CN111461942A - River water system comprehensive management system based on river growth system - Google Patents

Abstract

The invention discloses a river water system comprehensive management system based on river length, which comprises a main river length monitoring module, a main standard data module, a unified synchronization module, a branch river length monitoring module, a branch standard data module, a cloud computing module and a monitoring module, wherein the monitoring module is used for monitoring water area information data; the unified synchronization module is used for synchronizing the water area information data stored by the sub-standard data module to the main standard data module, and the main river length monitoring module is used for calling the water area information data from the main standard data module; the invention has the advantages of individually managing the water areas of each area, simultaneously summarizing the water area information data of each area, comprehensively managing each water area, effectively avoiding the loss of data and information and effectively ensuring the integrity and consistency of the data and the information.

Description

River water system comprehensive management system based on river growth system

Technical Field

The invention belongs to the technical field of water area management, and particularly relates to a river water system comprehensive management system based on river growth.

Background

Most of the existing river-growth-based monitoring management of water areas is to manually patrol and examine the water areas through cooperation of workers and monitoring equipment, then to overall arrange the water area information data of each water area, finally to obtain the water area information data, and to manage and protect the corresponding water areas according to the water area information data. Because the territorial area of China is large, the terrain is complex, the water areas are numerous, and the conditions of the water areas around different counties and regions are different, the water area information data obtained based on river growth monitoring is very numerous and complicated. Meanwhile, the water area management protection work between the counties is relatively independent, the overall planning of integrity is difficult to carry out, and meanwhile, in the process of water area information data transmission, the water area information data are numerous and diverse, and the timeliness, the time difference and the asynchronism of information transmission can also cause the water area information data to be incomplete. Therefore, it is necessary to develop a river water system integrated management system based on river reach, which can monitor and manage the water areas around the districts in real time, can collectively and comprehensively manage the water area information data around the districts, and can integrally manage the water areas around the districts as a whole.

Disclosure of Invention

The invention aims to provide a river water system comprehensive management system based on river growth, which can be used for monitoring and managing water areas around each district and county independently, simultaneously carrying out efficient collection and overall planning on water area information data of the water areas around each district and county, realizing general and separate intelligent management on a plurality of water areas in one area, and carrying out analysis on the collected water area information data so as to carry out real-time scheduling and feedback on water area patrol work.

The invention is realized by the following technical scheme:

a river water system comprehensive management system based on river length system comprises a main river length system monitoring center, a main standard data module, a unified synchronization module, branch river length system monitoring centers, branch standard data modules, a cloud computing module and monitoring modules, wherein the monitoring modules are arranged in different areas and used for monitoring water area information data of different areas; the unified synchronization module is used for synchronizing the water area information data stored by the sub-standard data modules to the main standard data module in a unified mode for storage, and the main river growth monitoring center is used for calling the water area information data from the main standard data module.

The intelligent management system based on the river reach system is arranged corresponding to a central urban area and a plurality of surrounding counties, the main river reach system monitoring center is arranged in the central urban area, the plurality of branch river reach system monitoring centers are arranged in the plurality of surrounding counties around the central urban area, and one branch river reach system monitoring center is correspondingly arranged in each surrounding county. The monitoring module is arranged in water areas such as rivers, lakes and reservoirs required to be monitored according to the requirement of the river growth system, for example, the monitoring module is arranged on two banks of the rivers, the lakes and the peripheries of the reservoirs and is used for monitoring water area information data such as water level, flow and water quality conditions of the water areas, the monitoring module transmits the monitored water area information data to the cloud computing module in a wired or wireless transmission mode, the cloud computing module processes and analyzes the received water area information data and removes obviously wrong water area information data, then the cloud computing module transmits the calculated and analyzed water area information data to the corresponding river growth system monitoring centers in a wired or wireless mode, and the water area information data of the corresponding areas can be checked in real time in the river growth system monitoring centers, and managing and scheduling in real time according to the water area information data. The river reach system monitoring center uploads the integrated water area information data to the sub-standard data modules which are correspondingly arranged for storage and backup, the unified synchronization module performs unified and synchronous integration on the data in the sub-standard data modules and sends the integrated data to the main standard data module for storage and backup, meanwhile, the main standard data module sends the data to the main river reach system monitoring center, the water area information data of the sub-river reach system monitoring centers can be checked in real time in the main river reach system monitoring center, and the sub-river reach system monitoring centers are matched in real time for management and scheduling according to the water area information data of surrounding districts.

In order to better implement the method, the main standard data module comprises a main synchronization module and a main standard database, the main standard database synchronizes water area information data with the sub-standard data modules through the unified synchronization module, and the main synchronization module is used for synchronizing the water area information data in the main standard database to the main river growth monitoring module.

The main standard database is connected with each sub-standard data module through a unified synchronization module, and the unified synchronization module synchronizes the water area information data of each sub-standard data module with the data in the main standard database; the main standard database is connected with the main monitoring center through the main synchronization module, the main synchronization module synchronizes data in the main standard database with data of the main river length monitoring center, and through the bidirectional synchronization arrangement of the unified synchronization module and the main synchronization module, real-time synchronization of data of water area information data from each branch river length monitoring center to the main river length monitoring center is realized, and data loss is prevented to the maximum extent.

In order to better realize the invention, the sub-standard data module comprises a sub-synchronization module and a sub-standard database, the sub-standard database synchronizes the water area information data with the main standard data module through the unified synchronization module, and the sub-standard database synchronizes the water area information data with the corresponding sub-river growth monitoring module through the sub-synchronization module.

The sub-standard databases are connected with the main standard data module through a unified synchronization module, and the unified synchronization module synchronizes data in each sub-standard database with data in the main standard data module; the branch standard database is connected with the branch river growth monitoring center through a branch synchronization module, and the branch synchronization module synchronizes data of the branch standard database with data of the branch river growth monitoring center.

In order to better realize the method, the cloud computing module comprises a data computing module, a GIS cloud map module and a data standardization module, wherein the data standardization module is used for standardizing the water area information data acquired by the monitoring module; the data calculation module is used for calculating and analyzing the standardized water area information data to obtain water area information data and sending the water area information data to the river diversion growth monitoring module; and the GIS cloud map module is used for displaying the water area information data obtained by the data calculation module on the virtual map corresponding to the corresponding water area.

The data standardization module standardizes and standardizes the water area information data collected by the monitoring module in modes of a normal form database, a standard data table, index specification formulation, data element specification formulation and the like, classifies the water area information data according to different types, and the cloud computing module performs computing analysis on the standardized water area information data to obtain the water area information data and simultaneously cooperates with the GIS cloud map module to send the water area information data to the river division growth monitoring center in a mode of corresponding to each water area or area on a map for visual display.

In order to better realize the invention, the data standardization module comprises a standard database, a data table module, an information coding module and an information classification module, wherein the information coding module is used for coding different information collected by the monitoring module; the information classification module classifies information according to the codes of different information; and the data table module generates a standardized data table from the classified information and stores the standardized data table in a standard database, and the data standard database is connected with the data calculation module.

The information coding module firstly codes the water area information data from the monitoring module according to the principles of different areas, different information types, different time and the like, and then the information classification module classifies the water area information data according to the coding of the water area information data, so that the same type of water area information data has the same or similar regionality, the same or similar timeliness and the same or similar type, for example, the water quality information of a certain area in a certain time period is classified. And then the data table module generates the classified water area information data into a standardized data table by adopting a data table naming standard, a data table size standard, a sub-table partition standard, a table index standard, an index field standard and the like and stores the standardized data table in a standard database, the standard database is constructed by adopting a normal form design principle, and the data calculation module calls the standardized data table stored in the standard database to calculate and analyze the water area information data.

In order to better realize the method, the main river growth monitoring module comprises a main control module, a main display module, a main monitoring center database and a main network transmission module, wherein the main network transmission module is used for receiving the water area information data of the main standard data module and uploading the water area information data to the main monitoring center database, the main control module is used for controlling the main network transmission module to perform data interaction with the main monitoring center database, and the main display module is used for displaying the water area information data in real time; the branch river growth monitoring module comprises a branch control module, a branch display module, a branch monitoring center database and a branch network transmission module, the branch network transmission module is used for receiving water area information data after calculation and analysis of the cloud computing module and uploading the water area information data to the branch standard data module, the branch monitoring center database is used for storing the water area information data from the cloud computing module, the branch control module is used for controlling the branch network transmission module to perform data interaction with the cloud computing module and the branch standard data module respectively, and the branch display module is used for displaying the water area information data in real time.

The main network transmission module carries out data transmission interaction in a wired network or wireless network mode, the main monitoring center database receives water area information data from the main standard data module through the main network transmission module, stores and backups the water area information data, is convenient to check at any time, the main display module comprises various display terminals such as a computer, a mobile phone and a display screen, and the main display module calls the water area information data in the main monitoring center database to display in real time. The main control module is used for controlling the main display module, the main monitoring center database and the main network transmission module, and meanwhile, commands can be issued to the branch river growth monitoring centers through the main control module to conduct real-time management and scheduling.

In order to better realize the invention, the monitoring module comprises a water area monitoring module, a positioning module, an image acquisition module, an audio acquisition module, a communication module and a power supply module, wherein the water area monitoring module is used for acquiring water quality information of the water area, the positioning module is used for positioning water area position information of the water area, the image acquisition module is used for acquiring water area image information of the water area, the audio acquisition module is used for acquiring voice information of a river growth worker, the communication module is used for uploading the water quality information, the water area position information, the water area image information and the voice information to the cloud computing module, and the power supply module is used for supplying power to the water area monitoring module, the positioning module, the image acquisition module, the audio acquisition module and the communication module.

The water area monitoring module is used for monitoring water area information data such as water level, flow and water quality of a corresponding water area, water area information data processing software is arranged in the water area monitoring module, the water area information data processing software classifies the water area information data acquired by the water area monitoring module according to the acquisition region and information category, and simultaneously screens the acquired water area information data, such as removing some water area information data which are obviously wrong or accidental; the positioning module carries out real-time positioning and correspondingly matches the water area information data with the water area position; the image acquisition module is used for acquiring images of workers and images of corresponding monitored water areas, image analysis software is arranged in the image acquisition module and used for analyzing the water area images and face images acquired by the image acquisition module, if the workers judge whether to carry out water area patrol and inspection and other work according to the requirement of river length through the analysis of the face images, if the conditions of the monitored water areas are displayed in real time through the analysis of the images of the monitored water areas, and the sudden situations are dealt with in time. The staff carries out the waters and patrols and examines and carry out the audio acquisition through audio acquisition module before the work to know the work that the staff goes on in real time. The communication module is used for sending water area information data, positioning information, images and audios collected by the water area monitoring module, the positioning module, the image collecting module and the audio collecting module to the cloud computing module, and the power supply module supplies power to the water area monitoring module, the positioning module, the image collecting module, the audio collecting module and the communication module.

In order to better implement the present invention, the image acquisition module includes a camera module and an image recognition module, the camera module is used for acquiring the water area image of the water area where the image acquisition module is located and the face image of the worker, and the image recognition module is used for recognizing the acquired water area image and the face image.

The camera module comprises camera equipment such as a high-definition camera and an infrared camera, the camera module is used for carrying out face acquisition on workers and image acquisition on corresponding water area conditions, and the camera module is used for sending face images to the image recognition module for face recognition so as to determine whether the corresponding workers operate or patrol; and sending the water area image to an image recognition module for water area image recognition, and confirming the water level of the water area, whether foreign matters exist on the water surface, whether emergency situations exist around the water area and the like through the water area image.

In order to better realize the invention, the camera module comprises a face acquisition camera and a water area acquisition camera, the face acquisition camera and the water area acquisition camera are both connected with the cloud computing module through the communication module, and the face acquisition camera is connected with the image recognition module.

In order to better implement the method, the water area monitoring module comprises a temperature sensor, a pH value sensor, a dissolved oxygen sensor, a turbidity sensor, a flow sensor, a water level sensor, a heavy metal sensor and a chemical sensor, wherein the temperature sensor, the pH value sensor, the dissolved oxygen sensor, the turbidity sensor, the flow sensor, the water level sensor, the heavy metal sensor and the chemical sensor are all connected with the cloud computing module through a communication module.

The water area monitoring module monitors water quality information of the water area in real time through the sensor, and uploads the water quality information to the cloud computing module for analysis so as to obtain the water quality problem which possibly occurs in the monitored water area. Then according to the water quality problem that the monitoring waters probably appears, carry out intelligent scheduling and arrangement to waters patrolling and examining personnel's real-time patrol and examine work, the staff simultaneously patrols and examines information synchronization upload such as image, video, audio frequency that the staff will gather when patrolling and examining to the quality of water information realization of cooperation monitoring waters carries out all-round presentation to the water environment of monitoring waters.

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

(1) according to the invention, a main monitoring center is arranged in a central urban area, a plurality of sub-monitoring centers are arranged corresponding to counties around the central urban area, a cloud computing module and a monitoring module are arranged corresponding to each sub-monitoring center, water area information data around the counties are monitored through the monitoring modules, the water area information data are obtained by computing and analyzing the water area information data through the cloud computing modules, and the water area conditions around the counties can be conveniently and visually checked and managed and scheduled independently through the sub-monitoring centers; meanwhile, each sub-monitoring center collects the water area information data of each region to the main monitoring center, and the main monitoring center can comprehensively check the water area information data of each sub-monitoring center in an overall manner, namely can collect and arrange the water area information data of different regions, so that the water areas in each region are integrally managed and scheduled; the invention has the advantages that the water areas of the independent areas are independently managed, simultaneously the water area information data of each area are summarized, and the integral comprehensive management is carried out on each water area;

(2) the unified synchronization module is arranged between the main monitoring center and each sub-monitoring center, and the data of the main monitoring center and the data of each sub-monitoring center are synchronized through the unified synchronization module, so that the integrity and consistency of the data of the main monitoring center and the data of each sub-monitoring center are kept; the invention has the beneficial effects of effectively avoiding the loss of data and information and effectively ensuring the integrity and consistency of the data and the information;

(3) according to the invention, the main standard data module is arranged between the main monitoring center and the unified synchronization module, the main standard database in the main standard data module is connected with each sub-monitoring center through the unified synchronization module, the main standard database is connected with the main monitoring center through the main synchronization module, the data in the main monitoring center database and the data in the main standard data module are synchronized through the main synchronization module, and the data are bidirectionally synchronized by matching with the unified synchronization module; the sub-standard data module is arranged between the sub-monitoring center and the unified synchronization module, a sub-standard database in the sub-standard data module is connected with the unified synchronization module, the sub-standard database is also connected with the sub-monitoring center database through the sub-synchronization module, the data in the sub-monitoring center database and the data in the sub-standard database are synchronized through the sub-synchronization module, and the sub-standard data module is matched with the unified synchronization module to perform bidirectional synchronization; the invention has the beneficial effects of effectively avoiding the loss of data and information and effectively ensuring the integrity and consistency of the data and the information;

(4) according to the invention, the information standardization module and the GIS cloud map module are arranged in the cloud computing module, the information standardization module is used for carrying out standardization processing and classification on the water area information data collected by the monitoring module, the numerous and complicated water area information data are simplified, the information redundancy is avoided, and then the GIS cloud map module is matched with the water area information data and the corresponding water area map, so that the condition of the corresponding water area can be checked more intuitively, and management and scheduling can be carried out;

(5) according to the invention, the image acquisition module is arranged in the monitoring module and is used for acquiring the water area image and the face image of the worker, so that the worker can effectively and really finish the water area inspection work while visually displaying the water area condition; the monitoring module is internally provided with an audio acquisition module for acquiring the working information audio of the working personnel, so that the working content of the working personnel can be intuitively connected in real time; the monitoring module is internally provided with a water area monitoring module for monitoring water area information data such as water level, flow, temperature, pH value, turbidity, heavy metal content, chemical content and the like of a corresponding water area, so that the monitored water area can be managed and protected more comprehensively; through set up orientation module in monitoring module, fix a position through orientation module, can match waters information data and the actual geographical position in waters, be convenient for more to the management in corresponding waters.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention;

FIG. 2 is a schematic diagram of a synchronization flow of a primary synchronization module and a secondary synchronization module;

FIG. 3 is a schematic diagram of a synchronization process of a unified synchronization module;

FIG. 4 is a schematic diagram of a cloud computing module;

FIG. 5 is a schematic diagram of a data normalization module;

FIG. 6 is a schematic diagram of a monitoring module;

fig. 7 is a schematic diagram of an image acquisition module.

Detailed Description

Example 1:

the river water system comprehensive management system based on the river length system comprises a main river length system monitoring module, a main standard data module, a unified synchronization module, branch river length system monitoring modules, branch standard data modules, a cloud computing module and monitoring modules, wherein the monitoring modules are arranged in different areas and used for monitoring water area information data of different areas; the unified synchronization module is used for synchronizing the water area information data stored by the sub-standard data modules to the main standard data module in a unified mode for storage, and the main river growth monitoring module is used for calling the water area information data from the main standard data module.

The river reach system-based intelligent management system is arranged corresponding to a central urban area and a plurality of peripheral counties, a main river reach system monitoring center is arranged in the central urban area, a plurality of branch river reach system monitoring centers are respectively arranged in a plurality of peripheral counties, each branch river reach system monitoring center is connected with a plurality of monitoring modules through a cloud computing module, the monitoring modules are arranged in water areas such as rivers, lakes, reservoirs and the like of the corresponding counties, the monitoring modules are used for monitoring water area information data such as water level, flow, water quality and the like of the corresponding water areas, then the monitoring modules upload the monitored water area information data to the cloud computing module for analysis and calculation to obtain the water area information data of the corresponding water areas, then the cloud computing module uploads the water area information data to the branch river reach system monitoring centers, the condition of the corresponding water areas can be checked in real time in the branch river reach system monitoring centers, and the condition of the corresponding water areas is aimed at, and the management and scheduling, instruction issuing and other work are carried out by the river-crossing monitoring center.

The branch river growth monitoring center only covers the water area information data of the corresponding county, a branch standard data module is arranged corresponding to each branch monitoring, the water area information data received by the branch river growth monitoring center are transmitted to the branch standard data modules to be stored and backed up, and the branch river growth monitoring center can conveniently read and check the water area information data at any time.

The main river growth monitoring center is used for summarizing water area information data from each branch river growth monitoring center, can check the water area condition of a district where each branch river growth monitoring center is located on the whole in real time, carries out overall management and scheduling according to the water area condition and issues instructions to each branch river growth monitoring center. The main standard data module is arranged corresponding to the main river length monitoring center, the main standard data module and the sub-standard data modules are connected through the unified synchronization module, the unified synchronization module performs multi-thread synchronization on data in the sub-standard data modules and data of the main standard data module, the data synchronization efficiency is improved, meanwhile, a compensation mechanism is further arranged, resynchronization can be performed in time when data synchronization fails, data loss is effectively avoided, and the integrity and consistency of the data are guaranteed.

The main river length monitoring center and the branch river length monitoring centers form a tree structure from top to bottom, the main river length monitoring center carries out one-to-many data synchronization from top to bottom on each branch river length monitoring center, and each branch river length monitoring center carries out one-to-one data synchronization from bottom to top on the main river length monitoring center.

Example 2:

in this embodiment, further optimization is performed on the basis of embodiment 1, as shown in fig. 1, the main standard data module includes a main synchronization module and a main standard database, the main standard database performs synchronization of water area information data with the plurality of sub-standard data modules through the unified synchronization module, and the main synchronization module is configured to synchronize the water area information data in the main standard database to the main river length monitoring module.

The data of the sub-standard data modules are synchronized with the data of the main standard database through the unified synchronization module, then the data of the main standard database is synchronized with the data of the main river growth monitoring center through the main synchronization module, and the data are bidirectionally synchronized through the unified synchronization module and the main synchronization module, so that the integrity and consistency of the data can be guaranteed to the maximum extent.

Other parts of this embodiment are the same as embodiment 1, and thus are not described again.

Example 3:

in this embodiment, further optimization is performed on the basis of the foregoing embodiment 1 or 2, as shown in fig. 1, the sub-standard data module includes a sub-synchronization module and a sub-standard database, the sub-standard database performs synchronization of water area information data with the main standard data module through the unified synchronization module, and the sub-standard database performs synchronization of water area information data with the corresponding sub-river length monitoring module through the sub-synchronization module.

The branch standard databases are arranged corresponding to the branch river length monitoring centers, the branch river length monitoring centers are connected with the branch standard databases through branch synchronization modules, and the branch synchronization modules are used for synchronizing data of the branch river length monitoring centers and data of the branch standard databases. The sub-standard databases are connected with the main standard data module through the same unified synchronization module, the unified synchronization module is used for synchronizing data of each sub-standard database with data of the main standard data module, bidirectional synchronization is performed through the unified synchronization module and the sub-synchronization modules, and completeness and consistency of the data are guaranteed to the maximum extent.

The rest of this embodiment is the same as embodiment 1 or 2, and therefore, the description thereof is omitted.

Example 4:

in this embodiment, further optimization is performed on the basis of any one of the embodiments 1 to 3, as shown in fig. 4, the cloud computing module includes a data computing module, a GIS cloud map module, and a data standardization module, and the data standardization module is configured to standardize the water area information data acquired by the monitoring module; the data calculation module is used for calculating and analyzing the standardized water area information data to obtain water area information data and sending the water area information data to the river diversion growth monitoring module; and the GIS cloud map module is used for displaying the water area information data obtained by the data calculation module on the virtual map corresponding to the corresponding water area.

The data standardization module is connected with the monitoring module, the monitoring module sends the monitored water area information data to the data standardization module for data standardization processing, the data standardization module carries out standardization processing on a large amount of water area information data in modes of a normal form database, a standard data table, an index standard and a data element standard and classifies the water area information data according to different types of information, if the water area information data are classified according to the water level information of a certain time period in a certain area, the flow information of the certain time period in the certain area, the water quality information of the certain time period in the certain area and other categories.

And then the cloud computing module carries out computing analysis on the water area information data after the standardized classification to obtain corresponding water area information data, and the real-time condition of the corresponding water area can be directly seen from the water area information data. Meanwhile, the GIS cloud map module and the cloud computing module operate in parallel, the water area information data obtained by the cloud computing module are displayed in corresponding areas on the map, and then the cloud computing module sends the water area information data and the corresponding map information to the branch-river length system monitoring center for real-time display.

Other parts of this embodiment are the same as any of embodiments 1 to 3, and thus are not described again.

Example 5:

the embodiment is further optimized on the basis of any one of the embodiments 1 to 4, and as shown in fig. 5, the data standardization module includes a standard database, a data table module, an information encoding module and an information classification module, and the information encoding module is configured to encode different information acquired by the monitoring module; the information classification module classifies information according to the codes of different information; and the data table module generates a standardized data table from the classified information and stores the standardized data table in a standard database, and the data standard database is connected with the data calculation module.

The information coding module codes a large amount of water area information data acquired by the monitoring module, for example, the information is correspondingly coded according to the region, time node, time period, information type and the like to which the information belongs, for example, the water level information corresponding to a certain region in a certain time period is coded. Then, a large amount of water area information data are sorted and classified through an information classification module according to different codes of different water area information data.

The data table module generates a normalized data table from classified water area information data, and the normalized data table is generated mainly through data table standard naming, data table standard size, data table standard sub-table partition, data table standard index, data table and database connection standard and the like, wherein service information in the data table standard naming is named at the beginning of T, relationship information is named at the beginning of M, system information is named at the beginning of SYS and the like, the data table standard size is not more than 2GB, the tax bureau table standard index requires that the number of indexes is within five once, a single-field index is not more than two fields, a composite index is not more than three fields, and the partition table uses L OCA L index.

The standard database is used for storing a normalized data table, the standard database is designed in a normal form, and the standard database meets the requirements of a third normal form in order to avoid the conditions of data redundancy, abnormal data updating, abnormal data insertion or deletion and the like. And the data calculation module calls the data table from the standard database, calculates and analyzes the water area information data, and finally obtains the water area information data.

Other parts of this embodiment are the same as any of embodiments 1 to 4, and thus are not described again.

Example 6:

in this embodiment, further optimization is performed on the basis of any one of embodiments 1 to 5, as shown in fig. 1, the main river growth monitoring module includes a main control module, a main display module, a main monitoring center database, and a main network transmission module, the main network transmission module is configured to receive the water area information data of the main standard data module and upload the water area information data to the main monitoring center database, the main control module is configured to control the main network transmission module to perform data interaction with the main monitoring center database, and the main display module is configured to display the water area information data in real time; the branch river growth monitoring module comprises a branch control module, a branch display module, a branch monitoring center database and a branch network transmission module, the branch network transmission module is used for receiving water area information data after calculation and analysis of the cloud computing module and uploading the water area information data to the branch standard data module, the branch monitoring center database is used for storing the water area information data from the cloud computing module, the branch control module is used for controlling the branch network transmission module to perform data interaction with the cloud computing module and the branch standard data module respectively, and the branch display module is used for displaying the water area information data in real time.

The main network transmission module comprises NB-IOT, GPRS, optical fiber, 3G mobile network, 4G mobile network and other wired or wireless networks for data transmission interaction, the main monitoring center database receives water area information data from the main standard data module through the main network transmission module, and stores and backups the water area information data, so that the main monitoring center database can be checked at any time, the main display module comprises a computer, a mobile phone, various display terminals such as a display screen, the main display module calls the water area information data in the main monitoring center database through the main network transmission module for real-time display, and the display mode comprises characters, pictures, videos, audios and the like. The main control module is used for controlling the main display module, the main monitoring center database and the main network transmission module, and meanwhile, commands can be issued to the branch river growth monitoring centers through the main control module to conduct real-time management and scheduling.

Other parts of this embodiment are the same as any of embodiments 1 to 5, and thus are not described again.

Example 7:

this embodiment is further optimized on the basis of any one of above-mentioned embodiments 1-6, as shown in fig. 6, the monitoring module includes waters monitoring module, orientation module, image acquisition module, audio frequency acquisition module, communication module, power module, waters monitoring module is used for gathering the quality of water information in place waters, orientation module is used for fixing a position the waters positional information in place waters, image acquisition module is used for gathering the waters image information in place waters, audio frequency acquisition module is used for gathering the speech information of river growth system staff, communication module is used for uploading quality of water information, waters positional information, waters image information, speech information to cloud computing module, power module is used for supplying power to waters monitoring module, orientation module, image acquisition module, audio frequency acquisition module, communication module.

The waters monitoring module is including setting up the various monitoring terminal in corresponding waters for waters information data such as the water level in this waters of monitoring, flow, quality of water, orientation module fixes a position through GPS positioning terminal, GPRS positioning terminal, big dipper positioning terminal, basic station positioning terminal etc. matches the work through waters monitoring module and orientation module, realizes corresponding the matching with the waters place with the waters information data of monitoring.

The image acquisition module is used for acquiring images of a water area and face images of workers, and monitoring the images of the water area through the image acquisition module, so that the condition of the monitored water area can be intuitively known in real time, and the conditions such as whether the water level of a certain river rises and the line passes in a rainstorm season can be intuitively monitored; meanwhile, the face image of the worker is collected through the image collecting module, and whether the worker patrols and examines the monitored water area according to the river length requirement can be ensured.

Before the staff patrols and examines the work of patrolling and examining in monitoring the waters, report the work of going on and generate corresponding audio file through audio acquisition module, can learn the work of patrolling and examining that the staff goes on through looking up the audio file. The audio acquisition module and the video acquisition module can be loaded on mobile terminals such as mobile phones and the like and are connected with the communication module through a wireless network, so that the operation of workers is facilitated.

The power supply module can adopt a solar power generation terminal and a water conservancy power generation terminal to supply power to the water area monitoring module, the positioning module, the image acquisition module, the audio acquisition module and the communication module.

Positioning water area

Other parts of this embodiment are the same as any of embodiments 1 to 6, and thus are not described again.

Example 8:

in this embodiment, further optimization is performed on the basis of any one of the embodiments 1 to 7, as shown in fig. 7, the image acquisition module includes a camera module and a face recognition module, the camera module is configured to acquire a water area image of a water area where the image acquisition module is located and a face image of a worker, and the face recognition module is configured to recognize the acquired water area image and the face image.

The camera module is used for collecting water area images and face images of workers, and the camera module sends the collected face images to the image recognition module for recognition and comparison, so that the workers are ensured to really perform routing inspection work. Meanwhile, the camera module sends the collected water area image and the collected face image to the cloud computing module through the communication module to be matched with the water area information data, so that the water area information data are more visual.

Other parts of this embodiment are the same as any of embodiments 1 to 7, and thus are not described again.

Example 9:

this embodiment is further optimized on the basis of any one of the above embodiments 1 to 8, and as shown in fig. 7, the camera module includes a face capturing camera and a water capturing camera, both the face capturing camera and the water capturing camera are connected to the cloud computing module through the communication module, and the face capturing camera is connected to the face recognition module.

The face acquisition camera and the water area acquisition camera can adopt a high-definition camera, an infrared camera and the like, the face acquisition camera can be loaded on a mobile terminal such as a mobile phone and a tablet personal computer and can be carried by a worker, the worker can conveniently acquire face images, and then the face acquisition camera transmits the acquired face images to an image recognition module for face recognition; the water area acquisition camera can be arranged at the monitoring water area and used for directly acquiring water area images.

Other parts of this embodiment are the same as any of embodiments 1 to 8, and thus are not described again.

Example 10:

this embodiment is further optimized on the basis of any one of above embodiments 1-9, and the waters monitoring module includes temperature sensor, PH sensor, dissolved oxygen sensor, turbidity sensor, flow sensor, level sensor, heavy metal sensor, chemical sensor, and temperature sensor, PH sensor, dissolved oxygen sensor, turbidity sensor, flow sensor, level sensor, heavy metal sensor, chemical sensor all are connected with the cloud computing module through the communication module.

Temperature sensor, PH value sensor, dissolved oxygen sensor, turbidity sensor, flow sensor, level sensor, heavy metal sensor, chemical sensor is used for monitoring the temperature in waters respectively, the PH value, oxygen dissolved volume, the quality of water turbidity, the flow, the water level, heavy metal content, waters information data such as chemical substance content, then temperature sensor, PH value sensor, dissolved oxygen sensor, turbidity sensor, flow sensor, level sensor, heavy metal sensor, chemical sensor passes through communication module with the detected data and sends to cloud computing module, cloud computing module carries out computational analysis to above-mentioned waters information data, obtain corresponding waters information data.

Other parts of this embodiment are the same as any of embodiments 1 to 9, and thus are not described again.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all simple modifications and equivalent variations of the above embodiments according to the technical spirit of the present invention are included in the scope of the present invention.

Claims (10)

1. A river water system comprehensive management system based on a river length system is characterized by comprising a main river length system monitoring center, a main standard data module, a unified synchronization module, branch river length system monitoring centers, branch standard data modules, a cloud computing module and monitoring modules, wherein the monitoring modules are arranged in different areas and used for monitoring water area information data of different areas; the unified synchronization module is used for synchronizing the water area information data stored by the sub-standard data modules to the main standard data module in a unified mode for storage, and the main river growth monitoring center is used for calling the water area information data from the main standard data module.

2. The river water system comprehensive management system based on the river length system as claimed in claim 1, wherein the main standard data module comprises a main synchronization module and a main standard database, the main standard database performs water area information data synchronization with the plurality of sub-standard data modules through a unified synchronization module, and the main synchronization module is used for synchronizing the water area information data in the main standard database to the main river length system monitoring center.

3. The river water system comprehensive management system based on the river length system is characterized in that the branch standard data module comprises a branch synchronization module and a branch standard database, the branch standard database is synchronized with the main standard data module through the unified synchronization module, and the branch standard database is synchronized with the corresponding branch river length system monitoring center through the branch synchronization module.

4. The river water system comprehensive management system based on the river growth system is characterized in that the cloud computing module comprises a data computing module, a GIS cloud map module and a data standardization module, and the data standardization module is used for standardizing water area information data collected by the monitoring module; the data calculation module is used for calculating and analyzing the standardized water area information data to obtain water area information data and sending the water area information data to the river diversion growth monitoring center; and the GIS cloud map module is used for displaying the water area information data obtained by the data calculation module on the virtual map corresponding to the corresponding water area.

5. The river water system comprehensive management system based on the river growth system is characterized in that the data standardization module comprises a standard database, a data table module, an information coding module and an information classification module, wherein the information coding module is used for coding different information collected by the monitoring module; the information classification module classifies information according to the codes of different information; and the data table module generates a standardized data table from the classified information and stores the standardized data table in a standard database, and the data standard database is connected with the data calculation module.

6. The river water system comprehensive management system based on the river length system is characterized in that the main river length system monitoring center comprises a main control module, a main display module, a main monitoring center database and a main network transmission module, wherein the main network transmission module is used for receiving water area information data of a main standard data module and uploading the water area information data to the main monitoring center database, the main control module is used for controlling the main network transmission module to perform data interaction with the main monitoring center database, and the main display module is used for displaying the water area information data in real time; the branch river growth system monitoring center comprises a branch control module, a branch display module, a branch monitoring center database and a branch network transmission module, wherein the branch network transmission module is used for receiving water area information data after calculation and analysis of the cloud computing module and uploading the water area information data to the branch standard data module, the branch monitoring center database is used for storing the water area information data from the cloud computing module, the branch control module is used for controlling the branch network transmission module to perform data interaction with the cloud computing module and the branch standard data module respectively, and the branch display module is used for displaying the water area information data in real time.

7. The system for comprehensively managing a river water system based on river growth according to claim 1, it is characterized in that the monitoring module comprises a water area monitoring module, a positioning module, an image acquisition module, an audio acquisition module, a communication module and a power supply module, the water area monitoring module is used for collecting water quality information of the water area, the positioning module is used for positioning water area position information of the water area, the image acquisition module is used for acquiring water area image information of a water area where the image acquisition module is located, the audio acquisition module is used for acquiring voice information of river growth workers, the communication module is used for uploading water quality information, water area position information, water area image information and voice information to the cloud computing module, the power supply module is used for supplying power to the water area monitoring module, the positioning module, the image acquisition module, the audio acquisition module and the communication module.

8. The river water system comprehensive management system based on the river growth system as claimed in claim 7, wherein the image acquisition module comprises a camera module and an image recognition module, the camera module is used for acquiring water area images of the water area where the camera module is located and face images of workers, and the image recognition module is used for recognizing the acquired water area images and the face images.

9. The river water system comprehensive management system based on the river growth system is characterized in that the camera module comprises a face acquisition camera and a water area acquisition camera, the face acquisition camera and the water area acquisition camera are both connected with the cloud computing module through the communication module, and the face acquisition camera is connected with the image recognition module.

10. The river water system comprehensive management system based on the river growth system is characterized in that the water area monitoring module comprises a temperature sensor, a pH value sensor, a dissolved oxygen sensor, a turbidity sensor, a flow sensor, a water level sensor, a heavy metal sensor and a chemical sensor, and the temperature sensor, the pH value sensor, the dissolved oxygen sensor, the turbidity sensor, the flow sensor, the water level sensor, the heavy metal sensor and the chemical sensor are all connected with the cloud computing module through a communication module.

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