CN107942746B - Vehicle remote control system and method - Google Patents

Abstract

A vehicle remote control system and a method thereof are provided, wherein the method comprises a mobile terminal, a server, a traveling computer and a detection device, the mobile terminal and the traveling computer are respectively connected with the server through wireless signals, the traveling computer and the detection device are arranged on a vehicle body, the traveling computer is connected with the detection device through signals, the traveling computer comprises an acquisition module and a control module, the server is used for sending an inquiry request to the traveling computer according to the type of an inquiry instruction of the mobile terminal, so that the detection data of the detection device are acquired through the acquisition module and sent to the mobile terminal, the mobile terminal is used for sending a control instruction to the traveling computer through the server after receiving the detection data sent by the server, and the control module is used for sending a control signal to vehicle-mounted electronic equipment pointed by the control instruction so as to adjust the vehicle-mounted. The vehicle remote control system and the method can effectively realize the remote control of the vehicle by the user.

Description

Vehicle remote control system and method

Technical Field

The invention relates to the technical field of automobiles, in particular to a vehicle remote control system and a vehicle remote control method.

Background

Along with the popularization of automobiles, the frequency of using automobiles is higher and higher, great convenience is brought to people for traveling by the automobiles, the existing functions of the automobiles are more and more perfect, and various requirements of users can be met.

The vehicle remote control system enables a user to control the vehicle to perform operations such as air conditioner opening, door lock opening and closing, vehicle searching, engine starting, window opening and closing without approaching the vehicle, for example, the user can feel appropriate temperature when entering the vehicle by opening the air conditioner in advance in cold or hot weather; when the user forgets to lock the door for some reasons, the vehicle can be controlled to automatically lock the door so as to avoid the back and forth running of the user; when the air quality in the vehicle is poor, the air purification device can be started in advance, so that a user can feel the better air quality when entering the vehicle, and the convenience and the comfort of using the vehicle are improved.

However, the vehicle information acquisition mechanism of the existing vehicle remote control system is simple, so that a user cannot find the abnormal state of the vehicle in time or know the state of the vehicle at any time according to the needs of the user, and thus the remote control of the vehicle cannot be effectively realized.

Disclosure of Invention

The invention aims to provide a vehicle remote control system which can effectively realize vehicle remote control.

The invention provides a vehicle remote control system, which comprises a mobile terminal, a server, a traveling computer and a detection device, wherein the mobile terminal and the traveling computer are respectively connected with the server through wireless signals, the traveling computer and the detection device are arranged on a vehicle body, the traveling computer is in signal connection with the detection device, the traveling computer comprises an acquisition module and a control module, the server is used for sending an inquiry request to the traveling computer according to the type of an inquiry instruction of the mobile terminal, so that detection data of the detection device are acquired through the acquisition module and sent to the mobile terminal, the mobile terminal is used for sending a control instruction to the traveling computer through the server after receiving the detection data sent by the server, and the control module is used for sending a control signal to vehicle-mounted electronic equipment pointed by the control instruction so as to adjust the vehicle-mounted electronic equipment to a set state .

Further, the server comprises a judging module, a first query module and a second query module, wherein the first query module and the second query module are respectively connected with the judging module, the judging module receives a query instruction of the mobile terminal and judges the type of the query instruction, if the type of the query instruction is an automatic query instruction, a query request is sent to the traveling crane computer at intervals of set time through the first query module to obtain the detection data of the detection device, and if the type of the query instruction is an instant query instruction, a query request is sent to the traveling crane computer through the second query module in real time to obtain the detection data of the detection device.

Further, the judging module is further configured to receive the detection data acquired by the first querying module and judge whether the detection data exceeds a set range, if so, generate a prompt message and send the prompt message and the detection data to the mobile terminal, otherwise, instruct the first querying module to continue to send a query request to the vehicle computer at a set interval.

Further, the judging module is further configured to receive the detection data obtained by the second querying module and judge whether the detection data is within a set range, if so, send the detection data to the mobile terminal, otherwise, generate a prompt message and send the prompt message and the detection data to the mobile terminal.

Further, detection device includes temperature sensor, air quality sensor, GPS positioning unit, battery power monitoring unit, lock inductor, on-vehicle electronic equipment includes air conditioner, air purifier, seat heating device, door window riser, well accuse lock, engine ignition.

The invention also provides a vehicle remote control method, which comprises the following steps:

the server sends a query request to the traveling computer according to the type of the query instruction sent by the mobile terminal;

the acquisition module of the traveling computer acquires detection data of the detection device and sends the detection data to the mobile terminal through the server;

after receiving the detection data sent by the server, the mobile terminal sends a control instruction to the traveling crane computer through the server, so that a control module of the traveling crane computer sends a control signal to the vehicle-mounted electronic equipment pointed by the control instruction to adjust the vehicle-mounted electronic equipment to a set state.

Further, the step that the server sends the query request to the vehicle computer according to the type of the query instruction sent by the mobile terminal comprises the following steps:

a judging module of the server receives a query instruction of the mobile terminal and judges the type of the query instruction;

and indicating a first query module or a second query module of the server to send a query request to the running computer according to the type of the query instruction, if the type of the query instruction is an automatic query instruction, sending the query request to the running computer at intervals of set time through the first query module, and if the type of the query instruction is an instant query instruction, immediately sending the query request to the running computer through the second query module.

Further, the step of the acquisition module of the traveling computer acquiring the detection data of the detection device and sending the detection data to the mobile terminal through the server includes:

after the acquisition module of the traveling crane computer receives the query request sent by the first query module, acquiring detection data of the detection device and sending the detection data to the first query module of the server;

and a judging module of the server receives the detection data acquired by the first query module and judges whether the detection data exceeds a set range, if so, prompt information is generated and sent to the mobile terminal together with the detection data, and otherwise, the first query module is instructed to continue to send query requests to the traveling computer at intervals of set time.

Further, the step of the acquisition module of the traveling computer acquiring the detection data of the detection device and sending the detection data to the mobile terminal through the server includes:

the acquisition module of the traveling computer receives the query request sent by the second query module, acquires the detection data of the detection device and sends the detection data to the second query module of the server;

and a judging module of the server receives the detection data acquired by the second query module and judges whether the detection data is in a set range, if so, the detection data is sent to the mobile terminal, otherwise, prompt information is generated and the prompt information and the detection data are sent to the mobile terminal.

Further, detection device includes temperature sensor, air quality sensor, GPS positioning unit, battery power monitoring unit, lock inductor, on-vehicle electronic equipment includes air conditioner, air purifier, seat heating device, door window riser, well accuse lock, engine ignition.

In the embodiment of the invention, the vehicle remote control system and the method send a query request to the traveling computer through the server according to the query instruction type of the mobile terminal, so as to obtain the detection data of the detection device through the acquisition module of the traveling computer and send the detection data to the mobile terminal, the mobile terminal sends a control instruction to the traveling computer through the server after receiving the detection data sent by the server, the control module of the traveling computer sends a control signal to the vehicle-mounted electronic equipment pointed by the control instruction so as to adjust the vehicle-mounted electronic equipment to a set state, so that a user can send different instruction types according to the self requirement to remotely obtain the detection data of the vehicle so as to know the vehicle condition, can remotely control the vehicle according to the obtained detection data, adjust the vehicle-mounted electronic equipment of the vehicle to the set state in advance, and greatly meet different requirements of the user in different occasions, the vehicle remote control is effectively carried out, and the intellectualization and humanization of the vehicle are reflected.

Drawings

Fig. 1 is a schematic structural diagram of a vehicle remote control system according to an embodiment of the present invention.

Fig. 2 is a schematic flow chart of a vehicle remote control method according to an embodiment of the invention.

Detailed Description

To further explain the technical means and effects of the present invention adopted to achieve the predetermined objects, the following detailed description of the embodiments, structures, features and effects of the present invention will be made with reference to the accompanying drawings and preferred embodiments.

Fig. 1 is a schematic structural diagram of a vehicle remote control system according to an embodiment of the present invention. As shown in fig. 1, the vehicle remote control system according to the embodiment of the present invention includes a mobile terminal 10, a server 20, a vehicle computer 30 and a detection device 40, wherein the mobile terminal 10 and the vehicle computer 30 are respectively connected to the server 20 through wireless signals, the vehicle computer 30 and the detection device 40 are disposed on a vehicle body, the vehicle computer 30 is connected to the detection device 40 through signals, the vehicle computer 30 includes an acquisition module 31 and a control module 32, the server 20 is configured to send a query request to the vehicle computer 30 according to a type of a query instruction of the mobile terminal 10, therefore, the detection data of the detection device 40 is acquired through the acquisition module 31 and sent to the mobile terminal 10, the mobile terminal 10 is used for sending a control instruction to the driving computer 30 through the server 20 after receiving the detection data sent by the server 20, and the control module 32 is used for sending a control signal to the vehicle-mounted electronic device 50 pointed by the control instruction so as to adjust the vehicle-mounted electronic device 50 to a set state.

The server 20 includes a determining module 21, a first querying module 22 and a second querying module 23, wherein the first querying module 22 and the second querying module 23 are respectively connected to the determining module 21.

The judging module 21 is configured to receive a query instruction of the mobile terminal 10, and after judging the type of the query instruction, instruct the first query module 22 or the second query module 23 of the server 20 to send a query request to the vehicle computer 30 according to the type of the query instruction, where if the type of the query instruction is an automatic query instruction, the first query module 22 sends the query request to the vehicle computer 30 at intervals of a set time to obtain the detection data of the detection device 40, and if the type of the query instruction is an instant query instruction, the second query module 23 sends the query request to the vehicle computer 30 in real time to obtain the detection data of the detection device 40.

The judging module 21 is further configured to receive the detection data obtained by the first querying module 22 and judge whether the detection data exceeds a set range, if so, generate a prompt message and send the prompt message and the detection data to the mobile terminal 10, otherwise, instruct the first querying module 22 to continue to send a query request to the traveling computer 30 at a set interval.

The judging module 21 is further configured to receive the detection data obtained by the second querying module 23 and judge whether the detection data is within a set range, if so, send the detection data to the mobile terminal 10, otherwise, generate a prompt message and send the prompt message and the detection data to the mobile terminal 10.

It should be noted that, in the embodiment, the priority of the instant query instruction is higher than that of the automatic query instruction, for example, after the mobile terminal 10 sends the automatic query instruction, if the user needs to know the detection data of the vehicle immediately, the instant query instruction may also be sent again to obtain the detection data, at this time, the server 20 preferentially executes the instant query instruction, and sends the query request to the vehicle computer 30 to obtain the detection data of the detection device 40 through the obtaining module 31, so that the user can query and control more conveniently according to the actual situation.

In the embodiment of the invention, the type of the query instruction comprises an automatic query instruction or an instant query instruction, so that a user can select a proper query mode to obtain the detection data of the vehicle according to the self requirement, wherein the automatic query instruction can be used for not requiring the user to query the detection data of the vehicle for many times, and the user is prompted when the vehicle is in an abnormal condition, so that the user can be prevented from being incapable of knowing the abnormal condition of the vehicle in time, the user can query when needing to know the detection data of the vehicle through the instant query instruction, and the user can conveniently query and control at any time according to the actual occasion. In addition, through the priority setting of the query instruction, the user can select a proper vehicle information acquisition mechanism more flexibly.

In the embodiment of the present invention, the detecting device 40 may include a temperature sensor, an air quality sensor, a GPS positioning unit, a battery level monitoring unit, and a door lock sensor, the on-board electronic device 50 may include an air conditioner, an air purifier, a seat heating device, a ventilation device, a window lifter, a central lock, a car searching device, and an engine ignition device, and the control command may include a control object, a start time, and a setting state, for example, a control command for controlling the air conditioner to start after four hours and adjusting the temperature in the vehicle to 26 ℃. The types of the detection device 40 and the in-vehicle electronic device 50 are not limited to the above, and may be adjusted according to the existing detection device and the in-vehicle electronic device to realize a desired remote control function.

The detection device 40 and the in-vehicle electronic device 50 can realize, for example, the following functions:

(1) the temperature sensor acquires the temperature in the vehicle, and the mobile terminal 10 sends a window opening instruction, an air conditioner temperature rising/lowering instruction or a seat heating instruction through the server 20, so that the control module 32 of the traveling computer 30 controls the window to be opened for ventilation, controls the air conditioner to rise/lower the temperature so as to adjust the temperature in the vehicle to a proper temperature or controls the seat heating device to heat the seat to a set temperature;

(2) the door lock sensor acquires the opening and closing state of the vehicle door lock, and the mobile terminal 10 sends a vehicle door lock opening/closing instruction through the server 20, so that the control module 32 of the traveling computer 30 controls the vehicle door lock to be opened/closed, and the back-and-forth running wave is avoided;

(3) the air quality sensor obtains the index of PM2.5 in the vehicle, the mobile terminal 10 sends an air purifier on/off instruction through the server 20, so that the control module 32 of the traveling computer 30 controls the air purifier to work to keep the index of PM2.5 in the vehicle within a set range, and the air in the vehicle is purified in advance to provide a comfortable air environment in the vehicle for a user;

(4) the mobile terminal 10 sends a vehicle searching device alarm instruction through the server 20, so that the control module 32 of the traveling computer 30 controls the vehicle searching device to alarm to quickly find the vehicle;

(5) the GPS positioning unit acquires the position of a vehicle, the mobile terminal 10 receives a vehicle theft prompt when the position of the vehicle exceeds a set range, the mobile terminal 10 sends a GPS positioning instruction through the server 20 to start a remote vehicle tracking function, and the police finds the position of the vehicle at any time to timely recover user loss, and the process can be also applied to the geo-fencing function of the vehicle so as to facilitate the user to control the position information of the vehicle at any time;

(6) the battery power monitoring unit obtains the power of the vehicle battery, the mobile terminal 10 receives the power shortage prompt when the power of the vehicle battery is lower than the set range, so that the user can know the battery state in time, and the mobile terminal 10 can also obtain the power of the battery by sending an instant query instruction to judge whether the power is enough to use.

Fig. 2 is a schematic flow chart of a vehicle remote control method according to an embodiment of the invention. As shown in fig. 2, a vehicle remote control method of an embodiment of the present invention may include:

and step 61, the server sends a query request to the traveling computer according to the type of the query instruction sent by the mobile terminal.

The judging module of the server receives the query instruction of the mobile terminal and judges the type of the query instruction, the first query module or the second query module of the server is indicated to send a query request to the traveling crane computer according to the type of the query instruction, if the type of the query instruction is an automatic query instruction, the query request is sent to the traveling crane computer at intervals of set time through the first query module, and if the type of the query instruction is an instant query instruction, the query request is sent to the traveling crane computer through the second query module in real time.

And step 62, the acquisition module of the traveling crane computer acquires the detection data of the detection device and sends the detection data to the mobile terminal through the server.

When a query request is sent to the traveling crane computer at intervals of set time through the first query module, the acquisition module of the traveling crane computer receives the query request sent by the first query module, acquires detection data of the detection device and sends the detection data to the first query module of the server, the judgment module of the server receives the detection data acquired by the first query module and judges whether the detection data exceeds a set range, if so, prompt information is generated and the prompt information and the detection data are sent to the mobile terminal, and if not, the first query module is instructed to continue to send the query request to the traveling crane computer at intervals of set time.

When the second query module sends a query request to the traveling crane computer in real time, the acquisition module of the traveling crane computer receives the query request sent by the second query module, acquires the detection data of the detection device and sends the detection data to the second query module of the server, the judgment module of the server receives the detection data acquired by the second query module and judges whether the detection data is in a set range, if so, the detection data is sent to the mobile terminal, otherwise, prompt information is generated, and the prompt information and the detection data are sent to the mobile terminal.

In this embodiment, the detection device includes, but is not limited to, a temperature sensor, an air quality sensor, a GPS positioning unit, a battery level monitoring unit, and a door lock sensor.

And step 63, after receiving the detection data sent by the server, the mobile terminal sends a control instruction to the traveling computer through the server, so that a control module of the traveling computer sends a control signal to the vehicle-mounted electronic equipment pointed by the control instruction to adjust the vehicle-mounted electronic equipment to a set state.

The vehicle-mounted electronic equipment comprises but is not limited to an air conditioner, an air purifier, a seat heating device, a ventilating device, a window lifter, a central control lock and an engine ignition device, and the control command can comprise a control object, starting time and a set state, for example, a control command for controlling the air conditioner to start after four hours and adjusting the temperature in the vehicle to 26 ℃.

In the embodiment of the invention, the vehicle remote control system sends an inquiry request to the traveling computer through the server according to the type of an inquiry instruction of the mobile terminal, so that the detection data of the detection device is acquired through an acquisition module of the traveling computer and sent to the mobile terminal, the mobile terminal sends a control instruction to the traveling computer through the server after receiving the detection data sent by the server, and the control module of the traveling computer sends a control signal to the vehicle-mounted electronic equipment pointed by the control instruction to adjust the vehicle-mounted electronic equipment to a set state, wherein the type of the inquiry instruction can be an automatic inquiry instruction or an instant inquiry instruction, and the priority of the instant inquiry instruction is higher than that of the automatic inquiry instruction, so that a user can send an instruction according to own requirements to remotely acquire the detection data of the vehicle to know the condition of the vehicle and remotely control the vehicle according to the acquired detection data, the vehicle-mounted electronic equipment of the vehicle is adjusted to a set state in advance, so that different requirements of users can be greatly met in different occasions, and the intellectualization and humanization of the vehicle are reflected.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. A vehicle remote control system is characterized by comprising a mobile terminal, a server, a traveling computer and a detection device, wherein the mobile terminal and the traveling computer are respectively connected with the server through wireless signals, the traveling computer and the detection device are arranged on a vehicle body, the traveling computer is in signal connection with the detection device, the traveling computer comprises an acquisition module and a control module, the server is used for sending an inquiry request to the traveling computer according to the type of an inquiry instruction of the mobile terminal, so that the detection data of the detection device are acquired through the acquisition module and sent to the mobile terminal, the mobile terminal is used for sending a control instruction to the traveling computer through the server after receiving the detection data sent by the server, and the control module is used for sending a control signal to vehicle-mounted electronic equipment pointed by the control instruction so as to adjust the vehicle-mounted electronic equipment to a set state;

the server comprises a judging module, a first inquiring module and a second inquiring module, wherein the first inquiring module and the second inquiring module are respectively connected with the judging module, the judging module receives an inquiring instruction of the mobile terminal and judges the type of the inquiring instruction, if the type of the inquiring instruction is an automatic inquiring instruction, an inquiring request is sent to the running computer at a set time interval through the first inquiring module to obtain the detection data of the detection device, the judging module is also used for receiving the detection data obtained by the first inquiring module and judging whether the detection data exceeds a set range, if so, prompting information is generated and sent to the mobile terminal, and if the type of the inquiring instruction is an instant inquiring instruction, an inquiring request is sent to the running computer through the second inquiring module in real time to obtain the detection data of the detection device, and the server preferentially executes the instant query instruction.

2. The vehicle remote control system according to claim 1, wherein the determining module is further configured to receive the detection data obtained by the first querying module and determine whether the detection data exceeds a set range, and if not, instruct the first querying module to continue sending query requests to the host computer at set intervals.

3. The vehicle remote control system according to claim 1, wherein the determining module is further configured to receive the detection data obtained by the second querying module and determine whether the detection data is within a set range, if so, send the detection data to the mobile terminal, otherwise, generate a prompt message and send the prompt message and the detection data to the mobile terminal.

4. The vehicle remote control system according to claim 1, wherein the detection device comprises a temperature sensor, an air quality sensor, a GPS positioning unit, a battery level monitoring unit, a door lock sensor, and the in-vehicle electronic device comprises an air conditioner, an air purifier, a seat heating device, a ventilation device, a window lifter, a center lock, and an engine ignition device.

5. A vehicle remote control method, characterized by comprising:

the server sends a query request to the traveling computer according to the type of the query instruction sent by the mobile terminal;

the acquisition module of the traveling computer acquires detection data of the detection device and sends the detection data to the mobile terminal through the server;

after receiving the detection data sent by the server, the mobile terminal sends a control instruction to the traveling crane computer through the server, so that a control module of the traveling crane computer sends a control signal to the vehicle-mounted electronic equipment pointed by the control instruction to adjust the vehicle-mounted electronic equipment to a set state;

the server sends a query request to the traveling computer according to the type of the query instruction sent by the mobile terminal, and the steps comprise:

a judging module of the server receives a query instruction of the mobile terminal and judges the type of the query instruction;

the first query module or the second query module of the server is indicated to send a query request to the traveling computer according to the type of the query instruction, if the type of the query instruction is an automatic query instruction, the query request is sent to the traveling computer at intervals of set time through the first query module, if the type of the query instruction is an instant query instruction, the query request is sent to the traveling computer in real time through the second query module, and the server preferentially executes the instant query instruction;

the steps that an acquisition module of the traveling computer acquires detection data of the detection device and sends the detection data to the mobile terminal through the server comprise:

after the acquisition module of the traveling crane computer receives the query request sent by the first query module, acquiring detection data of the detection device and sending the detection data to the first query module of the server;

and a judging module of the server receives the detection data acquired by the first query module and judges whether the detection data exceeds a set range, if so, prompt information is generated and the prompt information and the detection data are sent to the mobile terminal.

6. The vehicle remote control method according to claim 5, wherein the step of the acquisition module of the traveling computer acquiring the detection data of the detection device and transmitting the detection data to the mobile terminal through the server comprises:

after the acquisition module of the traveling crane computer receives the query request sent by the first query module, acquiring detection data of the detection device and sending the detection data to the first query module of the server;

and the judging module of the server receives the detection data acquired by the first query module and judges whether the detection data exceeds a set range, and if not, the judging module instructs the first query module to continue to send query requests to the driving computer at intervals of set time.

7. The vehicle remote control method according to claim 5, wherein the step of the acquisition module of the traveling computer acquiring the detection data of the detection device and transmitting the detection data to the mobile terminal through the server comprises:

the acquisition module of the traveling computer receives the query request sent by the second query module, acquires the detection data of the detection device and sends the detection data to the second query module of the server;

and a judging module of the server receives the detection data acquired by the second query module and judges whether the detection data is in a set range, if so, the detection data is sent to the mobile terminal, otherwise, prompt information is generated and the prompt information and the detection data are sent to the mobile terminal.

8. The vehicle remote control method according to claim 5, wherein the detection device comprises a temperature sensor, an air quality sensor, a GPS positioning unit, a battery level monitoring unit and a door lock sensor, and the vehicle-mounted electronic equipment comprises an air conditioner, an air purifier, a seat heating device, a window lifter, a central lock and an engine ignition device.

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