CN115995888B - Weak current intelligent system integration method and system - Google Patents

Abstract

The invention provides a weak current intelligent system integration method and system, and belongs to the technical field of integrated platforms. The weak current intelligent system integration method comprises the following steps: the method comprises the steps that an intelligent weak current system integrated platform obtains an intelligent weak current system contained in a target building group and/or an area and a building group and/or an area position managed by the intelligent weak current system; the weak current intelligent system integration platform utilizes building groups and/or regional positions managed by the intelligent weak current system to divide the intelligent weak current system into regions to obtain intelligent weak current systems corresponding to each region; and establishing data connection between the intelligent weak current system corresponding to each region and the weak current intelligent system integration platform, and visually displaying the intelligent weak current system with the data connection completed.

Description

Weak current intelligent system integration method and system

Technical Field

The invention provides a weak current intelligent system integration method and system, and belongs to the technical field of integrated platforms.

Background

The weak current engineering is a classification of electric power application, the electric power application can be classified into strong current and weak current according to the intensity of electric power transmission power, building and building group power consumption generally refers to weak current below 220V and 50Hz, electric power energy is mainly provided for people, electric energy is converted into other energy sources, such as air conditioner power consumption, illumination power consumption, power consumption and the like, and the one-stop intelligent weak current engineering is to connect a plurality of processors and detect various electric data and the like. However, in the prior art, a method for centralized supervision of all the vulnerability intelligent systems in a region or a target building group is lacking, so that the vulnerability intelligent systems are independently maintained and supervised, and the problem of low management efficiency is caused.

Disclosure of Invention

The invention provides a weak current intelligent system integration method and system, which are used for solving the problems that in the prior art, a centralized supervision method for all weak current intelligent systems in a region or a target building group is lacked, so that the weak current intelligent systems are independently maintained and supervised, and the management efficiency is lower:

a weak current intelligent system integration method, the weak current intelligent system integration method comprising:

the method comprises the steps that an intelligent weak current system integrated platform obtains an intelligent weak current system contained in a target building group and/or an area and a building group and/or an area position managed by the intelligent weak current system;

the weak current intelligent system integration platform utilizes building groups and/or regional positions managed by the intelligent weak current system to divide the intelligent weak current system into regions to obtain intelligent weak current systems corresponding to each region;

and establishing data connection between the intelligent weak current system corresponding to each region and the weak current intelligent system integration platform, and visually displaying the intelligent weak current system with the data connection completed.

Further, the weak current intelligent system integration platform obtains an intelligent weak current system contained in a target building group and/or an area, and the method comprises the following steps:

the weak current intelligent system integrated platform controls an Internet of things platform to scan the target building group and/or the region;

the Internet of things platform acquires all intelligent weak current systems accessed into a network of the Internet of things, positions building groups and/or area positions managed by the intelligent weak current systems, and performs position calibration as position information;

and the Internet of things platform sends the system name of the intelligent weak current system and the position information of the building group and/or the area position managed by the intelligent weak current system to the weak current intelligent system integration platform.

Further, the weak current intelligent system integration platform performs area division on the intelligent weak current system by using building groups and/or area positions managed by the intelligent weak current system to obtain intelligent weak current systems corresponding to each area, and the method comprises the following steps:

acquiring the distribution position of the area position monitored by the intelligent weak current system in the target building group and/or the area;

dividing the independent positions of the area positions monitored by all intelligent weak current systems contained in the target building group and/or the area according to the boundary of the distribution position to obtain a plurality of target area positions;

and dividing the region according to the target region position distance.

Further, the area division according to the target area position distance comprises:

classifying the target area position into a first area range when the linear distance between the target area position and the position of the weak current intelligent system integrated platform does not exceed a preset first distance threshold;

the linear distance between the target area position and the position of the weak current intelligent system integration platform exceeds a preset first distance threshold value, but does not exceed a preset second distance threshold value, the target area position is classified as a second area range;

and classifying the target area position into a third area range when the linear distance between the target area position and the position of the weak current intelligent system integrated platform exceeds a preset second distance threshold value.

Further, establishing data connection between the intelligent weak current system corresponding to each region and the weak current intelligent system integration platform, and performing visual display on the intelligent weak current system with the data connection completed, including:

acquiring the intensity of wireless communication signals between the current weak current intelligent system integrated platform and each intelligent weak current system;

and sequentially connecting the intelligent weak current systems in the areas to the weak current intelligent system integration platform according to the intensity of the wireless communication signals.

A weak current intelligent system integration system, the weak current intelligent system integration system comprising:

the data acquisition module is used for acquiring an intelligent weak current system contained in a target building group and/or an area and the building group and/or the area position managed by the intelligent weak current system by the weak current intelligent system integration platform;

the regional division module is used for dividing the region of the intelligent weak current system by utilizing the building group and/or the regional position managed by the intelligent weak current system by the weak current intelligent system integration platform to obtain an intelligent weak current system corresponding to each region;

and the data connection module is used for establishing data connection between the intelligent weak current system corresponding to each region and the weak current intelligent system integration platform and visually displaying the intelligent weak current system with the data connection completed.

Further, the data acquisition module includes:

the scanning module is used for controlling the Internet of things platform to scan the target building group and/or the region by the weak current intelligent system integration platform;

the calibration module is used for acquiring all intelligent weak current systems accessed into the network of the Internet of things by the Internet of things platform, positioning building groups and/or regional positions managed by the intelligent weak current systems, and performing position calibration by taking the building groups and/or regional positions as position information;

the information sending module is used for sending the system name of the intelligent weak current system and the position information of the building group and/or the area position managed by the intelligent weak current system to the weak current intelligent system integration platform by the Internet of things platform.

Further, the area dividing module includes:

the distributed position acquisition module is used for acquiring the distributed position of the area position monitored by the intelligent weak current system in the target building group and/or the area;

the independent position dividing module is used for dividing the independent positions of the area positions monitored by all intelligent weak current systems contained in the target building group and/or the area according to the boundary of the distribution position to obtain a plurality of target area positions;

and the distance area dividing module is used for dividing the area according to the position distance of the target area.

Further, the distance region dividing module includes:

the first range dividing module is used for classifying the target area position into a first area range when the linear distance between the target area position and the position of the weak current intelligent system integration platform does not exceed a preset first distance threshold;

the second range dividing module is used for classifying the linear distance between the position of the target area and the position of the weak current intelligent system integration platform as a second area range when the linear distance exceeds a preset first distance threshold value but does not exceed a preset second distance threshold value;

and the third range dividing module is used for classifying the target area position into a third area range when the linear distance between the target area position and the position of the weak current intelligent system integration platform exceeds a preset second distance threshold value.

Further, the data connection module includes:

the signal strength acquisition module is used for acquiring the strength of wireless communication signals between the current weak current intelligent system integrated platform and each intelligent weak current system;

and the platform access control module is used for sequentially accessing the intelligent weak current systems in the areas into the weak current intelligent system integration platform according to the intensity of the wireless communication signals.

The invention has the beneficial effects that:

the method and the system for integrating the weak current intelligent system can intensively monitor all the intelligent weak current systems in all target building groups and area ranges, and prevent the problems of lower monitoring efficiency and higher labor cost consumption caused by independent monitoring of each intelligent weak current system. Meanwhile, platform batch system access is performed in a region division mode, so that data access efficiency and data access success rate can be effectively improved.

Drawings

FIG. 1 is a flow chart of the weak current intelligent system integration method of the invention;

fig. 2 is a system block diagram of the weak current intelligent system integration system of the invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

The embodiment of the invention provides a weak current intelligent system integration method, as shown in fig. 1, which comprises the following steps:

s1, an intelligent weak current system integrated platform acquires an intelligent weak current system contained in a target building group and/or an area and a building group and/or an area position managed by the intelligent weak current system;

s2, the weak current intelligent system integration platform utilizes building groups and/or regional positions managed by the intelligent weak current system to divide the intelligent weak current system into regions to obtain intelligent weak current systems corresponding to each region;

and S3, establishing data connection between the intelligent weak current system corresponding to each region and the weak current intelligent system integration platform, and visually displaying the intelligent weak current system with the data connection completed.

The weak current intelligent system integration platform acquires an intelligent weak current system contained in a target building group and/or an area, and the weak current intelligent system integration platform comprises:

s101, a weak current intelligent system integrated platform controls an Internet of things platform to scan the target building group and/or the region;

the method comprises the steps that a timing time interval for scanning by a weak current intelligent integrated platform is set, the weak current intelligent integrated platform controls the Internet of things platform according to the preset timing time interval, so that the Internet of things platform performs network scanning in real time, and all target building groups and/or areas accessed into the Internet of things in the Internet of things platform are obtained.

S102, the Internet of things platform acquires all intelligent weak current systems accessed into a network of the Internet of things, positions building groups and/or area positions managed by the intelligent weak current systems, and performs position calibration as position information;

the method comprises the steps that an Internet of things platform obtains target building groups and/or areas which are accessed into the Internet of things, and various intelligent weak current systems used for electric system management and developed in different types or brands in each target building group and/or area are obtained through network information of the target building groups and/or areas which are accessed into the Internet of things; and taking the system name of the intelligent weak current system as a benchmark, acquiring the system number of the intelligent weak current system contained under the Internet of things platform, and taking one intelligent weak current system as a unit, and acquiring all target building groups and/or areas controlled, monitored and managed in the Internet of things platform control area. And taking all target building groups and/or areas in the range of the platform of the Internet of things managed by each intelligent weak current system as position information and carrying out position calibration.

S103, the Internet of things platform sends the system name of the intelligent weak current system and the position information of the building group and/or the region position managed by the intelligent weak current system to a weak current intelligent system integration platform.

The weak current intelligent system integration platform performs area division on the intelligent weak current system by utilizing building groups and/or area positions managed by the intelligent weak current system to obtain intelligent weak current systems corresponding to each area, and the weak current intelligent system integration platform comprises:

s201, acquiring the distribution position of the area position monitored by the intelligent weak current system in the target building group and/or the area;

because all target building groups and/or areas in the range of the internet of things platform managed by each intelligent weak current system are a plurality of different position areas which are discretely distributed in the range of the internet of things platform, the position areas corresponding to the target building groups and/or areas managed by each intelligent weak current system are a plurality of discrete areas in the range of the internet of things platform, so that the distribution positions of the areas monitored by the intelligent weak current system are acquired in the embodiment;

s202, dividing the independent positions of the area positions monitored by all intelligent weak current systems contained in the target building group and/or the area according to the boundary of the distribution position to obtain a plurality of target area positions;

because the location area corresponding to the target building group and/or the area managed by each intelligent weak current system is a plurality of discrete areas in the range of the networking platform, in the discrete distributed areas, the area managed by one intelligent weak current system is likely to appear in the middle of two areas managed by the intelligent weak current system or to be inserted into one or more other intelligent weak current systems; therefore, in this embodiment, a merging principle is adopted as a region which is not managed by other intelligent weak current systems is interposed between every two adjacent region positions which belong to the same intelligent weak current system for management and control, and a plurality of region positions are merged into a plurality of target region positions divided by independent positions;

when the other intelligent weak electric system management and control areas are inserted between every two adjacent area positions which belong to the same intelligent weak electric system management and control, judging whether the area inserted with the other intelligent weak electric system management and control areas is an intelligent weak electric system, and if the same intelligent weak electric system does not exist in the inserted intelligent weak electric system, taking the corresponding area position of each intelligent weak electric system as a target area position divided by independent positions; if the same intelligent weak current system does not exist in the intelligent weak current systems, judging whether other intelligent weak current systems still exist among the same intelligent weak current systems, and if so, taking the corresponding region position of each intelligent weak current system as a target region position divided by an independent position; if not, combining the same intelligent weak electrochemical system to form a target area position.

S203, dividing the region according to the target region position distance.

Specifically, the area division is performed according to the target area position distance, including:

s2031, classifying the target area position as a first area range when the linear distance between the target area position and the position of the weak current intelligent system integrated platform does not exceed a preset first distance threshold;

s2032, classifying the linear distance between the target area position and the position of the weak current intelligent system integration platform relative to the second area range when the linear distance exceeds a preset first distance threshold value but does not exceed a preset second distance threshold value;

and S2033, classifying the target area position into a third area range when the linear distance between the target area position and the position of the weak current intelligent system integration platform exceeds a preset second distance threshold value.

The obtaining mode of the linear distance comprises the following steps:

acquiring a boundary contour line of a target area position;

acquiring a first type of position points and a second type of position points on the edge contour line; the first type of position points are 7 points on the edge contour line, which are closest to the linear distance between the positions of the weak current intelligent system integrated platform; the second class of position points are 7 points with the farthest linear distance from the position of the weak current intelligent system integration platform on the edge contour line;

and determining the linear distance between the position of each target area relative to the position of the weak current intelligent system integration platform by using a linear distance acquisition model, wherein the linear distance acquisition model is as follows:

。

wherein, the liquid crystal display device comprises a liquid crystal display device,Za length representing the linear distance;L _mini representing the first category of position pointsiThe linear distance between each position point and the position of the weak current intelligent system integration platform;L _maxi representing the first category of location pointsiThe linear distance between each position point and the position of the weak current intelligent system integration platform;L _min representing location points on edge contours and weaknessThe distance length corresponding to the shortest linear distance between the positions of the integrated platform of the electric intelligent system;L _max representing the distance length corresponding to the longest linear distance between the position point on the edge contour line and the position of the weak current intelligent system integration platform;mandnthe number of the position points contained in the first type of position points and the second type of position points is respectively represented;m ₁ the number of the position points with the shortest linear distance included in the first type of position points is represented;n ₁ the number of the position points with the longest linear distance is represented by the linear distance contained in the second type of position points;A、B、λ ₁ andλ ₂ respectively representing adjustment coefficients; when (when)m ₁ =mAnd, at the same time,n ₁ =ntime, orderA=0.5; when (when)n ₁ =m ₁ Time, orderB=0.37。

Because irregular images often appear in the target area, therefore the straight line distance between the positions of the weak current intelligent system integrated platform cannot be accurately described, and in some cases, the standard regular target area shape is not just opposite to the weak current intelligent system integrated platform, so that an included angle exists between the target area range and the weak current intelligent system integrated platform, and the straight line distance between the target area and the weak current intelligent system integrated platform cannot be accurately evaluated.

The method for establishing the data connection between the intelligent weak current system corresponding to each region and the weak current intelligent system integration platform and visually displaying the intelligent weak current system with the data connection completed comprises the following steps:

s301, acquiring the intensity of wireless communication signals between a current weak current intelligent system integrated platform and each intelligent weak current system;

s302, the intelligent weak current systems in the areas are sequentially connected to the weak current intelligent system integration platform according to the intensity of the wireless communication signals.

The technical scheme has the effects that: the weak current intelligent system integration method provided by the embodiment can intensively monitor all the intelligent weak current systems in all target building groups and the area range, and prevent the problems of lower monitoring efficiency and higher labor cost consumption caused by independent monitoring of each intelligent weak current system. Meanwhile, platform batch system access is performed in a region division mode, so that data access efficiency and data access success rate can be effectively improved.

The embodiment of the invention provides a weak current intelligent system integrated system, as shown in fig. 2, which comprises:

the data acquisition module is used for acquiring an intelligent weak current system contained in a target building group and/or an area and the building group and/or the area position managed by the intelligent weak current system by the weak current intelligent system integration platform;

the regional division module is used for dividing the region of the intelligent weak current system by utilizing the building group and/or the regional position managed by the intelligent weak current system by the weak current intelligent system integration platform to obtain an intelligent weak current system corresponding to each region;

and the data connection module is used for establishing data connection between the intelligent weak current system corresponding to each region and the weak current intelligent system integration platform and visually displaying the intelligent weak current system with the data connection completed.

Wherein, the data acquisition module includes:

the scanning module is used for controlling the Internet of things platform to scan the target building group and/or the region by the weak current intelligent system integration platform;

the method comprises the steps that a timing time interval for scanning by a weak current intelligent integrated platform is set, the weak current intelligent integrated platform controls the Internet of things platform according to the preset timing time interval, so that the Internet of things platform performs network scanning in real time, and all target building groups and/or areas accessed into the Internet of things in the Internet of things platform are obtained.

The calibration module is used for acquiring all intelligent weak current systems accessed into the network of the Internet of things by the Internet of things platform, positioning building groups and/or regional positions managed by the intelligent weak current systems, and performing position calibration by taking the building groups and/or regional positions as position information;

the method comprises the steps that an Internet of things platform obtains target building groups and/or areas which are accessed into the Internet of things, and various intelligent weak current systems used for electric system management and developed in different types or brands in each target building group and/or area are obtained through network information of the target building groups and/or areas which are accessed into the Internet of things; and taking the system name of the intelligent weak current system as a benchmark, acquiring the system number of the intelligent weak current system contained under the Internet of things platform, and taking one intelligent weak current system as a unit, and acquiring all target building groups and/or areas controlled, monitored and managed in the Internet of things platform control area. And taking all target building groups and/or areas in the range of the platform of the Internet of things managed by each intelligent weak current system as position information and carrying out position calibration.

The information sending module is used for sending the system name of the intelligent weak current system and the position information of the building group and/or the area position managed by the intelligent weak current system to the weak current intelligent system integration platform by the Internet of things platform.

Wherein, the regional division module includes:

the distributed position acquisition module is used for acquiring the distributed position of the area position monitored by the intelligent weak current system in the target building group and/or the area;

because all target building groups and/or areas in the range of the internet of things platform managed by each intelligent weak current system are a plurality of different position areas which are discretely distributed in the range of the internet of things platform, the position areas corresponding to the target building groups and/or areas managed by each intelligent weak current system are a plurality of discrete areas in the range of the internet of things platform, so that the distribution positions of the areas monitored by the intelligent weak current system are acquired in the embodiment;

the independent position dividing module is used for dividing the independent positions of the area positions monitored by all intelligent weak current systems contained in the target building group and/or the area according to the boundary of the distribution position to obtain a plurality of target area positions;

because the location area corresponding to the target building group and/or the area managed by each intelligent weak current system is a plurality of discrete areas in the range of the networking platform, in the discrete distributed areas, the area managed by one intelligent weak current system is likely to appear in the middle of two areas managed by the intelligent weak current system or to be inserted into one or more other intelligent weak current systems; therefore, in this embodiment, a merging principle is adopted as a region which is not managed by other intelligent weak current systems is interposed between every two adjacent region positions which belong to the same intelligent weak current system for management and control, and a plurality of region positions are merged into a plurality of target region positions divided by independent positions;

when the other intelligent weak electric system management and control areas are inserted between every two adjacent area positions which belong to the same intelligent weak electric system management and control, judging whether the area inserted with the other intelligent weak electric system management and control areas is an intelligent weak electric system, and if the same intelligent weak electric system does not exist in the inserted intelligent weak electric system, taking the corresponding area position of each intelligent weak electric system as a target area position divided by independent positions; if the same intelligent weak current system does not exist in the intelligent weak current systems, judging whether other intelligent weak current systems still exist among the same intelligent weak current systems, and if so, taking the corresponding region position of each intelligent weak current system as a target region position divided by an independent position; if not, combining the same intelligent weak electrochemical system to form a target area position.

And the distance area dividing module is used for dividing the area according to the position distance of the target area.

Wherein, the distance area dividing module includes:

the first range dividing module is used for classifying the target area position into a first area range when the linear distance between the target area position and the position of the weak current intelligent system integration platform does not exceed a preset first distance threshold;

the second range dividing module is used for classifying the linear distance between the position of the target area and the position of the weak current intelligent system integration platform as a second area range when the linear distance exceeds a preset first distance threshold value but does not exceed a preset second distance threshold value;

and the third range dividing module is used for classifying the target area position into a third area range when the linear distance between the target area position and the position of the weak current intelligent system integration platform exceeds a preset second distance threshold value.

The obtaining mode of the linear distance comprises the following steps:

acquiring a boundary contour line of a target area position;

acquiring a first type of position points and a second type of position points on the edge contour line; the first type of position points are 7 points on the edge contour line, which are closest to the linear distance between the positions of the weak current intelligent system integrated platform; the second class of position points are 7 points with the farthest linear distance from the position of the weak current intelligent system integration platform on the edge contour line;

and determining the linear distance between the position of each target area relative to the position of the weak current intelligent system integration platform by using a linear distance acquisition model, wherein the linear distance acquisition model is as follows:

。

wherein, the liquid crystal display device comprises a liquid crystal display device,Za length representing the linear distance;L _mini representing the first category of position pointsiThe linear distance between each position point and the position of the weak current intelligent system integration platform;L _maxi representing the first category of location pointsiThe linear distance between each position point and the position of the weak current intelligent system integration platform;L _min representing the edge contourDistance length corresponding to the shortest linear distance between the position point of the integrated platform of the weak current intelligent system and the position;L _max representing the distance length corresponding to the longest linear distance between the position point on the edge contour line and the position of the weak current intelligent system integration platform;mandnthe number of the position points contained in the first type of position points and the second type of position points is respectively represented;m ₁ the number of the position points with the shortest linear distance included in the first type of position points is represented;n ₁ the number of the position points with the longest linear distance is represented by the linear distance contained in the second type of position points;A、B、λ ₁ andλ ₂ respectively representing adjustment coefficients; when (when)m ₁ =mAnd, at the same time,n ₁ =ntime, orderA=0.5; when (when)n ₁ =m ₁ Time, orderB=0.37。

Because irregular images often appear in the target area, therefore the straight line distance between the positions of the weak current intelligent system integrated platform cannot be accurately described, and in some cases, the standard regular target area shape is not just opposite to the weak current intelligent system integrated platform, so that an included angle exists between the target area range and the weak current intelligent system integrated platform, and the straight line distance between the target area and the weak current intelligent system integrated platform cannot be accurately evaluated.

Wherein, the data connection module includes:

the signal strength acquisition module is used for acquiring the strength of wireless communication signals between the current weak current intelligent system integrated platform and each intelligent weak current system;

and the platform access control module is used for sequentially accessing the intelligent weak current systems in the areas into the weak current intelligent system integration platform according to the intensity of the wireless communication signals.

The technical scheme has the effects that: the weak current intelligent system integrated system provided by the embodiment can intensively monitor all the intelligent weak current systems in all target building groups and the area range, and the problems of lower monitoring efficiency and higher labor cost consumption caused by independent monitoring of each intelligent weak current system are prevented. Meanwhile, platform batch system access is performed in a region division mode, so that data access efficiency and data access success rate can be effectively improved.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (8)

1. The weak current intelligent system integration method is characterized by comprising the following steps of:

the method comprises the steps that an intelligent weak current system integrated platform obtains an intelligent weak current system contained in a target building group and/or an area and a building group and/or an area position managed by the intelligent weak current system;

the weak current intelligent system integration platform utilizes building groups and/or regional positions managed by the intelligent weak current system to divide the intelligent weak current system into regions to obtain intelligent weak current systems corresponding to each region;

establishing data connection between the intelligent weak current system corresponding to each region and a weak current intelligent system integration platform, and visually displaying the intelligent weak current system with the data connection completed;

the weak current intelligent system integration platform performs region division on the intelligent weak current system by utilizing building groups and/or region positions managed by the intelligent weak current system to obtain intelligent weak current systems corresponding to each region, and the weak current intelligent system integration platform comprises:

acquiring the distribution position of the area position monitored by the intelligent weak current system in the target building group and/or the area;

dividing the independent positions of the area positions monitored by all intelligent weak current systems contained in the target building group and/or the area according to the boundary of the distribution position to obtain a plurality of target area positions;

and dividing the region according to the target region position distance.

2. The method for integrating a weak current intelligent system according to claim 1, wherein the weak current intelligent system integration platform acquires an intelligent weak current system contained in a target building group and/or area, comprising:

the weak current intelligent system integrated platform controls an Internet of things platform to scan the target building group and/or the region;

the Internet of things platform acquires all intelligent weak current systems accessed into a network of the Internet of things, positions building groups and/or area positions managed by the intelligent weak current systems, and performs position calibration as position information;

and the Internet of things platform sends the system name of the intelligent weak current system and the position information of the building group and/or the area position managed by the intelligent weak current system to the weak current intelligent system integration platform.

3. The weak current intelligent system integration method according to claim 1, wherein the dividing the area according to the target area position distance comprises:

classifying the target area position into a first area range when the linear distance between the target area position and the position of the weak current intelligent system integrated platform does not exceed a preset first distance threshold;

the linear distance between the target area position and the position of the weak current intelligent system integration platform exceeds a preset first distance threshold value, but does not exceed a preset second distance threshold value, the target area position is classified as a second area range;

and classifying the target area position into a third area range when the linear distance between the target area position and the position of the weak current intelligent system integrated platform exceeds a preset second distance threshold value.

4. The method for integrating the weak current intelligent system according to claim 1, wherein the step of establishing the data connection between the intelligent weak current system corresponding to each region and the weak current intelligent system integration platform and visually displaying the intelligent weak current system with the data connection completed comprises the steps of:

acquiring the intensity of wireless communication signals between the current weak current intelligent system integrated platform and each intelligent weak current system;

and sequentially connecting the intelligent weak current systems in the areas to the weak current intelligent system integration platform according to the intensity of the wireless communication signals.

5. A weak current intelligent system integration system, characterized in that the weak current intelligent system integration system comprises:

the data acquisition module is used for acquiring an intelligent weak current system contained in a target building group and/or an area and the building group and/or the area position managed by the intelligent weak current system by the weak current intelligent system integration platform;

the regional division module is used for dividing the region of the intelligent weak current system by utilizing the building group and/or the regional position managed by the intelligent weak current system by the weak current intelligent system integration platform to obtain an intelligent weak current system corresponding to each region;

the data connection module is used for establishing data connection between the intelligent weak current system corresponding to each region and the weak current intelligent system integration platform, and carrying out visual display on the intelligent weak current system with the data connection completed;

the region dividing module includes:

the distributed position acquisition module is used for acquiring the distributed position of the area position monitored by the intelligent weak current system in the target building group and/or the area;

the independent position dividing module is used for dividing the independent positions of the area positions monitored by all intelligent weak current systems contained in the target building group and/or the area according to the boundary of the distribution position to obtain a plurality of target area positions;

and the distance area dividing module is used for dividing the area according to the position distance of the target area.

6. The low-current intelligent system integration system according to claim 5, wherein the data acquisition module comprises:

the scanning module is used for controlling the Internet of things platform to scan the target building group and/or the region by the weak current intelligent system integration platform;

the calibration module is used for acquiring all intelligent weak current systems accessed into the network of the Internet of things by the Internet of things platform, positioning building groups and/or regional positions managed by the intelligent weak current systems, and performing position calibration by taking the building groups and/or regional positions as position information;

the information sending module is used for sending the system name of the intelligent weak current system and the position information of the building group and/or the area position managed by the intelligent weak current system to the weak current intelligent system integration platform by the Internet of things platform.

7. The weak current intelligence system integration system of claim 5, wherein the distance zone division module comprises:

the first range dividing module is used for classifying the target area position into a first area range when the linear distance between the target area position and the position of the weak current intelligent system integration platform does not exceed a preset first distance threshold;

the second range dividing module is used for classifying the linear distance between the position of the target area and the position of the weak current intelligent system integration platform as a second area range when the linear distance exceeds a preset first distance threshold value but does not exceed a preset second distance threshold value;

and the third range dividing module is used for classifying the target area position into a third area range when the linear distance between the target area position and the position of the weak current intelligent system integration platform exceeds a preset second distance threshold value.

8. The weak current intelligence system integration system of claim 5, wherein the data connection module comprises:

the signal strength acquisition module is used for acquiring the strength of wireless communication signals between the current weak current intelligent system integrated platform and each intelligent weak current system;

and the platform access control module is used for sequentially accessing the intelligent weak current systems in the areas into the weak current intelligent system integration platform according to the intensity of the wireless communication signals.

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