operation flow.

The beneficial effects of the above technical scheme are: the invention relates to an online survey system for tailing pond data, which is characterized in that basic information of tailing pond data is collected online through a tailing pond data information collecting subsystem and a distributed data collecting terminal; the satellite map position contour marking subsystem integrates basic data information of the tailing pond and a high-grade satellite map, and carries out position contour marking on the tailing pond and the on-line monitoring equipment through a position contour marking module to obtain a position contour map of the tailing pond and the on-line monitoring equipment; the tailing pond data image summarizing subsystem summarizes basic information of tailing pond data, a tailing pond and an on-line monitoring equipment position outline drawing to obtain tailing pond data image summarizing information; the online management and submission and examination subsystem is used for transmitting the summarized information of the images of the data of the tailing pond to a display for displaying, and performing online management, data submission and examination confirmation on the data of the tailing pond through an online management module to finish online investigation on the data of the tailing pond; the basic conditions of the national tailings ponds and the installation, operation, application and the like of the monitoring equipment and the online monitoring system of the tailings ponds can be investigated and known in a large-scale and consistent manner; identifying tailing pond data with missed registration entry, unregistered entry and inaccurate registration entry; the accurate base number of the national tailings pond and the accurate construction and application condition of an online monitoring system can be further comprehensively and accurately counted.

In one embodiment, the tailings pond data information collecting subsystem comprises:

the distributed terminal IP identification subsystem is used for identifying the IP address of the access terminal through the online network access terminal to obtain an online network IP identification result;

the terminal data registration interface subsystem is used for starting a network terminal registration interface module according to the online network IP identification result and performing network terminal entry registration;

and the system login data entry subsystem is used for performing system login entry after the network terminal completes entry and registration and performing online collection of basic data information of the tailing pond.

The working principle of the technical scheme is as follows: shielding the difference of the network terminal physical address through the terminal IP address, and identifying the access terminal IP address by the online network access terminal to obtain an online network IP identification result; starting a network terminal registration interface module according to the online network IP identification result through the Internet protocol address to perform network terminal input registration; after the logging-in registration of the network terminal is completed, logging-in of a system is carried out, and basic data information of the tailing pond is collected on line; the method for collecting the basic information of the data of the tailings pond on line comprises the following steps: and the data of the tailing pond is automatically collected, the data of the tailing pond is manually collected and/or the basic information of the tailing pond is manually input.

The beneficial effects of the above technical scheme are: shielding the difference of the physical addresses of the network terminals through the IP addresses of the terminals, and identifying the IP addresses of the access terminals by the online network access terminals; the online network IP identification result is input and registered by the network terminal through the Internet protocol address; after the logging registration is completed, the logging in of the system is carried out at the network terminal, and the basic information of the tailing pond data is collected on line; through automatic collection of the data of the tailing pond, manual collection of the data of the tailing pond and/or manual input of basic information of the tailing pond, the basic information of the data of the tailing pond can be collected more comprehensively through various information searching and inputting modes.

In one embodiment, the satellite map position labeling subsystem comprises:

the basic information satellite map integration subsystem is used for searching and integrating basic information and high-grade satellite maps of the tailing pond data through the data information map position;

the system comprises a tailing pond and monitoring equipment calibration subsystem, a position contour marking module and a data processing subsystem, wherein the tailing pond and monitoring equipment calibration subsystem is used for calibrating the position contour of a tailing pond and an online monitoring equipment through the position contour marking module;

and the position contour map generating and adjusting subsystem is used for calibrating the position contour map to generate a calibration image, adjusting according to image display, and obtaining the position contour map of the tailings pond and the online monitoring equipment after the adjustment is completed.

The working principle of the technical scheme is as follows: the basic information satellite map integration subsystem searches and integrates basic information and a high-grade satellite map of the tailing pond data through the position of the data information map; the system comprises a tailing pond and monitoring equipment calibration subsystem, a position contour marking module and a data processing module, wherein the tailing pond and the monitoring equipment calibration subsystem is used for calibrating the position contour of the tailing pond and the online monitoring equipment; the position contour map generation and adjustment subsystem is used for calibrating the position contour to generate a calibration image, adjusting according to image display, and obtaining a position contour map of the tailings pond and the on-line monitoring equipment after adjustment is completed; the method comprises the steps of integrating basic data information of a tailing pond and a high-score satellite map, calibrating position outlines of the tailing pond and on-line monitoring equipment through a position outline marking module to obtain a position outline map of the tailing pond and the on-line monitoring equipment, and integrating the basic data information of the tailing pond and the high-score satellite map comprises the following steps: identifying a tailing pond generally built in a remote area by utilizing an optical remote sensing technology combining high spatial resolution, multispectral and high temporal resolution; the position region map marking region position character information of the tailing pond is less, the multi-load image splicing and fusion technology and the high-resolution data processing are applied to the tailing pond inputting and collecting data technology, the position region information contained in the existing high-resolution satellite map in the basic information of the tailing pond data and the position region information not contained in the existing high-resolution satellite map are integrated, and the map is calibrated through information identification or manual marking; the position area information not included in the existing high-score satellite map includes: the existing map has no text description corresponding to a remote detailed position, and the existing map has no text description corresponding to an irregular specific area.

The beneficial effects of the above technical scheme are: the basic information satellite map integration subsystem searches and integrates basic data information and a high-resolution satellite map of the tailing pond through the position of the data information map, and can identify the tailing pond usually built in a remote area by utilizing an optical remote sensing technology combining high spatial resolution, multispectral and high temporal resolution; the system comprises a tailing pond and monitoring equipment calibration subsystem, a position contour marking module and a data processing module, wherein the tailing pond and the monitoring equipment calibration subsystem is used for calibrating the position contour of the tailing pond and the online monitoring equipment; the position contour map generation and adjustment subsystem is used for calibrating the position contour to generate a calibration image, adjusting according to image display, and obtaining a position contour map of the tailing pond and the online monitoring equipment after adjustment is completed; the method is applied to a tailing pond input and collection data technology through a multi-load image splicing and fusion technology and high-resolution data processing, can integrate position area information contained in the existing high-resolution satellite map in basic information of tailing pond data and position area information not contained in the existing high-resolution satellite map, and carries out map calibration through information identification or manual marking; the accurate position and the regional information of the remote area where the tailing pond is located can be obtained, and the position outline of the tailing pond and the online monitoring equipment can be further perfected and calibrated.

In one embodiment, the tailings pond data image summarizing subsystem comprises:

the information marking online detection subsystem is used for detecting the basic information of the data of the tailing pond and the information marking consistency of the position contour map of the tailing pond and the online monitoring equipment on line;

the online detection result judgment subsystem is used for judging the online detection result of the consistency of the information labels to obtain the judgment result of the consistency of the information labels;

and the consistent data image summarizing subsystem is used for summarizing the basic information of the data of the tailing pond, the position outline drawing of the tailing pond and the online monitoring equipment when the judgment result of the consistency of the information labels passes, and summarizing information of the data images of the tailing pond is obtained.

The working principle of the technical scheme is as follows: the information marking online detection subsystem is used for detecting the basic information of the tailing pond data and the information marking consistency of the tailing pond and the position contour diagram of the online monitoring equipment on line; the online detection result judgment subsystem judges the online detection result of the consistency of the information labels to obtain the judgment result of the consistency of the information labels; the consistent data image summarizing subsystem is used for summarizing basic data information of the tailing pond, a tailing pond and an online monitoring device position outline drawing when the information labeling consistency judgment result passes, and summarizing information of the tailing pond data image is obtained; the method comprises the steps of carrying out intelligent image analysis and identification through a high-resolution satellite map according to map image features of a tailing pond, identifying a map identification tailing pond position area with the map image features of the tailing pond, comparing the position range data information corresponding to the map identification tailing pond position area and the map identification tailing pond position area with the existing tailing pond data information, intelligently distinguishing and identifying a tailing pond without registered marks, and further auditing and surveying.

The beneficial effects of the above technical scheme are: the consistency of basic data information of the tailing pond and information labels of a position outline drawing of the tailing pond and the online monitoring equipment can be detected; judging the information labeling consistency online detection result; when the judgment result of the consistency of the information labels passes, summarizing basic information of the tailing pond data, a tailing pond and an on-line monitoring equipment position outline drawing; carrying out intelligent image analysis and identification through a high-resolution satellite map according to map image characteristics of a tailing pond, identifying a map identification tailing pond position area with the map image characteristics of the tailing pond, comparing the position area of the map identification tailing pond and position range data information corresponding to the position area of the map identification tailing pond with the existing tailing pond data information, intelligently distinguishing and identifying a tailing pond without registered marks, and further auditing and investigating; the tailing pond data with missed registration entry, unregistered entry and inaccurate registration entry can be identified in a large range, and the consistency of information labeling is improved.

In one embodiment, the online management and submission auditing subsystem includes:

the terminal and network transmission display subsystem is used for transmitting the data image summary information of the tailing pond to the display for display through the data collection terminal and the data transmission network;

the tailing pond data online management subsystem is used for performing online management on tailing pond data through an online management module;

and the multilayer submitting and auditing confirmation subsystem is used for carrying out multilayer data submitting and multilayer auditing confirmation on the data image summary information of the tailing pond to finish the online investigation of the data of the tailing pond.

The working principle of the technical scheme is as follows: transmitting the data image summary information of the tailing pond to a display for displaying through a data collecting terminal and a data transmission network; performing online management on data of the tailings pond through an online management module; and carrying out multilevel data submission and multilevel audit confirmation on the data image summary information of the tailing pond to finish the online investigation of the data of the tailing pond.

The beneficial effects of the above technical scheme are: transmitting the data image summary information of the tailing pond to a display for displaying by using a terminal and a network transmission display and a data collecting terminal and a data transmission network; the online management of the data of the tailing pond and the online management of the data of the tailing pond can be carried out; and multi-layer submission and audit confirmation, namely performing multi-layer data submission and multi-layer audit confirmation on the data image summary information of the tailing pond, and performing complete and comprehensive online investigation on the tailing pond data.

In one embodiment, the system login data entry subsystem comprises:

the network terminal login unit is used for performing system login after the network terminal data registration is finished;

the data entry navigation unit is used for carrying out data entry navigation after the system logs in; the data entry navigation includes: basic information filling navigation and on-line monitoring system construction operation condition filling navigation;

the data entry and collection unit is used for entering data of the tailing pond according to navigation; the tailing pond data entry comprises the following steps: inputting basic information of a tailing pond and inputting construction and operation conditions of an online monitoring system; and carrying out on-line collection of basic data information of the tailings pond.

The working principle of the technical scheme is as follows: after the data registration of the network terminal is completed, the system network terminal logs in; the data entry navigation is performed after the system logs in through semantic accurate identification data entry navigation; the data entry navigation includes: basic information filling navigation and on-line monitoring system construction operation condition filling navigation; performing tailing pond data entry according to navigation through data entry collection; the tailing pond data entry comprises the following steps: inputting basic information of the tailings pond and inputting the construction and operation conditions of an online monitoring system, and collecting basic information of the tailings pond data online.

The beneficial effects of the above technical scheme are: basic information filling navigation and on-line monitoring system construction operation condition filling navigation can be performed more quickly and efficiently through semantic accurate identification data navigation; the data entry efficiency of the tailing pond is higher according to the navigation; basic information of the tailings pond and construction and operation conditions of an online monitoring system are input, so that basic information of the tailings pond data can be collected online in many aspects; the accurate base number of the national tailings pond and the accurate construction and application condition of an online monitoring system can be further comprehensively and accurately counted.

In one embodiment, the tailings pond and monitoring equipment calibration subsystem comprises:

the position contour labeling navigation unit is used for creating a position contour labeling module and carrying out position calibration navigation on the tailing pond and the monitoring equipment;

the position outline calibration prompting unit is used for selecting a tailing pond to be calibrated, displaying the position of the tailing pond on a map and selecting the position of the calibrated tailing pond; through a position outline marking module, marking a point in a map to select an outline and prompting after the outline is closed; the position outline labeling module comprises: the multi-level map model building sub-module, the map area rasterization sub-module and the map area multi-level aggregation sub-module can respectively transmit data in pairs;

the multi-level map model building submodule is used for building a multi-level high-grade satellite map model; selecting a high-grade satellite map range, and constructing a multi-grade high-grade satellite map model in the range, wherein the multi-grade high-grade satellite map model comprises two steps of global multi-grade map area division and global multi-grade map area coding;

the map area rasterization submodule is used for rasterizing the planar target; the method comprises the following steps of calculating a planar target boundary map area, calculating a planar target internal map area and combining the planar target internal map area and the planar target boundary map area: the calculation of the boundary map area of the planar target is based on the latitude interval and longitude interval of a certain level map area, the boundary point set of the planar target is taken as a closed broken line, and the gridding map area of the broken line is calculated; the step of calculating the internal map area of the planar target is to obtain a planar target bounding box, calculate the line number range of the planar target under the level and comprise the maximum line number and the minimum line number, and sequentially calculate the internal map area of the planar target by traversing the line range; merging the internal map area of the planar target and the boundary map area of the planar target, wherein the merged map area is used as a result of the rasterization map area of the planar target at the level;

the map area multi-level aggregation sub-module is used for aggregating multi-level rasterized map areas; according to the step of rasterizing the planar target in the second step, calculating rasterized map areas of the planar target of each level in sequence, and aggregating the rasterized map areas upwards from the nth level in sequence until reaching the 1 st level map area to obtain an aggregated rasterized map area result, wherein the steps of judging the relationship of the adjacent levels of map areas, aggregating and selecting the map areas comprise: judging whether the parent-child relationship of the adjacent level map areas meets the aggregation condition or not; selecting map areas which are not successfully aggregated in the next level by aggregating adjacent level rasterized map areas, and forming a new set of the map areas successfully aggregated in the previous level to participate in the aggregation process until the level 1 map area; selecting a map area successfully aggregated in the level 1;

the online monitoring equipment calibration unit is used for selecting a tailing pond, clicking to select the type of equipment to be calibrated, positioning the equipment on a map according to the actual geographical position of the installation of the online monitoring equipment, and prompting to input equipment information; and calibrating the position profiles of the tailing pond and the on-line monitoring equipment.

The working principle of the technical scheme is as follows: establishing a position contour marking module through position contour marking, and carrying out position calibration navigation on a tailing pond and monitoring equipment; the position outline calibration prompts to select a tailing pond to be calibrated, the position of the tailing pond is displayed on a map, and the position of the tailing pond is selected to be calibrated; marking a designated outline in the map through the position outline mark and prompting after the outline is closed; the position outline labeling module comprises: a multi-level map model building submodule for building a multi-level high-grade satellite map model; selecting a high-level satellite map range, and constructing a multi-level high-level satellite map model in the range, wherein the multi-level satellite map model comprises two steps of global multi-level map area division and global multi-level map area coding; rasterizing a planar target in a map area; the method comprises the following steps of calculating a planar target boundary map area, calculating a planar target internal map area and combining the planar target internal map area and the planar target boundary map area: the calculation of the boundary map area of the planar target is based on the latitude interval and longitude interval of a certain level map area, the boundary point set of the planar target is taken as a closed broken line, and the gridding map area of the broken line is calculated; the step of calculating the internal map area of the planar target is to obtain a planar target bounding box, calculate the line number range of the planar target under the level and comprise the maximum line number and the minimum line number, and sequentially calculate the internal map area of the planar target by traversing the line range; merging the internal map area of the planar target and the boundary map area of the planar target, wherein the merged map area is used as a result of the rasterization map area of the planar target at the level; the map area multi-level aggregation sub-module is used for aggregating multi-level rasterized map areas; according to the step of rasterizing the planar target in the step two, calculating the rasterized map area of the planar target of each level in sequence, and the steps of judging the relationship between the map areas of adjacent levels, aggregating and selecting the map areas comprise: judging whether the parent-child relationship of the adjacent level map areas meets the aggregation condition or not; selecting map areas which are not successfully aggregated in the next level by aggregating adjacent hierarchical rasterized map areas, forming a new set of map areas successfully aggregated in the previous level to participate in an aggregation process, and selecting map areas successfully aggregated; the online monitoring equipment calibration unit selects the tailing pond through map pixel division, clicks and selects the equipment type to be calibrated, positions the equipment on a map according to the actual geographical position of the online monitoring equipment installation, and prompts to input equipment information; and calibrating the position profiles of the tailing pond and the on-line monitoring equipment.

The beneficial effects of the above technical scheme are: the position outline marking navigation can be used for carrying out position marking navigation on a tailing pond and monitoring equipment, so that the position outline marking efficiency is improved; displaying the position of the tailings pond on a map in more detail; prompting after the outline is closed can avoid the inexact and untimely manual judgment; the position outline labeling module comprises: the multi-level map model building submodule is used for building a multi-level high-grade satellite map model; selecting a high-grade satellite map range, and constructing a multi-grade high-grade satellite map model in the range, wherein the multi-grade high-grade satellite map model comprises two steps of global multi-grade map area division and global multi-grade map area coding; the map area rasterization sub-module is used for rasterizing the planar target; the method comprises the following steps of calculating a planar target boundary map area, calculating a planar target internal map area and combining the planar target internal map area and the planar target boundary map area: the calculation of the boundary map area of the planar target is based on the latitude interval and longitude interval of a certain level map area, the boundary point set of the planar target is taken as a closed broken line, and the gridding map area of the broken line is calculated; the step of calculating the internal map area of the planar target is to obtain a planar target bounding box, calculate the line number range of the planar target under the level and comprise the maximum line number and the minimum line number, and sequentially calculate the internal map area of the planar target by traversing the line range; merging the internal map area of the planar target and the boundary map area of the planar target, wherein the merged map area is used as a result of the rasterization map area of the planar target at the level; the map area multi-level aggregation sub-module is used for aggregating multi-level rasterized map areas; according to the step of rasterizing the planar target in the second step, calculating rasterized map areas of the planar target of each level in sequence, and aggregating the rasterized map areas upwards from the nth level in sequence until reaching the 1 st level map area to obtain an aggregated rasterized map area result, wherein the steps of judging the relationship of the adjacent levels of map areas, aggregating and selecting the map areas comprise: judging whether the parent-child relationship of the adjacent level map areas meets the aggregation condition or not; selecting map areas which are not successfully aggregated in the next level by aggregating adjacent level rasterized map areas, and forming a new set of the map areas successfully aggregated in the previous level to participate in the aggregation process until the level 1 map area; selecting a map area successfully aggregated in the level 1; the online monitoring equipment calibration unit is used for selecting a tailing pond, clicking to select the type of equipment to be calibrated, positioning the equipment on a map according to the actual geographical position of the installation of the online monitoring equipment, and prompting to input equipment information; calibrating the position profiles of the tailing pond and the on-line monitoring equipment; the position contour marking navigation can improve the position contour marking efficiency; displaying the position of the tailings pond on a map in more detail; prompting after the outline is closed can avoid the situation that artificial judgment is not specific and accurate, and the position outline area calibration of the tailing pond and the online monitoring equipment can be carried out more accurately in time.

In one embodiment, the information labeling online detection subsystem comprises:

the satellite map tailing pond searching unit is used for searching a high-resolution satellite map according to the geographical position information of the tailing pond and the description information of the tailing pond in the basic information of the tailing pond data to obtain a satellite map tailing pond searching map;

the intelligent model unit of the position contour map is used for intelligently comparing and detecting the search map of the satellite map tailings pond, the tailings pond and the position contour map of the on-line monitoring equipment to obtain an intelligent detection model of the satellite position contour;

the information and mark on-line detection unit is used for detecting the consistency of the basic information of the data of the tailings pond and the information marks of the position contour map of the tailings pond and the on-line monitoring equipment on line through a satellite position contour intelligent detection model; calculating basic information of the tailing pond data and information labeling consistency coefficient values of a tailing pond and an online monitoring equipment position contour diagram, wherein the calculation formula is as follows:

fgik is the basic information of the data of the tailings pond and the information labeling consistency coefficient value of the position contour map of the tailings pond and the online monitoring equipment, mgik is the total position number of a group of tailings pond and the online monitoring equipment which are compared with a search map of the satellite map tailings pond, ek is the kth position error value of the search map of the satellite map tailings pond, eko is the average value of the K position errors of the search map of the satellite map tailings pond, dki is the ith position error corresponding to the kth position of the position contour map of the tailings pond and the online monitoring equipment and the search map of the satellite map tailings pond, dkio is the average value of the i position errors corresponding to the K positions of the tailings pond and the online monitoring equipment, cek is the position standard difference between Ek and Eko, and Cdki is the position standard difference between Dki and Dkio; if the value of the consistency coefficient of the basic information of the data of the tailing pond and the information labels of the position contour diagrams of the tailing pond and the online monitoring equipment is larger, the consistency of the basic information of the data of the tailing pond and the information labels of the position contour diagrams of the tailing pond and the online monitoring equipment is higher.

The working principle of the technical scheme is as follows: the satellite map tailing pond searching unit searches a high-resolution satellite map through a search engine according to the geographical position information of the tailing pond and the description information of the tailing pond in the basic information of the tailing pond data to obtain a satellite map tailing pond search map; the intelligent model unit of the position contour map intelligently compares and detects the search map of the satellite map tailings pond, the tailings pond and the position contour map of the on-line monitoring equipment through the intelligent comparison of the graphic boundary constraint to obtain an intelligent detection model of the satellite position contour; the information and mark on-line detection unit detects the consistency of the basic data information of the tailings pond and the information mark of the position contour map of the tailings pond and the on-line monitoring equipment on line through a satellite position contour intelligent detection model; calculating basic information of the tailing pond data and information labeling consistency coefficient values of a tailing pond and an online monitoring equipment position contour diagram, wherein the calculation formula is as follows:

fgik is the basic information of the data of the tailings pond and the information labeling consistency coefficient value of the position contour map of the tailings pond and the online monitoring equipment, mgik is the total position number of a group of tailings pond and the online monitoring equipment which are compared with a search map of the satellite map tailings pond, ek is the kth position error value of the search map of the satellite map tailings pond, eko is the average value of the K position errors of the search map of the satellite map tailings pond, dki is the ith position error corresponding to the kth position of the position contour map of the tailings pond and the online monitoring equipment and the search map of the satellite map tailings pond, dkio is the average value of the i position errors corresponding to the K positions of the tailings pond and the online monitoring equipment, cek is the position standard difference between Ek and Eko, and Cdki is the position standard difference between Dki and Dkio; if the values of the basic information of the data of the tailing pond and the information labeling consistency coefficient of the position contour diagrams of the tailing pond and the online monitoring equipment are larger, the higher the consistency of the basic information of the data of the tailing pond and the information labeling of the position contour diagrams of the tailing pond and the online monitoring equipment is; and the consistency and the rationality of the labeling are improved through information comparison.

The beneficial effects of the above technical scheme are: searching a high-grade satellite map according to the geographical position information of the tailing pond and the description information of the tailing pond in the basic information of the tailing pond data; intelligently comparing and detecting a satellite map tailing pond search graph, a tailing pond and an online monitoring equipment position outline graph; detecting basic data information of a tailing pond and information marking consistency of a tailing pond and an online monitoring equipment position contour diagram on line through a satellite position contour intelligent detection model; calculating basic data information of the tailing pond and information labeling consistency coefficient values of a position contour diagram of the tailing pond and the online monitoring equipment; if the values of the basic information of the data of the tailing pond and the information labeling consistency coefficient of the position contour diagrams of the tailing pond and the online monitoring equipment are larger, the higher the consistency of the basic information of the data of the tailing pond and the information labeling of the position contour diagrams of the tailing pond and the online monitoring equipment is; the consistency of the information labeling of the tailing pond can be better, and the judgment is more reasonable and accurate.

In one embodiment, the online tailings pond data management subsystem comprises:

the tailing pond enterprise layer online management unit is used for navigating the online monitoring equipment installed in the selected tailing pond to the marked monitoring equipment list data through the online management module to perform enterprise layer online management;

the online management unit of district and county level of the tailing pond is used for navigating the online monitoring equipment installed in the selected tailing pond to the equipment information data filled by tailing pond enterprises to perform online management of district and county level;

the system comprises a mine waste warehouse provincial and municipal layer online management unit, a city waste warehouse provincial and municipal layer online management unit and a city waste warehouse provincial and municipal layer online management unit, wherein the mine waste warehouse provincial and municipal layer online management unit is used for editing or checking marked monitoring equipment information which is submitted by navigating online monitoring equipment installed in a selected mine waste warehouse to district and county layer online management confirmation, and performing provincial and municipal layer online management; the online management module comprises: the first-layer online management module is used for defining a tailing pond database and a map database service, wherein the tailing pond database points to an online monitoring equipment database, and the map database points to a map database of each application module; configuring a system server cluster of each application module and an online management unit of an enterprise level of a tailing pond, wherein the externally provided model data of each application module has a distributed characteristic; completing the mapping relation between each attribute of the data and the corresponding structures of the tailing pond database and the map database through the access interface of the relation and map database; a general processing flow module for compiling various data; compiling data check sum data operation models of a tailing pond database and a map database; the tailing pond database meets the basic characteristics of affairs through the self characteristics of the commercial on-line monitoring equipment database; the map database simulates a plurality of semantic operations of the tailing database through a mechanism of a platform, and defines a plurality of data management operations, so that the map database is ensured to meet the basic characteristics of transactions; configuring a data propagation process: firstly, submitting change data to a distributed application module system server cluster by a tailing pond enterprise layer online management unit, wherein the system server cluster is used as a system data management center of service at the moment, and performing incremental data transmission on each sub-service needing the change data in the whole system and the tailing pond enterprise layer online management unit until the transverse consistency of the system data is achieved; the propagation from the system data management center to each tailing pond enterprise layer online management unit adopts a subscription mode, the tailing pond enterprise layer online management units register in the system data management center at first, and after the system data management center receives incremental change data operation, incremental information is sent to each tailing pond enterprise layer online management unit until the longitudinal consistency of system data is achieved; the same type of data requires submitting data to multiple map database applications.

The working principle of the technical scheme is as follows: the online management unit of the enterprise level of the tailing pond navigates the online monitoring equipment installed in the selected tailing pond to the list data of the marked monitoring equipment through the online management module to perform online management of the enterprise level; a district and county level online management unit of the tailing pond performs district and county level online management on the equipment information data which is obtained by navigating the online monitoring equipment installed in the selected tailing pond to the enterprise of the tailing pond; the online management unit of provincial and municipal levels of the tailing pond is used for editing or checking the information of the marked monitoring equipment which is selected and installed by the online monitoring equipment installed in the tailing pond and is navigated to the district and county level online management and confirmed to be submitted, and the provincial and municipal level online management is carried out; the online management module comprises: the first-layer online management module is used for defining a tailing pond database and a map database service, wherein the tailing pond database points to an online monitoring equipment database, and the map database points to a map database of each application module; configuring a system server cluster of each application module and a tailing pond enterprise layer online management unit, wherein model data externally provided by each application module has a distributed characteristic; completing the mapping relation between each attribute of the data and the corresponding structures of the tailing pond database and the map database through the access interface of the relation and map database; a general processing flow module for compiling various data; compiling data check and data operation models of a tailing database and a map database; the tailing pond database meets the basic characteristics of affairs through the self characteristics of the commercial on-line monitoring equipment database; the map database simulates a plurality of semantic operations of the tailing database through a mechanism of a platform, and defines a plurality of data management operations, so that the map database is ensured to meet the basic characteristics of transactions; configuring a data propagation process: firstly, submitting change data to a distributed system server cluster of a certain application module by an enterprise layer online management unit of the tailing pond, wherein the system server cluster is used as a system data management center of service at the moment, and performing incremental data transmission on each sub-service needing the change data in the whole system and the enterprise layer online management unit of the tailing pond until the transverse consistency of the system data is achieved; the propagation from the system data management center to each tailing pond enterprise layer online management unit adopts a subscription mode, the tailing pond enterprise layer online management units register in the system data management center at first, and after the system data management center receives incremental change data operation, incremental information is sent to each tailing pond enterprise layer online management unit until the longitudinal consistency of system data is achieved; the same type of data requires submitting data to multiple map database applications.

The beneficial effects of the above technical scheme are: navigating the online monitoring equipment installed in the selected tailing pond to the marked monitoring equipment list data to perform enterprise layer online management; navigating the online monitoring equipment installed in the selected tailing pond to the equipment information data filled by the tailing pond enterprises to perform regional and county level online management; editing or checking marked monitoring equipment information which is provided by navigating the online monitoring equipment installed in the selected tailing pond to the district and county level online management and affirming, and performing provincial and city level online management; timely online management can be performed; the model data has a distributed characteristic and is large-scale and high in efficiency; completing the mapping relation between each attribute of the data and the corresponding structures of the tailing pond database and the map database through the access interface of the relation and map database; a general processing flow module for compiling various data; compiling data check and data operation models of a tailing database and a map database; the basic characteristics of database transactions of the tailing pond can be met; the tailing pond enterprise layer online management unit submits the change data to a distributed application module system server cluster, the system server cluster is used as a system data management center of service at the moment, and incremental data transmission is carried out on each sub-service needing the change data in the whole system and the tailing pond enterprise layer online management unit until the transverse consistency of the system data is achieved; the propagation from the system data management center to each tailing pond enterprise layer online management unit adopts a subscription mode, the tailing pond enterprise layer online management units register in the system data management center at first, and after the system data management center receives incremental change data operation, incremental information is sent to each tailing pond enterprise layer online management unit until the longitudinal consistency of system data is achieved; the same kind of data needs to submit data to a plurality of map database applications; the data of the tailings pond and the installation, operation and application information data of the monitoring equipment and the online monitoring system of the tailings pond can be managed on line in multiple levels.

In one embodiment, the multi-tiered submission and audit validation subsystem includes:

the multilevel submitting unit is used for submitting multilevel data of the tailing pond data image summary information to obtain multilevel submitted nuclear data to be examined; multilevel data commit includes: enterprise layer data submission, district and county layer data submission and city and province layer data submission; submitting enterprise layer data, confirming and submitting basic information, system construction operation conditions, tailing pond position calibration, outline boundary calibration and monitoring equipment calibration through navigation gathering, obtaining enterprise layer submitted to-be-examined data, and transmitting the data to a multi-level examination and investigation unit; performing auditing treatment, wherein the operation of modification and deletion cannot be performed in the process of submitting auditing; submitting county layer data, and confirming and submitting basic information lists of all enterprise layer tailing pond in the county layer data and system construction operation condition lists through navigation gathering; obtaining the data to be audited submitted by the district and county level audit after the district and county level audit is passed, submitting the data to be audited submitted by the district and county level audit and transmitting the data to be audited to a multi-level audit investigation unit; submitting the data of the provincial level of the city, confirming all the areas and counties of the tailing pond to the local city level examination and investigation layer, passing the grade examination, submitting the data to the provincial level emergency management department after confirming that the data are not wrong, and submitting all the tailing pond information to the provincial level emergency management department after confirming that the data are submitted; for provincial users, all the tailings ponds and cities are confirmed and pass the grade audit, and can be submitted to the department-level emergency management department only after the confirmation is correct, and after the confirmation is submitted, all the tailings ponds and cities are submitted to the department-level emergency management department;

the multilevel auditing and surveying unit is used for transmitting multilevel submitted to-be-audited data to a multilevel auditing and surveying layer by layer for multilevel auditing; the multi-level audit investigation layer comprises: the system comprises a county level tailing pond data auditing and surveying layer, a city provincial level tailing pond data auditing and surveying layer and a ministry level tailing pond data auditing and surveying layer; after receiving data reported by users of a tailing pond enterprise, the county-level tailing pond data auditing and surveying layer can return, edit, summarize, confirm and submit the submitted information of the tailing pond of the enterprise and the like; after the basic information, the system construction operation condition and the position are independently checked, the page checking state is changed into that the checking is passed, and the information reported by the users of the tailing pond enterprises can not be modified; after the district-county level gathering confirmation is submitted to a city-level emergency management department, the checking state is changed into district-county confirmed state; returning is directly returned to the users of the tailing pond enterprises, the auditing state is changed into returning modification, and the returned tailing pond enterprises need to report again according to the reporting flow; after the municipal level audit survey layer receives the data which are confirmed to be submitted and reported by the county level tailing pond data audit survey layer, the operations of checking, editing, returning, summarizing, confirming and submitting the information of the county level tailing pond and the like can be carried out; after the city grade auditing and surveying layer gathers and confirms to be submitted to provincial emergency management department, the auditing state is changed into confirmed city; returning is directly returned to the users of the tailing pond enterprises, the auditing state is changed into returning modification, and the returned tailing pond enterprises need to report again according to the reporting flow; after receiving the data which is confirmed to be submitted and reported by the city level audit survey layer, the provincial users can check, edit, return, summarize, confirm and submit the information of the tailing pond submitted by the city level audit survey layer; the provincial users gather and confirm to submit to the department level emergency management department, and the audit state is changed into provincial confirmed state; returning is directly returned to the users of the tailing pond enterprises, the auditing state is changed into returning modification, and the returned tailing pond enterprises need to report again according to the reporting flow;

and the tailing pond investigation and confirmation unit is used for carrying out online investigation and confirmation on the tailing pond data according to the multi-level auditing result to finish the online investigation on the tailing pond data.

The working principle of the technical scheme is as follows: multilevel submitting units submit multilevel data of the tailing pond data image summary information; multilevel data commit includes: enterprise layer data submission, district and county layer data submission and city and province layer data submission; submitting enterprise layer data, confirming and submitting basic information, system construction operation conditions, tailing pond position calibration, outline boundary calibration and monitoring equipment calibration through navigation gathering, obtaining enterprise layer submitted to-be-examined data, and transmitting the data to a multi-level examination and investigation unit; performing auditing treatment, wherein the operation of modification and deletion cannot be performed in the process of submitting auditing; submitting county layer data, and confirming and submitting basic information lists of all enterprise layer tailing pond in the county layer data and system construction operation condition lists through navigation gathering; obtaining the to-be-audited and submitted data after the district and county level audit passes, submitting the to-be-audited and submitted data to the multilevel audit investigation unit; the provincial level data of the city are submitted, for the local and city level audit investigation layer, all the tailings pond districts and counties are confirmed and pass the current level audit, the tailings pond information can be submitted to the provincial level emergency management department only after the confirmation is correct, and after the confirmation is submitted, all the tailings pond information is submitted to the provincial level emergency management department; for provincial users, all the tailings ponds and cities are confirmed and pass the grade audit, and can be submitted to the department-level emergency management department only after the confirmation is correct, and after the confirmation is submitted, all the tailings ponds and cities are submitted to the department-level emergency management department;

the multilevel auditing and surveying unit transmits multilevel submitted to-be-audited data to a multilevel auditing and surveying layer by layer for multilevel auditing; the multi-level audit investigation layer comprises: the system comprises a county level tailing pond data auditing and surveying layer, a city provincial level tailing pond data auditing and surveying layer and a ministry level tailing pond data auditing and surveying layer; after receiving data reported by users of a tailing pond enterprise, the county-level tailing pond data auditing and surveying layer can return, edit, summarize, confirm and submit the submitted information of the tailing pond of the enterprise and the like; after the basic information, the system construction operation condition and the position are independently checked, the page checking state is changed into that the checking is passed, and the information reported by the users of the tailing pond enterprises can not be modified; after the district-county level gathering confirmation is submitted to a city-level emergency management department, the checking state is changed into district-county confirmed state; returning is directly returned to the users of the tailing pond enterprises, the auditing state is changed into returning modification, and the returned tailing pond enterprises need to report again according to the reporting flow; after the municipal level audit survey layer receives the data which are confirmed to be submitted and reported by the county level tailing pond data audit survey layer, the operations of checking, editing, returning, summarizing, confirming and submitting the information of the county level tailing pond and the like can be carried out; after the city grade auditing and surveying layer gathers and confirms to be submitted to provincial emergency management department, the auditing state is changed into confirmed city; returning is directly returned to the users of the tailing pond enterprises, the auditing state is changed into returning modification, and the returned tailing pond enterprises need to report again according to the reporting flow; after receiving the data which is confirmed to be submitted and reported by the city level audit survey layer, the provincial users can check, edit, return, summarize, confirm and submit the information of the tailing pond submitted by the city level audit survey layer; the provincial users gather and confirm to submit to the department level emergency management department, and the audit state is changed into provincial confirmed state; returning is directly returning to the users of the tailing pond enterprises, the auditing state is changed into returning and modifying, and the returned tailing pond enterprises need to report again according to the reporting flow; and the tailing pond investigation confirming unit performs online investigation and confirmation on the tailing pond data according to the multi-level auditing result to complete online investigation on the tailing pond data.

The beneficial effects of the above technical scheme are: the method can carry out multilevel data submission to be checked on the data image summary information of the tailing pond; the multi-level submitted to-be-audited data can be transmitted to a multi-level audit investigation layer by layer for multi-level audit; the basic information, the system construction operation condition and the position independent audit can enable the data audit to be more detailed; the online investigation and confirmation of the data of the tailing pond are carried out according to the multi-level auditing result, so that the online investigation of the data of the tailing pond can be completed; the accurate base number of the national tailing pond and the construction and application condition of an online monitoring system can be further comprehensively and accurately counted.

While embodiments of the invention have been disclosed above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (8)

1. An online investigation system for tailing pond data is characterized by comprising:

a tailings pond data information collecting subsystem collects basic information of tailings pond data on line through a distributed data collecting terminal;

the satellite map position contour marking subsystem integrates basic data information of the tailing pond and a high-grade satellite map, and carries out position contour marking on the tailing pond and the on-line monitoring equipment through a position contour marking module to obtain a position contour map of the tailing pond and the on-line monitoring equipment;

the tailing pond data image summarizing subsystem summarizes basic information of tailing pond data, a tailing pond and an on-line monitoring equipment position outline drawing to obtain tailing pond data image summarizing information;

the online management and submission and examination subsystem is used for transmitting the summarized information of the images of the data of the tailing pond to the display for display, and performing online management, data submission and examination confirmation on the data of the tailing pond through the online management module to finish online investigation on the data of the tailing pond;

the satellite map position outline labeling subsystem comprises:

the basic information satellite map integration subsystem is used for searching and integrating basic information and high-grade satellite maps of the tailing pond data through the data information map position;

the system comprises a tailing pond and monitoring equipment calibration subsystem, a position contour marking module and a data processing subsystem, wherein the tailing pond and monitoring equipment calibration subsystem is used for calibrating the position contour of a tailing pond and an online monitoring equipment through the position contour marking module;

the position contour map generation and adjustment subsystem is used for calibrating the position contour to generate a calibration image, adjusting according to image display, and obtaining a position contour map of the tailing pond and the online monitoring equipment after adjustment is completed;

the tailing pond and monitoring equipment calibration subsystem comprises:

the position contour labeling navigation unit is used for creating a position contour labeling module and carrying out position calibration navigation on the tailing pond and the monitoring equipment;

the position outline calibration prompting unit is used for selecting a tailing pond to be calibrated, displaying the position of the tailing pond on a map and selecting the position of the calibrated tailing pond; through a position outline marking module, marking a point in a map to select an outline and prompting after the outline is closed; the position outline marking module comprises: the multi-level map model building sub-module, the map area rasterization sub-module and the map area multi-level aggregation sub-module can respectively transmit data in pairs;

the multi-level map model building submodule is used for building a multi-level high-grade satellite map model; selecting a high-grade satellite map range, and constructing a multi-grade high-grade satellite map model in the range, wherein the multi-grade high-grade satellite map model comprises two steps of global multi-grade map area division and global multi-grade map area coding;

the map area rasterization submodule is used for rasterizing the planar target; the method comprises the following steps of calculating a planar target boundary map area, calculating a planar target internal map area and combining the planar target internal map area and the planar target boundary map area: calculating a gridding map area of a broken line by taking a boundary point set of the planar target as a closed broken line based on latitude intervals and longitude intervals of a certain level map area; the step of calculating the internal map area of the planar target is to obtain a planar target bounding box, calculate the line number range of the planar target under the level and comprise the maximum line number and the minimum line number, and sequentially calculate the internal map area of the planar target by traversing the line range; merging the internal map area of the planar target and the boundary map area of the planar target, wherein the merged map area is used as a result of the rasterization map area of the planar target at the level;

the map area multi-level aggregation sub-module is used for aggregating multi-level rasterized map areas; according to the step of rasterizing the planar target in the second step, calculating rasterized map areas of the planar target of each level in sequence, and aggregating the rasterized map areas upwards from the nth level in sequence until reaching the 1 st level map area to obtain an aggregated rasterized map area result, wherein the steps of judging the relationship of the adjacent levels of map areas, aggregating and selecting the map areas comprise: judging whether the parent-child relationship of the adjacent level map areas meets the aggregation condition or not; selecting map areas which are not successfully aggregated in the next level by aggregating adjacent level rasterized map areas, and forming a new set of the map areas successfully aggregated in the previous level to participate in the aggregation process until the level 1 map area; selecting a map area successfully aggregated in the level 1;

the online monitoring equipment calibration unit is used for selecting a tailing pond, clicking to select the type of equipment to be calibrated, positioning the equipment on a map according to the actual geographical position of the installation of the online monitoring equipment, and prompting to input equipment information; and calibrating the position profiles of the tailing pond and the on-line monitoring equipment.

2. The system of claim 1, wherein the tailings pond data information collecting subsystem comprises:

the distributed terminal IP identification subsystem is used for identifying the IP address of the access terminal through the online network access terminal to obtain an online network IP identification result;

the terminal data registration interface subsystem is used for starting a network terminal registration interface module according to the online network IP identification result and performing network terminal entry registration;

and the system login data entry subsystem is used for performing system login entry after the network terminal completes entry and registration and performing online collection of basic data information of the tailing pond.

3. The system of claim 1, wherein the tailing pond data image summarizing subsystem comprises:

the information marking online detection subsystem is used for detecting the basic information of the data of the tailing pond and the information marking consistency of the position contour map of the tailing pond and the online monitoring equipment on line;

the online detection result judgment subsystem is used for judging the online detection result of the consistency of the information labels to obtain the judgment result of the consistency of the information labels;

and the consistent data image summarizing subsystem is used for summarizing the basic information of the data of the tailing pond, the position outline drawing of the tailing pond and the online monitoring equipment when the judgment result of the consistency of the information labels passes, and summarizing information of the data images of the tailing pond is obtained.

4. The system of claim 1, wherein the online management and submission auditing subsystem comprises:

the terminal and network transmission display subsystem is used for transmitting the data image summary information of the tailing pond to the display for display through the data collecting terminal and the data transmission network;

the tailing pond data online management subsystem is used for performing online management on tailing pond data through an online management module;

and the multilayer submitting and auditing confirmation subsystem is used for carrying out multilayer data submitting and multilayer auditing confirmation on the data image summary information of the tailing pond to finish the online investigation of the data of the tailing pond.

5. The tailings pond data online investigation system of claim 2, wherein the system login data entry subsystem comprises:

the network terminal login unit is used for performing system login after the network terminal data registration is finished;

the data entry navigation unit is used for carrying out data entry navigation after the system logs in; the data entry navigation includes: basic information filling navigation and on-line monitoring system construction operation condition filling navigation;

the data entry and collection unit is used for entering data of the tailing pond according to navigation; the tailing pond data entry comprises the following steps: inputting basic information of a tailing pond and inputting the construction and operation conditions of an online monitoring system; and carrying out on-line collection of basic data information of the tailings pond.

6. The tailings pond data online investigation system of claim 3, wherein the information labeling online detection subsystem comprises:

the satellite map tailing pond searching unit is used for searching a high-resolution satellite map according to the geographical position information of the tailing pond and the description information of the tailing pond in the basic information of the tailing pond data to obtain a satellite map tailing pond searching map;

the intelligent position contour map model unit is used for intelligently comparing and detecting the search map of the satellite map tailings pond, the tailings pond and the position contour map of the on-line monitoring equipment to obtain an intelligent satellite position contour detection model;

and the information and mark online detection unit is used for detecting the consistency of the basic data information of the tailings pond and the information mark of the position contour map of the tailings pond and the online monitoring equipment on line through the intelligent satellite position contour detection model.

7. The online tailing pond data investigation system of claim 4, wherein the online tailing pond data management subsystem comprises:

the tailing pond enterprise layer online management unit is used for navigating the online monitoring equipment installed in the selected tailing pond to the marked monitoring equipment list data through the online management module to perform enterprise layer online management;

the online management unit of the district and county level of the tailing pond is used for navigating the online monitoring equipment installed in the selected tailing pond to the equipment information data filled by the tailing pond enterprise to perform online management of the district and county level;

the system comprises a mine waste warehouse provincial and municipal layer online management unit, a city waste warehouse provincial and municipal layer online management unit and a city waste warehouse provincial and municipal layer online management unit, wherein the mine waste warehouse provincial and municipal layer online management unit is used for editing or checking marked monitoring equipment information which is submitted by navigating online monitoring equipment installed in a selected mine waste warehouse to district and county layer online management confirmation, and performing provincial and municipal layer online management; the online management module comprises: the first-layer online management module is used for defining a tailing pond database and a map database service, wherein the tailing pond database points to an online monitoring equipment database, and the map database points to a map database of each application module; configuring a system server cluster of each application module and a tailing pond enterprise layer online management unit, wherein model data externally provided by each application module has a distributed characteristic; completing the mapping relation between each attribute of the data and the corresponding structures of the tailing pond database and the map database through the access interface of the relation and map database; a general processing flow module for compiling various data; compiling data check and data operation models of a tailing database and a map database; the tailing pond database meets the basic characteristics of affairs through the self characteristics of the commercial on-line monitoring equipment database; the method comprises the steps that a map database simulates a plurality of semantic operations of a tailing database through a mechanism of a platform, and a plurality of data management operations are defined, so that the map database is ensured to meet the basic characteristics of transactions; configuring a data propagation process: firstly, submitting change data to a distributed application module system server cluster by a tailing pond enterprise layer online management unit, wherein the system server cluster is used as a system data management center of service at the moment, and performing incremental data transmission on each sub-service needing the change data in the whole system and the tailing pond enterprise layer online management unit until the transverse consistency of the system data is achieved; the propagation from the system data management center to each tailing pond enterprise layer online management unit adopts a subscription mode, the tailing pond enterprise layer online management units register in the system data management center at first, and after the system data management center receives incremental change data operation, incremental information is sent to each tailing pond enterprise layer online management unit until the longitudinal consistency of system data is achieved; the same type of data requires submitting data to multiple map database applications.

8. The tailings pond data online investigation system of claim 4, wherein the multi-layer submission and audit confirmation subsystem comprises:

the multilevel submitting unit is used for submitting multilevel data of the tailing pond data image summary information to obtain multilevel submitted nuclear data to be examined; multilevel data commit includes: enterprise layer data submission, district and county layer data submission and city and province layer data submission; submitting enterprise layer data, confirming and submitting basic information, system construction operation conditions, tailing pond position calibration, outline boundary calibration and monitoring equipment calibration through navigation gathering, obtaining enterprise layer submitted to-be-examined data, and transmitting the data to a multi-level examination and investigation unit; performing auditing treatment, wherein the operation of modification and deletion cannot be performed in the process of submitting auditing; submitting county layer data, and confirming and submitting basic information lists of all enterprise layer tailing pond in the county layer data and system construction operation condition lists through navigation gathering; obtaining the to-be-audited and submitted data after the district and county level audit passes, submitting the to-be-audited and submitted data to the multilevel audit investigation unit; submitting the data of the provincial level of the city, confirming all the areas and counties of the tailing pond to the local city level examination and investigation layer, passing the grade examination, submitting the data to the provincial level emergency management department after confirming that the data are not wrong, and submitting all the tailing pond information to the provincial level emergency management department after confirming that the data are submitted; for provincial users, all the tailings ponds and cities are confirmed and pass the grade audit, and can be submitted to the department-level emergency management department only after the confirmation is correct, and after the confirmation is submitted, all the tailings ponds and cities are submitted to the department-level emergency management department;

the multilevel auditing and surveying unit is used for transmitting multilevel submitted to-be-audited data to a multilevel auditing and surveying layer by layer for multilevel auditing; the multi-level audit survey layer comprises: the system comprises a county level tailing pond data auditing and surveying layer, a city provincial level tailing pond data auditing and surveying layer and a ministry level tailing pond data auditing and surveying layer; after receiving data reported by users of a tailing pond enterprise, the county-level tailing pond data auditing and surveying layer can return, edit and summarize tailing pond information submitted by the enterprise to confirm the submission operation; after the basic information, the system construction operation condition and the position are independently checked, the page checking state is changed into that the checking is passed, and the information reported by the users of the tailing pond enterprises can not be modified; after the district-county level gathering confirmation is submitted to a city-level emergency management department, the checking state is changed into district-county confirmed state; returning is directly returned to the users of the tailing pond enterprises, the auditing state is changed into returning modification, and the returned tailing pond enterprises need to report again according to the reporting flow; after the municipal level audit investigation layer receives the data which are confirmed to be submitted and reported by the county level tailing pond data audit investigation layer, checking, editing, returning and summarizing the tailing pond information which is confirmed to be submitted and submitted by the county level; after the city grade auditing and surveying layer gathers and confirms to be submitted to provincial emergency management department, the auditing state is changed into confirmed city; returning is directly returned to the users of the tailing pond enterprises, the auditing state is changed into returning modification, and the returned tailing pond enterprises need to report again according to the reporting flow; after receiving the data which is confirmed to be submitted and reported by the city level audit survey layer, the provincial users can check, edit, return and summarize the information of the tailings pond confirmed to be submitted by the city level audit survey layer; the provincial users gather and confirm to submit to the department level emergency management department, and the audit state is changed into provincial confirmed state; returning is directly returned to the users of the tailing pond enterprises, the auditing state is changed into returning modification, and the returned tailing pond enterprises need to report again according to the reporting flow;

and the tailing pond investigation and confirmation unit is used for carrying out online investigation and confirmation on the tailing pond data according to the multi-level auditing result to finish the online investigation on the tailing pond data.

Images