CN110588570B

CN110588570B - Vehicle-mounted equipment anti-theft method and device, vehicle-mounted anti-theft equipment and storage medium

Info

Publication number: CN110588570B
Application number: CN201910817934.7A
Authority: CN
Inventors: 李佳; 袁一; 曹余
Original assignee: Shanghai Nonda Intelligent Technology Co ltd
Current assignee: Shanghai Nonda Intelligent Technology Co ltd
Priority date: 2019-08-30
Filing date: 2019-08-30
Publication date: 2021-09-21
Anticipated expiration: 2039-08-30
Also published as: CN110588570A

Abstract

An anti-theft method and device for vehicle-mounted equipment, the vehicle-mounted anti-theft equipment and a storage medium are provided, wherein the anti-theft method for the vehicle-mounted equipment comprises the following steps: continuously detecting the connection state of the vehicle-mounted equipment and the vehicle, wherein the vehicle-mounted equipment is powered by the vehicle in the connection state of the vehicle; if the fact that the vehicle-mounted equipment is disconnected from the vehicle is detected, starting a standby power supply of the vehicle-mounted equipment to supply power to the vehicle-mounted equipment; and sending a prompt to the server so that the server can acquire the position of the vehicle-mounted equipment. By the method, the server side for centrally managing the vehicle can monitor the connection state of the vehicle-mounted equipment and the vehicle in real time, sense the event that the vehicle-mounted equipment is pulled out of the vehicle, and timely eliminate the danger that the vehicle is stolen.

Description

Vehicle-mounted equipment anti-theft method and device, vehicle-mounted anti-theft equipment and storage medium

Technical Field

The embodiment of the invention relates to the technical field of computers, in particular to an anti-theft method and device for vehicle-mounted equipment, the vehicle-mounted anti-theft equipment and a storage medium.

Background

An On-Board Diagnostics (OBD) is generally installed On a vehicle, and the OBD can detect the operating conditions of an engine electrical control system and other functional modules of the vehicle during the operation of the vehicle. The OBD interface of the automobile is connected with the computer, so that automobile data can be checked on the computer in real time, automobile faults can be detected, convenience is provided for automobile repair, automobile related function development and automobile equipment transformation, the OBD interface cannot be directly connected with the computer, and the OBD interface can be connected through switching equipment such as USBCAN-OBD and the like.

For places where vehicles are centrally managed, such as a vehicle selling place, a second-hand vehicle market or a vehicle recycling place, a vehicle-mounted device for acquiring data such as position information and real-time state of the vehicle in real time can be connected to an OBD interface of each vehicle; however, the current vehicle-mounted equipment is connected with the vehicle through an OBD interface, the plugging and the pulling are convenient, the vehicle can be easily detached by lawless persons, and the vehicle cannot be perceived timely when being lost.

Disclosure of Invention

The technical problem solved by the embodiment of the invention is how to enable a server side which manages vehicles in a centralized manner to monitor the connection state of the vehicle-mounted equipment and the vehicles in real time, sense the event that the vehicle-mounted equipment is pulled out of the vehicles and eliminate the danger that the vehicles are stolen in time.

In order to solve the technical problem, an embodiment of the present invention provides an anti-theft method for a vehicle-mounted device, including: continuously detecting a connection state of an on-board device with a vehicle, the on-board device being powered by the vehicle in the state of being connected with the vehicle; if the fact that the vehicle-mounted equipment is disconnected from the vehicle is detected, starting a standby power supply of the vehicle-mounted equipment to supply power to the vehicle-mounted equipment; and sending a prompt to a server so that the server acquires the position of the vehicle-mounted equipment.

Optionally, the method further includes: continuously acquiring vehicle operation data, wherein the vehicle operation data comprises current position information; the vehicle operation data are sent to the server side according to the preset frequency; the sending of the prompt to the server includes: acquiring alarm frequency, wherein the alarm frequency is different from the preset frequency; and changing the frequency of sending the vehicle operation data to the server into the alarm frequency so that the server acquires the current position information from the vehicle operation data.

Optionally, the sending the prompt to the server includes: acquiring current position information, and generating the first alarm notification according to the current position information; and sending the first alarm notification to the server, so that the server acquires the current position information from the first alarm notification.

Optionally, after sending the prompt to the server, the method further includes: and if an alarm release instruction returned by the server according to the prompt is received, the standby power supply is closed.

Optionally, after the standby power supply for starting the vehicle-mounted device supplies power to the vehicle-mounted device, the method further includes: and sending a second alarm notification to the user terminal associated with the vehicle-mounted equipment.

The embodiment of the invention also provides a vehicle-mounted equipment management method, which comprises the following steps: receiving a prompt sent by the vehicle-mounted equipment, wherein if the vehicle-mounted equipment detects that the vehicle-mounted equipment is disconnected from the vehicle, a standby power supply of the vehicle-mounted equipment is started to supply power to the vehicle-mounted equipment, and the prompt is sent out, and the vehicle supplies power to the vehicle-mounted equipment in a state that the vehicle-mounted equipment is connected with the vehicle; in response to the prompt, obtaining a location of the in-vehicle device, further comprising: and detecting the connection state of the vehicle-mounted equipment and the associated user terminal, and if the vehicle-mounted equipment is not connected with the associated user terminal, sending a third alarm notification to the user terminal.

Optionally, after receiving the prompt sent by the vehicle-mounted device, the method further includes: marking the vehicle-mounted equipment as stolen equipment; after the sending of the third alarm notification to the user terminal, the method further includes: and if a safety confirmation message returned by the user terminal according to the third alarm notification is received, eliminating the mark of the stolen equipment of the vehicle-mounted equipment.

The embodiment of the invention also provides an anti-theft device for vehicle-mounted equipment, which comprises: the vehicle-mounted device comprises a detection module, a power supply module and a control module, wherein the detection module is used for continuously detecting the connection state of the vehicle-mounted device and a vehicle, and the vehicle-mounted device is powered by the vehicle in the connection state of the vehicle;

the standby power supply module is used for starting a standby power supply of the vehicle-mounted equipment to supply power to the vehicle-mounted equipment if the vehicle-mounted equipment is detected to be disconnected from the vehicle;

and the prompt module is used for sending a prompt to the server so that the server can acquire the position of the vehicle-mounted equipment.

The embodiment of the invention also provides vehicle-mounted anti-theft equipment which comprises a memory and a processor, wherein the memory is stored with computer instructions capable of running on the processor, and the processor executes any one of the steps of the vehicle-mounted anti-theft method when running the computer instructions.

The embodiment of the invention also provides a storage medium, which is a nonvolatile storage medium or a non-transient storage medium, and the storage medium is stored with computer instructions, and the computer instructions execute the steps of any vehicle-mounted device anti-theft method when running.

Compared with the prior art, the technical scheme of the embodiment of the invention has the following beneficial effects:

the embodiment of the invention provides an anti-theft method for vehicle-mounted equipment, which comprises the following steps: continuously detecting a connection state of an on-board device with a vehicle, the on-board device being powered by the vehicle in the state of being connected with the vehicle; if the fact that the vehicle-mounted equipment is disconnected from the vehicle is detected, starting a standby power supply of the vehicle-mounted equipment to supply power to the vehicle-mounted equipment; and sending a prompt to a server so that the server acquires the position of the vehicle-mounted equipment. Compared with the prior art, the anti-theft method for the vehicle-mounted equipment in the embodiment starts the standby power supply of the vehicle-mounted equipment to supply power to the vehicle-mounted equipment when the vehicle-mounted equipment detects that the vehicle-mounted equipment is disconnected from the vehicle, and sends a prompt to the server, so that the server monitors the abnormal pulling-out condition of the vehicle-mounted equipment and determines the position of the vehicle-mounted equipment, and therefore vehicles corresponding to the vehicle-mounted equipment are checked to determine whether the vehicles are lost or not. By the method, the server side can monitor the vehicles connected with all the vehicle-mounted equipment managed by the server side in real time and locate the vehicles which are possibly stolen in time.

Further, when the vehicle-mounted equipment is normally connected with the vehicle, the vehicle operation data can be reported to the server side according to the preset frequency, so that the server side can know the condition of the vehicle in real time; when the vehicle-mounted equipment is pulled out of the vehicle, the preset frequency reported by the data is changed to send a prompt to the server, and a prompt message sent to the server does not need to be generated additionally, so that the function integration of the vehicle-mounted equipment is reduced, and the development cost of the vehicle-mounted equipment is effectively reduced.

Further, the vehicle-mounted device generates a first alarm notification specially used for prompting the event that the vehicle-mounted device at the server side is pulled out, and reports the first alarm notification to the server side, so that the server side can detect the event that the vehicle-mounted device is pulled out more intuitively.

Further, when the server side confirms that the vehicle is not lost or the vehicle-mounted equipment can be stopped to give an alarm prompt, the server side sends an alarm release instruction for stopping the vehicle-mounted equipment from sending the prompt to the vehicle-mounted equipment, the vehicle-mounted equipment closes the standby power supply and automatically cuts off the power supply, power consumption is saved, and the server side is released from monitoring the vehicle-mounted equipment.

Further, in application scenes of a parking lot and the like involving a user terminal such as an owner of a vehicle, when the vehicle-mounted equipment detects that the vehicle-mounted equipment is disconnected from the vehicle, risk early warning is sent to the user terminal.

The embodiment of the invention also provides a vehicle-mounted device management method, which comprises the following steps: receiving a prompt sent by the vehicle-mounted equipment, wherein if the vehicle-mounted equipment detects that the vehicle-mounted equipment is disconnected from the vehicle, a standby power supply of the vehicle-mounted equipment is started to supply power to the vehicle-mounted equipment, and the prompt is sent out, and the vehicle supplies power to the vehicle-mounted equipment in a state that the vehicle-mounted equipment is connected with the vehicle; in response to the prompt, obtaining a location of the in-vehicle device, further comprising: and detecting the connection state of the vehicle-mounted equipment and the associated user terminal, and if the vehicle-mounted equipment is not connected with the associated user terminal, sending a third alarm notification to the user terminal.

In the vehicle-mounted equipment management method, a server receives a prompt sent by vehicle-mounted equipment and acquires the position of the vehicle-mounted equipment so as to judge whether the vehicle has a loss risk; therefore, the vehicle with the risk of loss is positioned in time, a third alarm notice is sent to the user terminal bound with the corresponding vehicle, and the user terminal is timely notified to the owner of the vehicle and the like, so that the state of the vehicle with the risk is determined in time. Furthermore, the participation of the user terminal can be added, and the three terminals are combined to more accurately judge whether the vehicle is lost.

Drawings

FIG. 1 is a flowchart illustrating an anti-theft method for a vehicle-mounted device according to an embodiment of the present invention;

FIG. 2 is a flow chart of an anti-theft method for a vehicle-mounted device according to another embodiment of the invention;

FIG. 3 is a schematic diagram illustrating an application of an anti-theft method for a vehicle-mounted device according to an embodiment of the present invention;

FIG. 4 is a flowchart of a method for managing a vehicle-mounted device according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an anti-theft device for vehicle-mounted equipment according to an embodiment of the present invention.

Detailed Description

As described in the background art, at present, for places where vehicles are centrally managed, such as car sales places, second-hand car markets, vehicle recycling places and the like, vehicle-mounted equipment for centralized management is connected with the vehicles through OBD interfaces, is convenient to plug and unplug, is easy to detach by lawbreakers, and cannot sense the vehicles in time when the vehicles are lost.

In order to solve the technical problem, an embodiment of the invention provides an anti-theft method for vehicle-mounted equipment. In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Referring to fig. 1, a flowchart of an anti-theft method for a vehicle-mounted device in an embodiment of the present invention is shown, which may specifically include the following steps:

step S102, continuously detecting the connection state of the vehicle-mounted equipment and the vehicle, wherein the vehicle-mounted equipment is powered by the vehicle in the connection state of the vehicle.

When the vehicle-mounted equipment is connected with a vehicle, the vehicle operation data can be acquired through the vehicle automatic diagnosis system, and the vehicle operation data can comprise at least one of tire temperature, tire pressure, engine speed, vehicle speed, acceleration, vehicle position and the like. When the vehicle-mounted equipment is connected with the vehicle, the vehicle supplies power to the vehicle-mounted equipment, so that the vehicle-mounted equipment can work normally.

The vehicle-mounted equipment detects the connection state of the vehicle-mounted equipment and the vehicle, can detect whether the power supply of the vehicle to the vehicle-mounted equipment is normal or not, and if the power supply of the vehicle to the vehicle-mounted equipment is stopped, the vehicle-mounted equipment is considered to be disconnected from the vehicle. Further, in order to avoid that the vehicle power supply interface or the power supply unit of the vehicle-mounted device fails to judge that the vehicle-mounted device is disconnected from the vehicle by mistake, whether the vehicle-mounted device can continuously acquire the running data of the vehicle can be detected to comprehensively judge whether the vehicle-mounted device is disconnected from the vehicle.

And step S104, if the disconnection between the vehicle-mounted equipment and the vehicle is detected, starting the standby power supply of the vehicle-mounted equipment to supply power to the vehicle-mounted equipment.

Specifically, the vehicle-mounted device should also include a backup power source for supplying power to the vehicle-mounted device when it is disconnected from the vehicle. If the vehicle-mounted equipment detects that the vehicle supplies power to the vehicle-mounted equipment abnormally and/or the vehicle-mounted equipment cannot continuously acquire the running data of the vehicle, the disconnection between the vehicle-mounted equipment and the vehicle is detected, and a standby power supply is started to supply power to the vehicle-mounted equipment for ensuring the normal running of the vehicle-mounted equipment.

And step S106, sending a prompt to the server, so that the server acquires the position of the vehicle-mounted equipment.

The server is a management end for managing all vehicle-mounted devices connected with the server, and can be a terminal, a server or a cloud. For example, the server may be a management terminal such as a computer in a vehicle centralized management department such as a vehicle sales department, a used vehicle market, or a vehicle collection department.

Specifically, when the vehicle-mounted device detects that the vehicle-mounted device is disconnected from the vehicle, it can be determined that the vehicle-mounted device is pulled out of the vehicle, and the vehicle-mounted device sends a prompt to the server so that the server can pay attention to the possibility that the vehicle is stolen. The server side can position the vehicle-mounted equipment according to the prompt sent by the vehicle-mounted equipment.

Optionally, a Global Positioning System (GPS) may be accessed in the vehicle-mounted device, and the location of the vehicle-mounted device may be reported to the server, so that the server may determine the location of the vehicle-mounted device in a normal operating state of the server.

Furthermore, the server can also perform real-time positioning tracking on the vehicle managed by the server, and the positioning mode can be obtained by using a navigation system of the vehicle; when the server receives the prompt sent by a certain vehicle-mounted device, on one hand, the position of the vehicle-mounted device can be located, and on the other hand, the position of the vehicle connected with the vehicle-mounted device can be obtained, so that whether the vehicle is stolen or not is determined, and the position of the stolen vehicle can be further monitored.

In the anti-theft method for the vehicle-mounted equipment in the embodiment, when the vehicle-mounted equipment detects that the vehicle-mounted equipment is disconnected from the vehicle, the standby power supply of the vehicle-mounted equipment is started to supply power to the vehicle-mounted equipment, and a prompt is sent to the server, so that the server monitors the abnormal pulling-out condition of the vehicle-mounted equipment and determines the position of the vehicle-mounted equipment, and therefore the vehicle corresponding to the vehicle-mounted equipment is checked to determine whether the vehicle is lost. By the method, the server side can monitor the vehicles connected with all the vehicle-mounted equipment managed by the server side in real time and locate the vehicles which are possibly stolen in time.

In one embodiment, please refer to fig. 2, fig. 2 is a flowchart of an anti-theft method for a vehicle-mounted device according to another embodiment; the anti-theft method for the vehicle-mounted equipment further comprises the following steps:

s202, continuously acquiring vehicle operation data, wherein the vehicle operation data comprises current position information.

The vehicle-mounted equipment can realize the function of sending vehicle operation data acquired by the OBD to the server side, the vehicle operation data can comprise at least one of tire temperature, tire pressure, engine speed, vehicle speed, acceleration, vehicle position and the like, and the vehicle operation data are data acquired by various sensors arranged on the vehicle and sent to the vehicle-mounted equipment. The vehicle operation data includes current position information located by a GPS system in the vehicle-mounted device. When the vehicle-mounted equipment is normally connected with the vehicle, the vehicle-mounted equipment sends current position information included in vehicle operation data to the server, namely the positions of the vehicle-mounted equipment and the vehicle are represented.

And S204, sending the vehicle operation data to the server according to the preset frequency.

The preset frequency is the frequency of reporting the vehicle operation data to the server when the vehicle-mounted device is normally connected with the vehicle, and the preset frequency can be specifically set by technical personnel according to the data volume of the vehicle operation data. When the vehicle-mounted equipment is normally connected with the vehicle, the vehicle operation data are reported to the server side according to the preset frequency.

The sending of the prompt to the server in step S102 may include:

s206, acquiring the alarm frequency, wherein the alarm frequency is different from the preset frequency.

The alarm frequency is the frequency of reporting data to the server when the vehicle-mounted equipment detects that the vehicle-mounted equipment is disconnected from the vehicle. The alarm frequency is different from the preset frequency, for example, when the vehicle-mounted equipment is normally connected with a vehicle, the preset frequency of data reporting is reported once every 2 minutes; when the vehicle-mounted equipment is disconnected with the vehicle, the data reporting frequency is changed to be 5 seconds and reported once.

S208, changing the frequency of sending the vehicle operation data to the server into the alarm frequency so that the server can obtain the current position information from the vehicle operation data.

When the vehicle-mounted equipment detects that the vehicle-mounted equipment is disconnected with the vehicle, the vehicle state data are reported to the server side according to the alarm frequency, so that the server side can detect that the vehicle-mounted equipment is disconnected with the vehicle. Optionally, the alarm frequency may be set to be higher than the preset frequency, that is, when the vehicle-mounted device is disconnected from the vehicle, the vehicle-mounted device increases the data reporting frequency, so that the server can more accurately locate the position of the vehicle-mounted device.

When the vehicle-mounted equipment is disconnected with the vehicle, the vehicle running data such as the tire temperature, the running speed and the like of the vehicle cannot be continuously acquired, the data can be nulled, and the current position information of the vehicle-mounted equipment is only reported to the server.

In addition, if the vehicle-mounted equipment detects that the vehicle-mounted equipment is connected with the vehicle again, namely after the vehicle-mounted equipment is plugged into the vehicle again, the power supply of the vehicle to the vehicle-mounted equipment is recovered, and the reporting frequency of the data is recovered to the preset frequency.

In the embodiment, when the vehicle-mounted equipment is normally connected with the vehicle, the vehicle operation data can be reported to the server side according to the preset frequency, so that the server side can know the condition of the vehicle in real time; when the vehicle-mounted equipment is pulled out of the vehicle, the preset frequency reported by the data is changed to send a prompt to the server, and a prompt message sent to the server does not need to be generated additionally, so that the function integration of the vehicle-mounted equipment is reduced, and the development cost of the vehicle-mounted equipment is effectively reduced.

In one embodiment, the sending the prompt to the server in step S106 may include: acquiring current position information, and generating a first alarm notification according to the current position information; and sending the first alarm notification to the server, so that the server acquires the current position information from the first alarm notification.

Specifically, the vehicle-mounted device may also obtain current location information of the device according to the GPS system, additionally generate a first alarm notification that prompts the server-side vehicle-mounted device to be pulled out, and send the first alarm notification to the server. The first alarm notification only comprises the current position information, and the vehicle-mounted equipment does not need to continuously send the vehicle operation data to the server.

In this embodiment, the vehicle-mounted device generates a first alarm notification specially used for prompting the server-side vehicle-mounted device to be pulled out, and reports the first alarm notification to the server, so that the server can detect the event that the vehicle-mounted device is pulled out more intuitively.

In an embodiment, please continue to refer to fig. 1, after the step S106 sends the prompt to the server, the method may further include: and if the alarm release instruction returned by the server side according to the prompt is received, the standby power supply is closed.

The alarm release instruction is an instruction which is sent to the vehicle-mounted equipment after the server eliminates the error of vehicle loss and is used for stopping sending prompts to the vehicle-mounted equipment. And the vehicle-mounted equipment receives the alarm release instruction, closes the standby power supply and stops working.

In this embodiment, when the server determines that the vehicle is not lost or the same vehicle-mounted device can stop sending the alarm prompt, the server sends an alarm release instruction for stopping sending the prompt by the vehicle-mounted device to the vehicle-mounted device, the vehicle-mounted device turns off the standby power supply, the power is automatically turned off, the power consumption is saved, and the server releases monitoring of the vehicle-mounted device.

In one embodiment, after the step S104 starts the backup power supply of the vehicle-mounted device to supply power to the vehicle-mounted device, the method may further include: and sending a second alarm notification to the user terminal associated with the vehicle-mounted equipment.

And the second alarm notification is a notification that the vehicle-mounted device sends to the user terminal so that the user terminal acquires the information of disconnection between the vehicle-mounted device and the vehicle. The second alarm notification may take the form of a network message, email, short message, or the like. The user terminal can be a mobile phone, a personal computer and other terminal equipment of the owner of the vehicle.

In an application scenario of a parking lot, please refer to fig. 3, and fig. 3 is an application schematic diagram of an anti-theft method for a vehicle-mounted device according to an embodiment of the present invention. The vehicle management server 304 in the parking lot may connect all the in-vehicle devices 302 managed in the parking lot to collect operation data of the vehicles connected to the in-vehicle devices and monitor whether there is a risk of loss of the vehicles. Meanwhile, the vehicle-mounted device 302 can also be connected with the user terminal 306 through a network, and when the vehicle-mounted device 302 detects that the vehicle-mounted device is disconnected from the vehicle, a second alarm notification is sent to the user terminal 306, so that the vehicle owner can know the situation, and therefore risk early warning can be performed. The user terminal 306 may be but not limited to a mobile phone, a computer, etc. of the owner.

In the embodiment, in application scenarios such as a parking lot involving a user terminal such as an owner of a vehicle, when detecting that the vehicle-mounted device is disconnected from the vehicle, the vehicle-mounted device sends a risk early warning to the user terminal.

Referring to fig. 4, fig. 4 provides a flowchart of a vehicle-mounted device management method in an embodiment. The vehicle-mounted device management method specifically comprises the following steps:

step S402, receiving a prompt sent by the vehicle-mounted equipment, wherein if the vehicle-mounted equipment detects that the vehicle-mounted equipment is disconnected from the vehicle, the standby power supply of the vehicle-mounted equipment is started to supply power to the vehicle-mounted equipment, and sending the prompt, wherein the vehicle supplies power to the vehicle-mounted equipment in a state that the vehicle-mounted equipment is connected with the vehicle.

The server receives a prompt sent by the vehicle-mounted device, the prompt is sent when the vehicle-mounted device detects that the vehicle-mounted device is disconnected from the vehicle, please refer to fig. 1, and the steps of sending the prompt to the server by the vehicle-mounted device are steps S102 to S106.

And S404, responding to the prompt, and acquiring the position of the vehicle-mounted equipment.

Specifically, the vehicle-mounted device is positioned according to a prompt sent by the vehicle-mounted device, and the positioning mode is according to current position information reported by a GPS system of the vehicle-mounted device.

Step S406, detecting the connection state of the vehicle-mounted device and the associated user terminal, and if the vehicle-mounted device is not connected with the associated user terminal, sending a third alarm notification to the user terminal.

And the third alarm notification is a notification which is sent to the user terminal by the server and is used for warning the user terminal to check the connection state of the vehicle-mounted equipment and the vehicle. The third alarm notification may take the form of a network message, email, short message, etc.

Specifically, the server can store owner information of the vehicle, and when the prompt reported by the vehicle-mounted device is obtained, query the contact way of the vehicle owner, and send a third alarm notification to the user terminal corresponding to the vehicle owner.

In the embodiment, the server receives a prompt sent by the vehicle-mounted equipment and acquires the position of the vehicle-mounted equipment so as to judge whether the vehicle is in risk of losing; therefore, the vehicle with the risk of loss is positioned in time, a third alarm notice is sent to the user terminal bound with the corresponding vehicle, and the user terminal is timely notified to the owner of the vehicle and the like, so that the state of the vehicle with the risk is determined in time.

In an embodiment, with continuing reference to fig. 4, after receiving the prompt sent by the vehicle-mounted device in step S402, the method may further include: and marking the vehicle-mounted equipment as stolen equipment. After the sending of the third alarm notification to the user terminal in step S406, the method may further include: and if a safety confirmation message returned by the user terminal according to the third alarm notification is received, the mark of the stolen equipment of the vehicle-mounted equipment is eliminated.

Specifically, after receiving a prompt sent by the vehicle-mounted device, the server determines that the vehicle corresponding to the vehicle-mounted device is at a risk of being stolen, and marks the vehicle-mounted device as stolen device. The server can display the stolen device in a special way on a display page for displaying the information of the vehicle connected with each vehicle-mounted device. After the server side sends the third alarm notification to the user terminal, if the current state of the vehicle is confirmed by the vehicle owner, the safety confirmation message can be returned to the server side after the risk of vehicle theft is eliminated, and after the server side receives the safety confirmation message, the mark of stolen equipment of the vehicle-mounted equipment is eliminated.

In this embodiment, in the antitheft management system of the vehicle-mounted device in fig. 4, participation of the user terminal is added, and the three terminals are combined to more accurately determine whether the vehicle is lost.

In order to facilitate better understanding and implementation of the embodiments of the present invention for those skilled in the art, the embodiments of the present invention further provide an anti-theft device for a vehicle-mounted device.

Referring to fig. 5, fig. 5 is a schematic structural diagram of an anti-theft device for vehicle-mounted equipment in an embodiment of the present invention. The anti-theft device for the vehicle-mounted equipment can comprise:

the detection module 100 is used for continuously detecting the connection state of the vehicle-mounted device and the vehicle, and the vehicle-mounted device is powered by the vehicle in the connection state of the vehicle.

And a standby power supply module 200, configured to start a standby power supply of the vehicle-mounted device to supply power to the vehicle-mounted device if it is detected that the vehicle-mounted device is disconnected from the vehicle.

The prompt module 300 is configured to send a prompt to the server, so that the server obtains the location of the vehicle-mounted device.

In one embodiment, the above vehicle-mounted device theft prevention apparatus may further include:

and the vehicle operation data acquisition module is used for continuously acquiring vehicle operation data, and the vehicle operation data comprises current position information.

And the normal reporting module is used for sending the vehicle operation data to the server according to the preset frequency.

The prompting module 300 may include:

and the frequency updating unit is used for acquiring the alarm frequency, and the alarm frequency is different from the preset frequency.

And the abnormity reporting unit is used for changing the frequency of transmitting the vehicle operation data to the server into the alarm frequency so that the server can acquire the current position information from the vehicle operation data.

In an embodiment, the prompt module 300 in the anti-theft device for vehicle-mounted equipment may include:

and the first alarm notification generating unit is used for acquiring the current position information and generating a first alarm notification according to the current position information.

And the position acquisition unit is used for sending the first alarm notification to the server so that the server acquires the current position information from the first alarm notification.

In one embodiment, the above vehicle-mounted device theft prevention apparatus may further include: and the power supply closing module is used for closing the standby power supply if receiving an alarm release instruction returned by the server according to the prompt.

In one embodiment, the above vehicle-mounted device theft prevention apparatus may further include: and the first alarm notification generation unit is used for sending a second alarm notification to the user terminal associated with the vehicle-mounted equipment.

In one embodiment, the present invention further provides an in-vehicle device management apparatus, including:

and the prompt receiving module is used for receiving a prompt sent by the vehicle-mounted equipment, wherein if the vehicle-mounted equipment detects that the vehicle-mounted equipment is disconnected from the vehicle, the standby power supply of the vehicle-mounted equipment is started to supply power to the vehicle-mounted equipment, and the prompt is sent out, and the vehicle supplies power to the vehicle-mounted equipment in a state of being connected with the vehicle.

And the prompt response module is used for responding to the prompt and acquiring the position of the vehicle-mounted equipment. And the third alarm module is used for detecting the connection state of the vehicle-mounted equipment and the associated user terminal, and sending a third alarm notification to the user terminal if the vehicle-mounted equipment is not connected with the associated user terminal.

In one embodiment, the vehicle-mounted device management apparatus further includes: and the marking module is used for marking the vehicle-mounted equipment as stolen equipment.

And the mark eliminating module is used for eliminating the mark of the stolen equipment of the vehicle-mounted equipment if receiving the safety confirmation message returned by the user terminal according to the third alarm notification.

In a specific implementation, the working principle and the working flow of the vehicle-mounted device anti-theft apparatus may refer to the description in the vehicle-mounted device anti-theft method provided in any of the above embodiments of the present invention, and are not described herein again.

The embodiment of the invention also provides another vehicle-mounted anti-theft device, which comprises a memory and a processor, wherein the memory is stored with computer instructions capable of being operated on the processor, and the processor executes the steps of the vehicle-mounted anti-theft device provided by any one of the above embodiments of the invention when executing the computer instructions.

The embodiment of the present invention further provides a storage medium, where the storage medium is a non-volatile storage medium or a non-transitory storage medium, and a computer instruction is stored on the storage medium, and when the computer instruction runs, the steps of the vehicle-mounted device anti-theft method provided in any of the above embodiments of the present invention are executed.

Those skilled in the art will appreciate that all or part of the steps in the methods of the above embodiments may be implemented by hardware related to instructions of a program, which may be stored in any computer readable storage medium, and the storage medium may include: ROM, RAM, magnetic or optical disks, and the like.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. An anti-theft method for vehicle-mounted equipment is characterized by comprising the following steps:

continuously detecting a connection state of an on-board device with a vehicle, the on-board device being powered by the vehicle in the state of being connected with the vehicle;

if the fact that the vehicle-mounted equipment is disconnected from the vehicle is detected, starting a standby power supply of the vehicle-mounted equipment to supply power to the vehicle-mounted equipment;

sending a prompt to a server, so that the server acquires the position of the vehicle-mounted equipment and the position of a vehicle connected with the vehicle-mounted equipment, and determining whether the vehicle is stolen;

when the vehicle-mounted equipment detects that the vehicle-mounted equipment is disconnected from the vehicle, the vehicle-mounted equipment is judged to be pulled out of the vehicle, and the vehicle-mounted equipment is connected with the vehicle through an OBD interface;

the detecting of the connection state of the in-vehicle apparatus with the vehicle includes: whether the power supply of the vehicle to the vehicle-mounted equipment is normal or not is detected, and whether the vehicle-mounted equipment can continuously acquire the running data of the vehicle or not is detected to comprehensively determine whether the vehicle-mounted equipment is disconnected with the vehicle or not.

2. The method of claim 1, further comprising:

continuously acquiring vehicle operation data, wherein the vehicle operation data comprises current position information;

the vehicle operation data are sent to the server side according to the preset frequency;

the sending of the prompt to the server includes:

acquiring alarm frequency, wherein the alarm frequency is different from the preset frequency;

and changing the frequency of sending the vehicle operation data to the server into the alarm frequency so that the server acquires the current position information from the vehicle operation data.

3. The method of claim 1, wherein the sending the prompt to the server comprises: acquiring current position information, and generating a first alarm notification according to the current position information;

and sending the first alarm notification to the server, so that the server acquires the current position information from the first alarm notification.

4. The method of claim 1, wherein after sending the prompt to the server, further comprising:

and if an alarm release instruction returned by the server according to the prompt is received, the standby power supply is closed.

5. The method of claim 1, wherein after the activating the backup power supply of the vehicle-mounted device powers the vehicle-mounted device, the method further comprises:

and sending a second alarm notification to the user terminal associated with the vehicle-mounted equipment.

6. An in-vehicle device management method, characterized in that the method comprises:

receiving a prompt sent by the vehicle-mounted equipment, wherein if the vehicle-mounted equipment detects that the vehicle-mounted equipment is disconnected from the vehicle, a standby power supply of the vehicle-mounted equipment is started to supply power to the vehicle-mounted equipment, and the prompt is sent out, and the vehicle supplies power to the vehicle-mounted equipment in a state that the vehicle-mounted equipment is connected with the vehicle;

in response to the prompt, acquiring the location of the vehicle-mounted device and acquiring the location of a vehicle connected to the vehicle-mounted device, thereby determining whether the vehicle is stolen, further comprising:

detecting the connection state of the vehicle-mounted equipment and the associated user terminal, and if the vehicle-mounted equipment is not connected with the associated user terminal, sending a third alarm notification to the user terminal;

the detecting of the connection state of the vehicle-mounted device and the associated user terminal comprises: whether the power supply of the vehicle to the vehicle-mounted equipment is normal or not is detected, and whether the vehicle-mounted equipment can continuously acquire the running data of the vehicle or not is detected to comprehensively determine whether the vehicle-mounted equipment is disconnected with the vehicle or not.

7. The method according to claim 6, wherein after receiving the prompt sent by the vehicle-mounted device, the method further comprises:

marking the vehicle-mounted equipment as stolen equipment;

after the sending of the third alarm notification to the user terminal, the method further includes:

and if a safety confirmation message returned by the user terminal according to the third alarm notification is received, eliminating the mark of the stolen equipment of the vehicle-mounted equipment.

8. An antitheft device for a vehicle-mounted device, the device comprising:

the vehicle-mounted device comprises a detection module, a power supply module and a control module, wherein the detection module is used for continuously detecting the connection state of the vehicle-mounted device and a vehicle, and the vehicle-mounted device is powered by the vehicle in the connection state of the vehicle;

the prompting module is used for sending a prompt to a server side, so that the server side obtains the position of the vehicle-mounted equipment and obtains the position of a vehicle connected with the vehicle-mounted equipment, and whether the vehicle is stolen is determined; when the vehicle-mounted equipment detects that the vehicle-mounted equipment is disconnected from the vehicle, the vehicle-mounted equipment is judged to be pulled out of the vehicle, and the vehicle-mounted equipment is connected with the vehicle through an OBD interface;

9. An in-vehicle anti-theft device comprising a memory and a processor, the memory having stored thereon computer instructions executable on the processor, wherein the processor, when executing the computer instructions, performs the steps of the method of any one of claims 1 to 5.

10. A storage medium, which is a non-volatile storage medium or a non-transitory storage medium, having stored thereon computer instructions, wherein the computer instructions, when executed, perform the steps of the method according to any one of claims 1 to 5.