CN114501500B - Network arrangement method, device and system based on network tide - Google Patents

Abstract

The invention relates to a network arrangement method based on network tides, belonging to the technical field of communication, and the method comprises the steps of obtaining a network arrangement scheme of a target area with a network tide rule, and identifying network resources correspondingly configured in the target area from the network arrangement scheme; acquiring network information carrying real-time activities of a target area; the target area real-time activity is temporary activity with the number of network users increased; analyzing according to the network information carrying the real-time activities of the target area to obtain a user increment condition, analyzing according to the network arrangement scheme to obtain a reserved network resource space, and integrating according to the user increment condition and the network resource space to obtain a corresponding network resource increment and the like. In the scheme, the user increment condition of the target area is obtained from the network information, and then the user increment condition and the reserved resource space are integrated to formulate a network arrangement optimization scheme. The experience of tidal network users and incremental users can be effectively guaranteed.

Description

Network arrangement method, device and system based on network tide

Technical Field

The invention belongs to the technical field of communication, and particularly relates to a network arrangement device, a network arrangement system and a network arrangement method based on network tides.

Background

Tidal users refer to users who periodically travel to and from two relatively fixed locations in a fixed time, wherein the number of users and the data traffic are specific to the time period, as shown in fig. 1. The identification of the tide users has important significance for optimizing the resource allocation of the network and improving the perception of the users. At present, as a mobile communication network arranging method and strategy, a network arranging scheme is planned by counting the tide rule of a target area network.

In the prior art, network arrangement lacks flexibility, when a target area temporarily notifies reporting of a large event, a large activity and the like, the number of temporarily increased users increases suddenly, and network resource configuration is still configured according to an originally planned network arrangement scheme, the configuration range of the network arrangement scheme can be directly broken through by the network resource configuration requirement of the target area (although the originally planned network arrangement scheme has more reserved space than the maximum number of users for network resource configuration, the reserved space is not enough to bear the number of the suddenly increased users), and then network resource configuration optimization is performed on the basis that the network resource configuration requirement is broken, so that network arrangement scheme accidents and user experience reduction are caused.

Therefore, at present, a network arranging device, system and method based on network tide are needed to be designed to solve the above problems.

Disclosure of Invention

The invention aims to provide a network arranging device, a network arranging system and a network arranging method based on network tides, which are used for solving the technical problems in the prior art, such as: network arrangement lacks flexibility, when a target area temporarily informs to report a large-scale event, a large-scale activity and the like, the temporarily increased number of users increases suddenly, and network resource configuration is still configured according to an originally planned network arrangement scheme, the configuration range of the network arrangement scheme can be directly broken through by the network resource configuration requirement of the target area (although more space than the maximum number of user network resource configuration is reserved in the original network arrangement scheme, the reserved space is not enough to bear the suddenly increased number of users), and then network resource configuration optimization is performed on the basis that the network resource configuration requirement is broken, so that network arrangement scheme accidents and user experience are reduced.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a network tide-based network arranging method comprises the following steps:

acquiring a network arrangement scheme of a target area with a network tide rule, and identifying network resources correspondingly configured in the target area from the network arrangement scheme;

acquiring network information carrying real-time activities of a target area; the target area real-time activity is temporary activity with the number of network users increased;

analyzing according to the network information carrying real-time activities of the target area to obtain a user increment condition, analyzing according to the network arrangement scheme to obtain a reserved network resource space, and integrating according to the user increment condition and the network resource space to obtain a corresponding network resource increment;

and supplementing the network resource increment into the network arrangement scheme to form a network arrangement optimization scheme, and performing real-time network resource configuration on the target area according to the network arrangement optimization scheme.

Further, after the real-time activities in the target area are started, judging whether the real-time activities need to enter for ticket checking according to the network information carrying the real-time activities in the target area;

if so, acquiring an actual user increment through admission ticket checking information, integrating the actual user increment and the network resource space to obtain an updated network resource increment, and then obtaining updated network resource configuration;

otherwise, detecting the user aggregation condition of the target area participating in the activity by remote sensing so as to analyze and obtain an actual user increment, integrating the actual user increment and the network resource space to obtain an updated network resource increment, and then obtaining an updated network resource configuration.

Further, the actual user increment obtained through the admission ticket checking information is specifically as follows:

setting a corresponding area boundary according to the geographical position information of the target area, judging the specific situation that network users except the tidal users enter the area boundary, and acquiring first user increment information;

setting entrance detection at the region boundary entrance, and acquiring second user increment information;

and when the error between the first user increment information and the second user increment information meets a preset value, taking any one of the first user increment information and the second user increment information as an actual user increment.

Further, when the error between the first user increment information and the second user increment information exceeds a preset value,

if the first user increment information is larger than the second user increment information, judging that the first user increment information is abnormal, and taking the second user increment information as an actual user increment;

and if the first user increment information is smaller than the second user increment information, acquiring third user increment information through in-field human body detection, and taking one of the first user increment information and the second user increment information which is closer to the third user increment information as an actual user increment.

Furthermore, when the increment information of a third user is obtained through the detection of the human body in the field, whether the personnel in the field carry the movable electronic tag or not is detected,

if yes, judging that the personnel in the site are classified into third user increment information;

otherwise, judging to classify the personnel in the site into the tidal users;

wherein the movable electronic label is issued at the entrance of the area boundary and used for finishing the activity.

Further, in the activity, the user departure information is acquired by collecting the activity electronic tags at the outlet of the area boundary;

and taking the ratio between the user departure information and the actual user increment as a reference, and correspondingly adjusting the network resource configuration, namely if the ratio is gradually increased, correspondingly reducing the network resource configuration.

Further, the specific steps for detecting the user gathering condition of the target area participating in the activity through remote sensing are as follows:

setting a user aggregation scale range of the target area participating in the activity according to the user increment condition and the tide user proportion;

detecting the user aggregation scale of the target area participating in the activity by remote sensing, and recording as the remote sensing user aggregation scale;

judging whether the remote sensing user aggregation scale meets the user aggregation scale range or not;

if yes, judging that the remote sensing detection is normal;

otherwise, judging that the remote sensing detection is abnormal.

Further, when it is determined that the remote sensing is abnormal,

detecting the user aggregation scale of the target area participating in the activity through image acquisition, and recording as the image user aggregation scale;

judging whether the image user aggregation scale accords with the user aggregation scale range or not;

if yes, judging that the image acquisition detection is normal;

otherwise, judging that the image acquisition detection is abnormal.

Further, when it is determined that the image detection is abnormal,

detecting real-time illumination intensity information of a target area;

judging whether the real-time illumination intensity information meets the standard illumination intensity information during image acquisition and detection;

if the real-time illumination intensity information is matched with the standard illumination intensity information, judging that the illumination intensity information is normal;

and if the real-time illumination intensity information is not matched with the standard illumination intensity information, judging that the illumination intensity information is abnormal.

Further, when it is determined that the illumination information is normal,

detecting real-time haze visibility information of a target area;

judging whether the real-time haze visibility information meets the standard haze visibility information during image acquisition and detection;

if the real-time haze visibility information is matched with the standard haze visibility information, judging that the haze visibility information is normal;

if the real-time haze visibility information is not matched with the standard haze visibility information, judging that the haze visibility information is abnormal;

wherein, the haze visibility refers to the visibility in haze weather.

A network tide-based network orchestration device comprising:

an arrangement scheme acquisition device:

the method comprises the steps of obtaining a network arrangement scheme of a target area with a network tide rule, and identifying network resources correspondingly configured in the target area from the network arrangement scheme;

the network information acquisition device:

the network information carrying real-time activities of the target area is acquired; the target area real-time activity is temporary activity with the number of network users increased;

an incremental resource matching device:

the system comprises a network scheduling scheme, a user increment condition, a reserved network resource space and a corresponding network resource increment, wherein the network scheduling scheme is used for analyzing and obtaining the user increment condition according to network information carrying real-time activities of a target area, analyzing and obtaining the reserved network resource space according to the network scheduling scheme, and integrating and obtaining the corresponding network resource increment according to the user increment condition and the network resource space;

the arrangement scheme optimizing device comprises:

and supplementing the network resource increment into the network arrangement scheme to form a network arrangement optimization scheme, and performing real-time network resource configuration on the target area according to the network arrangement optimization scheme.

The network arrangement system based on the network tide comprises the network arrangement device based on the network tide, and further comprises a cloud server;

and the cloud server performs data interaction with the arrangement scheme acquisition device, the network information acquisition device, the increment resource matching device and the arrangement scheme optimization device respectively.

An electronic device, comprising:

a processor; and

a memory for storing computer-executable instructions that, when executed, cause the processor to:

acquiring a network arrangement scheme of a target area with a network tide rule, and identifying network resources correspondingly configured in the target area from the network arrangement scheme;

acquiring network information carrying real-time activities of a target area; the target area real-time activity is temporary activity with the number of network users increased;

analyzing according to the network information carrying real-time activities of the target area to obtain a user increment condition, analyzing according to the network arrangement scheme to obtain a reserved network resource space, and integrating according to the user increment condition and the network resource space to obtain a corresponding network resource increment;

and supplementing the network resource increment into the network arrangement scheme to form a network arrangement optimization scheme, and performing real-time network resource configuration on the target area according to the network arrangement optimization scheme.

A computer readable storage medium storing one or more programs that, when executed by an electronic device, cause the electronic device to:

acquiring a network arrangement scheme of a target area with a network tide rule, and identifying network resources correspondingly configured in the target area from the network arrangement scheme;

acquiring network information carrying real-time activities of a target area; the target area real-time activity is temporary activity with the number of network users increased;

analyzing to obtain a user increment condition according to the network information carrying real-time activities of the target area, analyzing to obtain a reserved network resource space according to the network arrangement scheme, and integrating to obtain a corresponding network resource increment according to the user increment condition and the network resource space;

and supplementing the network resource increment into the network arrangement scheme to form a network arrangement optimization scheme, and performing real-time network resource configuration on the target area according to the network arrangement optimization scheme.

Compared with the prior art, the invention has the beneficial effects that:

one of the benefits of the scheme is that the user increment condition of the target area is obtained from the network information (temporary personnel gathering activities such as speech, industry meeting, sports meeting, singing meeting and the like), and then the user increment condition and the reserved resource space are integrated to formulate a network arrangement optimization scheme. The experience of tidal network users and incremental users can be effectively guaranteed, and network arrangement accidents caused by temporary activities are avoided. Temporary personnel gathering activities such as speech, industry meeting, sports meeting, singing meeting and the like are divided into two situations of whether admission ticket checking is needed or not, and actual user increment of the two situations cannot be detected according to a unified detection mode, such as: if the ticket checking is required to enter in the field mode, the actual user increment can be obtained through the ticket checking information of entering; and the off-site mode does not need ticket checking, and the actual user increment can be obtained only through remote sensing detection.

Drawings

FIG. 1 is a schematic illustration of the number of users and the specific tidal situation of data flow versus time period for an embodiment of the present application.

Fig. 2 is a schematic diagram of a network orchestration method based on network tides according to an embodiment of the present application.

Fig. 3 is a schematic diagram of a network tide-based network orchestration device according to an embodiment of the present application.

Fig. 4 is a schematic diagram of a network tide-based network arrangement system according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to fig. 1 to 4 of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the prior art, network arrangement lacks flexibility, when a target area temporarily notifies to report a large-scale event, a large-scale activity, and the like, the temporarily increased number of users suddenly increases, and network resource configuration is still configured according to an originally planned network arrangement scheme, a configuration range of the network arrangement scheme is directly broken by a network resource configuration requirement of the target area (although more space than the maximum number of users is reserved in the original network arrangement scheme, the reserved space is not enough to bear the suddenly increased number of users), and then network resource configuration optimization is performed on the basis that the network resource configuration requirement is broken, so that network arrangement scheme accidents and user experience are reduced.

As shown in fig. 2, a network orchestration method based on network tides is proposed, which includes the following steps:

acquiring a network arrangement scheme of a target area with a network tide rule, and identifying network resources correspondingly configured in the target area from the network arrangement scheme;

acquiring network information carrying real-time activities of a target area; the target area real-time activity is temporary activity with the number of network users increased;

analyzing according to the network information carrying real-time activities of the target area to obtain a user increment condition, analyzing according to the network arrangement scheme to obtain a reserved network resource space, and integrating according to the user increment condition and the network resource space to obtain a corresponding network resource increment;

and supplementing the network resource increment into the network arrangement scheme to form a network arrangement optimization scheme, and performing real-time network resource configuration on the target area according to the network arrangement optimization scheme.

In the scheme, the user increment condition of the target area is obtained from network information (temporary personnel gathering activities such as lectures, industry meetings, sports meetings, singing meetings and the like), and then the user increment condition and the reserved resource space are integrated to formulate a network arrangement optimization scheme. The experience of tidal network users and incremental users can be effectively guaranteed, and network arrangement accidents caused by temporary activities are avoided.

Further, after the real-time activities in the target area are started, judging whether the real-time activities need to enter for ticket checking according to the network information carrying the real-time activities in the target area;

if so, acquiring an actual user increment through admission ticket checking information, integrating the actual user increment and the network resource space to obtain an updated network resource increment, and then obtaining updated network resource configuration;

otherwise, detecting the user aggregation condition of the target area participating in the activity by remote sensing so as to analyze and obtain an actual user increment, integrating the actual user increment and the network resource space to obtain an updated network resource increment, and then obtaining an updated network resource configuration.

In the above scheme, the temporary activities of gathering people, such as speech, industry meeting, sports meeting, and singing meeting, are divided into two situations whether admission tickets are required, and the actual user increment of the two situations cannot be detected according to a uniform detection mode, for example: if the ticket checking is required to enter the indoor mode, the actual user increment can be obtained through the ticket checking information of entering the field; and the off-site mode does not need ticket checking, and the actual user increment can be obtained only through remote sensing detection.

Further, the actual user increment obtained through the admission ticket checking information is specifically as follows:

setting a corresponding area boundary according to the geographical position information of the target area, judging the specific situation that network users except the tidal users enter the area boundary, and acquiring first user increment information;

setting entrance detection at the region boundary entrance, and acquiring second user increment information;

and when the error between the first user increment information and the second user increment information meets a preset value, taking any one of the first user increment information and the second user increment information as an actual user increment.

In the above scheme, through two detection modes of the network side and the terminal, the two detection results are compared and analyzed, when the error between the two is reasonable, the two detection modes are both not problematic, but when the error between the two is unreasonable, the two detection modes are at least one with abnormal detection, at this moment, the two detection modes are not selected randomly as actual user increment, and the use of error data is avoided.

Further, when the error between the first user increment information and the second user increment information exceeds a preset value,

if the first user increment information is larger than the second user increment information, judging that the first user increment information is abnormal, and taking the second user increment information as an actual user increment;

and if the first user increment information is smaller than the second user increment information, acquiring third user increment information through in-field human body detection, and taking one of the first user increment information and the second user increment information which is closer to the third user increment information as an actual user increment.

In the above scheme, when the network side detects that the network user may not use the network traffic within a period of time, because the network user cannot detect the network traffic, when the first user increment information is not larger than the second user increment information, if the first user increment information is present, the first user increment information is an abnormal condition. And when the first user increment information and the second user increment information cannot be determined to be abnormal, acquiring third user increment information only through in-field human body detection as a judgment reference.

Furthermore, when the increment information of a third user is acquired through human body detection in the field, whether personnel in the field carry the movable electronic tag is detected,

if yes, judging that the personnel in the site are classified into third user increment information;

otherwise, judging to classify the personnel in the site into the tidal users;

and the movable electronic tag is issued at the entrance of the area boundary and used for finishing the activity and leaving the field.

In the scheme, when the human body is detected in the field, the tide user can be detected as the incremental user, so that the movable electronic tag carried by the incremental user is required to be used as a detection standard.

Further, in the activity, the user departure information is obtained by collecting the activity electronic tags at the exit of the area boundary;

and taking the ratio between the user departure information and the actual user increment as a reference, and correspondingly adjusting the network resource configuration, namely if the ratio is gradually increased, correspondingly reducing the network resource configuration.

In the scheme, the increment user residual quantity can be obtained according to the return condition of the movable electronic tag, so that network resources are adaptively configured.

Further, the specific detection of the user aggregation condition of the target area participating in the activity through remote sensing is as follows:

setting a user aggregation scale range of a target area participating in activities according to the user increment condition and the tidal user proportion;

detecting the user aggregation scale of the target area participating in the activity by remote sensing, and recording as the remote sensing user aggregation scale;

judging whether the remote sensing user aggregation scale meets the user aggregation scale range or not;

if yes, judging that the remote sensing detection is normal;

otherwise, judging that the remote sensing detection is abnormal.

In the scheme, for the detection of the off-site increment user, the remote sensing detection mode is one of the modes with highest efficiency and lowest cost, a user aggregation scale range of a target area participating in activities can be set according to the user increment condition in the network information, and then the user aggregation scale detected by remote sensing is compared with the user aggregation scale range, so that whether the real-time remote sensing detection is reasonable or not is judged.

Further, when it is determined that the remote sensing is abnormal,

detecting the user aggregation scale of the target area participating in the activity through image acquisition, and recording as the image user aggregation scale;

judging whether the image user aggregation scale accords with the user aggregation scale range or not;

if yes, judging that the image acquisition detection is normal;

otherwise, judging that the image acquisition detection is abnormal.

In the above-described scheme, when a large-range detection abnormality such as remote sensing is detected, detection with an imaging short distance is performed by image acquisition, and as a remedy after the abnormality is detected by remote sensing, although the cost is higher and the efficiency is lower, the detection accuracy is higher.

Further, when it is determined that the image detection is abnormal,

detecting real-time illumination intensity information of a target area;

judging whether the real-time illumination intensity information meets the standard illumination intensity information during image acquisition detection;

if the real-time illumination intensity information is matched with the standard illumination intensity information, judging that the illumination intensity information is normal;

and if the real-time illumination intensity information is not matched with the standard illumination intensity information, judging that the illumination intensity information is abnormal.

In the above scheme, the image capture detection error may be caused by insufficient illuminance at night, and therefore verification by detecting the illuminance is required.

Further, when it is determined that the illumination information is normal,

detecting real-time haze visibility information of a target area;

judging whether the real-time haze visibility information meets the standard haze visibility information during image acquisition and detection;

if the real-time haze visibility information is matched with the standard haze visibility information, judging that the haze visibility information is normal;

if the real-time haze visibility information is not matched with the standard haze visibility information, judging that the haze visibility information is abnormal;

wherein, the haze visibility refers to the visibility in haze weather.

In the above scheme, the image capture detection exception is not caused by insufficient illuminance at night, and may also be caused by insufficient haze visibility, so that the verification needs to be performed through haze visibility detection.

As shown in fig. 3, a network tide-based network arranging device is provided, which comprises:

an arrangement scheme acquisition device:

the method comprises the steps of obtaining a network arrangement scheme of a target area with a network tide rule, and identifying network resources correspondingly configured in the target area from the network arrangement scheme;

the network information acquisition device:

the system is used for acquiring network information carrying real-time activities of a target area; the target area real-time activity is temporary activity with the number of network users increased;

an incremental resource matching device:

the system comprises a network scheduling scheme, a user increment condition, a reserved network resource space and a corresponding network resource increment, wherein the network scheduling scheme is used for analyzing and obtaining the user increment condition according to network information carrying real-time activities of a target area, analyzing and obtaining the reserved network resource space according to the network scheduling scheme, and integrating and obtaining the corresponding network resource increment according to the user increment condition and the network resource space;

the arrangement scheme optimization device comprises:

and supplementing the network resource increment into the network arrangement scheme to form a network arrangement optimization scheme, and performing real-time network resource allocation on the target area according to the network arrangement optimization scheme.

As shown in fig. 4, a network tide-based network arrangement system is provided, which includes the above network tide-based network arrangement device, and further includes a cloud server;

and the cloud server performs data interaction with the arrangement scheme acquisition device, the network information acquisition device, the increment resource matching device and the arrangement scheme optimization device respectively.

An electronic device, comprising:

a processor; and

a memory for storing computer-executable instructions that, when executed, cause the processor to:

acquiring a network arrangement scheme of a target area with a network tide rule, and identifying network resources correspondingly configured in the target area from the network arrangement scheme;

acquiring network information carrying real-time activities of a target area; the target area real-time activity is temporary activity with the number of network users increased;

analyzing according to the network information carrying real-time activities of the target area to obtain a user increment condition, analyzing according to the network arrangement scheme to obtain a reserved network resource space, and integrating according to the user increment condition and the network resource space to obtain a corresponding network resource increment;

and supplementing the network resource increment into the network arrangement scheme to form a network arrangement optimization scheme, and performing real-time network resource allocation on the target area according to the network arrangement optimization scheme.

A computer readable storage medium storing one or more programs which, when executed by an electronic device, cause the electronic device to:

acquiring a network arrangement scheme of a target area with a network tide rule, and identifying network resources correspondingly configured in the target area from the network arrangement scheme;

acquiring network information carrying real-time activities of a target area; the target area real-time activity is temporary activity with the number of network users increased;

analyzing according to the network information carrying real-time activities of the target area to obtain a user increment condition, analyzing according to the network arrangement scheme to obtain a reserved network resource space, and integrating according to the user increment condition and the network resource space to obtain a corresponding network resource increment;

and supplementing the network resource increment into the network arrangement scheme to form a network arrangement optimization scheme, and performing real-time network resource configuration on the target area according to the network arrangement optimization scheme.

The above are preferred embodiments of the present invention, and all changes made according to the technical scheme of the present invention that produce functional effects do not exceed the scope of the technical scheme of the present invention belong to the protection scope of the present invention.

Claims (5)

1. A network tide-based network arranging method is characterized by comprising the following steps:

at the end of the network resource configuration,

acquiring a network arrangement scheme of a target area with a network tide rule, and identifying network resources correspondingly configured in the target area from the network arrangement scheme;

acquiring network information carrying real-time activities of a target area; the target area real-time activity is temporary activity with the number of network users increased;

analyzing according to the network information carrying real-time activities of the target area to obtain a user increment condition, analyzing according to the network arrangement scheme to obtain a reserved network resource space, and integrating according to the user increment condition and the network resource space to obtain a corresponding network resource increment;

supplementing the network resource increment into the network arrangement scheme to form a network arrangement optimization scheme, and performing real-time network resource configuration on the target area according to the network arrangement optimization scheme;

after the real-time activities in the target area are started, judging whether the real-time activities need to enter for ticket checking according to the network information carrying the real-time activities in the target area;

if so, acquiring an actual user increment through admission ticket checking information, integrating the actual user increment and the network resource space to obtain an updated network resource increment, and then obtaining updated network resource configuration;

otherwise, detecting the user aggregation condition of the target area participating in the activity by remote sensing so as to analyze and obtain an actual user increment, integrating the actual user increment and the network resource space to obtain an updated network resource increment, and then obtaining an updated network resource configuration;

the actual user increment is obtained through the admission ticket checking information as follows:

setting a corresponding area boundary according to the geographical position information of the target area, judging the specific situation that network users except the tidal users enter the area boundary, and acquiring first user increment information;

setting entrance detection at the entrance of the area boundary, and acquiring second user increment information;

when the error between the first user increment information and the second user increment information meets a preset value, taking any one of the first user increment information and the second user increment information as an actual user increment;

when the error between the first user increment information and the second user increment information exceeds a preset value,

if the first user increment information is larger than the second user increment information, judging that the first user increment information is abnormal, and taking the second user increment information as an actual user increment;

if the first user increment information is smaller than the second user increment information, acquiring third user increment information through in-field human body detection, and taking one of the first user increment information and the second user increment information which is closer to the third user increment information as an actual user increment;

when the increment information of a third user is acquired through human body detection in the field, whether personnel in the field carry the movable electronic tag is detected,

if yes, judging that the personnel in the site are classified into third user increment information;

otherwise, judging to classify the personnel in the site into the tidal users;

the movable electronic tag is issued at the entrance of the area boundary and used for finishing the activity;

in the activity, acquiring user departure information by collecting the activity electronic tags at an area boundary outlet;

and taking the ratio between the user departure information and the actual user increment as a reference, and correspondingly adjusting the network resource configuration, namely if the ratio is gradually increased, correspondingly reducing the network resource configuration.

2. The network tide-based network layout method as claimed in claim 1, characterized in that when the user gathering condition of the target area participating in the activity is detected by remote sensing, the specific steps are as follows:

setting a user aggregation scale range of the target area participating in the activity according to the user increment condition and the tide user proportion;

detecting the user aggregation scale of the target area participating in the activity by remote sensing, and recording as the remote sensing user aggregation scale;

judging whether the remote sensing user aggregation scale meets the user aggregation scale range or not;

if yes, judging that the remote sensing detection is normal;

otherwise, judging that the remote sensing detection is abnormal.

3. The network tide-based network orchestration method according to claim 2, wherein when it is determined that the telemetric detection is abnormal,

detecting the user aggregation scale of the target area participating in the activity through image acquisition, and recording as the image user aggregation scale;

judging whether the image user aggregation scale meets the user aggregation scale range or not;

if yes, judging that the image acquisition detection is normal;

otherwise, judging that the image acquisition detection is abnormal.

4. The network tide-based network layout method according to claim 3, wherein when it is determined that the image detection is abnormal,

detecting real-time illumination intensity information of a target area;

judging whether the real-time illumination intensity information meets the standard illumination intensity information during image acquisition and detection;

if the real-time illumination intensity information is matched with the standard illumination intensity information, judging that the illumination intensity information is normal;

and if the real-time illumination intensity information is not matched with the standard illumination intensity information, judging that the illumination intensity information is abnormal.

5. The network tide-based network deployment method of claim 4 wherein, when the lighting information is determined to be normal,

detecting real-time haze visibility information of a target area;

judging whether the real-time haze visibility information meets the standard haze visibility information during image acquisition and detection;

if the real-time haze visibility information is matched with the standard haze visibility information, judging that the haze visibility information is normal;

if the real-time haze visibility information is not matched with the standard haze visibility information, judging that the haze visibility information is abnormal;

wherein, the haze visibility refers to the visibility in haze weather.

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