CN109257413B - Vehicle management system based on area management - Google Patents

Abstract

The invention belongs to the technical field of vehicle networks, and particularly relates to a vehicle management system based on regional management, which comprises a cloud data platform, a vehicle-mounted terminal, a user terminal and a regional management system, wherein the regional management system comprises a regional server, a camera terminal and a regional management terminal; the area server sends an area request to the cloud data platform according to the first license plate number information acquired by the camera terminal, receives vehicle information fed back by the cloud data platform, and the area management terminal checks the vehicle information by accessing the area server so as to manage the area vehicles; the vehicle-mounted terminal sends the vehicle change information to the cloud data platform, the cloud data platform analyzes the vehicle change information, and sends abnormal information to the user terminal or/and the area management terminal or/and the police service platform according to an analysis result. The invention is convenient for the regional manager to manage the vehicles in the region through the vehicle information; when the vehicle has an accident, the regional manager can acquire the information in time so as to process the information in time.

Description

Vehicle management system based on area management

Technical Field

The invention belongs to the technical field of car networking, and particularly relates to a vehicle management system based on regional management.

Background

With the progress of society and the development of the internet, the internet of things applied to various industries comes into play, and the internet of vehicles is the application of the internet of things in the traffic field. At present, networked vehicles are positioned by mobile phones and satellites, and only individuals and large data platforms can check relevant information of the positioned vehicles due to privacy.

When the vehicle stops in a certain area such as a cell garage, a parking lot and the like, the area manager cannot access the large data platform to acquire the relevant information of the vehicle in the current area, so that the area manager is not favorable for managing the vehicle in the area. On the other hand, when the vehicle is stolen, scratched or other accidents, the existing internet of vehicles only informs the owner of the vehicle but cannot inform the regional manager, and if the owner of the vehicle is not in the field, the regional manager cannot timely deal with the accidents because the regional manager does not know that the accidents occur.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a vehicle management system based on regional management, wherein a regional management terminal can acquire vehicle information of vehicles in the region from a cloud data platform, so that a regional manager can manage the vehicles in the region conveniently; when the vehicle has an accident, the vehicle owner and the regional manager can be informed in time, and the regional manager can process the accident in time under the condition that the vehicle owner is not on the spot.

The invention provides a vehicle management system based on regional management, which comprises a cloud data platform, a vehicle-mounted terminal, a user terminal and a regional management system, wherein the regional management system comprises a regional server, a camera terminal and a regional management terminal;

the cloud data platform is respectively communicated with the vehicle-mounted terminal, the user terminal and the area management system;

the area server is respectively communicated with the cloud data platform, the camera terminal and the area management terminal;

the camera terminal collects first license plate number information when a vehicle enters a region and sends the first license plate number information to the region server, the region server sends a region request to the cloud data platform according to the first license plate number information, the cloud data platform sends corresponding vehicle information to the region server according to the region request, and the region management terminal checks the vehicle information through accessing the region server so as to manage the region vehicle;

the vehicle-mounted terminal acquires vehicle change information acquired by a vehicle sensor and sends the vehicle change information to the cloud data platform, and the cloud data platform analyzes the vehicle change information and sends abnormal information to the user terminal or/and the area management terminal or/and the police service platform according to an analysis result.

Preferably, the camera terminal acquires second license plate number information when the vehicle leaves the area and sends the second license plate number information to the area server, and the area server deletes corresponding vehicle information according to the second license plate number information.

Preferably, the area server sends an area request to the cloud data platform according to the first license plate number information, and the cloud data platform issues corresponding vehicle information to the area server according to the area request, specifically:

the area server generates an area request according to the first license plate number information and sends the area request to the cloud data platform;

the cloud data platform processes the area request to obtain first license plate number information, and matches the first license plate number information with license plate number information in the database to obtain successfully matched license plate number information;

and obtaining corresponding vehicle information according to the matched license plate number information, and sending the vehicle information to the regional server.

Preferably, the vehicle information includes a license plate number, a vehicle type, and a car owner phone number.

Preferably, the vehicle sensors include a direct contact sensor, a current voltage drop sensor, an ultrasonic sensor, an oscillation sensor, a tilt sensor, and an acceleration sensor.

Preferably, the vehicle change information includes contact information acquired by a direct contact sensor, current and voltage information acquired by a current and voltage drop sensor, in-vehicle air pressure information acquired by an ultrasonic sensor, vehicle oscillation intensity acquired by an oscillation sensor, vehicle inclination information acquired by an inclination sensor, and acceleration information acquired by an acceleration sensor.

Preferably, the cloud data platform analyzes the vehicle change information, and sends abnormal information to the user terminal or/and the area management terminal or/and the police service platform according to the analysis result, specifically:

the cloud data platform analyzes the vehicle change information and obtains analysis results, wherein the analysis results comprise normal accidents, stolen accidents and traffic accidents, and the traffic accidents comprise small traffic accidents and large traffic accidents;

if the analysis result is a stolen accident and a small car accident, the cloud data platform sends the abnormal information to a car owner user terminal and also sends the abnormal information to a regional management terminal through a regional server;

and if the analysis result is that the accident is a major accident, the cloud data platform sends the abnormal information to the vehicle main user terminal and the emergency contact user terminal, the abnormal information is also sent to the area management terminal through the area server, and the abnormal information is also sent to the police service platform for alarming.

Preferably, the anomaly information includes vehicle information, a vehicle geographic location, and an accident description.

Preferably, the area management system further comprises an entrance guard and a gate, and the area server is respectively communicated with the entrance guard and the gate.

Preferably, after receiving the exception information sent by the cloud data platform, the area server is further configured to:

analyzing the abnormal information to obtain the geographic position of the vehicle;

controlling a camera terminal in a certain range of the geographic position of the vehicle to acquire images around the vehicle;

identifying images around the vehicle through an image identification algorithm to obtain a suspicious vehicle or a suspicious person;

matching and comparing an exit image acquired by a camera terminal at an exit of the area with a suspicious vehicle or a suspicious person;

if the matching is successful, a loudspeaker at the outlet of the control area gives an alarm, and a gate at the outlet of the control area intercepts suspicious vehicles or a gate control intercepts suspicious people.

The invention has the beneficial effects that: the regional management terminal can acquire vehicle information of the vehicles in the region from the cloud data platform, so that regional managers can manage the vehicles in the region conveniently; when the vehicle has an accident, the vehicle owner and the regional manager can be informed in time, and the regional manager can process the accident in time under the condition that the vehicle owner is not on the spot.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a block diagram showing the structure of a vehicle management system based on zone management according to the present embodiment;

fig. 2 is a block diagram of the structure of the domain management system in this embodiment.

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 some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the specification of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

In particular implementations, the terminals described in embodiments of the invention include, but are not limited to, other portable devices such as mobile phones, laptop computers, or tablet computers having touch sensitive surfaces (e.g., touch screen displays and/or touch pads). It should also be understood that in some embodiments, the device is not a portable communication device, but is a desktop computer having a touch-sensitive surface (e.g., a touch screen display and/or touchpad).

The embodiment provides a vehicle management system based on regional management, as shown in fig. 1, the vehicle management system comprises a cloud data platform, a vehicle-mounted terminal, a user terminal and a regional management system, wherein the cloud data platform is respectively communicated with the vehicle-mounted terminal, the user terminal and the regional management system;

as shown in fig. 2, the area management system includes, but is not limited to, an area server, a camera terminal, an area management terminal, a door access, and a gate; the area server is respectively communicated with the cloud data platform, the camera terminal, the area management terminal, the entrance guard and the gate machine. The camera terminals comprise a plurality of camera terminals, are arranged at the entrance and exit of the area and each place in the area, and are convenient for monitoring people and vehicles in the area; an entrance and an exit of an area where the entrance guard and the gate are installed; such as a cell garage, parking lot, etc.

The camera terminal collects first license plate number information when a vehicle enters a region and sends the first license plate number information to the region server, the region server sends a region request to the cloud data platform according to the first license plate number information, the cloud data platform sends corresponding vehicle information to the region server according to the region request, and the region management terminal checks the vehicle information through accessing the region server so as to manage the region vehicle.

The cloud data platform in this embodiment stores vehicle information of a plurality of networked vehicles, and the vehicle information includes license plate number, vehicle type, owner's phone number, initial registration date, annual check record, and the like. The method comprises the steps that a camera terminal at an entrance and an exit of a region collects first license plate number information when a vehicle enters the region and sends the first license plate number information to a region server; the area server generates an area request according to the first license plate number information and sends the area request to the cloud data platform; the cloud data platform processes the area request to obtain first license plate number information, and matches the first license plate number information with license plate number information in the database to obtain successfully matched license plate number information; and obtaining corresponding vehicle information according to the matched license plate number information, and sending the vehicle information to the regional server.

For example, a temporary vehicle with the license number of Yu A.2B 222 is ready to enter a Longhu beauty scenic district, a camera at the entrance of the district collects the license number of the vehicle and then sends the license number to an area server, the area server is a special server for the Longhu beauty scenic district, the area server generates an area request according to the vehicle number of Yu A.2B 222 and sends the area request to a cloud data platform, the cloud data platform analyzes the area request to obtain the license number of Yu A.2B 222, the license number of Yu A.2B 222 is matched with a plurality of license numbers stored in a database, whether the database stores information related to the license number is checked, after the license number is searched in the database, vehicle information corresponding to the license number is extracted from the database, and the vehicle information of the vehicle comprises the license number of Yu.2B 222, vehicle types of vehicles, XXXXXXXXX 02, 156 and XXX 222, The initial registration date 20150365, and the like. The cloud data platform issues the vehicle information to the area server, and the area management terminal can check the vehicle information of all vehicles parked in the Longhu Lijing residential quarter at any time in the area server, so that the management of the vehicles in the residential quarter by area management personnel is facilitated.

In this embodiment, the camera terminal acquires the second license plate number information when the vehicle leaves the area and sends the second license plate number information to the area server, and the area server deletes the corresponding vehicle information according to the second license plate number information. For example, after a red vehicle stops at a Longhu beauty area for two days, the vehicle is driven away from the Longhu beauty area, and when the red vehicle reaches the entrance and exit of the area, the camera collects the license plate number of the vehicle and sends the license plate number to the area server, and the area server deletes the vehicle information of the vehicle according to the license plate number 'Yu A.2B 222' of the vehicle. Therefore, the vehicle information which is not in the cell is deleted, and the management is convenient.

The system of the embodiment can also detect the abnormal condition of the vehicle and send information or alarm to relevant people or platforms according to the abnormal condition. The vehicle-mounted terminal of the embodiment is installed on a vehicle and connected with various vehicle sensors on the vehicle, and the various vehicle sensors acquire various information and then send the information to the vehicle-mounted terminal.

The vehicle-mounted terminal acquires vehicle change information acquired by a vehicle sensor and sends the vehicle change information to the cloud data platform, and the cloud data platform analyzes the vehicle change information and sends abnormal information to the user terminal or/and the area management terminal or/and the police service platform according to an analysis result. The cloud data platform analyzes the vehicle change information and sends abnormal information to the user terminal or/and the area management terminal or/and the police service platform according to an analysis result, and the method specifically comprises the following three steps:

a1, analyzing the vehicle change information by the cloud data platform to obtain analysis results, wherein the analysis results comprise normal accidents, stolen accidents and car accident accidents, and the car accident accidents comprise small car accident accidents and large car accident accidents;

a2, if the analysis result is a stolen accident and a small car accident, the cloud data platform sends the abnormal information to the car owner user terminal and also sends the abnormal information to the area management terminal through the area server;

and A3, if the analysis result is a car accident, the cloud data platform sends abnormal information to the car main user terminal and the emergency contact user terminal, the abnormal information is also sent to the area management terminal through the area server, and the abnormal information is also sent to the police service platform for alarming. The abnormal information comprises vehicle information, vehicle geographic position and accident description, so that regional management personnel and police personnel can know the accident situation and quickly arrive at the scene conveniently.

In this embodiment, the vehicle sensor includes, but is not limited to, a direct contact sensor, a current and voltage drop sensor, an ultrasonic sensor, an oscillation sensor, a tilt sensor, and an acceleration sensor. The vehicle change information includes, but is not limited to, contact information acquired by a direct contact sensor, current and voltage information acquired by a current and voltage drop sensor, in-vehicle air pressure information acquired by an ultrasonic sensor, vehicle oscillation intensity acquired by an oscillation sensor, vehicle inclination information acquired by an inclination sensor, and acceleration information acquired by an acceleration sensor.

The direct contact type sensor in the embodiment is arranged at the positions of a vehicle door, a trunk, a rear cabin door and the like of a vehicle, and when the vehicle door, the trunk and the rear cabin door are forcibly opened, the contact information acquired by the direct contact type sensor changes; the current and voltage drop sensor is used for monitoring the change of a vehicle circuit system; the ultrasonic sensor is arranged in the vehicle and can monitor the change of the air pressure in the vehicle, and if the vehicle window is broken, the air pressure in the vehicle can be greatly changed; the shock sensor can monitor the shock between sudden vehicles, and the shock intensity is higher when the vehicles turn over or are knocked by heavy objects; the tilt sensor can monitor the vehicle tilting suddenly, and if the vehicle turns over or is dragged suddenly, the tilt sensor senses the obvious tilt; the acceleration sensor can acquire obvious acceleration change under the conditions of vehicle collision, vehicle friction, brake failure, over-quick acceleration and the like.

In the embodiment, the cloud data platform can analyze whether the vehicle is stolen or not according to the contact information, the current and voltage information, the in-vehicle air pressure information, the vehicle oscillation strength and the vehicle inclination information, and when a certain single index exceeds a set single threshold, the vehicle is judged to be stolen; or when the acquired comprehensive indexes obtained through the weighting algorithm exceed the set comprehensive indexes, judging that the vehicle is stolen. The cloud data platform analyzes whether the vehicle has a traffic accident or not and the degree of the traffic accident according to the acceleration sensor, judges that a small traffic accident occurs when the acquired acceleration value is greater than a first threshold value and less than a second threshold value, and judges that a large traffic accident occurs when the acquired acceleration value is greater than or equal to the second threshold value. If the accident is a stolen accident or a small accident, the vehicle owner and the regional manager are notified in time, so that the accident can be conveniently processed; if the accident is a car accident, not only the car owner and the regional manager are informed, but also the emergency contact person of the car owner is informed, and the police platform is alarmed in time.

In this embodiment, after receiving the information that the vehicle in the area is in an abnormal condition, the area management system intercepts the suspicious vehicle and the suspicious person. That is, after receiving the abnormal information sent by the cloud data platform, the area server in this embodiment performs the following five steps:

b1, analyzing the abnormal information to obtain the geographic position of the vehicle;

b2, controlling a camera terminal in a certain range of the geographic position of the vehicle to acquire images around the vehicle;

b3, identifying the images around the vehicle through an image identification algorithm to obtain a suspicious vehicle or a suspicious person;

b4, matching and comparing the exit image acquired by the camera terminal at the exit of the area with the suspicious vehicle or the suspicious person;

b5, if the matching is successful, a loudspeaker at the outlet of the control area gives an alarm, and a gate at the outlet of the control area intercepts suspicious vehicles or the gate intercepts suspicious persons.

For example, the Zhang red trolley (the license plate Yu A.2B 222) is parked in the Yangtze lake scenic district, the trolley beside the Chen (the license plate Yu A.2B 365) collides with the Zhang red trolley when the trolley is ready to drive away, and the driver looks after the collision and finds that no one directly drives the trolley away. The acceleration sensor of the vehicle terminal sends the acquired acceleration information to the cloud data platform, the cloud data platform analyzes the acceleration information to obtain a small accident that the Zhang red trolley is collided, and then abnormal information is sent to the Zhang red mobile phone and the regional server. The regional server forwards the abnormal information to the management terminal, analyzes the abnormal information, obtains that the parking position of the trolley is at the upper right corner of the cell, and the trolley has a small collision accident, so that a camera near the upper right corner of the cell is controlled to turn to the red trolley, and collects nearby images and sends the images to the regional server; after the image recognition is carried out on the image by the area server, the fact that the small car of the lie is almost in contact with the Zhang red small car is found, then the small car of the lie is classified as a suspicious vehicle, and the license plate number of the lie is recognized to be Yu A.2B 36. When the Liling car is driven to the entrance and exit of the area, the camera at the entrance collects the image and the license plate number of the Liling car, the Liling car is matched and compared with the suspicious car and the suspicious license plate number, after the Liling car is successfully matched, the loudspeaker at the entrance sends out an alarm sound, the gate is closed, and the manager or the entrance guard of the waiting area handles the Liling car.

In summary, the area management terminal of the embodiment can acquire the vehicle information of the vehicle in the area from the cloud data platform, so that the area manager can manage the vehicle in the area conveniently; when the vehicle has an accident, the vehicle owner and the regional manager can be informed in time, and the regional manager can process the accident in time under the condition that the vehicle owner is not on the spot.

Those of ordinary skill in the art will appreciate that the method steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the method steps of the embodiments have been described generally in terms of their functionality in the foregoing description for clarity of explanation of interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

It should be understood that the system and method described in this embodiment may be implemented in other ways. For example, the method steps described above are merely illustrative, and only one logical functional division is provided, and an actual implementation may have another division, for example, one step may be divided into several steps to be executed, or several steps may be combined into one step to be executed, or some features may be omitted, or not executed.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims (8)

1. A vehicle management system based on area management is characterized by comprising a cloud data platform, a vehicle-mounted terminal, a user terminal and an area management system, wherein the area management system comprises an area server, a camera terminal and an area management terminal;

the cloud data platform is respectively communicated with the vehicle-mounted terminal, the user terminal and the area management system;

the area server is respectively communicated with the cloud data platform, the camera terminal and the area management terminal;

the camera terminal collects the first license plate number information when the vehicle enters the area and sends the first license plate number information to the area server, the area server sends an area request to the cloud data platform according to the first license plate number information, the cloud data platform issues corresponding vehicle information to the area server according to the area request, specifically, the area server generates an area request according to the first license plate number information, and sends the area request to a cloud data platform, the cloud data platform processes the area request to obtain first license plate number information, and the first license plate number information is matched with the license plate number information in the database to obtain the matching license plate number information which is successfully matched, obtaining corresponding vehicle information according to the matched license plate number information, sending the vehicle information to the regional server, the region management terminal checks vehicle information by accessing the region server so as to manage the region vehicles;

the vehicle-mounted terminal acquires vehicle change information acquired by a vehicle sensor and sends the vehicle change information to the cloud data platform, and the cloud data platform analyzes the vehicle change information and sends abnormal information to the user terminal or/and the area management terminal or/and the police service platform according to an analysis result;

the camera terminal collects second license plate information when the vehicle leaves the area and sends the second license plate information to the area server, and the area server deletes the corresponding vehicle information according to the second license plate information.

2. The system of claim 1, wherein the vehicle information comprises a license plate number, a vehicle type, and a car owner phone number.

3. The system of claim 2, wherein the vehicle sensors comprise a direct contact sensor, a current and voltage drop sensor, an ultrasonic sensor, a shock sensor, a tilt sensor, and an acceleration sensor.

4. The system of claim 3, wherein the vehicle change information comprises contact information collected by a direct contact sensor, current and voltage information collected by a current and voltage drop sensor, in-vehicle air pressure information collected by an ultrasonic sensor, vehicle oscillation strength collected by an oscillation sensor, vehicle inclination information collected by an inclination sensor, and acceleration information collected by an acceleration sensor.

5. The vehicle management system based on regional management according to claim 4, wherein the cloud data platform analyzes vehicle change information, and sends abnormal information to the user terminal or/and the regional management terminal or/and the police platform according to an analysis result, specifically:

the cloud data platform analyzes the vehicle change information and obtains analysis results, wherein the analysis results comprise normal accidents, stolen accidents and traffic accidents, and the traffic accidents comprise small traffic accidents and large traffic accidents;

if the analysis result is a stolen accident and a small car accident, the cloud data platform sends the abnormal information to a car owner user terminal and also sends the abnormal information to a regional management terminal through a regional server;

and if the analysis result is that the accident is a major accident, the cloud data platform sends the abnormal information to the vehicle main user terminal and the emergency contact user terminal, the abnormal information is also sent to the area management terminal through the area server, and the abnormal information is also sent to the police service platform for alarming.

6. The system of claim 5, wherein the anomaly information comprises vehicle information, vehicle geographic location, and accident description.

7. The system of claim 6, further comprising an entrance guard and a gate, wherein the area server is in communication with the entrance guard and the gate, respectively.

8. The vehicle management system based on regional management of claim 7, wherein after receiving the abnormal information sent by the cloud data platform, the regional server is further configured to:

analyzing the abnormal information to obtain the geographic position of the vehicle;

controlling a camera terminal in a certain range of the geographic position of the vehicle to acquire images around the vehicle;

identifying images around the vehicle through an image identification algorithm to obtain a suspicious vehicle or a suspicious person;

matching and comparing an exit image acquired by a camera terminal at an exit of the area with a suspicious vehicle or a suspicious person;

if the matching is successful, a loudspeaker at the outlet of the control area gives an alarm, and a gate at the outlet of the control area intercepts suspicious vehicles or a gate control intercepts suspicious people.

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