CN112419568A - Intelligent traffic control system based on NB-IoT - Google Patents

Abstract

The invention provides an intelligent traffic control system based on NB-IoT, which is characterized by comprising the following components: the cloud server, access control NB-IoT terminal and a plurality of user terminals, wherein the cloud server mainly includes two-dimensional code generation module, information comparison module and body temperature judgment module, access control NB-IoT terminal mainly includes the camera, the temperature measurement module, voice module and entrance guard, user terminal mainly includes two-dimensional code application module, in case the personnel of cominging in and going out confirm to apply for the entrance guard two-dimensional code, two-dimensional code application module just generates entrance guard two-dimensional code generation request instruction, two-dimensional code generation module generates the entrance guard two-dimensional code according to this instruction, user terminal receives to aim at the camera behind the entrance guard two-dimensional code and sweeps the code and obtains sweeping the code information, temperature measurement module obtains the personnel's body temperature of cominging in and going out simultaneously, whether rethread information comparison module and body temperature. The system can ensure the safety of the intelligent community and simultaneously can allow the entering and exiting personnel to rapidly enter and exit the intelligent community.

Description

Intelligent traffic control system based on NB-IoT

Technical Field

The invention belongs to the technical field of Internet of things, and particularly relates to an intelligent traffic control system based on NB-IoT.

Background

The intelligent community is a community with a new management form based on digital informatization and intelligent social management and service by fully utilizing the integrated application of new-generation information technologies such as Internet of things, artificial intelligence AI, big data, cloud computing, mobile internet and the like, and provides a safe, comfortable, convenient and fast modernized and intelligent living environment for community residents. The intelligent community can well solve a series of related problems in the primary community management process, and the purpose of better serving community personnel can be achieved by the intelligent community through the digitization of community management.

The intelligent passage of the community is an important component of the intelligent community. Thereby the personnel of cominging in and going out to the community of different grade type adopt different current mode to improve current speed and guarantee the safety of wisdom community. However, in most of the existing basic communities, the entrances and exits of the communities, buildings and elevators need to be accessed by people in the communities through card swiping or passwords, and non-community people need owners to tell property or owners to the door to get access, such as take-out people and express delivery people, which is time-consuming and labor-consuming. Some basic communities have the situation that security systems or access control systems are relatively lagged, and although community personnel can get in and out of the communities conveniently, community safety is sacrificed.

In addition, many community managers can close the street lamp of district in evening the latter half night in order to save the power consumption, but if the emergent demands such as community personnel will go to hospital in the middle night, thereby community personnel just can't reach the access & exit fast and bring inconveniently for community personnel.

Meanwhile, the primary community manager needs to count the access situation of each access person, and also needs to specifically implement detailed information such as the travel path of each access person in the community and the body temperature test, which is a challenge for the primary community manager.

Disclosure of Invention

In order to solve the problems, the invention provides an intelligent traffic control system for people who enter and exit from a smart community covered by an NB-IoT network to enter and exit from an entrance and exit of the smart community, a building entrance and exit and an elevator through two-dimensional codes, which adopts the following technical scheme:

the invention provides an intelligent traffic management and control system based on NB-IoT, which is used for managing and controlling the personnel who enter and exit an intelligent community by using an entrance guard two-dimensional code, and is characterized by comprising the following steps: the cloud server is arranged in the smart community; the entrance guard control NB-IoT terminal is at least arranged at a community entrance and exit of the smart community, building entrances and exits of a plurality of residential buildings in the smart community and beside an elevator of each residential building, and is in communication connection with the cloud server; and a plurality of user terminals held by the entrants and exits and connected with the cloud server in a communication way, wherein the cloud server comprises an entrance and exit information storage module, a service side communication module, a two-dimensional code generation module, an information comparison module, a body temperature judgment module and a control instruction module, the entrance guard control NB-IoT terminal comprises a camera, a two-dimensional code analysis module, an entrance guard side communication module, a temperature measurement module, a control power module, a voice module and an entrance guard, the user terminals comprise a display module, a picture storage module, a two-dimensional code application module and a user side communication module, the entrance and exit information storage module stores a plurality of user terminals at least comprising names of the entrants and exits, corresponding number information of the names, units where the entrants and the entrants need to enter and exit, authentication information of floors, and the picture storage module stores two-dimensional code application pictures and two-dimensional code, once an entrance/exit person opens a two-dimension code application picture and confirms to apply for an entrance two-dimension code, a two-dimension code application module generates an entrance two-dimension code generation request instruction and sends the entrance two-dimension code generation request instruction to a cloud server through a user side communication module, a two-dimension code generation module generates an entrance two-dimension code corresponding to authentication information when a service side communication module receives the entrance two-dimension code generation request instruction and sends the entrance two-dimension code corresponding to the authentication information to a user terminal through the service side communication module according to the authentication information, a display module displays the two-dimension code generation picture and the entrance two-dimension code when the user side communication module receives the entrance two-dimension code, a two-dimension code analysis module generates two-dimension code information corresponding to the entrance two-dimension code and sends the two-dimension code information to the cloud server through the entrance two-dimension code analysis module, and an information comparison module compares the two-, the temperature measuring module obtains the body temperature of an entering person and an exiting person and sends the body temperature to the cloud server through the entrance guard side communication module, the body temperature judging module judges whether the body temperature is larger than a threshold value or not, when the information comparison module successfully compares and the body temperature judging module judges whether the body temperature is not larger than the threshold value or not, the control instruction module generates an allowable person passing control instruction and sends the allowable person passing control instruction to the entrance guard control NB-IoT terminal through the service side communication module, when the information comparison module fails to compare or the body temperature judging module judges that the body temperature is yes, the control instruction module generates an allowable person passing control instruction and sends the allowable person passing control instruction to the entrance guard control NB-IoT terminal through the service side communication module, when the entrance guard side communication module receives the allowable person passing control instruction, the control power module controls the entrance guard to open, meanwhile, the power control module controls the entrance guard to close, and meanwhile the voice module sends out a person prohibition notice to remind the person entering or exiting to take corresponding measures.

The NB-IoT based intelligent traffic control system provided by the invention can also have the technical characteristics that the cloud server further comprises a vehicle identification module, a vehicle cost storage module and a cost judgment module, the entrance guard control NB-IoT terminal is also arranged at an entrance and exit of a parking lot of an intelligent community, the entrance guard control NB-IoT terminal further comprises a vehicle sensing module, the entrance and exit personnel information storage module further stores vehicle information corresponding to entrance and exit personnel, the vehicle cost storage module stores a plurality of cost information corresponding to the vehicle information, once the vehicle sensing module senses that a vehicle appears at the entrance and exit of the community or the entrance and exit of the parking lot, the power module is controlled to control the camera to be opened and acquire a vehicle video of the vehicle through the camera, and simultaneously the vehicle video is sent to the cloud server through the entrance guard side communication module, and the vehicle identification module identifies the vehicle video to obtain the identification information, the information comparison module compares the identification information with the vehicle information to obtain a comparison result of the vehicle which is successfully compared or failed to compare, the cost judgment module judges whether the cost of the vehicle is cleared according to the cost information, when the cost judgment module judges that the comparison is successful and the information comparison module successfully compares, the control instruction module generates a control instruction which allows the vehicle to pass and sends the control instruction to the entrance guard control NB-IoT terminal through the service side communication module, when the information comparison module fails to compare or the cost judgment module judges that the comparison is not successful, the control instruction module generates a control instruction which prohibits the vehicle from passing and sends the control instruction to the entrance guard control NB-IoT terminal through the service side communication module, when the entrance guard side communication module receives the control instruction which allows the vehicle to pass, the control power module controls the entrance guard to open, meanwhile, the voice module sends a vehicle passing notification to remind the vehicle to enter, and when, the power control module controls the entrance guard to close, and the voice module sends out a vehicle forbidden notice to remind the person who comes in and goes out corresponding to the vehicle to take corresponding measures.

The NB-IoT-based intelligent traffic control system provided by the invention can also have the technical characteristics that access personnel comprises non-community personnel and community personnel, the cloud server further comprises an access control application matching module and a personnel judgment module, the user terminal further comprises a two-dimension code approval generation module, the picture storage module further stores a two-dimension code auditing picture, the access personnel information storage module further stores labels belonging to the non-community personnel or the community personnel corresponding to the access personnel and the corresponding relation between the non-community personnel and the community personnel, once the service side communication module receives an access control two-dimension code generation request instruction, the personnel judgment module judges whether the access personnel is the non-community personnel according to the label corresponding to the access personnel corresponding to the user terminal which sends the access control two-dimension code generation request instruction, and when the access control judgment module judges that the access personnel is the non-community personnel, matching a corresponding user terminal according to the corresponding relation to serve as a user terminal of a specific community person, sending an entrance guard two-dimensional code generation request instruction to the user terminal of the specific community person by the service side communication module once the entrance guard application matching module is matched with the user terminal of the specific community person, setting the community person holding the user terminal of the specific community person as the specific community person, displaying a two-dimensional code auditing picture by the display module in the user terminal of the specific community person once the user side communication module in the user terminal of the specific community person receives the entrance guard two-dimensional code generation request instruction so as to judge whether non-community persons enter or not by the specific community person, and producing a two-dimensional code approval generation instruction by the two-dimensional code approval generation module once the operation of the specific community person agreeing to the entry of the non-community person is completed in the two-dimensional code, and the two-dimensional code generation module generates an entrance guard two-dimensional code corresponding to the authentication information when the service side communication module receives the two-dimensional code agreement generation module, and sends the entrance guard two-dimensional code to the user terminal through the service side communication module.

The NB-IoT-based intelligent traffic control system provided by the present invention may further have the technical features as follows: the monitoring cameras are arranged in each monitoring area of the smart community, are used for collecting monitoring videos in the corresponding monitoring area and simultaneously send the monitoring videos to the cloud server; a lighting NB-IoT terminal in communication connection with the cloud server; and the lighting NB-IoT terminal comprises a lighting control module, a lighting lamp position acquisition module and a lighting side communication module, the cloud server further comprises a flow identification module, a flow judgment module, a light judgment module and a lighting control generation module, the lighting lamps comprise light induction modules, the light induction modules are used for acquiring light information in the monitoring areas and sending the light information to the lighting NB-IoT terminal, the lighting side communication module sends the light information to the cloud server when receiving the light information, the light judgment module judges whether flow identification needs to be carried out on monitoring videos collected by monitoring cameras in the monitoring areas corresponding to the lighting lamps corresponding to the light information according to the light information in sequence, and the flow identification module carries out flow identification on the monitoring videos received by the service side communication module when the light judgment module judges that the monitoring videos are received The lighting control method comprises the steps that a flow result is obtained, the flow judgment module judges whether the flow result is larger than a preset value or not, the lighting control generation module generates a lighting control instruction when the flow judgment module judges that the flow result is yes, the lighting control instruction is sent to the lighting NB-IoT terminal, the lighting lamp position acquisition module acquires position information of a lighting lamp needing to be controlled when the lighting side communication module receives the lighting control instruction, and the lighting control module controls the lighting lamp to be switched on or switched off or adjusted in brightness according to the lighting control instruction and the position information.

The NB-IoT-based intelligent traffic control system provided by the invention can also have the technical characteristics that the user terminal further comprises an elevator reservation request module, the cloud server further comprises an elevator state judgment module, an elevator setting module and an elevator information storage module, the picture storage module further stores elevator reservation pictures, the elevator information storage module stores elevator information of corresponding elevators in each residential building, once an entering person finishes elevator reservation in the elevator reservation pictures, the elevator reservation request module generates elevator reservation instructions and sends the elevator reservation instructions to the cloud server, the elevator state judgment module judges whether the working state of the elevator is idle or not in sequence when the service side communication module receives the elevator reservation instructions, and the elevator setting module sets the elevator as a target elevator when the elevator state judgment module judges that the elevator is yes, and the elevator information corresponding to the target elevator is sent to an access control NB-IoT, and the control power module controls the target elevator to be in an idle state within preset time and stay at the appointed floor when the access control side communication module receives the elevator information, so that the entering and exiting people can reach the appointed floor in time.

The NB-IoT-based intelligent traffic control system provided by the invention can also have the technical characteristics that the cloud server further comprises a face recognition module and a face information comparison module, the in-out person information storage module further stores face authentication information corresponding to in-out persons, once the camera acquires face images of the in-out persons, the entrance guard side communication module sends the face images to the cloud server, the face recognition module performs face recognition on the face images to obtain a face recognition result when the face recognition module receives the face images, the face information comparison module compares the face recognition result with the face authentication information to obtain a face comparison result which is compared successfully or unsuccessfully, and when the face information comparison module obtains the face comparison result which is compared successfully and the body temperature judgment module judges whether the face comparison result is negative, the control instruction module generates an allowable person passing control instruction, and the control instruction module generates a control instruction for forbidding personnel to pass through when the face information comparison module obtains a face comparison result with failed comparison or the body temperature judgment module judges that the face comparison result is positive, and the control instruction module sends the control instruction to the access control NB-IoT terminal through the service side communication module.

Action and Effect of the invention

According to the intelligent traffic control system based on NB-IoT, the NB-IoT technology is utilized, so that the requirements of high capacity, low cost, low power consumption and strong coverage of the intelligent community are met. Still because entrance guard control NB-IoT terminal sets up at community access & exit, building access & exit and elevator, consequently the personnel of cominging in and going out can only go out corresponding building and floor after getting into smart community to thereby can let the wisdom community managers master the journey of the personnel of cominging in and going out and bring very big facility for community's work. And as the entrance guard two-dimensional code corresponding to the entrance and exit person authentication information is generated through the two-dimensional code application module and the two-dimensional code generation module, further, the entrance and exit person enters and exits the entrance and exit of the community, the entrance and exit of the building and the elevator through the entrance guard two-dimensional code, thereby ensuring the safety of the whole intelligent community. Still owing to realize detecting and judging the body temperature of personnel of cominging in and going out through temperature measurement module and body temperature judgement module, consequently do not need the artifical body temperature that measures personnel of cominging in and going out of wisdom community's managers, saved a large amount of manpower and materials.

This system can carry out authentication and body temperature to the discrepancy personnel of discrepancy wisdom community and detect and then allow the appointed building of discrepancy personnel discrepancy and floor of accord with the condition, consequently can master the journey and the body temperature state of discrepancy personnel in wisdom community in real time, brings the facility for community's work.

Drawings

Fig. 1 is a block diagram of an NB-IoT based intelligent traffic control system according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of an NB-IoT based intelligent traffic control system according to a first embodiment of the present invention;

fig. 3 is a block diagram of a user terminal according to a first embodiment of the present invention;

fig. 4 is a block diagram of a cloud server according to a first embodiment of the present invention;

fig. 5 is a block diagram of a banned NB-IoT terminal according to a first embodiment of the present invention;

fig. 6 is a block diagram of a lighting NB-IoT terminal according to a first embodiment of the present invention;

FIG. 7 is a flowchart illustrating an access of an intelligent community for an accessing person according to a first embodiment of the present invention;

FIG. 8 is a flowchart illustrating a vehicle entering and exiting a smart community according to an embodiment of the present invention;

fig. 9 is a flowchart of a two-dimensional code application of non-community people according to a first embodiment of the present invention; and

fig. 10 is a flowchart of lighting control according to a first embodiment of the present invention.

Detailed Description

In order to make the technical means, the inventive features, the objectives and the effects achieved by the present invention easily understood and appreciated, the NB-IoT based intelligent traffic control system of the present invention is specifically described below with reference to the embodiments and the accompanying drawings.

< example one >

Fig. 1 is a block diagram of an NB-IoT based intelligent traffic control system according to a first embodiment of the present invention; and

fig. 2 is a schematic structural diagram of an NB-IoT based intelligent traffic control system according to a first embodiment of the present invention.

As shown in fig. 1 and 2, the NB-IoT based intelligent traffic management and control system 1 includes a plurality of user terminals 10, a cloud server 20, a gateway control NB-IoT terminal 30, a plurality of lighting NB-IoT terminals 40, a plurality of monitoring cameras 50, a plurality of lighting lamps 60, a public NB-IoT terminal 70, and a monitoring terminal 80.

The user terminal 10, the monitoring camera 50, and the monitoring terminal 80 are communicatively connected to the cloud server 20 via the communication network 2.

In the present embodiment, the communication network 2 is a conventional communication network.

The entrance guard control NB-IoT terminal 30, the lighting NB-IoT terminal 40, and the advertising NB-IoT terminal 70 are communicatively connected with the cloud server 20 through the communication network 3.

Wherein the communication network 3 is an NB-IoT network.

The illumination lamp 60 is wired to the illumination NB-IoT terminal 40.

Fig. 3 is a block diagram of a user terminal according to a first embodiment of the present invention.

As shown in fig. 3, the user terminal 10 is held by an entrance/exit person, and includes a display module 111, a screen storage module 112, a two-dimensional code application module 113, a user-side communication module 114, a two-dimensional code approval generation module 115, and an elevator reservation request module 116.

The in-out persons are divided into community persons and non-community persons. The community personnel comprise community residents and management service personnel, and the non-community personnel comprise takeaway personnel, express delivery personnel and visitor personnel (such as relatives of the community residents, housekeeping personnel found by the community residents and the like).

In this embodiment, the cloud server 20 is disposed in the intelligent community room.

Fig. 4 is a block diagram of a cloud server according to a first embodiment of the present invention.

As shown in fig. 4, the cloud server 20 includes an entrance/exit person information storage module 201, a service side communication module 202, a two-dimensional code generation module 203, an information comparison module 204, a body temperature determination module 205, a control instruction module 206, a vehicle identification module 207, a vehicle cost storage module 208, a cost determination module 209, an entrance guard application matching module 210, a traffic identification module 211, a traffic determination module 212, a light determination module 213, a lighting control generation module 214, an elevator state determination module 215, an elevator setting module 216, a management service module 217, a cost processing module 218, a person determination module 219, and an elevator information storage module 220.

The entrance guard control NB-IoT terminal 30 is installed at a community entrance of the smart community, a building entrance of a plurality of residential buildings in the smart community, an elevator of each residential building, a parking lot entrance, and the like.

Fig. 5 is a block diagram of a banned NB-IoT terminal according to a first embodiment of the present invention.

As shown in fig. 5, the NB-IoT terminal 30 for entrance guard control includes a camera 301, a two-dimensional code parsing module 302, an entrance guard side communication module 303, a temperature measuring module 304, a control power module 305, a voice module 306, an entrance guard 307, and a vehicle sensing module 308.

The entrance guard control NB-IoT terminal 30 is divided into community NB-IoT terminals, building NB-IoT terminals, elevator NB-IoT terminals and parking lot NB-IoT terminals according to different set positions.

The monitoring camera 50 is arranged in each monitoring area of the smart community, and monitoring dead angles are not formed in the whole smart community. The monitoring camera 50 is configured to collect a monitoring video in a corresponding monitoring area, and simultaneously transmit the monitoring video to the cloud server 20.

Fig. 6 is a block diagram of a lighting NB-IoT terminal according to a first embodiment of the present invention.

As shown in fig. 6, the lighting NB-IoT terminal 40 includes a lighting control module 401, a lighting lamp position acquisition module 402, and a lighting side communication module 403.

The lighting NB-IoT terminal 40 is disposed at a location where the lighting lamp 60 is located.

The lighting lamps 60 are disposed in each monitoring area and communicatively connected to the lighting NB-IoT terminal 40, and include a light sensing module.

In this embodiment, the illumination lamps 60 and the monitoring cameras 50 are alternately installed to accurately control the illumination lamps 60 in different monitoring areas. The illumination lamps 60 are LED illumination lamps 60.

The announcement NB-IoT terminal 70 is used to display important notifications issued by property companies or living committees, and display daily information such as date and time, weather information, community temperature and humidity, PM2.5 air quality, noise index, remaining parking space information, and community plan information in real time.

The advertising NB-IoT terminal 70 is placed around the location of the electronic billboard.

The NB-IoT network is provided by NB-IoT base stations built by telecommunication operators, covers the whole intelligent community and meets the functions of simultaneously accessing, transmitting and the like of all NB-IoT terminals.

The monitoring terminal 80 is arranged at a entrance guard of the smart community and used for displaying whether non-community personnel are allowed to enter the smart community or not and reminding the monitoring personnel to take corresponding measures to further improve the safety of the smart community for the monitoring personnel in the smart community.

In this embodiment, each NB-IoT terminal corresponds to one SIM card number, the NB-IoT terminal is powered by a power supply from 220V AC to 12V DC, and when the cloud server 20 needs to communicate with a specific NB-IoT terminal through the NB-IoT network 3, the specific NB-IoT terminal is determined and communicates with the specific NB-IoT terminal through the SIM card number.

The image storage module 112 stores a two-dimensional code application image, a two-dimensional code generation image, a two-dimensional code auditing image and an elevator reservation image.

The display module 111 is used for displaying the above-mentioned picture.

The in-out person information storage module 201 stores a plurality of names including in-out persons, user terminals corresponding to the names, number information corresponding to the user terminals, units in which the in-out persons need to come in and go out, authentication information of floors, tags belonging to non-community persons or community persons corresponding to the in-out persons, and corresponding relationships between the non-community persons and the community persons.

In this embodiment, the authentication information is formed by uploading different types of people entering and exiting through a corresponding manner to the cloud server 20, specifically:

community residents carry related certificates (such as identity information, house property certificates, house leasing contracts and the like) to a property management center in the smart community for registration and audit, and the property management center uploads community resident authentication information to the cloud server 20. The community resident authentication information comprises names, identification numbers, face recognition authentication information, affiliated communities, units, floors, vehicle information, mobile phone numbers and the like corresponding to community residents;

the community management service personnel carry the working certificate to the property management center for registration and audit, the property management center uploads the authentication information of the community management service personnel to the cloud server 20, and the authentication information of the community management service personnel comprises a name, an identity card number, face identification authentication information, a cell, a unit, a floor, vehicle information, a mobile phone number and the like corresponding to the community management service personnel;

the method comprises the following steps that a take-out person or an express delivery person sends a work certificate to a property management center for registration and verification through a take-out platform or an express delivery company, the property management center sends authentication information of the take-out person or the express delivery person to a cloud server 20, and the authentication information of the take-out person or the express delivery person comprises a name, a take-out platform/the express delivery company, a leader and a contact way of a department to which the take-out person or the express delivery person belongs, an identity card number, a mobile phone number and the like corresponding to the take-out person or the;

the visitor person uploads visitor person authentication information including a name, an identification number, a mobile phone number, application access detailed address information, whether a vehicle enters, a license plate number, and the like corresponding to the visitor person to the cloud server 20 through the user terminal 10.

In this embodiment, the tags corresponding to the people who enter and exit and belonging to non-community people or community people are different according to the mode of submitting the authentication information by the people who enter and exit, and then the tags of the people who enter and exit and the tags of the people who enter and exit are determined to be the tags of the non-community people or the tags of the community people. The community personnel need to take the related certificate to go to the property management center to perform registration and audit of the authentication information, and the non-community personnel need to pass through a platform or directly upload the authentication information and perform registration and audit on the property management center line.

The corresponding relation means that non-community people enter the intelligent community and certainly have a target unit, a target floor and target community people, and the non-community people and the target community people have a certain corresponding relation.

The elevator information storage module 220 stores elevator information of the corresponding elevator in each residential building.

When the person who comes in and goes out wants to enter the smart community, the person who comes in and goes out needs to open the smart community APP or the WeChat applet in the user terminal 10 first to enter the access control two-dimensional code application picture, and the operation of confirming the access control two-dimensional code application is completed on the picture.

In this embodiment, the personnel of community realize the application of entrance guard two-dimensional code and look over through the application of wisdom community APP or the little letter applet in user terminal 10, realize the entrance guard two-dimensional code through takeaway platform or express delivery platform and agree to the function. Meanwhile, the intelligent community APP or the WeChat applet can report the vehicles needing moving positions so as to inform the vehicle owners and property management personnel to correspondingly process.

Once the person entering and exiting confirms to apply for the two-dimensional access control code, the two-dimensional code application module 113 generates an access control two-dimensional code generation request instruction, and sends the access control two-dimensional code generation request instruction to the cloud server 20 through the user-side communication module 114.

When the service-side communication module 202 receives the entrance guard two-dimensional code generation request instruction, the two-dimensional code generation module 203 generates an entrance guard two-dimensional code corresponding to the authentication information, and sends the entrance guard two-dimensional code to the corresponding user terminal 10 through the service-side communication module 202 according to the number information of the user terminal in the authentication information.

The display module 111 displays the two-dimension code generation picture and the entrance guard two-dimension code when the user-side communication module 114 receives the entrance guard two-dimension code.

The community personnel aim at the door control NB-IoT terminal 30 with the door control two-dimensional code and sweep the code with camera 301.

In this embodiment, the camera 301 is a high definition camera.

Once the camera 301 scans the access control two-dimensional code, the two-dimensional code analysis module 302 generates two-dimensional code information corresponding to the access control two-dimensional code, and sends the two-dimensional code information to the cloud server 20 through the access control side communication module 303.

The information comparison module 204 compares the two-dimension code information and the authentication information to obtain a comparison result indicating that the comparison is successful or failed.

The temperature measurement module 304 acquires the body temperature of the person entering or exiting the home, and sends the body temperature to the cloud server 20 through the entrance guard side communication module 303.

The body temperature determination module 205 determines whether the body temperature is greater than a threshold.

In this embodiment, the threshold is set to 37.2 degrees.

When the information comparison module 204 succeeds in comparison and the body temperature determination module 205 determines that the comparison is negative, the control instruction module 206 generates an allowing person to send the allowing person to the access control NB-IoT terminal 30 through the control instruction and the service side communication module 202.

When the information comparison module 204 fails in comparison or the body temperature determination module 205 determines that the comparison is yes, the control instruction module 206 generates a prohibited person passing control instruction and sends the prohibited person passing control instruction to the access control NB-IoT terminal 30 through the service side communication module 202.

When the entrance guard side communication module 303 receives an instruction for allowing a person to pass through, the control power module 305 controls the entrance guard 307 to open, and the voice module 306 sends a person passing notification to remind the person entering or exiting the entrance guard.

In this embodiment, when the person who comes in and goes out gets in and out the smart community area through the entrance guard two-dimensional code, the control power module 305 in the community NB-IoT terminal can control the passage gateway to open according to the control instruction of the person who is allowed to pass through, and the voice module 306 can send out the voice prompt of "the gate is opened, please pass through" simultaneously, and the control power module 305 can close the passage gateway automatically after the predetermined time interval.

When people come in and go out of a building, the power control module 305 in the NB-IoT terminal of the building controls the building access gateway to be opened according to the control instruction of the allowed people, meanwhile, the voice module 306 sends out a voice prompt of 'access gate opened and please pass' and the power control module 305 automatically closes the access gateway after a preset time interval.

When the passengers enter and exit the elevator, the NB-IoT terminal of the elevator prompts the floors that the passengers can reach, such as the floors needing to enter and exit and the public floors, according to the received control command for allowing the passengers to enter and exit. After the entrance and exit people press the corresponding floor key according to the prompt, the control power module 305 controls the elevator to reach the corresponding floor and reminds the elevator through the voice module 306.

When the entrance guard side communication module 303 receives a control instruction for prohibiting the person from passing, the control power module 305 controls the entrance guard 307 to close, and the voice module 306 sends a person prohibition notification to remind the person entering or exiting to take corresponding measures.

In this embodiment, when the person who comes in and goes out gets out and goes out of the smart community area through the entrance guard two-dimensional code, the control power module 305 in the community NB-IoT terminal can control the entrance guard 307 to close according to the control instruction of the prohibited person, and meanwhile, the voice module 306 can send out the voice prompt of "body temperature is abnormal/normal, the gate is closed, if the resident in the community asks the property management center to register", and whether the resident can pass through the smart community at this moment according to the specific situation is needed.

When people who go in and go out of a building enter and exit, the control power module 305 in the building NB-IoT terminal controls the building access gateway to be closed through a control instruction according to forbidden people, and meanwhile, the voice module 306 sends out voice prompt of 'information identification fails, and if the people are residents in the community, please check with a property management center', so that the people who go in and out of the building are reminded to take corresponding measures.

When the person who comes in and goes out of the elevator, the NB-IoT terminal of the elevator prompts the person who comes in and goes out of the elevator to only reach the public floor through a control instruction according to the received forbidden person. After the entrance and exit personnel press the corresponding floor key according to the prompt, the control power module 305 controls the elevator to reach the public floor. If the floor key pressed does not belong to a common floor, the elevator does not operate. All the above operations are broadcasted through the voice module 306 to remind.

The vehicle fee storage module 208 stores a plurality of pieces of fee information corresponding to the pieces of vehicle information.

When a vehicle drives to the community entrance or the parking lot entrance, the vehicle sensing module 308 in the community NB-IoT terminal or the parking lot NB-IoT terminal can sense the presence or absence of the vehicle.

Once the vehicle sensing module 308 senses that a vehicle is present at a community entrance or a parking lot entrance, the control power module 305 controls the camera 301 to be turned on, acquires a vehicle video of the vehicle through the camera 301, and simultaneously sends the vehicle video to the cloud server 20 through the entrance side communication module 303.

The vehicle identification module 207 is used for identifying the vehicle video to obtain identification information of the vehicle.

In this embodiment, the identification information refers to license plate information of the vehicle.

The information comparison module 204 is configured to compare the identification information with the vehicle information to obtain a vehicle comparison result indicating that the comparison is successful or failed.

In this embodiment, the information comparison module 204 compares the registered license plate provided by the person entering or exiting the vehicle with the identified license plate information.

The fee judging module 209 is used for judging whether the fee of the vehicle is cleared according to the fee information.

When the fee determination module 209 determines yes and the information comparison module 204 compares successfully, the control instruction module 206 generates a vehicle passing permission control instruction and sends the vehicle passing permission control instruction to the entrance guard control NB-IoT terminal 30 through the service-side communication module 202.

When the information comparison module 204 fails to perform comparison or the fee determination module 209 determines that the information comparison module does not perform comparison, the control instruction module 206 generates a vehicle passing prohibition control instruction and sends the vehicle passing prohibition control instruction to the entrance guard control NB-IoT terminal 30 through the service-side communication module 202.

When the entrance guard side communication module 303 receives a control instruction for allowing the vehicle to pass, the control power module 305 controls the entrance guard 307 to be opened, and the voice module 306 sends a vehicle passing notification to remind the vehicle of entering.

In this embodiment, when the entrance side communication module 303 receives a control instruction allowing the vehicle to pass, the control power module 305 controls the opening of the passing gateway at the entrance/exit of the community or the entrance/exit of the parking lot, and simultaneously prompts "the gate is opened and please pass" with voice. After waiting for a period of time, the control power module 305 controls the closing of the passage gateway of the community gateway or the parking lot gateway.

When the entrance guard side communication module 303 receives a control instruction for prohibiting the vehicle from passing, the control power module 305 controls the entrance guard 307 to close, and the voice module 306 sends a vehicle prohibition notification to remind an entrance and exit person corresponding to the vehicle to take corresponding measures.

In this embodiment, when the entrance guard side communication module 303 receives a control instruction for prohibiting the vehicle from passing, the voice module 306 sends a "gate off", and if the resident in the community is, the resident in the community requests the property management center to register "prompt, so that the person who enters or exits is given corresponding measures. For the case of gateway closure, the security personnel for property management decide on a case-by-case basis whether to allow the vehicle to enter the community.

When an entrance/exit person sends an entrance guard two-dimensional code generation request instruction to the cloud server 20 through the user terminal 10, the entrance guard two-dimensional code generation process of non-community persons includes the following steps:

once the service-side communication module 202 receives the entrance guard two-dimensional code generation request instruction, the person judgment module 219 judges whether an entrance person is a non-community person according to a tag corresponding to the entrance person corresponding to the user terminal 10 that sent the entrance guard two-dimensional code generation request instruction.

When the judgment of the person judgment module 219 is yes, the access control application matching module 210 matches the corresponding user terminal 10 as a user terminal of a specific community according to the corresponding relationship in the access control two-dimensional code generation request instruction.

When the judgment of the person judgment module 219 is negative, the two-dimensional code generation module 203 directly generates the access two-dimensional code and transmits the access two-dimensional code to the user terminal 10 through the service-side communication module 202.

Once the access control application matching module 210 is matched with a specific community person user terminal, the service-side communication module 202 generates an access control two-dimensional code generation request instruction to the specific community person user terminal 10, and meanwhile, community persons holding the specific community person user terminal are set as specific community persons.

Once the user-side communication module 114 in the user terminal 10 of the specific community personnel receives the request instruction for generating the two-dimensional code of the door access, the display module 111 in the user terminal 10 of the specific community personnel displays the two-dimensional code audit screen, so that the specific community personnel can judge whether non-community personnel enter or not.

When the specific community personnel approve the entrance of the non-community personnel and the operation of approving the entrance of the non-community personnel is completed on the two-dimensional code auditing screen, the two-dimensional code approval generation module 115 generates a two-dimensional code approval generation instruction, and the two-dimensional code approval generation instruction is transmitted to the cloud server 20 through the user side communication module 114.

When the specific community person does not agree with the entrance of the non-community person and the operation of rejecting the entrance of the non-community person is completed on the two-dimensional code review screen, the user-side communication module 114 sends the rejection information to the cloud server 20.

Once the service-side communication module 202 receives the rejection information of the specific community personnel, the rejection information is sent to the NB-IoT terminal 30.

When the entrance guard side communication module 303 receives rejection information of a specific community person, the voice module 306 sends out a notification of relevant rejection to remind a non-community person to take a corresponding measure.

In this embodiment, when the entrance guard side communication module 303 receives rejection information of a specific community person, the voice module 306 may send an "invalid two-dimensional code," and the gate is closed, and please contact the property management center "to remind a non-community person.

The two-dimensional code generation module 203 generates an access control two-dimensional code corresponding to the authentication information when the service-side communication module 202 receives the two-dimensional code agreement generation module 115, and sends the access control two-dimensional code to the user terminal 10 through the service-side communication module 202.

In this embodiment, the service-side communication module 202 in the cloud server 20 also sends the result of whether the specific community people agree that the non-community people enter the smart community to the monitoring terminal 80, so that the property management personnel can conveniently know whether the non-community people obtain information agreeing to enter or exit the smart community.

In this embodiment, the takeaway personnel and the express delivery personnel apply for the two-dimensional access code and check the two-dimensional access code through the takeaway platform/express delivery platform in the user terminal 10.

Visitor personnel in the non-community personnel apply for the entrance guard two-dimensional code and look over the entrance guard two-dimensional code through the intelligent community APP in the user terminal 10.

The light sensing module in the lighting lamp 60 is used to obtain light information in the monitored area and send the light information to the lighting NB-IoT terminal 40.

The lighting side communication module 403 in the lighting NB-IoT terminal 40 transmits the light information to the cloud server 20 upon receiving the light information.

The light judgment module 213 sequentially judges whether the flow identification needs to be performed on the monitoring video collected by the monitoring camera 50 in the monitoring area corresponding to the illuminating lamp 60 corresponding to the light information according to the light information.

When the light determination module 213 determines yes, the traffic identification module 211 performs traffic identification on the monitoring video received by the service-side communication module 202 to obtain a traffic result.

When the light determination module 213 determines no, the light determination module 213 determines the light information in the next monitored area.

The flow rate determining module 212 is used for sequentially determining whether the flow rate result is greater than a predetermined value.

When the traffic determination module 212 determines yes, the lighting control generation module 214 generates a lighting control instruction and transmits the lighting control instruction to the lighting NB-IoT terminal 40.

When the flow rate determining module 212 determines yes, the flow rate determining module 212 determines the flow rate result in the next monitoring area.

The illumination lamp position acquisition module 402 acquires position information of the illumination lamp 60 that needs to be controlled when the illumination side communication module 403 receives the illumination control instruction.

The illumination control module 401 controls the illumination lamp 60 to be turned on or off or adjusted in brightness according to the illumination control instruction control and the position information.

In this embodiment, when the light information display time is late at night and the flow of people or vehicles is excessive, the illumination lamp 60, which is turned off because of energy saving, is controlled to be turned on.

When the light information shows a dark daytime condition and the flow of people or vehicles is too large, the illumination lamp 60 is turned on.

The personnel of cominging in and going out can also carry out the elevator reservation when the elevator of cominging in and going out resident's building, specifically is:

when the entering and exiting person completes the elevator reservation on the elevator reservation screen displayed on the display unit of the user terminal 10, the elevator reservation request module 116 generates an elevator reservation command and transmits the command to the cloud server 20.

The elevator state judgment module 215 sequentially judges whether the operating state of the elevator is idle when the service-side communication module 202 receives an elevator reservation command.

When the elevator state determination module 215 determines yes, the elevator setting module 216 sets the corresponding elevator as the target elevator, and sends the elevator information of the target elevator to the entrance guard 307 to control NB-IoT.

When the elevator state judgment module 215 judges no, the elevator state judgment module 215 judges the working state of the next elevator until all elevators in the residential building are judged. If no elevator is idle after all judgment, the elevator is in the peak use period at the moment, and the user is reminded that the reservation cannot be made.

The control power module 305 controls the target elevator to be in an idle state for a predetermined time and to stay at the designated floor so that the entering and exiting persons can arrive at the designated floor in time when the entrance side communication module 303 receives the elevator information.

The control power module 305 controls the elevator to stop at the current floor according to the current floor input by the accessing person in the elevator reservation picture and the appointed floor which the accessing person wants to arrive at.

When the entrant and exits do not have an elevator scheduled to be taken within the scheduled time, the control power module 305 releases the current control to allow other entrants to make elevator reservations.

The management service module 217 is used for processing basic services such as general service requests of intelligent community APP/WeChat applets, information bulletins, maintenance information of community equipment facilities and the like from community personnel.

The fee processing module 218 is used for reminding the community personnel of paying the vehicle billing, the vehicle parking fee, the property fee and the like, and providing the inquiry and payment service of the related fee for the community personnel.

In addition, community personnel can also take a picture and upload to the vehicle that keeps off the way or need the mobile location through wisdom community APP/little letter applet, and cloud server 20 can be matchd to corresponding to user terminal 10 according to the license plate to will send the vehicle to this user terminal 10 and monitor terminal 80 and remove and remind, thereby remind car owner and property management personnel in time to remove the vehicle.

Fig. 7 is a flowchart illustrating an entrance or exit person entering or exiting a smart community according to a first embodiment of the present invention.

As shown in fig. 7, the process of accessing the intelligent community by the accessing personnel includes the following steps:

step S1, the person entering or exiting opens the two-dimension code application picture through the user terminal 10 and confirms the application of the entrance guard two-dimension code, and then the step S2 is carried out;

in step S2, the two-dimensional code application module 113 generates an entrance guard two-dimensional code generation request instruction, sends the request instruction to the cloud server 20, and then proceeds to step S3;

step S3, the two-dimensional code generation module 203 generates an access two-dimensional code corresponding to the authentication information, and sends the access two-dimensional code to the user terminal 10, and then step S4 is performed;

step S4, the entering and exiting person scans the door access two-dimensional code received by the user terminal 10 with the camera 301, and then step S5 is performed;

step S5, the two-dimensional code parsing module 302 generates two-dimensional code information corresponding to the prohibited two-dimensional code and sends the two-dimensional code information to the cloud server 20, and then the process goes to step S6;

step S6, the information comparison module 204 compares the two-dimensional code information with the authentication information to obtain a comparison result indicating a successful comparison or a failed comparison, and if the comparison is successful, the step S7 is performed, and if the comparison is failed, the step S11 is performed;

step S7, the temperature measurement module 304 acquires the body temperature of the person entering or exiting, and sends the body temperature to the cloud server 20 through the entrance guard side communication module 303, and then step S8 is performed;

in step S8, the body temperature determination module 205 determines whether the temperature is greater than the threshold, and if so, the process proceeds to step S9, and if not, the process proceeds to step S11;

step S9, the control instruction module 206 generates an allowable person passing control instruction and sends the allowable person passing control instruction to the NB-IoT terminal 30, and then the process goes to step S10;

step S10, the power control module 305 controls the entrance guard 307 to open, and the voice module 306 gives a person passing notice and then enters an end state;

step S11, the control instruction module 206 generates a control instruction for the forbidden person to pass through and sends the control instruction to the entrance guard control NB-IoT terminal 30, and then the step S12 is executed;

in step S12, the control power module 305 controls the door access 307 to close, and the voice module 306 sends out a person prohibition notification, and then enters an end state.

Fig. 8 is a flowchart illustrating a vehicle entering and exiting a smart community according to a first embodiment of the present invention.

As shown in fig. 8, the process of accessing the intelligent community by the vehicle includes the following steps:

step T1, the vehicle sensing module 308 senses that a vehicle is present at the entrance or exit of the community or the parking lot, and then the step T2 is performed;

in the step T2, the power control module 305 controls the camera 301 to be turned on, obtains the vehicle video of the vehicle through the camera 301, sends the vehicle video to the cloud server 20 through the entrance guard side communication module 303, and then enters the step T3;

step T3, the vehicle identification module 207 identifies the vehicle video to obtain the identification information of the vehicle, and then the step T4 is executed;

step T4, the information comparison module 204 compares the identification information with the vehicle information to obtain a comparison result indicating a successful comparison or a failed comparison, and if the comparison is successful, the step T5 is performed, and if the comparison is failed, the step T8 is performed;

step T5, the fee judging module 209 judges whether the fee of the vehicle is settled according to the fee information, and when the fee is settled, the step T6 is performed, and when the fee is not settled, the step T8 is performed;

in step T6, the control instruction module 206 generates an allowable vehicle passing control instruction and sends the allowable vehicle passing control instruction to the NB-IoT terminal 30, and then the process goes to step T7;

step T7, controlling the power module 305 to control the entrance guard 307 to open, simultaneously sending a vehicle passing notification by the voice module 306, and then entering an end state;

in step T8, the control instruction module 206 generates a control instruction for prohibiting the vehicle from passing, sends the control instruction to the NB-IoT terminal 30 for entrance guard control, and then proceeds to step T9;

in step T9, the power control module 305 controls the door access 307 to close, and the voice module 306 sends a vehicle prohibition notification, and then enters an end state.

Fig. 9 is a flowchart of a two-dimensional code application of non-community people according to a first embodiment of the present invention.

As shown in fig. 9, the two-dimensional code application process of the non-community people includes the following steps:

step E1, when the service side communication module 202 receives the request command for generating the two-dimensional code of the door access, the personnel judgment module 219 judges whether the person entering or exiting the building is a non-community person, if yes, the step E2 is performed, and if no, the step S3 is performed;

step E2, the access control application matching module 210 matches the corresponding user terminal 10 according to the corresponding relationship to serve as the user terminal 10 of the specific community personnel, and then the step E3 is entered;

step E3, the service side communication module 202 sends an entrance guard two-dimensional code generation request instruction to the user terminal 10 of the specific community personnel, and the community personnel holding the user terminal 10 of the specific community personnel are set as the specific community personnel, and then the step E4 is executed;

step E4, the user terminal 10 of the specific community personnel displays the two-dimensional code audit picture so as to enable the specific community personnel to judge whether the non-community personnel enter, the step E5 is carried out when the specific community personnel approve, and the step E6 is carried out when the specific community personnel approve;

step E5, the two-dimensional code agreement generation module 115 generates a two-dimensional code agreement generation instruction, and sends the two-dimensional code agreement generation instruction to the cloud server 20, and then the process goes to step S3;

in step E6, the voice module 306 reports a disagreeable notification to remind the non-community personnel to take corresponding measures, and then enters an end state.

Fig. 10 is a flowchart of lighting control according to a first embodiment of the present invention.

As shown in fig. 10, the lighting control process includes the steps of:

step P1, the monitoring camera 50 collects the monitoring video in the corresponding monitoring area and sends the monitoring video to the cloud server 20, and then the step P2 is performed;

step P2, the light sensing module is used for acquiring light information in the monitored area and sending the light information to the lighting NB-IoT terminal 40, the lighting NB-IoT terminal 40 sends the light information to the cloud server 20, and then the step P3 is executed;

step P3, the light judgment module 213 judges whether it is necessary to perform traffic identification on the surveillance video collected by the surveillance camera 50 in the surveillance area corresponding to the illumination lamp 60 corresponding to the light information according to the light information, if yes, step P4 is performed, and if no, step P3 is repeated to perform judgment on the light information in the next surveillance area;

step P4, the traffic identification module 211 performs traffic identification on the surveillance video to obtain a traffic result, and then proceeds to step P5;

step P5, the flow rate determining module 212 determines whether the flow rate result is greater than a predetermined value, if yes, the process goes to step P6, and if no, the process goes to the determination of the flow rate result in the next monitoring area by repeating step P5;

step P6, the lighting control generating module 214 generates a lighting control command, sends the lighting control command to the lighting NB-IoT terminal 40, and then proceeds to step P7;

step P7, the lighting lamp position obtaining module 402 obtains the position information of the lighting lamp 60 to be controlled, and then the step P8 is performed;

in step P8, the lighting control module 401 controls the lighting lamp 60 to switch on or off or adjust the brightness according to the lighting control command and the position information, and then enters the end state.

< example two >

In the first embodiment, the community personnel enter and exit the smart community through the two-dimensional access control code, however, in the second embodiment, the community personnel who are not good at using the user terminal 10 or are limited by the user terminal 10, such as the old and the children in the smart community, can enter and exit the smart community quickly through the face recognition.

For convenience of expression, in the second embodiment, the same reference numerals are given to the same structures as those in the first embodiment, and the same descriptions are omitted.

The cloud server 20 further includes a face recognition module and a face information comparison module.

The authentication information also comprises face authentication information of the person who enters or exits.

When community people in the in-and-out people need to enter the smart community through face recognition, the community people approach the camera 301 in the NB-IoT terminal 30 for entrance guard control to take a picture.

Once the camera 301 collects the face image of the person entering or exiting, the entrance side communication module 303 sends the face image to the cloud server 20.

And the face recognition module performs face recognition on the face image to obtain a face recognition result when the service side communication module receives the face image.

The face information comparison module compares the face recognition result with the face authentication information to obtain a face comparison result which is successfully or unsuccessfully compared.

When the face information comparison module obtains a successfully compared face comparison result and the body temperature judgment module judges that the comparison result is negative, the control instruction module 206 generates an allowable personnel passing control instruction, and sends the allowable personnel passing control instruction to the access control NB-IoT terminal 30 through the service side communication module 202.

When the face information comparison module obtains a face comparison result with failed comparison or the body temperature judgment module determines that the face information comparison result is yes, the control instruction module 206 generates a control instruction for prohibiting personnel from passing, and sends the control instruction to the access control NB-IoT terminal 30 through the service side communication module 202.

Examples effects and effects

According to the intelligent traffic management and control system based on NB-IoT provided by the embodiment, the NB-IoT technology is utilized, so that the requirements of high capacity, low cost, low power consumption and strong coverage of the intelligent community are met. Still because entrance guard control NB-IoT terminal sets up at community access & exit, building access & exit and elevator, consequently the personnel of cominging in and going out can only go out corresponding building and floor after getting into smart community to thereby can let the wisdom community managers master the journey of the personnel of cominging in and going out and bring very big facility for community's work. And as the entrance guard two-dimensional code corresponding to the entrance and exit person authentication information is generated through the two-dimensional code application module and the two-dimensional code generation module, further, the entrance and exit person enters and exits the entrance and exit of the community, the entrance and exit of the building and the elevator through the entrance guard two-dimensional code, thereby ensuring the safety of the whole intelligent community. Still owing to realize detecting and judging the body temperature of personnel of cominging in and going out through temperature measurement module and body temperature judgement module, consequently do not need the artifical body temperature that measures personnel of cominging in and going out of wisdom community's managers, saved a large amount of manpower and materials.

In addition, in the embodiment, the vehicles entering and exiting the intelligent community are identified and judged through the vehicle identification module, the vehicle cost storage module and the cost judgment module, so that the vehicles which conform to the authentication information and settle the vehicle cost are allowed to enter and exit, the safety of the intelligent community can be improved, the vehicle owner is effectively reminded to settle the vehicle cost, and meanwhile, the parking lot is intelligent without being attended by managers.

In addition, in the embodiment, the access control two-dimensional code application of non-community personnel is processed by the access control application matching module and the two-dimensional code agreement generation module, so that community personnel do not need to inform property or community personnel to go to an access and get goods by themselves layer, and the time and the energy of the community personnel and the non-community personnel are saved.

In addition, in the embodiment, the function of automatically adjusting the illuminating lamp according to the brightness information and the pedestrian flow or vehicle flow information is realized through the monitoring camera, the lighting NB-IoT terminal, the illuminating lamp, the flow identification module, the flow judgment module, the brightness judgment module and the lighting control generation module, so that the intelligent induction, comfort and convenient experience feeling can be provided for people coming in and going out while energy is saved.

In addition, in the embodiment, the function of reserving and taking the idle elevator by the person who comes in and goes out is realized through the elevator reservation request module, the elevator state judgment module and the elevator setting module, so that the time for the person who comes in and goes out to wait for the elevator is saved, and the person who comes in and goes out can conveniently and quickly come in and go out of the residential building.

In addition, in the embodiment, because the people in the community can enter and exit the intelligent community through face brushing through the face recognition module and the face information comparison module, the people in the community who are not good at using the user terminal or cannot use the access control two-dimensional code, such as the old and the children, are fully considered, and the people in the community can enter and exit the intelligent community quickly.

In addition, in the embodiment, because community personnel can carry out the payment of expenses such as vehicle billing, vehicle parking fee and property fee through the expense processing module, consequently realized intelligent and the digitization of wisdom community, brought very big facility for community personnel.

The above-described embodiments are merely illustrative of specific embodiments of the present invention, and the present invention is not limited to the description of the above-described embodiments.

In the above embodiment, the people in the community pass through the entrance guard two-dimensional code or face recognition, and in other schemes, the people in the community can pass through the entrance guard magnetic card or enter the entrance guard password or enter the intelligent community through the voice telephone input mode.

In the embodiment, the collected monitoring video is sent to the cloud server for traffic identification, and in other schemes, the collected monitoring video can also be sent to an independent monitoring server for traffic identification, and the monitoring server sends the traffic identification result to the cloud server.

Claims (6)

1. The utility model provides a current management and control system of intelligence based on NB-IoT for to utilizing the discrepancy personnel of entrance guard's two-dimensional code business turn over wisdom community to carry out the management and control, its characterized in that includes:

the cloud server is arranged in the smart community;

the entrance guard control NB-IoT terminal is at least arranged at a community entrance and exit of the smart community, a building entrance and exit of a plurality of residential buildings in the smart community and an elevator of each residential building, and is in communication connection with the cloud server; and

a plurality of user terminals held by the entrant and exit persons and communicatively connected to the cloud server,

wherein the cloud server comprises an in-out personnel information storage module, a service side communication module, a two-dimensional code generation module, an information comparison module, a body temperature judgment module and a control instruction module,

the entrance guard control NB-IoT terminal comprises a camera, a two-dimension code analysis module, an entrance guard side communication module, a temperature measurement module, a control power module, a voice module and an entrance guard,

the user terminal comprises a display module, a picture storage module, a two-dimensional code application module and a user side communication module,

the in-out person information storage module stores a plurality of authentication information at least comprising names of the in-out persons, the user terminals corresponding to the names, number information corresponding to the user terminals, and units and floors needing to be accessed by the in-out persons,

the picture storage module stores a two-dimension code application picture and a two-dimension code generation picture,

once the person who comes in and goes out opens the two-dimension code application picture and confirms to apply the access control two-dimension code, the two-dimension code application module generates an access control two-dimension code generation request instruction and sends the access control two-dimension code generation request instruction to the cloud server through the user side communication module,

the two-dimension code generating module generates the entrance guard two-dimension code corresponding to the authentication information when the service side communication module receives the entrance guard two-dimension code generating request instruction, and sends the entrance guard two-dimension code to the user terminal through the service side communication module according to the authentication information,

the display module displays the two-dimension code generation picture and the entrance guard two-dimension code when the user side communication module receives the entrance guard two-dimension code,

once the camera scans the entrance guard two-dimensional code, the two-dimensional code analysis module generates two-dimensional code information corresponding to the entrance guard two-dimensional code and sends the two-dimensional code information to the cloud server through the entrance guard side communication module,

the information comparison module compares the two-dimension code information with the authentication information to obtain a comparison result of successful comparison or failed comparison,

the temperature measuring module acquires the body temperature of the person coming in and going out and sends the body temperature to the cloud server through the entrance guard side communication module,

the body temperature judging module judges whether the body temperature is larger than a threshold value,

when the information comparison module successfully compares the information and the body temperature judgment module judges that the information is not the body temperature judgment module, the control instruction module generates an allowable personnel passing control instruction and sends the allowable personnel passing control instruction to the entrance guard control NB-IoT terminal through the service side communication module,

when the information comparison module fails to compare or the body temperature judgment module judges that the information comparison module is yes, the control instruction module generates a control instruction for prohibiting personnel to pass and sends the control instruction to the access control NB-IoT terminal through the service side communication module,

when the entrance guard side communication module receives the allowable personnel passing control instruction, the control power module controls the entrance guard to open, and simultaneously the voice module sends out personnel passing notice to remind the entering and exiting personnel to enter,

when the entrance guard side communication module receives the control command for the prohibited person to pass, the control power module controls the entrance guard to be closed, and meanwhile, the voice module sends out a person prohibition notice to remind the person entering and exiting to take corresponding measures.

2. The NB-IoT based intelligent traffic management and control system according to claim 1, wherein:

wherein the cloud server also comprises a vehicle identification module, a vehicle expense storage module and an expense judgment module,

the entrance guard control NB-IoT terminal is also arranged at the entrance and exit of the parking lot of the intelligent community,

the entrance guard control NB-IoT terminal further includes a vehicle sensing module,

the access person information storage module is also used for storing vehicle information corresponding to the access person,

the vehicle fee storage module stores a plurality of fee information corresponding to the vehicle information,

once the vehicle sensing module senses that a vehicle appears at the community entrance or the parking lot entrance, the control power module controls the camera to be opened, obtains a vehicle video of the vehicle through the camera, and simultaneously sends the vehicle video to the cloud server through the entrance side communication module,

the vehicle identification module identifies the vehicle video to obtain identification information of the vehicle,

the information comparison module compares the identification information with the vehicle information to obtain a vehicle comparison result with successful comparison or failed comparison,

the fee judging module judges whether the fee of the vehicle is cleared according to the fee information,

when the fee judging module judges that the fee is positive and the information comparison module successfully compares the fee with the information, the control instruction module generates a vehicle passing permission control instruction and sends the vehicle passing permission control instruction to the access control NB-IoT terminal through the service side communication module,

when the information comparison module fails to compare or the fee judgment module judges that the information comparison module does not compare, the control instruction module generates a control instruction for prohibiting a vehicle from passing and sends the control instruction to the entrance guard control NB-IoT terminal through the service side communication module,

when the entrance guard side communication module receives the allowable vehicle passing control instruction, the control power module controls the entrance guard to be opened, and simultaneously the voice module sends out a vehicle passing notice to remind the vehicle to enter,

when the entrance guard side communication module receives the control command for prohibiting the vehicle from passing, the control power module controls the entrance guard to close, and meanwhile, the voice module sends out a vehicle prohibition notice to remind the person entering and exiting corresponding to the vehicle to take corresponding measures.

3. The NB-IoT based intelligent traffic management and control system according to claim 1, wherein:

wherein the access personnel comprise non-community personnel and community personnel,

the cloud server also comprises an entrance guard application matching module and a personnel judgment module,

the user terminal further comprises a two-dimensional code consent generation module,

the picture storage module is also used for storing a two-dimension code auditing picture,

the entrance and exit person information storage module is also used for storing labels which belong to the non-community persons or the community persons and correspond to the entrance and exit persons and the corresponding relationship between the non-community persons and the community persons,

once the service side communication module receives the entrance guard two-dimensional code generation request instruction, the personnel judgment module judges whether the person who comes in and goes out is the non-community person according to the label corresponding to the person who comes in and goes out corresponding to the user terminal which sends the entrance guard two-dimensional code generation request instruction,

the entrance guard application matching module matches the corresponding user terminal according to the corresponding relation as the user terminal of the specific community personnel when the personnel judging module judges that the user terminal is the user terminal,

once the access control application matching module is matched with the specific community personnel user terminal, the service side communication module sends the access control two-dimensional code generation request instruction to the specific community personnel user terminal, and the community personnel holding the specific community personnel user terminal are set as specific community personnel,

once the user side communication module in the user terminal of the specific community personnel receives the request instruction for generating the entrance guard two-dimensional code, the display module in the user terminal of the specific community personnel displays the two-dimensional code auditing picture so as to enable the specific community personnel to judge whether the non-community personnel enter or not,

once the specific community personnel finish the operation of agreeing the non-community personnel to enter in the two-dimensional code auditing picture, the two-dimensional code agreement generation module produces a two-dimensional code agreement generation instruction and sends the two-dimensional code agreement generation instruction to the cloud server through the user side communication module,

and the two-dimension code generation module generates the entrance guard two-dimension code corresponding to the authentication information when the service side communication module receives the two-dimension code agreement generation module, and sends the entrance guard two-dimension code to the user terminal through the service side communication module.

4. The NB-IoT based intelligent traffic control system according to claim 1, further comprising:

the monitoring cameras are arranged in each monitoring area of the smart community, are used for collecting monitoring videos in the corresponding monitoring area and simultaneously send the monitoring videos to the cloud server;

a lighting NB-IoT terminal communicatively connected with the cloud server; and

a plurality of lighting lamps disposed within each of the monitoring areas and communicatively connected to the lighting NB-IoT terminals,

wherein the lighting NB-IoT terminal comprises a lighting control module, a lighting lamp position acquisition module and a lighting side communication module,

the cloud server also comprises a flow identification module, a flow judgment module, a brightness judgment module and an illumination control generation module,

the illuminating lamp comprises a light intensity induction module,

the light induction module is used for acquiring light information in the monitoring area and sending the light information to the lighting NB-IoT terminal,

the lighting side communication module transmits the light information to the cloud server when receiving the light information,

the brightness judging module judges whether the flow identification needs to be carried out on the monitoring video collected by the monitoring camera in the monitoring area corresponding to the illuminating lamp corresponding to the brightness information or not in sequence according to the brightness information,

the flow identification module identifies the flow of the monitoring video received by the service side communication module when the brightness judgment module judges that the monitoring video is positive to obtain a flow result,

the flow judging module judges whether the flow result is larger than a preset value,

the lighting control generation module generates a lighting control instruction when the traffic judgment module judges that the traffic judgment module is yes, and sends the lighting control instruction to the lighting NB-IoT terminal,

the illuminating lamp position acquiring module acquires position information of the illuminating lamp to be controlled when the illumination side communication module receives the illumination control instruction,

and the illumination control module controls the illumination lamp to be switched on or switched off or to adjust the brightness according to the illumination control instruction and the position information.

5. The NB-IoT based intelligent traffic management and control system according to claim 1, wherein:

wherein the user terminal further comprises an elevator reservation request module,

the cloud server also comprises an elevator state judgment module, an elevator setting module and an elevator information storage module,

the picture storage module also stores an elevator appointment picture,

the elevator information storage module stores elevator information of the corresponding elevator in each residential building,

once the person entering or exiting the elevator finishes the elevator reservation in the elevator reservation screen, the elevator reservation request module generates an elevator reservation instruction and sends the elevator reservation instruction to the cloud server,

the elevator state judging module judges whether the working state of the elevator is idle or not in sequence when the service side communication module receives the elevator appointment instruction,

the elevator setting module sets the elevator as a target elevator and sends the elevator information corresponding to the target elevator to the access control NB-IoT when the elevator state judgment module judges that the elevator is the target elevator,

and the control power module controls the target elevator to be in an idle state within preset time and stay at a specified floor when the entrance guard side communication module receives the elevator information, so that the person coming in and going out can arrive at the specified floor in time.

6. The NB-IoT based intelligent traffic management and control system according to claim 1, wherein:

wherein, the cloud server also comprises a face recognition module and a face information comparison module,

the access person information storage module is also used for storing face authentication information corresponding to the access person,

once the camera collects the face image of the person coming in and going out, the entrance guard side communication module sends the face image to the cloud server,

the face recognition module carries out face recognition on the face image to obtain a face recognition result when the service side communication module receives the face image,

the face information comparison module compares the face recognition result with the face authentication information to obtain a face comparison result which is successfully or unsuccessfully compared,

when the face information comparison module obtains the face comparison result which is successfully compared and the body temperature judgment module judges that the face comparison result is not successfully compared, the control instruction module generates an allowable personnel passing control instruction and sends the allowable personnel passing control instruction to the entrance guard control NB-IoT terminal through the service side communication module,

when the face information comparison module obtains the face comparison result of failed comparison or the body temperature judgment module judges that the face comparison result is positive, the control instruction module generates a control instruction for prohibiting personnel from passing, and the control instruction is sent to the access control NB-IoT terminal through the service side communication module.

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