CN111553596A - Physical education industry supervision system based on geographic information technology - Google Patents
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- CN111553596A CN111553596A CN202010356120.0A CN202010356120A CN111553596A CN 111553596 A CN111553596 A CN 111553596A CN 202010356120 A CN202010356120 A CN 202010356120A CN 111553596 A CN111553596 A CN 111553596A
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Abstract
The invention discloses a physical education industry supervision system based on a geographic information technology, which belongs to the field of physical education management platforms and comprises a physical education big data analysis module, a physical education facility searching module, a remote server, an unmanned aerial vehicle module, a physical education management department terminal and a physical education project progress module; the method provides scientific basis for the supervision and management of fixed-point units of the sports and sports management departments, enables terminals of the sports management departments to exchange and process data under safe and efficient big data through a network, carries out the monitoring and management of the fixed-point units of the sports and sports management departments, macroscopically checks various sports data and the distribution of the fixed-point units of the sports management departments in the region, microscopically monitors various detailed information of each sports, payment modes and the fixed-point units of the sports management departments, carries out real-time image and picture monitoring by combining the real-time video monitoring of the fixed-point units of the sports management departments, and completes the real-time management through the rapid and efficient background management.
Description
Technical Field
The invention relates to the technical field of sports management platforms, in particular to a sports industry supervision system based on a geographic information technology.
Background
With the rapid development of electronic information technology in recent years, various industries in society have been constructed and modified to become information with the goal of realizing office automation. In the field of sports industry, due to the development of national economy and the increasing improvement of the living standard of people, people seek a correct living mode, and the scale and the level of the development of sports cause are important marks for measuring the development progress of the country and the society by ensuring the physical health, and also become an important means for the foreign exchange and the cultural exchange of the country. Sports can be divided into categories such as mass sports, professional sports, school sports and the like, including sports culture, sports education, sports activities, sports competitions, sports facilities, sports organizations, sports science and technology and the like, but due to a plurality of factors, the distribution of the current sports facilities is dispersed, the requirement of people on sports exercise is met, but in a certain area, the current sports facilities are not managed in a centralized way, when the sports facility projects under construction are supervised, a supervisor often needs to manage a plurality of projects simultaneously, most of the current project management processes also need to be communicated in a form of oral communication or conference between a supervisor and a constructor, the schedule management is in project construction management until the construction quality, schedule and investment system of key content items are realized, and before the projects are implemented, a feasible and scientific progress plan must be made in advance, due to the lagging of management means, the problems of incomplete responsibility distribution and untimely supervision exist in the aspects of progress management progress monitoring of a sports project under construction and the like in a sports management department, and the scientificity needs to be improved, so that the sports management department can monitor the whole progress of a construction party.
Disclosure of Invention
The invention aims to provide a physical education industry supervision system based on a geographic information technology, which enables a physical education management department terminal to exchange and process data under safe and efficient big data through a network, macroscopically checks various data of physical education facilities in the area, microscopically checks various detailed information of the construction progress of a physical education project, and completes real-time management through rapid and efficient background management so as to solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: the physical education industry supervision system based on the geographic information technology comprises a physical education big data analysis module, a physical education facility searching module, a remote server, an unmanned aerial vehicle module, a physical education management department terminal and a physical education project progress module;
the remote server is connected with the sports big data analysis module, the sports facility searching module, the unmanned aerial vehicle module and the sports progress module, and the output end of the unmanned aerial vehicle module is connected with the sports big data analysis module, the sports facility searching module and the sports progress module;
the sports big data analysis module comprises a sports facility statistics module, a sports facility proportion module, a key project module, a position distribution module, an individual operator statistics module and an industrial activity unit statistics module;
the sports facility counting module is used for dividing the whole supervision area into a plurality of areas in the supervision area according to the existing area division mode, counting the types and the quantity of the sports facilities in each area and comparing the types and the quantity together;
the sports facility proportion module is used for counting the total value and proportion of the types of sports facilities in each region;
the key project module is used for displaying key developed project positions and project pre-development areas on the position distribution module;
the position distribution module is combined with the design of a map shot by the unmanned aerial vehicle module to show the distribution condition of the sports facilities in a defined area;
the individual operator statistical module displays the total value and the proportion of the sports facilities operated by the individual operator in each region in the year;
the statistical module of the industrial activity units displays the total value and the proportion of the sports facilities of the annual industrial activity units in each region.
Furthermore, the sports facility searching module comprises a map operation module, an advanced searching module and a fixed point detail display module;
the map operation module is used for measuring the lengths of any two points on the map, can freely enlarge and reduce the map, and marks different sports facility types through non-color marks in the enlarging and reducing processes;
the advanced search module is used for inputting names of sports facilities in a search box for positioning search, and also can be used for inquiring corresponding fixed point types through selecting or not, screening the number, types and ranges of people in the search box, searching the sports facilities in the search box, and displaying the screened number in each divided region;
the fixed point detail display module is used for recording the information of each sports facility on the map, and the information records comprise display detail information and photo information of each sports facility.
Further, the remote server is used for the sports management department terminal to establish a medium for data transmission among the sports big data analysis module, the sports facility search module, the unmanned aerial vehicle module and the sports progress module in a mode of using the internet, the cloud network and the internet of things.
Further, the unmanned aerial vehicle module is based on the data network that domestic big dipper basic station constitutes, and unmanned aerial vehicle + geographic information is as information acquisition platform to and built-in positioning algorithm, be used for covering the sports facilities in measurement area, and fix a position and navigate the position at sports facilities place.
Furthermore, the sports management department terminal is used for platform data to match and arrange and collect operations, records and reads user information, and the user obtains the use authority after the identity is verified to operate the functions of the sports big data analysis module, the sports facility search module, the unmanned aerial vehicle module and the sports project progress module on the platform.
Furthermore, the sports project progress module comprises a project plot progress query module, a facility project construction progress query module and a sports facility planning construction time axis module;
the project plot progress query module is used for dividing the regions where the sports facilities which are under construction are located and marking each region with a corresponding number;
the facility project construction progress query module is used for querying the project name, investment amount, construction unit and current progress of the area where the sports facility under construction is located, and is attached with a bird's eye view of the building sports facility shot by the unmanned aerial vehicle module;
the sports facility planning and construction time axis module is used for displaying the sports facilities under construction at different time axes, and the progress changes of the sports facilities under construction are displayed through a plurality of time axes.
And further, layer management is added in the map operation module, the layer management comprises a sky map image, a sky map vector and a sky map terrain, and different sky maps in the supervision area are displayed through the sky map image, the sky map vector and the sky map terrain.
Compared with the prior art, the invention has the beneficial effects that:
the physical education industry supervision system based on the geographic information technology provided by the invention realizes the data of the physical education management department and the local area through the platform, combines the geographic technology, provides scientific basis for the supervision and management of the physical education management department, enables the terminal of the physical education management department to exchange and process data under safe and efficient big data through a network, and further macroscopically checks each data of physical education facilities in the local area, microscopically checks each detailed information of the construction progress of a physical education project, and completes real-time management through rapid and efficient background management.
Drawings
FIG. 1 is an overall block diagram of the sports industry monitoring system based on geographic information technology according to the present invention;
FIG. 2 is an interface diagram of a sports big data analysis module of the sports industry monitoring system based on geographic information technology according to the present invention;
FIG. 3 is an interface diagram of a sports facility search module of the sports industry monitoring system based on geographic information technology according to the present invention;
FIG. 4 is a measurement interface diagram of the sports industry monitoring system based on geographic information technology according to the present invention;
FIG. 5 is a first interface diagram of an advanced search module of the sports industry monitoring system based on geographic information technology according to the present invention;
FIG. 6 is a second interface diagram of an advanced search module of the sports industry monitoring system based on geographic information technology according to the present invention;
FIG. 7 is an interface diagram of a fixed point detail display module of the physical education monitoring system based on geographic information technology according to the present invention;
FIG. 8 is a diagram of a project list interface of the sports industry surveillance system based on geographic information technology according to the present invention;
FIG. 9 is a first time-axis interface diagram of the geographic information technology-based sports industry surveillance system of the present invention;
fig. 10 is a time axis interface diagram ii of the sports industry monitoring system based on geographic information technology according to the present invention.
In the figure: 1. a sports big data analysis module; 11. a sports facility statistics module; 12. a sports facility proportion module; 13. a key item module; 14. a location distribution module; 15. an individual operator statistic module; 16. an industry activity unit counting module; 2. a sports facility search module; 21. a map operation module; 22. an advanced search module; 23. a fixed point detail display module; 3. a remote server; 4. an unmanned aerial vehicle module; 5. a terminal of a sports management department; 6. a sports progress module; 61. a project plot progress query module; 62. a facility project construction progress query module; 63. and a time axis module for planning and constructing sports facilities.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The first embodiment is as follows:
referring to fig. 1, the physical education industry supervision system based on the geographic information technology includes a physical education big data analysis module 1, a physical education facility search module 2, a remote server 3, an unmanned aerial vehicle module 4, a physical education management department terminal 5, and a physical education progress module 6.
Sports management department terminal 5 is connected with remote server 3, remote server 3 and sports big data analysis module 1, sports facility search module 2, unmanned aerial vehicle module 4 and sports item progress module 6 are connected, unmanned aerial vehicle module 4's output and sports big data analysis module 1, sports facility search module 2 and sports item progress module 6 are connected, sports management department terminal 5 adopts data transmission and the mode of receiving, these sports facilities are looked over to unmanned aerial vehicle module 4, and upload to sports management department terminal 5 with each item information of these sports facilities, each item information of these sports facilities is looked over on sports management department terminal 5.
The sports big data analysis module 1 comprises a sports facility statistics module 11, a sports facility proportion module 12, a major project module 13, a position distribution module 14, an individual operator statistics module 15 and an industrial activity unit statistics module 16.
The sports facility counting module 11 is configured to divide the entire supervised area into a plurality of areas according to the existing area division manner, count types and numbers of sports facilities in each area, and compare the types and numbers together.
The sports equipment percentage module 12 is used for counting the total value and percentage of the sports equipment category in each region.
The important project module 13 is used for displaying the position of the important developed project and the area of the project pre-development on the position distribution module 14.
The position distribution module 14 combines the design of the map shot by the unmanned aerial vehicle module 4 to show the distribution of the sports facilities in the defined area.
The individual proprietor counting module 15 displays the total value and the proportion of the sports facilities operated by the individual proprietor in each region in the year.
The industry activity unit statistic module 16 shows the total value and the proportion of the sports facilities of the industry activity unit of the year in each region.
The sports facility searching module 2 comprises a map operation module 21, an advanced searching module 22 and a fixed point detail showing module 23.
The map operation module 21 is configured to measure lengths of any two points on the map, and can freely zoom in and zoom out the map, and mark different types of sports facilities by using different colors during zooming in and zooming out the map.
The advanced search module 22 is used for inputting names of sports facilities in the search box for positioning search, and also can be used for inquiring corresponding fixed point types through selecting or not, screening the number, types and ranges of people in the search box, searching the sports facilities in the search box, and displaying the screened number in each divided region.
The fixed point details presentation module 23 records information for each sports facility on the map, the information records including presentation details and photo information for each sports facility.
The sports progress module 6 includes a project plot progress query module 61, a facility project construction progress query module 62, and a sports facility planning construction timeline module 63.
The project plot progress query module 61 is configured to divide the area where the sports facility is being constructed, and mark each area with a corresponding number.
The facility project construction progress inquiry module 62 is used for inquiring the project name, investment amount, construction unit and current progress of the area where the sports facility being constructed is located, and is accompanied by the aerial view of the building sports facility photographed by the unmanned aerial vehicle module 4.
The sports facility planning and construction time axis module 63 is used for displaying the sports facilities under construction at different time axes, and displaying the progress changes of the sports facilities under construction through a plurality of time axes.
The map operation module 21 adds layer management, which includes a sky map image, a sky map vector and a sky map terrain, and displays different sky maps in the supervision area through the sky map image, the sky map vector and the sky map terrain.
The remote server 3 is used for the sports management department terminal 5 to establish a medium for data transmission among the sports big data analysis module 1, the sports facility search module 2, the unmanned aerial vehicle module 4 and the sports project progress module 6 in a mode of using the internet, the cloud network and the internet of things, the unmanned aerial vehicle module 4 is based on a data network formed by domestic Beidou base stations, the unmanned aerial vehicle and geographic information are used as an information acquisition platform, and a built-in positioning algorithm is adopted, for covering the sports facilities of the measuring area and positioning and navigating the positions of the sports facilities, the sports administration terminal 5 is used for matching the platform data and collecting operations, and meanwhile, user information is recorded and read, and the user obtains the use authority after the identity is verified to operate the functions of the big sports data analysis module 1, the sports facility search module 2, the unmanned aerial vehicle module 4 and the sports progress module 6 on the platform.
Example two:
the terminal 5 of the sports management department enters a supervisory system, and the sports big data analysis module 1 is displayed on the home page by default and is shown in fig. 2.
Firstly, entering an interface of a sports big data analysis module 1, automatically inquiring data when the interface is opened, and displaying various data of a sports facility counting module 11, a sports facility proportion module 12, a key project module 13, a position distribution module 14, an individual operator counting module 15 and an industrial activity unit counting module 16; when the sports facility searching module 2 is used, the number of the sports facilities in the divided supervision area can be displayed in a bar chart mode by clicking the 'home page' button and the 'facility management' button in the top menu bar to be switched with each other, and the sports facility counting module 11 displays the number of the sports facilities in the divided supervision area visually.
The sports facility proportion module 12 displays the proportion of a single type of sports facilities in a circle by using a plurality of circles of concentric annular diagrams, displays the proportion of different regions by using a position distribution module 14 to display the sports facilities with high probability, displays the quantity and proportion of different individual operator statistical modules 15 in different regions by using a horizontal bar chart, and displays the quantity and proportion of different regions by using an industrial activity unit statistical module 16 by using the horizontal bar chart.
The sports facility searching module 2 combines the design of the map shot by the unmanned aerial vehicle module 4 to show the distribution situation of the sports facilities on the defined area, which is shown in fig. 3.
The map operation module 21 can directly measure in the area map, and directly display the length of the drawn path, which is shown in fig. 4.
Firstly, the sports facility searching module 2 is entered to open a button of the advanced searching module, names of the sports facilities are input into a searching box in the advanced searching module 22 to perform positioning searching, data is automatically inquired when an interface is opened, items can be selected from the inquiry conditions of the interface according to requirements to obtain data of related items, and the sports facilities meeting the conditions can be screened out through click type selection, which is shown in fig. 5-6.
And the edit box corresponding to the data in the search box is used for performing character editing on the search box.
The fixed point detail display module 23 marks any fixed point mark on the map, wherein the detailed information of the fixed point unit, the license number, the name of the business organization, the unified social credit code, the representative of the legal person, the address of the business firm, the responsible year contact number and the type are popped up, as shown in fig. 7.
By using the "project list," the project being built, as shown in FIG. 8.
Items for different time periods are displayed by using a plurality of time axes, as shown in fig. 9 to 10.
The changes of the two in the same area and different time axes along with the increase of the time span can be displayed, and the changes of the project progress can be compared in real time.
In summary, the following steps: the physical education industry supervision system based on the geographic information technology realizes data of a physical education management department and the local area through a platform, combines the geographic technology, provides scientific basis for supervision and management of the physical education management department, enables a physical education management department terminal 5 to exchange and process data under safe and efficient big data through a network, macroscopically checks data of physical education facilities in the local area, microscopically checks detailed information of construction progress of a physical education project, and completes real-time management through rapid and efficient background management.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.
Claims (7)
1. The physical education industry supervision system based on the geographic information technology is characterized by comprising a physical education big data analysis module (1), a physical education facility searching module (2), a remote server (3), an unmanned aerial vehicle module (4), a physical education management department terminal (5) and a physical education project progress module (6);
the sports management department terminal (5) is connected with the remote server (3), the remote server (3) is connected with the sports big data analysis module (1), the sports facility search module (2), the unmanned aerial vehicle module (4) and the sports progress module (6), and the output end of the unmanned aerial vehicle module (4) is connected with the sports big data analysis module (1), the sports facility search module (2) and the sports progress module (6);
the sports big data analysis module (1) comprises a sports facility statistics module (11), a sports facility proportion module (12), a major project module (13), a position distribution module (14), an individual operator statistics module (15) and an industrial activity unit statistics module (16);
the sports facility counting module (11) is used for dividing the whole supervision area into a plurality of areas in the supervision area according to the existing area division mode, counting the types and the quantity of the sports facilities in each area, and comparing the types and the quantity together;
the sports facility proportion module (12) is used for counting the total value and proportion of the types of sports facilities in each region;
the key project module (13) is used for displaying key developed project positions and project pre-development areas on the position distribution module (14);
the position distribution module (14) is combined with the design of a map shot by the unmanned aerial vehicle module (4) to show the distribution condition of the sports facilities on a defined area;
the individual operator statistical module (15) displays the total value and the proportion of the sports facilities operated by the individual operator in each region in the current year;
the statistical module (16) of the industrial activity units displays the total value and the proportion of the sports facilities of the annual industrial activity units in each region.
2. A sports industry supervision system based on geographical information technology according to claim 1, characterized in that sports facility search module (2) comprises map operation module (21), advanced search module (22), fixed point detail presentation module (23);
the map operation module (21) is used for measuring the lengths of any two points on the map, can freely enlarge and reduce the map, and marks different sports facility types through non-color marks in the enlarging and reducing processes;
the advanced search module (22) is used for inputting names of sports facilities in a search box for positioning search, and also can be used for searching corresponding fixed point types through selecting or not, screening the number, types and ranges of people in the search box, searching the sports facilities in the search box, and displaying the screened number in each divided region;
the fixed point detail display module (23) records information of each sports facility on the map, and the information records comprise display detail information and photo information of each sports facility.
3. A sports industry supervision system based on geographical information technology according to claim 1 characterized in that the remote server (3) is used for the sports management department terminal (5) to establish the medium of data transmission between the sports big data analysis module (1), the sports facility search module (2), the unmanned aerial vehicle module (4) and the sports event progress module (6) in a way of using internet, cloud network, internet of things.
4. The geographic information technology-based sports industry surveillance system according to claim 1, characterized by the fact that the drone module (4) is based on a data network formed by the Beidou base stations in China, the drone + geographic information is used as an information acquisition platform, and a built-in positioning algorithm is used to cover the sports facilities in the measurement area and to position and navigate where the sports facilities are located.
5. The physical education industry supervision system based on the geographic information technology as claimed in claim 1 is characterized in that the sports management department terminal (5) is used for matching and collecting platform data, recording and reading user information, and the user obtains the use right to operate the functions of the sports big data analysis module (1), the sports facility search module (2), the unmanned aerial vehicle module (4) and the sports project progress module (6) on the platform after the identity is verified.
6. A sports industry supervision system based on geographical information technology according to claim 1, characterized in that sports item progress module (6) comprises an item plot progress query module (61), a facility item construction progress query module (62) and a sports facility planning construction timeline module (63);
the project plot progress query module (61) is used for dividing the regions where the sports facilities which are under construction are located and marking each region with a corresponding number;
the facility project construction progress inquiry module (62) is used for inquiring the project name, investment amount, construction unit and current progress of the area where the sports facility under construction is located, and is attached with a bird's eye view of the building sports facility shot by the unmanned aerial vehicle module (4);
the sports facility planning and construction time axis module (63) is used for displaying the sports facilities under construction in different time axes, and displaying the progress change of the sports facilities under construction through a plurality of time axes.
7. A sports industry supervision system based on geographical information technology according to claim 1 characterized by added layer management in the map operations module (21) including sky map images, sky map vectors and sky map terrain by which different day maps within the supervision area are displayed.
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Application publication date: 20200818 |