CN110738466A

CN110738466A - kinds of park management system and method

Info

Publication number: CN110738466A
Application number: CN201910996191.4A
Authority: CN
Inventors: 何海生; 吴庆
Original assignee: Isoftstone Information Technology Co Ltd
Current assignee: Isoftstone Information Technology Co Ltd
Priority date: 2019-10-18
Filing date: 2019-10-18
Publication date: 2020-01-31

Abstract

The embodiment of the invention discloses garden management systems and methods, wherein each garden management system comprises a terminal layer, a transmission layer, a platform layer, an application layer and a display layer, the terminal layer is used for acquiring garden data information through hardware equipment and/or a third-party subsystem and sending the garden data information to the transmission layer, the transmission layer is used for carrying out edge analysis on set types of hardware data information contained in the garden data information and sending the garden data information and/or edge analysis results to the platform layer, the platform layer is used for carrying out data processing and analysis on the garden data information and/or edge analysis results to obtain application data information and sending the application data information to the application layer, and the application layer is used for sending corresponding control instructions to corresponding hardware equipment and/or a third-party subsystem according to the application data information to realize system control over the hardware equipment and the third-party system contained in a garden, so that the garden management cost is reduced.

Description

kinds of park management system and method

Technical Field

The embodiment of the invention relates to the technology of Internet of things, in particular to types of park management systems and methods.

Background

With the rise of smart cities, more and more industrial parks are operated and grow, hardware devices contained in the parks are various, such as fans, lighting, air conditioners, consumption, elevators, fire protection, forbidden, parking, monitoring, broadcasting and the like, and meanwhile, a plurality of systems, such as Building equipment Automation Systems (BAs), Intelligent integration systems (IBMS), parking Management systems, fire protection Management and control systems and the like, are also contained in the parks.

Disclosure of Invention

The embodiment of the invention provides types of park management systems and methods, which are used for integrating access and management of physical equipment and third-party subsystems in a park, so that the park operation cost is reduced.

, the embodiment of the invention provides kinds of garden management systems, which include a terminal layer, a transmission layer, a platform layer, an application layer and a display layer;

the terminal layer comprises at least hardware devices and/or at least third-party subsystems in the garden, and is used for collecting garden data information through the hardware devices and/or the third-party subsystems and sending the garden data information to the transmission layer;

the park data information comprises hardware data information acquired by the hardware equipment and/or system data information acquired by the third-party subsystem;

the transmission layer is used for receiving the park data information, performing edge analysis on the set type hardware data information contained in the park data information, and sending the park data information and/or an edge analysis result to the platform layer;

the platform layer is used for carrying out data processing and analysis on the campus data information and/or the edge analysis result sent by the transmission layer so as to obtain application data information corresponding to at least applications contained in the application layer and sending the application data information to the application layer;

the application layer is used for receiving the application data information and issuing a corresponding control instruction to corresponding hardware equipment and/or a third-party subsystem according to the application data information;

the display layer is used for displaying the park.

In a second aspect, an embodiment of the present invention provides kinds of campus management methods, where the method includes:

acquiring park data information through at least hardware devices and/or at least third-party subsystems contained in a terminal layer, and sending the park data information to a transmission layer;

performing edge analysis on the set type hardware data information contained in the park data information through the transmission layer, and sending the park data information and/or an edge analysis result to the platform layer;

performing data processing and analysis on the campus data information and/or the edge analysis result through the platform layer to obtain application data information corresponding to at least applications contained in an application layer, and sending the application data information to the application layer;

issuing corresponding control instructions to corresponding hardware equipment and/or a third-party system according to the application data information through the application layer;

and displaying the park through a display layer.

In the technical scheme of the embodiment of the invention, the park management system comprises a terminal layer, a transmission layer, a platform layer, an application layer and a display layer, wherein park data information is acquired through the terminal layer, hardware data information acquired by hardware equipment supporting different protocol types and system data information acquired by a third-party subsystem are integrated through the transmission layer, edge analysis is carried out on the set type of hardware data information, then the platform layer carries out data processing and analysis on the integrated park data information and edge analysis results to obtain application data information corresponding to applications contained in the application layer, finally the application layer sends corresponding control instructions to the corresponding hardware equipment and the third-party subsystem according to the application data information, and the display layer carries out park display on users, so that the management and control of the hardware equipment contained in the park and the system of the third-party system are realized, and the park management cost is reduced.

Drawings

Fig. 1 is a schematic structural diagram of a -type campus management system in an embodiment of the present invention;

fig. 2a is a schematic structural diagram of an -kind park management system according to a second embodiment of the present invention;

fig. 2b is a schematic structural diagram of a management system of types of parks according to a second embodiment of the present invention;

fig. 3 is a flowchart of the types of campus management methods according to the third embodiment of the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the drawings and examples, it being understood that the specific embodiments herein described are merely illustrative of and not restrictive on the broad invention, and it should be further noted that for the purposes of description, only some, but not all, of the structures associated with the present invention are shown in the drawings.

Example

Fig. 1 is a schematic structural diagram of a campus management systems in of the present invention, where the technical solution of this embodiment is applicable to a situation where a campus includes at least hardware devices and/or at least third party subsystems, and the campus management system includes a terminal layer 1, a transport layer 2, a platform layer 3, an application layer 4, and a display layer 5.

The terminal layer 1 comprises at least hardware devices 11 and/or at least third-party subsystems 12 in the campus, and is used for acquiring the data information of the campus through the hardware devices 11 and/or the third-party subsystems 12 and sending the data information of the campus to the transmission layer 2;

the campus data information includes hardware data information collected by the hardware device 11 and/or system data information collected by the third-party subsystem 12.

In this embodiment, in order to implement management of the park management system , data information in the park needs to be collected in real time through various devices, so that abnormal events occurring in the park can be processed in time, or series preventive management is performed on the park through the collected data information, a terminal layer 1 is the most basic layer of the park management system, and includes various hardware devices 11 and third-party subsystems 12 in the park, and is used for obtaining various park data information, wherein the park data information includes hardware data information directly collected by the hardware devices 11 and/or system data information statistically obtained by the third-party subsystems 12, and exemplarily, the hardware data information may be video information collected by cameras in the park, and the system data information may be parking space information of the park garage statistically collected by the parking management system in the park.

Optionally, the hardware devices 11 included in the campus include at least items of video monitoring devices, intelligent WIFI devices, and hydrologic awareness devices.

Optionally, the third party subsystem 12 is a system included on the campus for performing at least monitoring functions.

In the two alternative embodiments, the type of the hardware device 11 and the specific meaning of the third-party subsystem 12 included in the campus are provided, where the hardware device 11 included in the campus includes at least of a video monitoring device, an intelligent WIFI device, and a hydrologic sensing device, and the third-party subsystem 12 is a system included in the campus for implementing at least monitoring functions, such as a security subsystem, a prohibited subsystem, a parking subsystem, a weak electronic subsystem, a lighting subsystem, a fire-fighting subsystem, a financial subsystem, and an office subsystem, the third-party subsystem 12 may be divided into two types according to its components, where the type is the third-party subsystem 12 including both hardware devices and software platforms, such as a parking subsystem formed by hardware devices such as a barrier, a license plate recognition camera, a parking charging device, and a background report, and the other types are the third-party subsystem 12 including only a software platform and no hardware device, such as a financial subsystem and an office subsystem.

The transmission layer 2 is used for receiving the park data information, performing edge analysis on the set type hardware data information contained in the park data information, and sending the park data information and/or an edge analysis result to the platform layer 3.

In this embodiment, the transport layer 2 is a layer that is set for the different communication protocols supported by the hardware devices 11 in the campus, which cannot be accessed by the system , and supports multiple communication protocols, and can receive the hardware data information collected by the hardware devices 11 supporting different protocols, and at the same time, can also receive the more standard format collected by the third-party subsystem 12, and the system data information corresponding to the communication protocol can perform edge analysis on the hardware data of a set type after receiving the hardware data information and/or the system data information, and finally send the received campus data information and the edge analysis result to the platform layer 3 at the same time.

For example, after receiving the hardware data information and/or the system data information, the camera at the campus entry needs to acquire video information at the campus entry in real time, but the part of the information with large size does not contain data information required for post-processing, if all the video information is directly uploaded, not only is transmission resources wasted, but also the processing process is time-consuming due to the large size of the data, so that the video information at the transport layer 2 is selected to be edge-analyzed, for example, image information containing video information or license plate number of a car or image information of the car is extracted from the video information, and finally the image information and the image information are sent to other platform layers at the same time.

The platform layer 3 is configured to perform data processing and analysis on the campus data information and/or the edge analysis result sent by the transport layer 2, to obtain application data information corresponding to at least applications included in the application layer 4, and send the application data information to the application layer 4.

In this embodiment, the platform layer 3 aggregates and integrates the campus data information sent by the transport layer 2, for example, performs data cleaning, data format conversion, data integration, data filtering, and the like to obtain data information required for campus management, stores the data information in a data lake and/or a cloud object storage space, and finally performs data processing on the processed campus data information and an edge analysis result sent by the transport layer 2 to obtain application data information corresponding to the application layer 4, where the data processing may include data modeling, data analysis, stream processing, video analysis, and the like.

Illustratively, the platform layer 3 receives the face image obtained by the edge analysis of the transmission layer 2, compares the face image with face information prestored in the database, determines whether the identity of the person corresponding to the face image is a worker in the park, and sends the final determination result to the application layer 4. The face information prestored in the database can be information input by a worker when the worker enters the park to work.

The application layer 4 is configured to receive the application data information, and issue a corresponding control instruction to the corresponding hardware device 11 and/or the third-party subsystem 12 according to the application data information.

In this embodiment, the application layer 4 is configured to receive application data information, where the application data information corresponds to at least applications, for example, the face comparison information corresponds to a person management application, and the license plate comparison information corresponds to a vehicle management application, and after receiving the application data information matched with the specific application in the application layer 4, the specific application in the application layer 4 issues a control instruction to the hardware device 11 or the third-party subsystem 12 corresponding to the specific application according to the application data information.

The display layer 5 is used for displaying the garden.

In this embodiment, the display layer 5 constructs a 3D model of the campus by using a Geographic Information System (GIS) technology, displays a campus profile in a three-dimensional manner, and provides a large screen, a PC terminal, an APP installed on a mobile terminal, and other display access modes for campus enterprises, employees, and managers.

Example two

Fig. 2a is a schematic structural diagram of types of campus management systems according to a second embodiment of the present invention, where this embodiment is applicable to a situation where a campus includes at least types of hardware devices and/or at least types of third-party subsystems, and on the basis of the above embodiment, steps are refined to explain each level of the campus management system in detail.

Optionally, the transmission layer 2 is specifically configured to:

receiving, by the data reception module 21 supporting at least communication protocols, campus data information matching the protocols supported by the data reception module 21;

wherein, the data receiving module 21 comprises at least protocol units 211;

performing edge analysis on the set type of hardware data information through the intelligent edge 22 to acquire data characteristic information matched with the set type of hardware data information;

the campus data information and/or the data characteristic information is sent to the platform layer 3.

In this optional embodiment, the transport layer 2 is mainly configured to receive hardware data information sent by hardware devices 11 supporting different communication protocols, and perform edge analysis on the set type of hardware data information to obtain data feature information matched with the set type of hardware data information, specifically, the transport layer 2 receives the hardware data information sent by the hardware devices 11 supporting different communication protocols through the data receiving module 21, where the data receiving module 21 includes at least protocol units 211, for example, the data receiving module 21 includes a protocol unit supporting a GB28181 protocol and a protocol unit supporting an ONVIF protocol, and then the data receiving module 21 may receive video information collected by a camera supporting the GB28181 protocol and a camera supporting the ONVIF.

, the transmission layer 2 needs to upload received hardware data information to the platform layer 3 for processing, but since the campus includes many cameras, the amount of video information acquired by these cameras is very large, if all video information acquired by all cameras is uploaded to the platform layer 3, a very large bandwidth is occupied, and the time for uploading information is long, exemplarily, the transmission rate of a high-definition camera can reach 4Mbps, if the campus includes 1000 cameras, uploading all video information acquired by the cameras needs 4000Mbps, whereas the very large export bandwidth sometimes only 100Mbps, if all video information is uploaded to the platform layer 3, in , a very large portion of export bandwidth of in the campus is occupied, in addition, in , the transmission time of the video information is very long, thereby affecting the system response speed, therefore, uploading all video information to the platform layer 3 is not realistic, in order to solve the problem of this 2, the intelligent configuration is set in the transmission layer 2, the transmission time for uploading video information is very long, the information is set to be full license information, and the hardware data acquisition of the license information is set as the license information of a full license plate information acquisition platform layer 3, the license plate information is a video information acquisition system response speed of a full license plate information which is set from a full license plate information acquisition video information acquisition platform layer 3, and a full license plate information acquisition platform layer 2, the license plate information acquisition is set for a full license plate information acquisition system is set from a full license plate information acquisition system, the full license plate information acquisition of a full license plate information acquisition system is set from a full license plate information acquisition platform layer 3, a full license plate information acquisition system of a license plate information acquisition system, a license plate information acquisition system of a license plate information acquisition system, a license plate information acquisition system of a license plate information acquisition system, a license plate acquisition system of a license plate acquisition system, a license plate information acquisition system of a license.

Optionally, the platform layer 3 is specifically configured to:

receiving park data information and/or data characteristic information sent by a transmission layer 2;

carrying out data cleaning on the received park data information to remove invalid data information contained in the park data information, correcting error data information in the park data information and acquiring valid data information;

carrying out format conversion on the effective data information to obtain standard data information;

performing data analysis on the standard data information and the data characteristic information to acquire application data information corresponding to at least applications included in the application layer 4;

the application data information is sent to the application layer 4.

In this optional embodiment, the platform layer 3 receives the campus data information sent by the transport layer 2 and the data feature information obtained by the intelligent edge processing, first, data cleaning needs to be performed on the campus data information, so as to remove invalid data information in the campus data information and correct error data information existing in the campus data information, so as to obtain valid data information, step is performed, since the valid data information includes information of different formats acquired by a plurality of hardware devices 11, if the valid data information needs to be integrated and processed by step , format conversion needs to be performed on the valid data information, so as to obtain standard data information of the format system , finally, data analysis is performed on the obtained standard data information and the data feature information obtained by the intelligent edge processing of the transport layer 2, so as to obtain application data information corresponding to at least applications included in the application layer 4.

Optionally, the platform layer 3 is further configured to:

storing the structured data information contained in the standard data information into a data lake;

and storing the unstructured data information contained in the standard data information into a cloud object storage space.

In this optional embodiment, the application layer 4 is further configured to store standard data information obtained through data cleaning and format conversion in a classified manner, where the standard data information may be divided into three types according to a format, and structured data, semi-structured data, and unstructured data, where the structured data refers to table-type data, the data is in a standard line and column form, for example, personnel information data, line represents information of an individual, including personnel name, gender, age, and academic history, the semi-structured data is in a text-type data, for example, text such as articles or reviews, and in a non-standard line and column form, structured data such as names, places, and events may be extracted from the text-type data, the unstructured data is in a form of pictures or videos, it is necessary to perform -step intelligent analysis to obtain the structured data, for example, it is necessary to analyze whether there is a case that a shelf event occurs or a fire occurs in video, and the structured data is stored in a smaller amount than that the structured data is stored in a cloud lake, where the structured data is stored in a cloud object, and the structured data is stored in a smaller amount than that the structured data is stored in a cloud object, where the structured data is stored in a cloud object, and the structured data is stored in a cloud.

Optionally, the application layer 4 includes at least applications, specifically for:

receiving application data information corresponding to at least applications;

sending the application data information to the corresponding application;

and issuing corresponding control instructions to the corresponding hardware equipment 11 and/or the third-party subsystem 12 through application according to the application data information.

In this optional embodiment, the application layer 4 receives the application data information sent by the platform layer 3, determines an application matched with the application data information according to the format and content of the application data, sends the application data information to the application matched with the application data information, and finally sends a corresponding control instruction to the corresponding hardware device 11 and/or the third-party subsystem 12 according to the received application data information, for example, the application data information received by the application layer 4 includes videos of a fire disaster occurring in the campus, and sends the application data information to the integrated security application, and further steps, the integrated security application directly sends a control instruction to a fire sprinkler head in the campus according to the received application data information, so that the integrated security application starts to spray water, and sends an alarm instruction to an alarm device, and starts to alarm the fire disaster, if the integrated security application includes a fire sprinkler system, the integrated security application sends a control instruction to the fire sprinkler system, and the fire sprinkler system sends a control instruction to the hardware device 11 such as the fire sprinkler head and the alarm device.

The display layer 5 is used for displaying the garden.

Optionally, the display layer 5 is specifically configured to:

the state of the park and the application layer 4 is displayed in at least display modes;

the state of the application layer 4 includes application data information received by the application layer 4 and related information of a corresponding control instruction issued by the application layer 4.

In this optional embodiment, the display layer 5 is used to display the park and the application layer 4 state, and the display mode may include large screen display, PC terminal display, and display through APP installed on the mobile terminal. Illustratively, the large visual screen in the garden shows the garden and the application layer 4 state, and the garden management committee staff who is responsible for the garden management can monitor each item of condition in the garden through the large visual screen in the garden, and when the received application data information contains abnormal state, can issue corresponding control instructions to the garden hardware device 11 or the third-party subsystem 12.

According to the technical scheme, the park management system comprises a terminal layer, a transmission layer, a platform layer, an application layer and a display layer, park data information is collected through the terminal layer, hardware data information collected by hardware equipment supporting different protocol types and system data information collected by a third-party subsystem are integrated through the transmission layer, edge analysis is conducted on the set type of hardware data information, then the platform layer conducts data processing and analysis on the integrated park data information and edge analysis results, application data information corresponding to applications contained in the application layer is obtained, finally the application layer sends corresponding control instructions to the corresponding hardware equipment and the third-party subsystem according to the application data information, park display is conducted on users through the display layer, management and control over the hardware equipment contained in a park and the system of the third-party system are achieved, and park management cost is reduced.

EXAMPLE III

Fig. 3 is a flowchart of a management method for types of parks in a third embodiment of the present invention, where the technical solution of this embodiment is suitable for a situation where a park includes at least types of hardware devices and/or at least types of third-party subsystems, and the method can be applied to the park management system, and specifically includes the following steps:

310, collecting garden data information through at least hardware devices and/or at least third-party subsystems contained in a terminal layer, and sending the garden data information to a transmission layer;

the park data information comprises hardware data information acquired by hardware equipment and/or system data information acquired by a third-party subsystem.

In this embodiment, the terminal layer includes at least kinds of hardware equipment in the garden and at least kinds of third party subsystems that insert the garden, gather garden data information through the terminal layer to send garden data information to the transmission layer, specifically, gather hardware data information through the hardware equipment in the garden, gather system data information through third party subsystems.

Wherein, garden hardware equipment can include garden camera, intelligent WIFI equipment and hydrology perception equipment etc. and the third party subsystem that the garden inserts can include security protection subsystem, forbidden subsystem, parking subsystem, weak current subsystem, lighting subsystem, fire control subsystem, financial subsystem, office subsystem etc..

And step 320, performing edge analysis on the set type hardware data information contained in the park data information through the transmission layer, and sending the park data information and/or an edge analysis result to the platform layer.

In this embodiment, the hardware data information collected by the hardware devices supporting different communication protocols and the system data information collected by the third-party subsystem, which are sent by the terminal layer, are integrated through the transmission layer, the edge analysis is performed on the set type hardware data information, and finally, the campus data information and/or the edge analysis result are sent to the platform layer.

Illustratively, the data receiving module of the transport layer supports multiple communication protocols, for example, the GB28181 protocol and the ONVIF protocol are supported, so that video information collected by cameras supporting the two protocols can be received simultaneously, in cases, the campus management system only needs to obtain part of information in a video, but not all of the video information in the process of managing a campus, and it consumes more resources if all of the video information is transmitted and processed, so edge processing is performed on the video information to obtain effective information in the video, only the effective information is transmitted, for example, a camera located at a campus entry needs to collect video information at the campus entry in real time, but the part of the information is large and does not contain data information required for post-processing, so edge analysis is performed on the video information in the transport layer, image information containing a human face or a car license plate number is extracted from the video information, and finally, the image information and other data information in the campus layer are sent to the platform layer simultaneously.

Optionally, performing edge analysis on the set type hardware data information included in the campus data information through the transport layer, including:

receiving the park data information matched with the protocol supported by the data receiving module through the data receiving module which supports at least communication protocols and is contained in the transmission layer, wherein the data receiving module contains at least protocol units;

and performing edge analysis on the set type hardware data information through an intelligent edge contained in the transmission layer to acquire data characteristic information matched with the set type hardware data information.

In this optional embodiment, the transmission layer receives, by the data receiving module, hardware data information collected by hardware devices that support different protocols, where the data receiving module includes at least protocol units, for example, if the data receiving module includes a protocol unit that supports a GB28181 protocol, the data receiving module may receive a camera that supports the GB28181 protocol.

And , the transmission layer performs edge analysis on the received hardware data of the set type through an intelligent edge to obtain data characteristic information, wherein the purpose of the edge analysis is to extract information required for garden management from garden data information with large data volume, for example, edge analysis is performed on video information acquired by a camera located in a garden office to extract an image containing a human face, so as to identify personnel.

And step 330, performing data processing and analysis on the park data information and/or the edge analysis result through the platform layer to obtain application data information corresponding to at least applications contained in the application layer, and sending the application data information to the application layer.

In this embodiment, on the basis of sending the campus data information and/or the edge analysis result to the platform layer, the platform layer performs preliminary processing on the information, including data cleaning, data format conversion, data integration, data filtering, and the like, to obtain information required for campus management, stores the information in a data lake and/or a cloud object storage space, and finally performs data processing on the processed campus data information and the edge analysis result to obtain application data information corresponding to the application layer, where the data processing may include data modeling, data analysis, stream processing, video analysis, and the like.

And 340, issuing a corresponding control instruction to the corresponding hardware equipment and/or a third-party system according to the application data information through the application layer.

In this embodiment, after the application layer receives the application data information, the specific application corresponding to the application data issues a control instruction to the hardware device and/or the third-party system, for example, when the vehicle management application receives that the license plate comparison information is legal information, that is, the vehicle corresponding to the license plate belongs to a member vehicle in the park, the application layer issues a barrier opening instruction to allow the vehicle to enter the park, if the park includes a parking subsystem, the parking subsystem is composed of a barrier, a license plate recognition camera, a parking charging device, a background report application, and the like, when the application layer receives that the license plate comparison information is legal information, the application layer issues the barrier opening instruction to the third-party subsystem, and finally the third-party subsystem controls the barrier.

And step 350, displaying the park through a display layer.

In this embodiment, the 3D model of garden is found through the GIS technique to the show layer, and stereo display garden overview provides multiple show access modes such as large-size screen, PC terminal and mobile terminal installation APP simultaneously for garden enterprise, staff and administrator.

According to the technical scheme, the campus data information is collected through the terminal layer, the hardware data information collected by hardware equipment supporting different protocol types and the system data information collected by the third-party subsystem are integrated through the transmission layer, edge analysis is conducted on the set type hardware data information, then data processing and analysis are conducted on the integrated campus data information and edge analysis results through the platform layer, application data information corresponding to applications contained in the application layer is obtained, finally, the application layer issues corresponding control instructions to the corresponding hardware equipment and the third-party subsystem according to the application data information, campus display is conducted on users through the display layer, management and control over hardware equipment and system of the third-party system contained in a campus are achieved, and the campus management cost is reduced.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims

The park management system of varieties is characterized by comprising a terminal layer, a transmission layer, a platform layer, an application layer and a display layer;

the terminal layer comprises at least hardware devices and/or at least third-party subsystems in the garden, and is used for collecting garden data information through the hardware devices and/or the third-party subsystems and sending the garden data information to the transmission layer;

the park data information comprises hardware data information acquired by the hardware equipment and/or system data information acquired by the third-party subsystem;

the transmission layer is used for receiving the park data information, performing edge analysis on the set type hardware data information contained in the park data information, and sending the park data information and/or an edge analysis result to the platform layer;

the platform layer is used for carrying out data processing and analysis on the campus data information and/or the edge analysis result sent by the transmission layer so as to obtain application data information corresponding to at least applications contained in the application layer and sending the application data information to the application layer;

the application layer is used for receiving the application data information and issuing a corresponding control instruction to corresponding hardware equipment and/or a third-party subsystem according to the application data information;

the display layer is used for displaying the park.
2. The system of claim 1, wherein the transport layer is specifically configured to:

receiving, by a data receiving module supporting at least communication protocols, campus data information matching a protocol supported by the data receiving module;

wherein, the data receiving module comprises at least protocol units;

edge analysis is carried out on the set type of hardware data information through an intelligent edge so as to obtain data characteristic information matched with the set type of hardware data information;

and sending the park data information and/or the data characteristic information to the platform layer.
3. The system of claim 2, wherein the platform layer is specifically configured to:

receiving the park data information and/or the data characteristic information sent by the transmission layer;

carrying out data cleaning on the received park data information to remove invalid data information contained in the park data information, correcting wrong data information in the park data information and acquiring valid data information;

carrying out format conversion on the effective data information to obtain standard data information;

performing data analysis on the standard data information and the data characteristic information to acquire application data information corresponding to at least applications contained in the application layer;

and sending the application data information to an application layer.
4. The system of claim 3, wherein the platform layer is further configured to:

storing the structured data information contained in the standard data information into a data lake;

and storing the unstructured data information contained in the standard data information into a cloud object storage space.
5. The system according to claim 3, characterized in that said application layer comprises at least applications, in particular for:

receiving application data information corresponding to at least applications;

sending the application data information to a corresponding application;

and issuing corresponding control instructions to corresponding hardware equipment and/or a third-party subsystem according to the application data information through the application.
6. The system of claim 5, wherein the presentation layer is specifically configured to:

displaying the state of the park and the application layer by at least display modes;

the state of the application layer comprises application data information received by the application layer and relevant information of a corresponding control instruction issued by the application layer.
7. The system of claim 1, wherein the third party subsystem is a system included on the campus for performing at least monitoring functions.
8. The system of claim 1, wherein the hardware devices included on the campus comprises at least items of video surveillance equipment, smart WIFI equipment, and hydrologic awareness equipment.
The park management method of the 9 th th species, comprising:

acquiring park data information through at least hardware devices and/or at least third-party subsystems contained in a terminal layer, and sending the park data information to a transmission layer;

the park data information comprises hardware data information acquired by the hardware equipment and/or system data information acquired by the third-party subsystem;

performing edge analysis on the set type hardware data information contained in the park data information through the transmission layer, and sending the park data information and/or an edge analysis result to a platform layer;

performing data processing and analysis on the campus data information and/or the edge analysis result through the platform layer to obtain application data information corresponding to at least applications contained in an application layer, and sending the application data information to the application layer;

issuing corresponding control instructions to corresponding hardware equipment and/or a third-party system according to the application data information through the application layer;

and displaying the park through a display layer.
10. The campus management method of claim 9, wherein performing edge analysis on the hardware data information of a set type included in the campus data information via the transport layer includes:

receiving the park data information matched with the protocol supported by the data receiving module through the data receiving module which supports at least communication protocols and is contained in the transmission layer, wherein the data receiving module contains at least protocol units;

and performing edge analysis on the set type of hardware data information through an intelligent edge contained in the transmission layer to acquire data characteristic information matched with the set type of hardware data information.