CN116612250A - 3D visualization method and system based on intelligent park - Google Patents

Abstract

The application discloses a 3D visualization method and a system based on an intelligent park, which belong to the technical field of 3D monitoring, wherein the three-dimensional modeling is carried out on a park building to obtain the arrangement place of Internet of things equipment in the park, the data information acquired by the Internet of things equipment is received in a wired or wireless mode, the acquired Internet of things equipment data is integrated into a BIM three-dimensional space model, the 3D visualization display and the visualization operation are carried out on the three-dimensional space model and the data information acquired by the Internet of things equipment, the acquired data is displayed, analyzed, processed and applied, the real-time data of the park site is displayed in a three-dimensional view mode, and meanwhile, the three-dimensional visualization method is integrated with the existing park project management information data and database to realize the interaction and application of various data of park project management, reduce the difficulty of site scheduling and integral management and control, and facilitate intelligent management work of the park.

Description

3D visualization method and system based on intelligent park

Technical Field

The application belongs to the technical field of 3D monitoring, and particularly relates to a 3D visualization method and system based on an intelligent park.

Background

The intelligent park is a advanced idea that a new generation communication technology and a digital technology are deeply applied to management operation of the park, the intelligent park has the capabilities of rapid information acquisition, high-speed information transmission and rapid information calculation and comprehensive application, and the digital operation such as equipment management, asset management, data management, market renting and property service in the park is realized to improve the industrial competitiveness of the park and promote the sustainable development of the intelligent park; the smart park is generally divided into: industry garden, commodity circulation garden, industrial garden, intention garden, science and technology garden, chemical industry garden etc. are generally planned the construction by government and enterprise jointly, and present wisdom garden emphasis is emphasized wisdom, digitization, energy saving just fuses modern technological element in the garden construction, so also called intelligent garden. In addition, the concept is continuously changed, so that the factors involved in the intelligent park are more and more along with the development of technology, and the comprehensive intelligent park relates to various digital fields such as intelligent building, intelligent property, intelligent recruitment, intelligent monitoring, visual management and the like.

The intelligent park is generally built by government planning, has complete water supply, power supply, air supply, communication, roads, storage and other supporting facilities, is reasonably arranged, can meet standard buildings or building groups required by production and scientific experiments in a specific industry, and is based on building a unified workflow, cooperation, scheduling and sharing mechanism.

At present, various types of parks can provide corresponding places for production, work and daily life of people, a large number of equipment and personnel exist in the parks, so that quite a lot of event behaviors can be generated, the visual display of the intelligent parks is usually realized through the mode of displaying pictures, videos, two-dimensional plane diagrams and the like, the whole situation of the storehouse areas cannot be clearly and intuitively displayed, security and Internet of things equipment alarm information cannot be timely processed, interaction and application of various data of garden project management are difficult to realize, and the difficulty of on-site scheduling and whole management and control is high, so that intelligent and intelligent management work of gardens is not facilitated.

Disclosure of Invention

In order to overcome the defects, the application provides the 3D visualization method and the system based on the intelligent park, which solve the problems that a large number of equipment and personnel exist in the park, so that quite a lot of event behaviors can be generated, the whole situation of the warehouse cannot be clearly and intuitively displayed in the visual display mode of the intelligent park usually through the modes of pictures, videos, two-dimensional plane diagrams and the like, the alarm information of security and Internet of things equipment cannot be processed in time, the interaction and application of various data of garden project management are difficult to realize, and the field scheduling and whole management and control difficulties are quite large.

The purpose of the application is as follows:

integrating the data of the Internet of things equipment into a BIM three-dimensional space model, performing 3D visual display and visual operation on the three-dimensional space model and receiving data information acquired by the Internet of things equipment, displaying, analyzing, processing and applying the acquired data, and displaying real-time data of a park site in a real-time view mode, and integrating the real-time data with the existing park project management information data and databases, so that interaction and application of various data of park project management are realized, the field scheduling and overall management and control difficulty is reduced, and intelligent management work of the park is facilitated.

In order to achieve the above purpose, the present application provides the following technical solutions: A3D visualization method based on an intelligent park comprises the following steps:

s1, carrying out data scanning on a park building structure to acquire three-dimensional space data of a building in the park;

s2, carrying out three-dimensional modeling on the park building to obtain three-dimensional space data of the building, and carrying out BIM three-dimensional space modeling to obtain a three-dimensional space model of the park building;

s3, arranging corresponding Internet of things equipment in the park building area, acquiring the arrangement place of the Internet of things equipment in the park, and receiving data information acquired by the Internet of things equipment in a wired or wireless mode;

s4, integrating the acquired data of the Internet of things equipment into a BIM three-dimensional space model;

and S5, performing 3D visual display and visual operation on the three-dimensional space model and the data information acquired by the receiving Internet of things equipment.

As a further aspect of the application: in the step S5, 3D visual live-action display and integration are carried out on the obtained data of the equipment of the Internet of things on a three-dimensional space model, and the obtained data are displayed, analyzed, processed and applied, and meanwhile, the obtained data are integrated with the existing garden project management information data and database, so that intelligent management of garden project management is realized.

As a further aspect of the application: in the step S3, a data management module is adopted to obtain the arrangement place of the Internet of things equipment in the campus, and data information acquired by the Internet of things equipment is received in a wired or wireless mode.

As a further aspect of the application: the data management module comprises a man-vehicle management module, a video monitoring module, an environment data acquisition module, a real-time broadcasting module, an intelligent inspection module, a training and checking module and a conference management module.

The utility model provides a 3D visual system based on wisdom garden, includes data scanning module, data scanning module's output is connected with modeling module's input, modeling module's output is connected with data management module's input, data management module's output is connected with loading module's input, loading module's output is connected with 3D visual module's input.

As a further aspect of the application: the personnel and vehicle management module obtains card swiping data of personnel and vehicles according to card swiping information of the park entrance guard system, obtains scanning data of corresponding fixed personnel and set park equipment through scanning bar codes, and controls the personnel and vehicles to enter and exit according to safety quality training conditions and evidence obtaining conditions;

and the video monitoring module is used for: the video record before the project can be called up at any time by obtaining real-time video monitoring data of the park site through the camera which is arranged in the park site in a standardized way, and the video record is automatically stored to an external storage medium for permanent storage at regular intervals;

the environment data acquisition module: acquiring corresponding environmental data through an environmental monitoring sensor on the campus site, and automatically publishing the notice according to the interval of the environmental data;

and the real-time broadcasting module is used for: through the sound column which is arranged in the park in a standardized mode, the important information of the project can be broadcasted by the fixed box in real time or can be broadcasted in an emergency mode, and the broadcasted information is stored;

and an intelligent inspection module: the method comprises the steps that network hardware in a park man-car management module, a video monitoring module and an environment data acquisition module is monitored, and when abnormal data occur, a display mode can be automatically adjusted to abandon the problem to be issued to corresponding operation and maintenance personnel;

training and checking module: establishing a park project-level safety and quality training and assessment system, enabling park project paramedics to participate in related assessment through management and business training required by the training and assessment system to participate in the posts, and determining whether to allow the related staff to engage in corresponding work on the park according to the assessment result;

conference management module: the office meeting room is provided with meeting notification, sign-in opening and remote video equipment, automatic sign-in and sign-in list printing, the office meeting room communicates with important participants of the home and park projects through the remote video conference, and the office meeting room is provided with a mobile terminal video system, so that multiparty meetings can be held on site.

As a further aspect of the application: the data scanning module is used for carrying out data scanning on the building construction of the park to acquire three-dimensional space data of the building in the park;

the modeling module is used for generating a three-dimensional space model frame of the park building;

the loading module is used for integrating the acquired data of the Internet of things equipment into the BIM three-dimensional space model;

and the 3D visualization module integrates the acquired data of the Internet of things equipment into the BIM three-dimensional space model, and then performs 3D visualization display and visualization operation on the three-dimensional space model and the data information acquired by the receiving Internet of things equipment.

Compared with the prior art, the application has the beneficial effects that: the method has the advantages that the arrangement place of the Internet of things equipment in the park is obtained, the data information acquired by the Internet of things equipment is received in a wired or wireless mode, the obtained Internet of things equipment data is integrated into the BIM three-dimensional space model, 3D visual display and visual operation are carried out on the three-dimensional space model and the data information acquired by the received Internet of things equipment, the obtained data are displayed, analyzed, processed and applied, real-time data of the park site are displayed in a real-time mode in a three-dimensional view mode, and meanwhile, the method is integrated with the existing park project management information data and databases, so that interaction and application of various data of park project management are realized, the field scheduling and overall management and control difficulty is reduced, and intelligent management work of the park is facilitated.

Drawings

FIG. 1 is a schematic flow chart of the method of the present application;

fig. 2 is a schematic block diagram of the system of the present application.

Detailed Description

The technical scheme of the application is further described in detail below with reference to the specific embodiments.

Example 1:

as shown in fig. 1, a 3D visualization method based on an intelligent park includes the following steps:

s1, carrying out data scanning on a park building structure to acquire three-dimensional space data of a building in the park;

s2, carrying out three-dimensional modeling on the park building to obtain three-dimensional space data of the building, and carrying out BIM three-dimensional space modeling to obtain a three-dimensional space model of the park building;

s3, arranging corresponding Internet of things equipment in the park building area, acquiring the arrangement place of the Internet of things equipment in the park, and receiving data information acquired by the Internet of things equipment in a wired or wireless mode;

s4, integrating the acquired data of the Internet of things equipment into a BIM three-dimensional space model;

and S5, performing 3D visual display and visual operation on the three-dimensional space model and the data information acquired by the receiving Internet of things equipment.

And S5, performing 3D visual live-action display and integration on the obtained data of the equipment of the Internet of things on the three-dimensional space model, performing display, analysis, processing and application on the obtained data, and integrating the obtained data with the existing garden project management information data and database to realize intelligent management of garden project management.

And S3, acquiring the arrangement place of the Internet of things equipment in the park by adopting a data management module, and receiving the data information acquired by the Internet of things equipment in a wired or wireless mode.

The data management module comprises a man-vehicle management module, a video monitoring module, an environment data acquisition module, a real-time broadcasting module, an intelligent inspection module, a training and checking module and a conference management module.

Example 2:

as shown in fig. 2, a 3D visualization system based on an intelligent park includes a data scanning module, an output end of the data scanning module is connected with an input end of a modeling module, an output end of the modeling module is connected with an input end of a data management module, an output end of the data management module is connected with an input end of a loading module, and an output end of the loading module is connected with an input end of the 3D visualization module.

The personnel and vehicle management module obtains card swiping data of personnel and vehicles according to card swiping information of the park entrance guard system, obtains corresponding scanning data of fixed personnel and set park equipment through scanning bar codes, and controls the personnel and vehicles to enter and exit according to safety quality training conditions and evidence obtaining conditions;

and the video monitoring module is used for: the video record before the project can be called up at any time by obtaining real-time video monitoring data of the park site through the camera which is arranged in the park site in a standardized way, and the video record is automatically stored to an external storage medium for permanent storage at regular intervals;

the environment data acquisition module: acquiring corresponding environmental data through an environmental monitoring sensor on the campus site, and automatically publishing the notice according to the interval of the environmental data;

and the real-time broadcasting module is used for: through the sound column which is arranged in the park in a standardized mode, the important information of the project can be broadcasted by the fixed box in real time or can be broadcasted in an emergency mode, and the broadcasted information is stored;

and an intelligent inspection module: the method comprises the steps that network hardware in a park man-car management module, a video monitoring module and an environment data acquisition module is monitored, and when abnormal data occur, a display mode can be automatically adjusted to abandon the problem to be issued to corresponding operation and maintenance personnel;

training and checking module: establishing a park project-level safety and quality training and assessment system, enabling park project paramedics to participate in related assessment through management and business training required by the training and assessment system to participate in the posts, and determining whether to allow the related staff to engage in corresponding work on the park according to the assessment result;

conference management module: the office meeting room is provided with meeting notification, sign-in opening and remote video equipment, automatic sign-in and sign-in list printing, the office meeting room communicates with important participants of the home and park projects through the remote video conference, and the office meeting room is provided with a mobile terminal video system, so that multiparty meetings can be held on site.

The data scanning module is used for carrying out data scanning on the park building structure to acquire three-dimensional space data of the park building;

the modeling module is used for generating a three-dimensional space model frame of the park building;

the loading module is used for integrating the acquired data of the Internet of things equipment into the BIM three-dimensional space model;

and the 3D visualization module integrates the acquired data of the Internet of things equipment into the BIM three-dimensional space model, and then performs 3D visualization display and visualization operation on the three-dimensional space model and the data information acquired by the receiving Internet of things equipment.

From the above, it is known that:

the method has the advantages that the arrangement place of the Internet of things equipment in the park is obtained, the data information acquired by the Internet of things equipment is received in a wired or wireless mode, the obtained Internet of things equipment data is integrated into the BIM three-dimensional space model, 3D visual display and visual operation are carried out on the three-dimensional space model and the data information acquired by the received Internet of things equipment, the obtained data are displayed, analyzed, processed and applied, real-time data of the park site are displayed in a real-time mode in a three-dimensional view mode, and meanwhile, the method is integrated with the existing park project management information data and databases, so that interaction and application of various data of park project management are realized, the field scheduling and overall management and control difficulty is reduced, and intelligent management work of the park is facilitated.

The last points to be described are: while the application has been described in detail in the foregoing general description and with reference to specific embodiments, the foregoing embodiments are merely illustrative of the technical aspects of the application and are not limiting thereof; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the application.

Claims (7)

1. The 3D visualization method based on the intelligent park is characterized by comprising the following steps of:

s1, carrying out data scanning on a park building structure to acquire three-dimensional space data of a building in the park;

s2, carrying out three-dimensional modeling on the park building to obtain three-dimensional space data of the building, and carrying out BIM three-dimensional space modeling to obtain a three-dimensional space model of the park building;

s3, arranging corresponding Internet of things equipment in the park building area, acquiring the arrangement place of the Internet of things equipment in the park, and receiving data information acquired by the Internet of things equipment in a wired or wireless mode;

s4, integrating the acquired data of the Internet of things equipment into a BIM three-dimensional space model;

and S5, performing 3D visual display and visual operation on the three-dimensional space model and the data information acquired by the receiving Internet of things equipment.

2. The smart campus-based 3D visualization method of claim 1, wherein: in the step S5, 3D visual live-action display and integration are carried out on the obtained data of the equipment of the Internet of things on a three-dimensional space model, and the obtained data are displayed, analyzed, processed and applied, and meanwhile, the obtained data are integrated with the existing garden project management information data and database, so that intelligent management of garden project management is realized.

3. The smart campus-based 3D visualization method of claim 1, wherein: in the step S3, a data management module is adopted to obtain the arrangement place of the Internet of things equipment in the campus, and data information acquired by the Internet of things equipment is received in a wired or wireless mode.

4. A smart park based 3D visualization method as claimed in claim 3, wherein: the data management module comprises a man-vehicle management module, a video monitoring module, an environment data acquisition module, a real-time broadcasting module, an intelligent inspection module, a training and checking module and a conference management module.

5. A 3D visualization system based on a smart park, according to any one of claims 1-4, comprising a data scanning module, wherein an output end of the data scanning module is connected with an input end of a modeling module, an output end of the modeling module is connected with an input end of a data management module, an output end of the data management module is connected with an input end of a loading module, and an output end of the loading module is connected with an input end of the 3D visualization module.

6. The smart campus-based 3D visualization system of claim 5, wherein: the personnel and vehicle management module obtains card swiping data of personnel and vehicles according to card swiping information of the park entrance guard system, obtains scanning data of corresponding fixed personnel and set park equipment through scanning bar codes, and controls the personnel and vehicles to enter and exit according to safety quality training conditions and evidence obtaining conditions;

and the video monitoring module is used for: the video record before the project can be called up at any time by obtaining real-time video monitoring data of the park site through the camera which is arranged in the park site in a standardized way, and the video record is automatically stored to an external storage medium for permanent storage at regular intervals;

the environment data acquisition module: acquiring corresponding environmental data through an environmental monitoring sensor on the campus site, and automatically publishing the notice according to the interval of the environmental data;

and the real-time broadcasting module is used for: through the sound column which is arranged in the park in a standardized mode, the important information of the project can be broadcasted by the fixed box in real time or can be broadcasted in an emergency mode, and the broadcasted information is stored;

and an intelligent inspection module: the method comprises the steps that network hardware in a park man-car management module, a video monitoring module and an environment data acquisition module is monitored, and when abnormal data occur, a display mode can be automatically adjusted to abandon the problem to be issued to corresponding operation and maintenance personnel;

training and checking module: establishing a park project-level safety and quality training and assessment system, enabling park project paramedics to participate in related assessment through management and business training required by the training and assessment system to participate in the posts, and determining whether to allow the related staff to engage in corresponding work on the park according to the assessment result;

conference management module: the office meeting room is provided with meeting notification, sign-in opening and remote video equipment, automatic sign-in and sign-in list printing, the office meeting room communicates with important participants of the home and park projects through the remote video conference, and the office meeting room is provided with a mobile terminal video system, so that multiparty meetings can be held on site.

7. The smart campus-based 3D visualization system of claim 5, wherein: the data scanning module is used for carrying out data scanning on the building construction of the park to acquire three-dimensional space data of the building in the park;

the modeling module is used for generating a three-dimensional space model frame of the park building;

the loading module is used for integrating the acquired data of the Internet of things equipment into the BIM three-dimensional space model;

and the 3D visualization module integrates the acquired data of the Internet of things equipment into the BIM three-dimensional space model, and then performs 3D visualization display and visualization operation on the three-dimensional space model and the data information acquired by the receiving Internet of things equipment.