CN112242016A - Intelligent passage guiding method and system based on intelligent community - Google Patents

Abstract

An intelligent passage guiding method and system based on intelligent community includes: the method comprises the steps of controlling a monitoring camera to shoot monitoring images in real time and analyze whether a preset vehicle enters a community area in real time, if so, obtaining real-time information and analyzing whether the time interval is a commuting time interval or not in real time, if so, tracking the movement track of the preset vehicle in real time and establishing a community area connection relation with the preset vehicle, obtaining the movement track of a private vehicle in the community area in real time, planning the movement route of the preset vehicle for avoiding the private vehicle in real time, transmitting the planned movement route to the preset vehicle and controlling a loudspeaker of the preset vehicle to play corresponding voice navigation information, if analyzing that the preset vehicle is stopped, extracting the stop area image of the preset vehicle contained in the monitoring images and identifying the corresponding community area position, transmitting the identified community area position to the private vehicle connected in the community area and presetting vehicle stop avoidance identification for the community area position.

Description

Intelligent passage guiding method and system based on intelligent community

Technical Field

The invention relates to the field of community vehicle management, in particular to an intelligent passage guiding method and system based on an intelligent community.

Background

With the development of science and technology, more and more intelligent technologies are applied to the field of buildings. The intelligent community is a novel community which comprehensively applies various intelligent and automatic means to replace the traditional manual service and aims to greatly improve the comfort level and the safety of an owner. The existing intelligent community vehicles generally introduce a card swiping access system, so that the order and safety of vehicle access are improved, but in the peak access time period in the morning and evening, the high-density people flow and traffic flow mixing in the entrance and exit and the behavior of independent owners and owners of vehicles randomly inserting teams regardless of rules still bring about difficulties for the maintenance of the order of vehicle access and the guarantee of the safety of vehicles and pedestrians at the door of the community.

Therefore, how to combine the intelligent community with the motor vehicle anti-congestion, the set vehicles entering the community are guided in the peak period, the congestion of the set vehicles entering the community is avoided, and the problem that the set vehicles are blocked by the community owner is urgently needed to be solved at present is also avoided.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the background art, the embodiment of the invention provides an intelligent traffic guidance method and system based on an intelligent community, which can effectively solve the problems related to the background art.

The technical scheme is as follows:

an intelligent passage guiding method based on a smart community comprises the following steps:

s1, controlling a monitoring camera arranged in the community area to start to capture a monitoring image in real time and analyzing whether a preset vehicle enters the community area or not in real time according to the monitoring image;

s2, if yes, acquiring real-time information and analyzing whether the real-time information is an on-duty time interval or not in real time according to the real-time information;

s3, if yes, tracking the movement track of the preset vehicle in real time according to the monitoring image and establishing a community area connection relation with the preset vehicle;

s4, acquiring the moving track of the private vehicle in the community area in real time according to the monitoring image, and planning the moving route of the preset vehicle for avoiding the private vehicle in real time according to the moving track of the private vehicle;

s5, transmitting the planned moving route to a connected preset vehicle and controlling a loudspeaker in the connected preset vehicle to play voice navigation information corresponding to the moving route in real time;

s6, if the preset vehicle is analyzed to be parked according to the monitoring image, extracting a parking area image of the preset vehicle contained in the monitoring image and identifying a corresponding community area position according to the parking area image;

and S7, transmitting the identified community area position to a private vehicle connected in the community area, and presetting a vehicle stop avoidance mark for the community area position.

As a preferred mode of the present invention, after S1, the method further includes the steps of:

s10, analyzing whether an emergency vehicle enters a community area or not in real time according to the monitoring image;

s11, if yes, tracking the moving track of the emergency vehicle in real time according to the monitoring image and establishing a community area connection relation with the emergency vehicle;

s12, acquiring an emergency destination fed back by the connected emergency vehicle in real time and acquiring private vehicle information from the real-time position of the emergency vehicle to the route position of the emergency destination in real time according to the monitoring image;

s13, acquiring an emergency moving route from the real-time position of the emergency vehicle to the emergency destination route in real time according to the monitoring image, and sending the emergency moving route and emergency avoidance information to a connected and corresponding private vehicle according to the acquired private vehicle information.

As a preferred mode of the present invention, after S13, the method further includes the steps of:

s14, identifying information of the private vehicles at the position of the emergency moving route in real time according to the monitoring images, and planning an emergency avoidance route for the corresponding private vehicles according to the monitoring images and the information of the private vehicles;

and S15, transmitting the emergency avoidance route to a private vehicle which is connected with the private vehicle information and corresponds to the emergency avoidance route, and controlling a loudspeaker of the connected and corresponding private vehicle to play voice navigation information corresponding to the emergency avoidance route in real time.

As a preferred mode of the present invention, after S1, the method further includes the steps of:

s100, analyzing whether an emergency channel of a community area is blocked by a private vehicle or not in real time according to the monitoring image;

s101, if yes, analyzing whether an emergency vehicle is to enter an emergency channel of a community area in real time according to the monitoring image;

s102, if yes, controlling a hydraulic lifting mechanism arranged in an emergency passageway area to start to lift a lifting platform to expose a temporary passageway, and extracting information of private vehicles blocking the emergency passageway according to the monitoring image;

s103, sending emergency prompt information to the connected and corresponding user terminal of the private vehicle according to the private vehicle information.

As a preferred mode of the present invention, after S1, the method further includes the steps of:

s1000, analyzing whether an emergency exists in a community area in real time according to the monitoring image;

s1001, if so, analyzing the corresponding emergency contact way in real time according to the emergency situation and sending an emergency demand corresponding to the emergency situation to a corresponding emergency center according to the emergency contact way;

s1002, analyzing the position of an emergency area with an emergency according to the monitoring image, and feeding back an emergency auxiliary request to a user terminal of a corresponding private vehicle connected with the position of the emergency area.

An intelligent traffic guidance system based on a smart community uses an intelligent traffic guidance method based on the smart community, and comprises an emergency protection device and a community server, wherein the emergency protection device comprises a monitoring camera, an emergency channel slot, a hydraulic lifting mechanism and a lifting platform, and the monitoring camera is distributed in a community area and used for shooting an environment image of the community area; the hydraulic lifting mechanism is arranged in the emergency channel groove, connected with the lifting platform and used for driving the connected lifting platform to stretch and retract; the lifting platform is connected with the hydraulic lifting mechanism and used for forming a temporary channel after being lifted so as to enable an emergency vehicle to move;

the community server is arranged at the position of a community management department, and comprises:

the wireless module is used for being wirelessly connected with the monitoring camera, the hydraulic lifting mechanism, a private vehicle of a community owner, a user terminal of the community owner, an emergency vehicle, an emergency center, a community management department and the Internet respectively;

the monitoring shooting module is used for controlling the starting or closing of the monitoring camera;

the information analysis module is used for processing and analyzing the information according to the specified information;

the time acquisition module is used for acquiring real-time information;

the vehicle tracking module is used for tracking the moving track of the specified vehicle according to the specified information;

the connection establishing module is used for establishing a connection relation with a specified vehicle;

the avoidance planning module is used for planning a moving route for avoiding the specified object according to the specified information;

the information sending module is used for transmitting the specified information to the specified object;

the voice navigation module is used for controlling a loudspeaker of the appointed connecting vehicle to play appointed voice navigation information;

the information extraction module is used for extracting the information contained in the specified information;

the position identification module is used for identifying the corresponding community area position according to the image shot by the monitoring camera;

and the information identification module is used for carrying out designated identification on the designated information.

As a preferred embodiment of the present invention, the community server further includes:

and the information acquisition module is used for acquiring the specified information of the specified object.

As a preferred embodiment of the present invention, the community server further includes:

and the vehicle identification module is used for identifying the vehicle information at the position of the appointed moving route in real time according to the image shot by the monitoring camera.

As a preferred embodiment of the present invention, the community server further includes:

and the hydraulic lifting module is used for controlling the hydraulic lifting mechanism to execute the set lifting operation of the lifting platform according to the set steps.

As a preferred embodiment of the present invention, the community server further includes:

and the emergency assistance module is used for feeding back an emergency assistance request to a user terminal of a specified vehicle connected with the specified emergency area position.

The invention realizes the following beneficial effects:

1. after the intelligent traffic guidance system is started, monitoring vehicle information of a community area in real time, identifying a moving track of a preset vehicle in the community area in real time and establishing a connection relation with the preset vehicle if the preset vehicle is identified to enter the community area, then identifying a moving track of a private vehicle in the community area in real time and planning a moving route of the preset vehicle for avoiding the private vehicle in real time, then transmitting the moving route to the preset vehicle, stopping the preset vehicle after the preset vehicle stops, identifying the position of the preset vehicle in the community area in real time, stopping the position to form an avoidance mark and transmitting the avoidance mark to the private vehicle; if the intelligent traffic guidance system identifies that an emergency occurs, analyzing a corresponding emergency contact way according to the emergency and contacting a corresponding emergency center, and meanwhile identifying an area where the emergency is located and feeding back an emergency assistance request to a user terminal of a private vehicle in the area.

2. If the intelligent traffic guidance system identifies that an emergency vehicle enters a community area, the intelligent traffic guidance system tracks the moving track of the emergency vehicle in real time and establishes a connection relation with the emergency vehicle, then obtains the emergency destination of the emergency vehicle and obtains the information of private vehicles from the real-time position of the emergency vehicle to the emergency destination, and then plans a moving route for the private vehicles to avoid the emergency vehicle and transmits the moving route to the private vehicles.

3. If the intelligent traffic guidance system identifies that the emergency channel is blocked and identifies that an emergency vehicle is to enter, the lifting platform is controlled to lift to expose the temporary channel and identify the information of the blocked private vehicle, and then the corresponding user terminal is contacted according to the information of the private vehicle.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a flow chart of a smart traffic direction method according to an exemplary embodiment of the present invention;

fig. 2 is a flowchart of an emergency avoidance control method according to an example of the present invention;

fig. 3 is a flowchart of an emergency avoidance navigation control method according to an example of the present invention;

fig. 4 is a flowchart of an emergency channel blocking processing method according to an example of the present invention;

fig. 5 is a flowchart of an emergency assistance request method provided by one example of the present invention;

FIG. 6 is a connection diagram of the intelligent traffic guidance system according to an exemplary embodiment of the present invention;

FIG. 7 is a schematic view, partially in section, of an area of a front face of a lift platform according to one embodiment of the present invention;

fig. 8 is a partially schematic sectional view of an area where a side of the elevating platform is located according to one embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Referring to fig. 1, fig. 5-6.

Specifically, the embodiment provides an intelligent passage guiding method based on a smart community, and the method includes the following steps:

in S1, specifically, after the community server 2 receives a congestion detection instruction sent by the community management department, the monitoring camera 10 in the community area is controlled by the monitoring camera module 21 included in the community server 2 to start to capture a monitoring image in real time, where the monitoring image is an environmental image of the community area captured by the monitoring camera 10, and after the monitoring camera 10 is started, the information analysis module 22 included in the community server 2 analyzes whether a preset vehicle enters the community area in real time according to the monitoring image, where the preset vehicle includes, but is not limited to, a maintenance vehicle, a garbage transport vehicle, a construction vehicle, and the like.

In S2, specifically, after the information analysis module 22 analyzes that a preset vehicle enters the community area, the time acquisition module 23 included in the community server 2 acquires real-time information, and the information analysis module 22 analyzes whether the time interval is a commuting time interval in real time according to the real-time information, where the commuting time interval is set by a community management department, and is preferably 7:00 to 10:00, and 16:30 to 18:30 in this embodiment.

In S3, specifically, after the information analysis module 22 analyzes that the time interval is the commuting time interval, the vehicle tracking module 24 included in the community server 2 tracks the movement track of the preset vehicle in real time according to the monitoring image, and the connection establishment module 25 included in the community server 2 establishes a community area connection relationship with the preset vehicle, where the community area connection relationship is a connection between a community area range and the preset vehicle, and when the community area range leaves the community area, the connection is automatically disconnected.

In S4, specifically, after the connection establishing module 25 establishes a connection relationship with the preset vehicle, the vehicle tracking module 24 obtains a moving track of the private vehicle in the community area in real time according to the monitoring image, and then the avoidance planning module 26 included in the community server 2 plans a moving route of the preset vehicle for avoiding the private vehicle in real time according to the moving track of the private vehicle, so as to prevent the preset vehicle from hindering the private vehicle from moving in the community area and prevent the private vehicle from hindering the preset vehicle from moving.

In S5, specifically, after the avoidance planning module 26 plans the avoided moving route, the information sending module 27 included in the community server 2 transmits the planned moving route to the connected preset vehicle in real time, and the voice navigation module 28 included in the community server 2 controls the speaker inside the connected preset vehicle to play the voice navigation information corresponding to the real-time moving route in real time.

In S6, specifically, when the preset vehicle performs navigation movement, the information analysis module 22 analyzes whether the preset vehicle is parked or not in real time according to the monitoring image, after the information analysis module 22 analyzes that the preset vehicle is parked, the information extraction module 29 included in the community server 2 extracts the parked area image of the preset vehicle included in the monitoring image, and after the information extraction module 29 extracts the parked area image, the location identification module 30 included in the community server 2 identifies the corresponding community area location according to the parked area image extracted by the information extraction module 29.

In S7, after the location identification module 30 identifies the community location corresponding to the location of the preset vehicle, the information sending module 27 transmits the community location identified by the location identification module 30 to the private vehicle connected in the community area, and the information identification module 31 included in the community server 2 stores the preset vehicle stop avoidance identifier in the community area to remind the road location of the preset vehicle stop and avoid in time.

As a preferred mode of the present invention, after S1, the method further includes the steps of:

in S1000, specifically, after the monitoring camera 10 starts to capture a monitoring image in real time, the information analysis module 22 analyzes whether an emergency situation exists in the community area in real time according to the monitoring image, including but not limited to a vehicle fire, a closed vehicle with children, a vehicle accident, an illegal situation, and the like.

In S1001, specifically, after the information analysis module 22 analyzes that there is an emergency in the community area, the information analysis module 22 analyzes the corresponding emergency contact information in real time according to the emergency, and after the information analysis module 22 completes the analysis, the information sending module 27 sends an emergency demand corresponding to the emergency to the corresponding emergency center according to the emergency contact information; for example, if there is an illegal fighting situation, the information analysis module 22 analyzes the emergency contact information as an alarm contact telephone according to the situation, and then performs alarm processing through the alarm contact telephone and transmits a corresponding fighting image to the alarm center.

In S1002, after the information sending module 27 sends the emergency request, the location identifying module 30 analyzes an emergency area location where an emergency exists according to the monitoring image, after the location identifying module 30 identifies the emergency area location, the information analyzing module 22 identifies private vehicle information connected and corresponding to the emergency area location according to the emergency area location, and then the emergency assisting module 35 included in the community server 2 feeds back an emergency assisting request to the user terminal of the private vehicle connected and corresponding to the emergency area location, so as to generate the emergency assisting request to the user of the vehicle around, and seek for the user around to provide help temporarily.

Example two

Referring to fig. 2-3, shown in fig. 6.

Specifically, this embodiment is substantially the same as the first embodiment, except that in this embodiment, after S1, the method further includes the following steps:

at S10, specifically, after the monitoring camera 10 is started, the information analysis module 22 analyzes whether an emergency vehicle enters the community area in real time according to the monitoring image, wherein the emergency vehicle includes, but is not limited to, an ambulance, a police vehicle, a fire-fighting vehicle, and the like.

In S11, specifically, after the information analysis module 22 analyzes that an emergency vehicle enters a community area, the vehicle tracking module 24 tracks the movement track of the emergency vehicle in real time according to the monitoring image, and the connection establishment module 25 establishes a community area connection relationship with the emergency vehicle.

In S12, specifically, after the vehicle tracking module 24 tracks the movement track of the emergency vehicle in real time and the connection establishing module 25 establishes a connection with the emergency vehicle, the information obtaining module 32 included in the community server 22 obtains an emergency destination fed back by the connected emergency vehicle in real time, and after the information obtaining module 32 obtains the emergency destination, the vehicle identifying module 33 included in the community server 2 obtains all private vehicle information from the real-time position of the emergency vehicle to the emergency destination position in real time according to the monitoring image.

In S13, specifically, after the information obtaining module 32 obtains the private vehicle information, the information obtaining module 32 obtains an emergency moving route from the real-time position of the emergency vehicle to the emergency destination in real time according to the monitoring image, and the information sending module 27 sends the emergency moving route and the emergency avoidance information to the connected and corresponding private vehicle according to the private vehicle information obtained by the vehicle identifying module 33.

As a preferred mode of the present invention, after S13, the method further includes the steps of:

in S14, specifically, after the information sending module 27 sends the completed emergency moving route and the emergency avoidance information, the vehicle identification module 33 identifies the private vehicle information located on the emergency moving route in real time according to the monitoring image, and the avoidance planning module 26 plans the emergency avoidance route for the corresponding private vehicle according to the monitoring image and the private vehicle information.

In S15, specifically, after the avoidance planning module 26 plans the emergency avoidance route, the information sending module 27 transmits the emergency avoidance route to the private vehicle corresponding to the private vehicle information, and the voice navigation module 28 controls the speaker of the corresponding private vehicle to play the voice navigation information corresponding to the emergency avoidance route in real time.

EXAMPLE III

Referring to fig. 4, shown in fig. 6-8.

Specifically, this embodiment is substantially the same as the second embodiment, except that in this embodiment, after S1, the method further includes the following steps:

in S100, specifically, after the monitoring camera 10 is started, the information analysis module 22 analyzes whether the emergency passageway of the community area is blocked by a private vehicle in real time according to the monitoring image.

In S101, specifically, after the information analysis module 22 analyzes that the emergency passage is blocked by a private vehicle, the information analysis module 22 analyzes whether an emergency vehicle is to enter the emergency passage in the community area in real time according to the monitoring image.

In S102, specifically, after the information analysis module 22 analyzes that an emergency vehicle is to enter, the hydraulic lifting module 34 included in the community server 2 controls the hydraulic lifting mechanism 12 disposed in the emergency passageway area to start to lift the lifting platform 13 to expose a temporary passageway for the emergency vehicle to temporarily enter and exit, and the vehicle identification module 33 extracts the private vehicle information blocking the emergency passageway according to the monitoring image.

In S103, specifically, after the vehicle identification module 33 extracts the information of the private vehicle, the information sending module 27 sends emergency prompt information to the user terminal of the connected and corresponding private vehicle according to the information of the private vehicle.

Example four

As shown with reference to fig. 6-8.

Specifically, the embodiment provides an intelligent traffic guidance system based on a smart community, and an intelligent traffic guidance method based on the smart community is used, and includes an emergency protection device 1 and a community server 2;

the emergency protection device 1 comprises a monitoring camera 10, an emergency channel groove 11, a hydraulic lifting mechanism 12 and a lifting platform 13, wherein the monitoring camera 10 is distributed in a community area and used for shooting an environment image of the community area; the emergency channel groove 11 is arranged at an emergency channel position, and the hydraulic lifting mechanism 12 is arranged in the emergency channel groove 11, connected with the lifting platform 13 and used for driving the connected lifting platform 13 to stretch and retract; the lifting platform 13 is connected with the hydraulic lifting mechanism 12 and is used for forming a temporary channel after being lifted so as to be moved by an emergency vehicle;

the community server 2 is disposed at a location of a community management department, and the community server 2 includes:

the wireless module 20 is used for being wirelessly connected with the monitoring camera 10, the hydraulic lifting mechanism 12, private vehicles of community owners, user terminals of the community owners, emergency vehicles, emergency centers, community management departments and the internet respectively;

the monitoring shooting module 21 is used for controlling the monitoring camera 10 to start or close;

an information analysis module 22 for processing and analyzing the information according to the specified information;

a time obtaining module 23, configured to obtain real-time information;

a vehicle tracking module 24 for tracking the movement track of the designated vehicle according to the designated information;

a connection establishing module 25, configured to establish a connection relationship with a specified vehicle;

an avoidance planning module 26, configured to plan a moving route for avoiding the designated object according to the designated information;

an information sending module 27 for transmitting the designation information to the designation object;

the voice navigation module 28 is used for controlling a loudspeaker of the appointed connecting vehicle to play appointed voice navigation information;

an information extraction module 29 for extracting information contained in the specification information;

the position identification module 30 is configured to identify a corresponding community area position according to an image captured by the monitoring camera 10;

and an information identification module 31, configured to perform specified identification on the specified information.

As a preferred embodiment of the present invention, the community server 2 further includes:

an information obtaining module 32, configured to obtain the specifying information of the specified object.

As a preferred embodiment of the present invention, the community server 2 further includes:

and the vehicle identification module 33 is used for identifying the vehicle information at the position of the specified moving route in real time according to the image shot by the monitoring camera 10.

As a preferred embodiment of the present invention, the community server 2 further includes:

and the hydraulic lifting module 34 is used for controlling the hydraulic lifting mechanism 12 to execute the set lifting operation of the lifting platform 13 according to the set steps.

As a preferred embodiment of the present invention, the community server 2 further includes:

and the emergency assistance module 35 is used for feeding back an emergency assistance request to a user terminal of a specified vehicle connected with a specified emergency area position.

It should be understood that, in the fourth embodiment, the specific implementation process of each module described above may correspond to the description of the above method embodiments (the first to the third embodiments), and is not described in detail here.

The system provided in the fourth embodiment is only illustrated by dividing the functional modules, and in practical applications, the above-mentioned functions may be distributed by different functional modules according to needs, that is, the internal structure of the system is divided into different functional modules to complete all or part of the functions described above.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. An intelligent traffic guidance method based on an intelligent community is characterized by comprising the following steps:

s1, controlling a monitoring camera arranged in the community area to start to capture a monitoring image in real time and analyzing whether a preset vehicle enters the community area or not in real time according to the monitoring image;

s2, if yes, acquiring real-time information and analyzing whether the real-time information is an on-duty time interval or not in real time according to the real-time information;

s3, if yes, tracking the movement track of the preset vehicle in real time according to the monitoring image and establishing a community area connection relation with the preset vehicle;

s4, acquiring the moving track of the private vehicle in the community area in real time according to the monitoring image, and planning the moving route of the preset vehicle for avoiding the private vehicle in real time according to the moving track of the private vehicle;

s5, transmitting the planned moving route to a connected preset vehicle and controlling a loudspeaker in the connected preset vehicle to play voice navigation information corresponding to the moving route in real time;

s6, if the preset vehicle is analyzed to be parked according to the monitoring image, extracting a parking area image of the preset vehicle contained in the monitoring image and identifying a corresponding community area position according to the parking area image;

and S7, transmitting the identified community area position to a private vehicle connected in the community area, and presetting a vehicle stop avoidance mark for the community area position.

2. The intelligent community-based traffic guidance method according to claim 1, wherein after S1, the method further comprises the following steps:

s10, analyzing whether an emergency vehicle enters a community area or not in real time according to the monitoring image;

s11, if yes, tracking the moving track of the emergency vehicle in real time according to the monitoring image and establishing a community area connection relation with the emergency vehicle;

s12, acquiring an emergency destination fed back by the connected emergency vehicle in real time and acquiring private vehicle information from the real-time position of the emergency vehicle to the route position of the emergency destination in real time according to the monitoring image;

s13, acquiring an emergency moving route from the real-time position of the emergency vehicle to the emergency destination route in real time according to the monitoring image, and sending the emergency moving route and emergency avoidance information to a connected and corresponding private vehicle according to the acquired private vehicle information.

3. The intelligent community-based intelligent traffic guidance method according to claim 2, wherein after S13, the method further comprises the following steps:

s14, identifying information of the private vehicles at the position of the emergency moving route in real time according to the monitoring images, and planning an emergency avoidance route for the corresponding private vehicles according to the monitoring images and the information of the private vehicles;

and S15, transmitting the emergency avoidance route to a private vehicle which is connected with the private vehicle information and corresponds to the emergency avoidance route, and controlling a loudspeaker of the connected and corresponding private vehicle to play voice navigation information corresponding to the emergency avoidance route in real time.

4. The intelligent community-based traffic guidance method according to claim 1, wherein after S1, the method further comprises the following steps:

s100, analyzing whether an emergency channel of a community area is blocked by a private vehicle or not in real time according to the monitoring image;

s101, if yes, analyzing whether an emergency vehicle is to enter an emergency channel of a community area in real time according to the monitoring image;

s102, if yes, controlling a hydraulic lifting mechanism arranged in an emergency passageway area to start to lift a lifting platform to expose a temporary passageway, and extracting information of private vehicles blocking the emergency passageway according to the monitoring image;

s103, sending emergency prompt information to the connected and corresponding user terminal of the private vehicle according to the private vehicle information.

5. The intelligent community-based traffic guidance method according to claim 1, wherein after S1, the method further comprises the following steps:

s1000, analyzing whether an emergency exists in a community area in real time according to the monitoring image;

s1001, if so, analyzing the corresponding emergency contact way in real time according to the emergency situation and sending an emergency demand corresponding to the emergency situation to a corresponding emergency center according to the emergency contact way;

s1002, analyzing the position of an emergency area with an emergency according to the monitoring image, and feeding back an emergency auxiliary request to a user terminal of a corresponding private vehicle connected with the position of the emergency area.

6. An intelligent traffic guidance system based on intelligent community, which uses the intelligent traffic guidance method based on intelligent community of any one of claims 1-5, comprising an emergency protection device and a community server, characterized in that:

the emergency protection device comprises a monitoring camera, an emergency channel groove, a hydraulic lifting mechanism and a lifting platform, wherein the monitoring camera is distributed in a community area and used for shooting an environment image of the community area; the hydraulic lifting mechanism is arranged in the emergency channel groove, connected with the lifting platform and used for driving the connected lifting platform to stretch and retract; the lifting platform is connected with the hydraulic lifting mechanism and used for forming a temporary channel after being lifted so as to enable an emergency vehicle to move;

the community server is arranged at the position of a community management department, and comprises:

the wireless module is used for being wirelessly connected with the monitoring camera, the hydraulic lifting mechanism, a private vehicle of a community owner, a user terminal of the community owner, an emergency vehicle, an emergency center, a community management department and the Internet respectively;

the monitoring shooting module is used for controlling the starting or closing of the monitoring camera;

the information analysis module is used for processing and analyzing the information according to the specified information;

the time acquisition module is used for acquiring real-time information;

the vehicle tracking module is used for tracking the moving track of the specified vehicle according to the specified information;

the connection establishing module is used for establishing a connection relation with a specified vehicle;

the avoidance planning module is used for planning a moving route for avoiding the specified object according to the specified information;

the information sending module is used for transmitting the specified information to the specified object;

the voice navigation module is used for controlling a loudspeaker of the appointed connecting vehicle to play appointed voice navigation information;

the information extraction module is used for extracting the information contained in the specified information;

the position identification module is used for identifying the corresponding community area position according to the image shot by the monitoring camera;

and the information identification module is used for carrying out designated identification on the designated information.

7. The intelligent traffic guidance system based on intelligent community as claimed in claim 6, wherein the community server further comprises:

and the information acquisition module is used for acquiring the specified information of the specified object.

8. The intelligent traffic guidance system based on intelligent community as claimed in claim 6, wherein the community server further comprises:

and the vehicle identification module is used for identifying the vehicle information at the position of the appointed moving route in real time according to the image shot by the monitoring camera.

9. The intelligent traffic guidance system based on intelligent community as claimed in claim 6, wherein the community server further comprises:

and the hydraulic lifting module is used for controlling the hydraulic lifting mechanism to execute the set lifting operation of the lifting platform according to the set steps.

10. The intelligent traffic guidance system based on intelligent community as claimed in claim 6, wherein the community server further comprises:

and the emergency assistance module is used for feeding back an emergency assistance request to a user terminal of a specified vehicle connected with the specified emergency area position.

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