CN113240849A - Intelligent channel gate linkage control system based on terminal operation - Google Patents

Abstract

The invention discloses an intelligent channel gate linkage control system based on terminal operation, which relates to the technical field of intelligent channel gate linkage control and solves the technical problem that the identity of visitors cannot be verified in the prior art, and the identity recognition unit is used for analyzing the access information of the visitors in real time, thereby carrying out identity recognition on the real-time visitor, wherein the access information of the real-time visitor comprises time length data, frequency data and frequency data, the time length difference between the real-time visitor and the last visiting time, the historical visiting frequency of the real-time visitor and the historical visiting total frequency of the real-time visitor are obtained, the identity recognition coefficient SBi of the real-time visitor is obtained through a formula, the identity of the visitor is verified, so that the safety performance of the channel gate is improved, and the use quality of the user is improved.

Description

Intelligent channel gate linkage control system based on terminal operation

Technical Field

The invention relates to the technical field of intelligent channel gate linkage control, in particular to an intelligent channel gate linkage control system based on terminal operation.

Background

The gate is a channel blocking device (channel management equipment) for managing pedestrian flow and regulating the entrance and exit of pedestrians, and is mainly applied to a subway gate system and a charging ticket checking gate system. The most basic and most core function is to realize that only one person can pass through the system at one time, and the system can be used for the entrance passage of various charging and entrance guard occasions. The earliest gates in china were used in the 80 s for subway projects. The gate is used as a main device of an automatic ticket checker in an AFC (automatic fare collection) system, and is the earliest and most extensive understanding of the gate by the nation at present. In the later 90 s, the gate machine gradually appeared in common civil and commercial occasions, including office buildings, market supermarkets, scenic spots, high-end districts and the like. It should be noted that the gate and ticket checker are not exactly the same concept. The ticket checking machine comprises an automatic ticket checking machine and a portable ticket checking machine, and the automatic ticket checking machine is a specific application of a gate combined with a ticket system. The gate is wider in range, and can be regarded as a generalized gate as long as the device is used for managing people to flow in and out and can meet the requirement of only one person to pass at a time.

However, in the prior art, the identity of the visitor cannot be verified, and the elevator cannot be reasonably dispatched for the verified visitor.

Disclosure of Invention

The invention aims to provide an intelligent channel gate linkage control system based on terminal operation, which is used for analyzing access information of real-time visitors through an identity recognition unit so as to identify the real-time visitors, wherein the access information of the real-time visitors comprises duration data, frequency data and frequency data, the duration data is a duration difference between the real-time visitors and last visiting time, the frequency data is historical visiting frequency of the real-time visitors, the frequency data is total historical visiting times of the real-time visitors, the visitors are marked as i, i is 1, 2, … …, n, n is a positive integer, and the specific analysis and recognition process is as follows: acquiring a time length difference between a real-time visitor and the last visiting time, the historical visiting frequency of the real-time visitor and the total historical visiting times of the real-time visitor, acquiring an identification coefficient SBi of the real-time visitor through a formula, and comparing the identification coefficient SBi of the real-time visitor with an identification coefficient threshold of the real-time visitor; the identity of the visitor is verified, so that the safety performance of the channel gate is improved, and the use quality of the user is improved.

The purpose of the invention can be realized by the following technical scheme:

an intelligent gateway gate linkage control system based on terminal operation comprises a registration login unit, a database, an identity recognition unit, an elevator dispatching unit, an area supervision unit and an equipment detection unit;

the identity recognition unit is used for analyzing the access information of the real-time visitor so as to recognize the identity of the real-time visitor, the access information of the real-time visitor comprises duration data, frequency data and number data, the duration data is the duration difference between the real-time visitor and the last visit time, the frequency data is the historical visit frequency of the real-time visitor, the number data is the total historical visit number of the real-time visitor, the number of the visitor is marked as i, i is 1, 2, … …, n, n is a positive integer, and the specific analysis recognition process is as follows:

step S1: acquiring the time length difference between the real-time visitor and the last visiting time, and marking the time length difference between the real-time visitor and the last visiting time as CZi;

step S2: acquiring the historical visiting frequency of the real-time visiting person, and marking the historical visiting frequency of the real-time visiting person as PLi;

step S3: acquiring the historical total visiting times of the real-time visiting persons, and marking the historical total visiting times of the real-time visiting persons as CSi;

step S4: by the formula

Acquiring an identification coefficient SBi of a real-time visitor, wherein a1, a2 and a3 are proportional coefficients, and a1 is greater than a2 is greater than a3 is greater than 0;

step S5: comparing the identification coefficient SBi of the real-time visitor with the identification coefficient threshold of the real-time visitor:

if the identification coefficient SBi of the real-time visitor is larger than or equal to the identification coefficient threshold of the real-time visitor, judging the real-time visitor to be a familiar person, generating an employee identification signal and sending the employee identification signal to the cloud control platform;

if the identification coefficient SBi of the real-time visitor is less than the identification coefficient threshold of the real-time visitor, judging that the real-time visitor is a stranger, generating a strange registration signal and sending the strange registration signal to the cloud control platform;

after receiving the employee identification signal, the cloud control platform acquires the photo of the familiar person through the camera and marks the photo as a real-time photo, then compares the real-time photo with the photo of the employee user in the database, if the photos are compared to be consistent, the floor of the company to which the corresponding employee user belongs is sent to the elevator dispatching unit, and if the photos are compared to be consistent, an access registration signal is generated and sent to the mobile phone terminal of the manager.

Further, the elevator dispatch unit is used for receiving the floor of the company to which the user belongs and marking the floor as a target floor, and then analyzing the operation information of the elevator, so as to screen the elevator, wherein the operation information of the elevator comprises interval data, waiting data and time data, the interval data is the number of interval floors between the floor where the elevator is currently located and one floor, the waiting data is the average waiting number of people on each floor of the interval floors, the time data is the interval duration of the elevator rising from one floor, the elevator is marked as o, o is 1, 2, … …, m, m is a positive integer, and the specific analysis and screening process is as follows:

step SS 1: acquiring the number of the interval floors of the current floor and one floor of the elevator, and marking the number of the interval floors of the current floor and one floor of the elevator as SLo;

step SS 2: acquiring the average waiting number of people on each floor of the partition floor, and marking the average waiting number of people on each floor of the partition floor as RSo;

step SS 3: acquiring the interval duration of the elevator rising from the first floor, and marking the interval duration of the elevator rising from the first floor as SCo;

step SS 4: obtaining a screening coefficient Xo of the elevator by a formula Xo ═ beta (SLo × b1+ RSo × b2+ SCo × b3), wherein b1, b2 and b3 are all proportional coefficients, b1 is greater than b2 is greater than b3 is greater than 0, and beta is an error correction factor and takes the value of 2.32124;

step SS 5: comparing the screening coefficient Xo of the elevator with a screening coefficient threshold of the elevator:

if the screening coefficient Xo of the elevator is larger than or equal to the screening coefficient threshold value of the elevator, marking the corresponding elevator as a selected elevator, then generating an elevator selection signal, and sending the elevator selection signal and the selected elevator to the cloud control platform;

if the screening coefficient Xo of the elevator is smaller than the screening coefficient threshold value of the elevator, marking the corresponding elevator as an unselected elevator, then generating an elevator selection signal, and sending the elevator selection signal and the unselected elevator to the cloud control platform;

step SS 6: after receiving an elevator selection signal and an elevator selected by the cloud control platform, controlling a waiting lamp of the corresponding elevator to be turned on, and then when a staff user enters the selected elevator, turning on a target floor indicating lamp corresponding to the staff user;

after receiving the strange registration signal, the cloud control platform records access information of strangers through the touch screen terminal and sends the access information of the strangers to the mobile phone terminal of the manager, and the manager generates a region supervision signal after receiving the access information of the strangers and sends the region supervision signal and the corresponding strangers to the region supervision unit.

Further, the area supervision unit is used for supervising the movement area of strangers, the registration floors corresponding to the strangers are marked as reasonable movement areas, areas outside the reasonable movement areas are all unreasonable movement areas, the strangers are marked as p, p is 1, 2, … …, k and k are positive integers, and the specific supervision process is as follows:

step T1: acquiring the movement time length of a stranger in an unreasonable movement area, and marking the movement time length of the stranger in the unreasonable movement area as YSCk;

step T2: acquiring the distance between the area where the stranger is located and the reasonable movement area, and marking the distance between the area where the stranger is located and the reasonable movement area as HJLK;

step T3: acquiring the ratio of the area of the unfair person corresponding to the unreasonable movement area to the area of the reasonable movement area, and acquiring the ratio MBZk of the area of the unfair person corresponding to the unreasonable movement area to the area of the reasonable movement area;

step T4: by the formula

Acquiring regional supervision coefficients JGk of strangers, wherein v1, v2 and v3 are proportional coefficients, v1 is more than v2 is more than v3 is more than 0, and e is a natural constant;

step T5: the regional supervision coefficient JGk of the stranger is compared to a regional supervision coefficient threshold:

if the area supervision coefficient JGk of the stranger is larger than or equal to the area supervision coefficient threshold, judging that the corresponding stranger is abnormal in access, generating an access abnormal signal and sending the access abnormal signal to the cloud control platform;

if the regional supervision coefficient JGk of the stranger is smaller than the regional supervision coefficient threshold, judging that the corresponding stranger is normally visited, generating a normal visiting signal and sending the normal visiting signal to the cloud control platform;

step T6: and after receiving the normal access signal, the cloud control platform generates a personnel control signal and sends the personnel control signal and corresponding strangers to a mobile phone terminal of a manager.

Further, the device detection unit is configured to analyze operation data of the tunnel gate, so as to detect the tunnel gate, where the operation data of the tunnel gate includes an operation duration of the tunnel gate and an interval duration from a receiving instruction to an operation instruction of the tunnel gate, and a specific analysis and detection process is as follows:

step TT 1: acquiring the operation time length of a channel gate and the interval time length from the instruction received by the channel gate to the instruction received by the channel gate, and respectively marking the operation time length of the channel gate and the interval time length from the instruction received by the channel gate to the instruction received by the channel gate as YS and JG;

step TT 2: by the formula JC (═ YS × s1+ JG × s2)^s1+s2Acquiring an operation detection coefficient JC of the channel gate, wherein s1 and s2 are proportionality coefficients, and s1 is greater than s2 and is greater than 0;

step TT 3: comparing the operation detection coefficient JC of the channel gate with the operation detection coefficient threshold of the channel gate:

if the operation detection coefficient JC of the channel gate is not less than the operation detection coefficient threshold of the channel gate, judging that the corresponding channel gate is abnormal in operation, generating a channel gate abnormal signal and sending the channel gate abnormal signal to a mobile phone terminal of a manager;

and if the operation detection coefficient JC of the channel gate is less than the operation detection coefficient threshold value of the channel gate, judging that the corresponding channel gate operates normally, generating a channel gate normal signal and sending the channel gate normal signal to a mobile phone terminal of a manager.

Further, the registration login unit is used for the manager and the employee to submit manager information and employee user information through the mobile phone terminal for registration, and send the manager information and the employee user information which are successfully registered to the database for storage, wherein the manager information comprises the name, the age, the time of entry and the mobile phone number of the real-name authentication of the manager, and the employee user information comprises the name, the age, the photo, the company of the employee and the mobile phone number of the real-name authentication of the person.

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

1. in the invention, the identity recognition unit is used for analyzing the access information of the real-time visitor so as to identify the identity of the real-time visitor, the access information of the real-time visitor comprises duration data, frequency data and number data, the duration data is the time difference between the real-time visitor and the last visit time, the frequency data is the historical visit frequency of the real-time visitor, the number data is the total historical visit number of the real-time visitor, the number of the visitor is marked as i, i is 1, 2, … …, n, n is a positive integer, and the specific analysis and recognition process is as follows: acquiring a time length difference between a real-time visitor and the last visiting time, the historical visiting frequency of the real-time visitor and the total historical visiting times of the real-time visitor, acquiring an identification coefficient SBi of the real-time visitor through a formula, and comparing the identification coefficient SBi of the real-time visitor with an identification coefficient threshold of the real-time visitor; the identity of the visitor is verified, so that the safety performance of the channel gate is improved, and the use quality of the user is improved;

2. the method comprises the steps that a floor of a company to which a user belongs is received through an elevator dispatching unit and is marked as a target floor, and then operation information of the elevator is analyzed, so that the elevator is screened, the operation information of the elevator comprises interval data, waiting data and time data, the interval data are the number of the interval floors of the current floor and one floor of the elevator, the waiting data are the average waiting number of people on each floor of the interval floors, the time data are the interval duration of the elevator rising from one floor, a screening coefficient Xo of the elevator is obtained through a formula, and the screening coefficient Xo of the elevator is compared with a screening coefficient threshold value of the elevator; after receiving an elevator selection signal and an elevator selected by the cloud control platform, controlling a waiting lamp of the corresponding elevator to be turned on, and then when a staff user enters the selected elevator, turning on a target floor indicating lamp corresponding to the staff user; the elevator dispatching is carried out on the visitors passing the identity authentication, so that the electric energy consumption of the elevator is reduced, the time of the visitors is shortened, and convenience is brought to the visitors.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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.

As shown in fig. 1, an intelligent gateway gate linkage control system based on terminal operation includes a registration unit, a database, an identity recognition unit, an elevator dispatch unit, a region supervision unit and an equipment detection unit;

the registration login unit is used for submitting management personnel information and employee user information to register through a mobile phone terminal by a management personnel and an employee user, and sending the successfully registered management personnel information and employee user information to the database for storage, wherein the management personnel information comprises the name, age, time of enrollment and the mobile phone number of real-name authentication of the person, and the employee user information comprises the name, age, photo, company and the mobile phone number of real-name authentication of the person;

the identity recognition unit is used for analyzing the access information of the real-time visitor so as to recognize the identity of the real-time visitor, the access information of the real-time visitor comprises duration data, frequency data and number data, the duration data is a duration difference between the real-time visitor and the last visit time, the frequency data is the historical visit frequency of the real-time visitor, the number data is the total historical visit number of the real-time visitor, the number of the visitor is marked as i, i is 1, 2, … …, n, n is a positive integer, and the specific analysis and recognition process is as follows:

step S1: acquiring the time length difference between the real-time visitor and the last visiting time, and marking the time length difference between the real-time visitor and the last visiting time as CZi;

step S2: acquiring the historical visiting frequency of the real-time visiting person, and marking the historical visiting frequency of the real-time visiting person as PLi;

step S3: acquiring the historical total visiting times of the real-time visiting persons, and marking the historical total visiting times of the real-time visiting persons as CSi;

step S4: by the formula

Acquiring an identification coefficient SBi of a real-time visitor, wherein a1, a2 and a3 are proportional coefficients, and a1 is greater than a2 is greater than a3 is greater than 0;

step S5: comparing the identification coefficient SBi of the real-time visitor with the identification coefficient threshold of the real-time visitor:

if the identification coefficient SBi of the real-time visitor is larger than or equal to the identification coefficient threshold of the real-time visitor, judging the real-time visitor to be a familiar person, generating an employee identification signal and sending the employee identification signal to the cloud control platform;

if the identification coefficient SBi of the real-time visitor is less than the identification coefficient threshold of the real-time visitor, judging that the real-time visitor is a stranger, generating a strange registration signal and sending the strange registration signal to the cloud control platform;

after receiving the employee identification signal, the cloud control platform acquires a photo of a familiar person through the camera and marks the photo as a real-time photo, then compares the real-time photo with a photo of an employee user in the database, if the photos are compared to be consistent, the floor of a company to which the corresponding employee user belongs is sent to the elevator dispatching unit, and if the photos are compared to be consistent, an access registration signal is generated and sent to a mobile phone terminal of a manager;

the elevator dispatching unit is used for receiving floors of companies to which users belong, marking the floors as target floors, and analyzing operation information of the elevator, so that the elevator is screened, the operation information of the elevator comprises interval data, waiting data and time data, the interval data is the number of the interval floors between the current floor and one floor of the elevator, the waiting data is the average waiting number of people on each floor of the interval floors, the time data is the interval duration of the elevator rising from one floor, the elevator is marked as o, o is 1, 2, … …, m, and m is a positive integer, and the specific analysis and screening process is as follows:

step SS 1: acquiring the number of the interval floors of the current floor and one floor of the elevator, and marking the number of the interval floors of the current floor and one floor of the elevator as SLo;

step SS 2: acquiring the average waiting number of people on each floor of the partition floor, and marking the average waiting number of people on each floor of the partition floor as RSo;

step SS 3: acquiring the interval duration of the elevator rising from the first floor, and marking the interval duration of the elevator rising from the first floor as SCo;

step SS 4: obtaining a screening coefficient Xo of the elevator by a formula Xo ═ beta (SLo × b1+ RSo × b2+ SCo × b3), wherein b1, b2 and b3 are all proportional coefficients, b1 is greater than b2 is greater than b3 is greater than 0, and beta is an error correction factor and takes the value of 2.32124;

step SS 5: comparing the screening coefficient Xo of the elevator with a screening coefficient threshold of the elevator:

if the screening coefficient Xo of the elevator is larger than or equal to the screening coefficient threshold value of the elevator, marking the corresponding elevator as a selected elevator, then generating an elevator selection signal, and sending the elevator selection signal and the selected elevator to the cloud control platform;

if the screening coefficient Xo of the elevator is smaller than the screening coefficient threshold value of the elevator, marking the corresponding elevator as an unselected elevator, then generating an elevator selection signal, and sending the elevator selection signal and the unselected elevator to the cloud control platform;

step SS 6: after receiving an elevator selection signal and an elevator selected by the cloud control platform, controlling a waiting lamp of the corresponding elevator to be turned on, and then when a staff user enters the selected elevator, turning on a target floor indicating lamp corresponding to the staff user;

after receiving the strange registration signal, the cloud control platform records access information of strangers through a touch screen terminal and sends the access information of the strangers to a mobile phone terminal of a manager, and the manager generates a region supervision signal and sends the region supervision signal and corresponding strangers to a region supervision unit after receiving the access information of the strangers;

the regional supervision unit is used for supervising the movement region of strangers, the registration floor corresponding to the strangers is marked as a reasonable movement region, regions outside the reasonable movement region are all non-reasonable movement regions, the strangers are marked as p, p is 1, 2, … …, k and k are positive integers, and the specific supervision process is as follows:

step T1: acquiring the movement time length of a stranger in an unreasonable movement area, and marking the movement time length of the stranger in the unreasonable movement area as YSCk;

step T2: acquiring the distance between the area where the stranger is located and the reasonable movement area, and marking the distance between the area where the stranger is located and the reasonable movement area as HJLK;

step T3: acquiring the ratio of the area of the unfair person corresponding to the unreasonable movement area to the area of the reasonable movement area, and acquiring the ratio MBZk of the area of the unfair person corresponding to the unreasonable movement area to the area of the reasonable movement area;

step T4: by the formula

Acquiring regional supervision coefficients JGk of strangers, wherein v1, v2 and v3 are proportional coefficients, v1 is more than v2 is more than v3 is more than 0, and e is a natural constant;

step T5: the regional supervision coefficient JGk of the stranger is compared to a regional supervision coefficient threshold:

if the area supervision coefficient JGk of the stranger is larger than or equal to the area supervision coefficient threshold, judging that the corresponding stranger is abnormal in access, generating an access abnormal signal and sending the access abnormal signal to the cloud control platform;

if the regional supervision coefficient JGk of the stranger is smaller than the regional supervision coefficient threshold, judging that the corresponding stranger is normally visited, generating a normal visiting signal and sending the normal visiting signal to the cloud control platform;

step T6: after receiving the normal access signal, the cloud control platform generates a personnel control signal and sends the personnel control signal and corresponding strangers to a mobile phone terminal of a manager;

the equipment detection unit is used for analyzing the operation data of the channel gate so as to detect the channel gate, the operation data of the channel gate comprises the operation time length of the channel gate and the interval time length from the instruction received by the channel gate to the operation instruction, and the specific analysis and detection process comprises the following steps:

step TT 1: acquiring the operation time length of a channel gate and the interval time length from the instruction received by the channel gate to the instruction received by the channel gate, and respectively marking the operation time length of the channel gate and the interval time length from the instruction received by the channel gate to the instruction received by the channel gate as YS and JG;

step TT 2: by the formula JC (═ YS × s1+ JG × s2)^s1+s2Acquiring an operation detection coefficient JC of the channel gate, wherein s1 and s2 are proportionality coefficients, and s1 is greater than s2 and is greater than 0;

step TT 3: comparing the operation detection coefficient JC of the channel gate with the operation detection coefficient threshold of the channel gate:

if the operation detection coefficient JC of the channel gate is not less than the operation detection coefficient threshold of the channel gate, judging that the corresponding channel gate is abnormal in operation, generating a channel gate abnormal signal and sending the channel gate abnormal signal to a mobile phone terminal of a manager;

and if the operation detection coefficient JC of the channel gate is less than the operation detection coefficient threshold value of the channel gate, judging that the corresponding channel gate operates normally, generating a channel gate normal signal and sending the channel gate normal signal to a mobile phone terminal of a manager.

The working principle of the invention is as follows:

the utility model provides an intelligent channel floodgate coordinated control system based on terminal operation, at the during operation, the identification unit is used for carrying out the analysis to real-time visitor's access information, thereby carry out identification to real-time visitor, real-time visitor's access information includes duration data, frequency data and number of times data, duration data is the length of time difference of real-time visitor from last visit time, frequency data is real-time visitor's historical visit frequency, number of times data is real-time visitor's historical visit total number of times, visitor's mark is i, i is 1, 2, … …, n, n is the positive integer, concrete analysis and identification process as follows: the method comprises the steps of obtaining a time length difference between a real-time visitor and a last visiting time, historical visiting frequency of the real-time visitor and total historical visiting times of the real-time visitor, obtaining an identification coefficient SBi of the real-time visitor through a formula, and comparing the identification coefficient SBi of the real-time visitor with an identification coefficient threshold of the real-time visitor.

The above formulas are all calculated by taking the numerical value of the dimension, the formula is a formula which obtains the latest real situation by acquiring a large amount of data and performing software simulation, and the preset parameters in the formula are set by the technical personnel in the field according to the actual situation.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (5)

1. An intelligent channel gate linkage control system based on terminal operation is characterized by comprising a registration login unit, a database, an identity recognition unit, an elevator dispatching unit, an area supervision unit and an equipment detection unit;

the identity recognition unit is used for analyzing the access information of the real-time visitor so as to recognize the identity of the real-time visitor, the access information of the real-time visitor comprises duration data, frequency data and number data, the duration data is the duration difference between the real-time visitor and the last visit time, the frequency data is the historical visit frequency of the real-time visitor, the number data is the total historical visit number of the real-time visitor, the number of the visitor is marked as i, i is 1, 2, … …, n, n is a positive integer, and the specific analysis recognition process is as follows: the method comprises the steps of obtaining a time length difference between a real-time visitor and a last visiting time, historical visiting frequency of the real-time visitor and total historical visiting times of the real-time visitor, obtaining an identification coefficient SBi of the real-time visitor through a formula, and comparing the identification coefficient SBi of the real-time visitor with an identification coefficient threshold of the real-time visitor.

2. The intelligent channel gate linkage control system based on the terminal operation is characterized in that the elevator dispatching unit is used for receiving floors of companies to which users belong and marking the floors as target floors, then analyzing operation information of the elevator so as to screen the elevator, wherein the operation information of the elevator comprises interval data, waiting data and time data, the interval data is the number of the interval floors between the current floor of the elevator and one floor, the waiting data is the average waiting number of people on each floor of the interval floors, the time data is the interval duration of the elevator rising from one floor, the elevator is marked as o, o is 1, 2, … …, m, m is a positive integer, and the specific analysis and screening process is as follows: the method comprises the steps of obtaining the number of interval floors between the floor where the elevator is located and one floor, the average waiting number of people on each floor of the interval floors and the time interval for the elevator to rise from one floor, obtaining the screening coefficient Xo of the elevator through a formula, and comparing the screening coefficient Xo of the elevator with the screening coefficient threshold of the elevator.

3. The intelligent channel gate linkage control system based on terminal operation as claimed in claim 1, wherein the region supervision unit is used for supervising the movement region of strangers, the registration floor corresponding to the strangers is marked as a reasonable movement region, the regions outside the reasonable movement region are all unreasonable movement regions, the strangers are marked as p, p is 1, 2, … …, k, k is a positive integer, and the specific supervision process is as follows: the method comprises the steps of obtaining the movement time of a stranger in an unreasonable movement area, the distance between the area where the stranger is located and the reasonable movement area and the ratio of the area of the corresponding unreasonable movement area of the stranger to the area of the reasonable movement area, obtaining an area supervision coefficient JGk of the stranger through a formula, and comparing an area supervision coefficient JGk of the stranger with an area supervision coefficient threshold.

4. The intelligent channel gate linkage control system based on terminal operation according to claim 1, wherein the device detection unit is configured to analyze operation data of the channel gate so as to detect the channel gate, the operation data of the channel gate includes an operation duration of the channel gate and an interval duration from the channel gate receiving instruction to the operation instruction, and a specific analysis and detection process is as follows: the method comprises the steps of obtaining the operation time length of a channel gate and the interval time length from the channel gate to the operation command, obtaining an operation detection coefficient JC of the channel gate through a formula, and comparing the operation detection coefficient JC of the channel gate with an operation detection coefficient threshold value of the channel gate.

5. The intelligent channel gate linkage control system based on the terminal operation is characterized in that the registration login unit is used for a manager and an employee user to submit manager information and employee user information through a mobile phone terminal for registration and send the manager information and the employee user information which are successfully registered to a database for storage, the manager information comprises the name, the age, the time of entry and the mobile phone number of real name authentication of the manager, and the employee user information comprises the name, the age, the photo of the employee, the mobile phone number of the company and the real name authentication of the person.

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