CN111619309B - Vehicle control method and device and vehicle control system - Google Patents

Abstract

The embodiment of the invention discloses a vehicle control method, a vehicle control device and a vehicle control system. The automobile remote service platform receives the reserved vehicles and the data of the reserved time sent by the client according to the reserved time and combining the position information of the reserved vehicles, the environmental information of the reserved vehicles, the pre-stored user personalized data and other dimensions, generates an air conditioning regulation instruction and an automobile body equipment temperature regulation instruction, and the air conditioning equipment regulates the temperature in the automobile to the temperature most used by the user according to the air conditioning regulation instruction and regulates the temperature of seats and a steering wheel to the temperature most used by the user according to the automobile body equipment temperature regulation instruction. The purpose that the client only needs to acquire one-time reservation setting, and the automobile remote service platform can remotely control and adjust the temperatures of an air conditioner, a seat and a steering wheel according to data of multiple dimensions is achieved, and the effects of improving systematization and intelligent control of vehicles are achieved.

Description

Vehicle control method and device and vehicle control system

Technical Field

The embodiment of the invention relates to a vehicle control technology, in particular to a vehicle control method, a vehicle control device and a vehicle control system.

Background

At present, with the improvement of the electrification degree of the automobile, the functions of the automobile tend to be networked, intelligentized and scenarized, so that more user scenes and user experiences need to be considered.

In the existing vehicle control method, a basic user sends a control instruction to a vehicle through a mobile phone application program to realize remote control of the vehicle. For example, remote air conditioning control and remote seat heating control, the air conditioning temperature can be set remotely and transmitted to the vehicle, so that the temperature in the vehicle and the seat heating temperature can be adjusted to be suitable states before the user uses the vehicle. However, this method requires the user to perform multiple operations to meet the control requirement, and if the user forgets a certain remote control operation, the environment in the vehicle cannot enter a comfortable state in advance, and the user cannot enjoy the convenience of remote vehicle control.

Therefore, the intellectualization and the systematization control of the vehicle control in the prior art are poor and need to be improved.

Disclosure of Invention

The embodiment of the invention provides a vehicle control method, a vehicle control device and a vehicle control system, which are used for realizing systematic and intelligent control of a vehicle and further improving the convenience of remote vehicle control of a user.

In a first aspect, an embodiment of the present invention provides a vehicle control method, including:

the method comprises the steps that an automobile remote service platform receives a reservation request sent by a client, wherein the reservation request comprises a reserved vehicle and reserved time;

the automobile remote service platform generates an air conditioner adjusting instruction and an automobile body equipment temperature adjusting instruction according to the reserved time, the position information of the reserved vehicle, the environment information of the reserved vehicle and pre-stored user personalized data;

the automobile remote service platform respectively sends the air conditioner adjusting instruction and the automobile body equipment temperature adjusting instruction to the air conditioner and the automobile body control equipment through the communication equipment, so that the air conditioner adjusts the temperature at the first set time according to the air conditioner adjusting instruction, and the automobile body control equipment adjusts the temperature at the second set time according to the automobile body equipment temperature adjusting instruction, wherein the automobile body control equipment comprises temperature adjusting equipment arranged at a seat and a steering wheel.

In a second aspect, an embodiment of the present invention further provides a vehicle control device, where the vehicle control device is configured on an automobile remote service platform, and the device includes:

the system comprises a receiving module, a sending module and a processing module, wherein the receiving module is used for receiving a reservation request sent by a client, and the reservation request comprises a reserved vehicle and reserved time;

the adjusting instruction generating module is used for generating an air conditioner adjusting instruction and a vehicle body equipment temperature adjusting instruction according to the reserved time, the position information of the reserved vehicle, the environment information of the reserved vehicle and pre-stored user personalized data;

and the adjusting instruction sending module is used for sending the air conditioning adjusting instruction and the vehicle body equipment temperature adjusting instruction to air conditioning equipment and vehicle body control equipment through communication equipment respectively so that the air conditioning equipment adjusts the temperature at the first set time according to the air conditioning adjusting instruction and makes the vehicle body control equipment adjust the temperature at the second set time according to the vehicle body equipment temperature adjusting instruction, wherein the vehicle body control equipment comprises temperature adjusting equipment arranged at a seat and a steering wheel.

In a third aspect, an embodiment of the present invention further provides a vehicle control system, including: the system comprises an automobile remote service platform, a client, communication equipment, air conditioning equipment and automobile body control equipment; wherein the content of the first and second substances,

the client is used for receiving login information and a reservation request input from the outside and sending the login information and the reservation request to the automobile remote service platform, wherein the reservation request comprises a reserved vehicle and reserved time;

the automobile remote service platform is used for generating an air conditioning regulation instruction and an automobile body equipment temperature regulation instruction according to the reserved time, the position information of the reserved vehicle, the environment information of the reserved vehicle and pre-stored user personalized data, and respectively sending the air conditioning regulation instruction and the automobile body equipment temperature regulation instruction to air conditioning equipment and automobile body control equipment through communication equipment;

the air conditioning equipment is used for adjusting the temperature at a first set time according to the air conditioning adjusting instruction;

the vehicle body control device is used for adjusting the temperature at a second set time according to the vehicle body device temperature adjusting instruction, wherein the vehicle body control device comprises temperature adjusting devices arranged at a seat and a steering wheel.

According to the technical scheme provided by the embodiment, the automobile remote service platform receives the reserved vehicle and the reserved time sent by the client, generates an air conditioning regulation instruction and an automobile body equipment temperature regulation instruction according to the reserved time and by combining position information of the reserved vehicle, environment information of the reserved vehicle, pre-stored user personalized data and other multi-dimensional data, and sends the air conditioning regulation instruction and the automobile body equipment temperature regulation instruction to the air conditioning equipment and the automobile body control equipment respectively, so that the air conditioning equipment regulates the temperature in the automobile to the temperature which is most used by a user according to the air conditioning regulation instruction, and the automobile body control equipment regulates the temperature of a seat and a steering wheel to the temperature which is most used by the user according to the automobile body equipment temperature regulation instruction. When having solved among the prior art mediation air conditioner temperature, seat temperature and steering wheel temperature, need many times remote operation's problem, reach and only need acquire reservation setting at the customer end, car remote service platform just can adjust the purpose of the temperature of a plurality of equipment such as air conditioner, seat and steering wheel according to the data remote control of a plurality of dimensions, realize improving the systematization and intelligent control's of vehicle effect, and then improve the convenience of user's remote control car.

Drawings

Fig. 1 is a schematic flow chart of a vehicle control method according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of a vehicle control method according to a second embodiment of the present invention;

fig. 3 is a schematic flowchart of a vehicle control method according to a third embodiment of the present invention;

FIG. 4 is a logic diagram of a vehicle control method according to a third embodiment of the present invention;

fig. 5 is a schematic structural diagram of a vehicle control device according to a fourth embodiment of the present invention;

fig. 6 is a schematic structural diagram of a vehicle control system according to a fifth embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a schematic flowchart of a vehicle control method according to an embodiment of the present invention, where the embodiment is applicable to a vehicle remote service platform that adjusts air conditioner temperature and temperature at a seat and a steering wheel according to a reservation request and by combining data of multiple dimensions in the case that the vehicle remote service platform receives login information and the reservation request sent by a client, and the method may be executed by a vehicle control device, where the device may be implemented by software and/or hardware and is generally integrated in the vehicle remote service platform. Referring specifically to fig. 1, the method may include the steps of:

and S110, the automobile remote service platform receives the reservation request sent by the client.

It can be understood that, before the user remotely reserves the vehicle, the user logs in the vehicle reservation software of the client and inputs login information, and if the client is successfully verified, the client receives the reservation request input by the user and sends the reservation request to a vehicle remote Service platform (TSP). Wherein the reservation request includes a reserved vehicle and a reserved time.

Optionally, the client may provide three reservation modes: firstly, setting the appointment time of the day, wherein the appointment time is valid only this time; secondly, setting the appointment time of each day, wherein the appointment time can be repeated and effective; third, a scheduled time for the weekday (e.g., monday to friday) is set, which is repeatable and effective on the weekday. In this embodiment, the client may provide no more than two optional booking times, the two booking times may not be lower than T1 time (e.g. 3 hours), and the booking is advanced by at least T2 time (e.g. 1.5 hours).

And S120, generating an air conditioner adjusting instruction and a vehicle body equipment temperature adjusting instruction by the automobile remote service platform according to the reserved time, the position information of the reserved vehicle, the environment information of the reserved vehicle and the pre-stored user personalized data.

After receiving the reservation request, the automobile remote service platform calls pre-stored user personalized data from the database, obtains the position information of the reserved vehicle from the map software of the reserved vehicle through the communication equipment, reads the environmental information from the weather forecast software according to the position information of the reserved vehicle, and further generates an air conditioner adjusting instruction and an automobile body equipment temperature adjusting instruction according to the information of the multiple dimensions. The air conditioning adjusting instruction is used for adjusting the working state and the working time of the air conditioning equipment, and the vehicle body equipment temperature adjusting instruction is used for adjusting the working state and the working time of the vehicle body equipment.

Optionally, the user personalization data may be air-conditioning personalization data, body equipment personalization data, personal planning data, and in-vehicle environment personalization data. The air conditioner personalized data comprise at least one of personalized temperature, air volume mode and blowing mode; the personalized data of the vehicle body equipment comprises a seat working mode and a steering wheel working mode; the personal planning data comprises at least one of a user birthday date, a user current day schedule and user travel planning information; the in-vehicle environment personalized data comprises atmosphere lamp habit data and in-vehicle fragrance habit data. The user personalization data may be history data of the user himself or personalization data of the vehicle when leaving the factory for reservation.

Specifically, after receiving the reservation request, the automobile remote service platform calls pre-stored air conditioner personalized data and automobile body equipment personalized data from a database, determines data such as personalized temperature, air volume mode, blowing mode and the like of a user, and determining a seat working mode and a steering wheel working mode, sending position information and environment information to an automobile remote service platform by map software and weather forecast software of the reserved vehicle through communication equipment, determining data such as the external temperature of the vehicle, the internal temperature of the vehicle, weather information and air quality information of the reserved vehicle at the position of the reserved vehicle by the automobile remote service platform according to data such as reserved time, the position information and the environment information, and generating an air conditioning regulation instruction for the air conditioning equipment and a vehicle body equipment temperature regulation instruction for the vehicle body equipment by combining the user personalized data.

S130, the automobile remote service platform sends the air conditioning adjusting instruction and the automobile body equipment temperature adjusting instruction to the air conditioning equipment and the automobile body control equipment through the communication equipment respectively, so that the air conditioning equipment adjusts the temperature at the first set time according to the air conditioning adjusting instruction, and the automobile body control equipment adjusts the temperature at the second set time according to the automobile body equipment temperature adjusting instruction.

Wherein the vehicle body control apparatus includes a temperature adjusting apparatus provided at a seat and a steering wheel. The temperature regulating device can be a heating resistance wire or other heating devices. It can be understood that after receiving the air conditioning adjustment instruction and the vehicle body equipment temperature adjustment instruction, the vehicle remote service platform sends the air conditioning adjustment instruction and the vehicle body equipment temperature adjustment instruction to the air conditioning equipment and the temperature adjustment equipment arranged at the seat and the steering wheel respectively, so that the air conditioning equipment and the temperature adjustment equipment arranged at the seat and the steering wheel respectively analyze the air conditioning adjustment instruction and the vehicle body equipment temperature adjustment instruction, the air conditioning equipment determines the working state and the first set time according to the analysis result, adjusts the temperature at the first set time, the temperature adjustment equipment arranged at the seat and the steering wheel determines the working mode and the second set time according to the analysis result, and adjusts the temperature of the seat and the steering wheel to the temperature value which is used by a user at the second set time.

Explaining the steps exemplarily, the automobile remote service platform starts timing after receiving the reservation request, reads the position information of the reserved vehicle and the environment information inside and outside the vehicle including the position of the reserved vehicle, the temperature outside the vehicle and the temperature inside the vehicle through the communication device at the time T2 before the reservation time, and reads the weather information and the air quality information through the communication device in combination with the position of the reserved vehicle. If the automobile remote service platform determines that the reserved vehicle is located indoors but not outdoors, the weather information of the vehicle is ignored, and only the air quality information is reserved. Further, the automobile remote service platform calculates the air conditioner early-starting time T3(T3< T2) according to the internal and external temperatures of the reserved vehicle from the reserved time to the time T2 and by combining the air conditioner personalized data of the user in different temperature states, controls the air conditioner to adjust the temperature to the air conditioner personalized data at the time T3, ensures that the air conditioner temperature of the reserved vehicle can reach the temperature state which is most used by the user when the user uses the vehicle, and receives a signal of the reserved vehicle when the user opens the door of the reserved vehicle by carrying a key, and controls the air conditioner to adjust the air volume mode and the air blowing mode to the setting state which is used by the user. In addition, when the automobile remote service platform controls the vehicle body control device, the automobile remote service platform can calculate the early opening time Tx (Tx < T2) of the temperature adjusting devices arranged at the seat and the steering wheel according to the inside and outside temperatures of the reserved vehicle from the reserved time to the time T2 and by combining the personalized data of the vehicle body devices of the user in different temperature states, control the temperature adjusting devices arranged at the seat and the steering wheel to adjust the temperatures to the personalized data of the vehicle body devices at the time Tx and ventilate the seat, and ensure that the temperatures of the seat and the steering wheel of the reserved vehicle can reach the temperature state most used by the user when the user uses the vehicle.

According to the technical scheme provided by the embodiment, the automobile remote service platform receives the reserved vehicle and the reserved time sent by the client, generates an air conditioning regulation instruction and an automobile body equipment temperature regulation instruction according to the reserved time and by combining position information of the reserved vehicle, environment information of the reserved vehicle, pre-stored user personalized data and other multi-dimensional data, and sends the air conditioning regulation instruction and the automobile body equipment temperature regulation instruction to the air conditioning equipment and the automobile body control equipment respectively, so that the air conditioning equipment regulates the temperature in the automobile to the temperature which is most used by a user according to the air conditioning regulation instruction, and the automobile body control equipment regulates the temperature of a seat and a steering wheel to the temperature which is most used by the user according to the automobile body equipment temperature regulation instruction. When having solved among the prior art mediation air conditioner temperature, seat temperature and steering wheel temperature, need many times remote operation's problem, reach and only need acquire reservation setting at the customer end, car remote service platform just can adjust the purpose of the temperature of a plurality of equipment such as air conditioner, seat and steering wheel according to the data remote control of a plurality of dimensions, realize improving the systematization and intelligent control's of vehicle effect, and then improve the convenience of user's remote control car.

Example two

Fig. 2 is a schematic flow chart of a vehicle control method according to a second embodiment of the present invention. The technical scheme of the embodiment adds a new step on the basis of the embodiment. The method further comprises the following steps: the automobile remote service platform determines whether the user birthday or the user current schedule in the user personalized data is the same as the appointment date or not; if the automobile remote service platform determines that the birthday of the user or the current day schedule of the user is the same as the appointment date, the automobile remote service platform generates a welcome control instruction, the welcome control instruction is sent to entertainment broadcasting equipment and automobile body control equipment through the communication equipment, so that the entertainment broadcasting equipment carries out voice broadcasting according to the welcome control instruction, and the automobile body control equipment adjusts the atmosphere in the automobile at a fourth set time according to atmosphere adjusting information in the welcome control instruction. In the method, reference is made to the above-described embodiments for those parts which are not described in detail. Referring specifically to fig. 2, the method may include the steps of:

s210, the automobile remote service platform receives the reservation request sent by the client.

Wherein the reservation request includes a reserved vehicle and a reserved time.

And S220, the automobile remote service platform generates an air conditioner adjusting instruction and an automobile body equipment temperature adjusting instruction according to the reserved time, the position information of the reserved vehicle, the environment information of the reserved vehicle and the pre-stored user personalized data.

And S230, the automobile remote service platform respectively sends the air conditioning regulation instruction and the automobile body equipment temperature regulation instruction to the air conditioning equipment and the automobile body control equipment through the communication equipment, so that the air conditioning equipment regulates the temperature at a first set time according to the air conditioning regulation instruction, and the automobile body control equipment regulates the temperature at a second set time according to the automobile body equipment temperature regulation instruction.

Wherein the vehicle body control apparatus includes a temperature adjusting apparatus provided at a seat and a steering wheel.

Optionally, the method for determining the first set time and the second time includes: the automobile remote service platform determines the first time according to the in-automobile temperature of the reserved vehicle, the first target temperature, the reserved time and the power of the air conditioning equipment; and the automobile remote service platform determines the second time according to the temperature data of the seat and the steering wheel, the second target temperature, the reserved time and the power of the automobile body control equipment.

Specifically, for the determination process of the first time, the automobile remote service platform receives the in-vehicle temperature of the reserved vehicle through the communication equipment, calculates the air-conditioning temperature difference according to the personalized temperature (namely, a first target temperature) included in the air-conditioning personalized data, calculates the first time according to the air-conditioning temperature difference and combines the power of the air-conditioning equipment and the reserved time, and then obtains the T3 time; for the second time determination process, the vehicle remote service platform receives the temperature data of the seat and the steering wheel through the communication equipment, calculates the temperature difference of the temperature adjustment equipment arranged at the seat and the steering wheel according to the individualized temperatures of the seat and the steering wheel (namely, a second target temperature), and calculates the second time by combining the reservation time and the power of the vehicle body control equipment, namely obtaining Tx time.

As described in the foregoing embodiment, the automobile remote service platform may generate an air conditioning adjustment instruction according to information of multiple dimensions, and control the air conditioning device to adjust the temperature. In this embodiment, the automobile remote service platform may further determine environment quality data according to the reserved time and the position information of the reserved vehicle, generate an in-vehicle air filtering instruction according to the environment quality data, and send the in-vehicle air filtering instruction to the air conditioning equipment through the communication device, so that the air conditioning equipment filters the in-vehicle air of the reserved vehicle at a third set time according to the in-vehicle air filtering instruction. Alternatively, the third setting time may be determined according to data such as a reserved time, environmental quality data, and power of the air conditioner.

Illustratively, the automobile remote service platform receives position information of a reserved vehicle sent by map software through the communication equipment, inquires environment quality data of the position of the reserved vehicle at T2 time, if PM2.5 is higher than a certain threshold value, the PM2.5 filtering mode and the plasma/negative ion filtering mode are started at T4 time before reservation, and filtering is closed at T5 time before reservation, namely the third set time is T4-T5, an air filtering instruction is generated according to the information, the air filtering instruction in the automobile is sent to the air conditioning equipment through the communication equipment, and the PM2.5, the plasma/negative ion and the like of the reserved vehicle are filtered by the air conditioning equipment in T4-T5 time after the air filtering instruction. Through the mode, when the user can use the reserved vehicle, the reserved vehicle can provide a good environment in the vehicle for the user, and the vehicle using experience of the user is further improved.

S240, the automobile remote service platform determines whether the user personalized data is the same as the reservation date according to the reservation request.

And S250, if the automobile remote service platform determines that the user personalized data is the same as the appointment date, the automobile remote service platform generates a guest-greeting control instruction, and the guest-greeting control instruction is sent to the entertainment broadcasting equipment and the automobile body control equipment through the communication equipment, so that the entertainment broadcasting equipment broadcasts according to the guest-greeting control instruction, and the automobile body control equipment adjusts the atmosphere in the automobile at a fourth set time according to the guest-greeting control instruction.

In order to meet the personalized welcome demand of the user, after receiving the appointment request, the automobile remote service platform can call the birthday date, the current day schedule and the travel plan information of the user from the database, and if the birthday date, the current day schedule or the travel plan information of the user are the same as the appointment date, the personalized welcome service can be provided for the user, and the vehicle using experience of the user is improved. Alternatively, the fourth setting time may be determined by the automobile remote service platform according to the reservation time, the atmosphere lamp habit data and the in-vehicle fragrance habit data.

Illustratively, after receiving the reservation request, the automobile remote service platform reads the birthday date of the user, the current day schedule of the user, the travel plan information of the user, the atmosphere lamp habit data, the in-automobile fragrance habit data and the like from the database, and generates the welcome control instruction according to the read data. If the automobile remote service platform determines that the birthday date of the user is the same as the appointment date, the welcome control instruction is sent to the entertainment broadcasting equipment and the automobile body control equipment through the communication equipment, and when the user opens the door of the appointment vehicle with a key and enters the appointment vehicle, the entertainment broadcasting equipment actively broadcasts a birthday blessing video according to the welcome control instruction; if the automobile remote service platform determines that the current day schedule of the user is the same as the appointment date, the welcome control instruction is sent to the entertainment broadcasting equipment through the communication equipment, and when the user opens the door of the appointed vehicle with a key, enters the appointed vehicle and completes power-on, the entertainment broadcasting equipment actively carries out voice broadcasting according to the welcome control instruction; if the automobile remote service platform determines that the user travel planning information is the same as the reservation date, the welcome control instruction is sent to the entertainment broadcasting equipment through the communication equipment, when the user carries a key to open a door of the reserved vehicle, the reserved vehicle enters the reserved vehicle and the electrification is completed, the entertainment broadcasting equipment automatically activates map software, the vehicle body control equipment actively adjusts the atmosphere lamp to the color and the fragrance favored by the user at the fourth time according to the welcome control instruction, and the fragrance is adjusted to the taste favored by the user.

According to the technical scheme, the automobile remote service platform adjusts the temperature of the air conditioner and the temperature of the seat and the steering wheel according to the data of multiple dimensions, determines the environmental quality data by combining the position information and generates the air filtering instruction in the automobile, so that the air conditioning equipment filters the air of the reserved automobile according to the air filtering instruction in the automobile, and good environment in the automobile can be provided for a user. In addition, the automobile remote service platform can provide personalized welcome services for the user according to information such as the user birthday date, the user current day schedule and the user travel plan information in the personal plan data, so that the effects of creating personalized and customized automobile internal environment and entertainment services for the user are achieved, and further the convenience of the user for remotely controlling the automobile is improved and the automobile using experience of the user is improved.

EXAMPLE III

Fig. 3 is a schematic flow chart of a vehicle control method according to a third embodiment of the present invention. The technical scheme of the embodiment adds a new step on the basis of the embodiment. The method further comprises the following steps: the automobile remote service platform receives the current battery temperature of the reserved vehicle at a fifth set time and receives the vehicle state of the reserved vehicle sent by the communication equipment; the automobile remote service platform generates a vehicle battery preheating instruction according to the current battery temperature and the vehicle state; the automobile remote service platform sends the vehicle battery preheating instruction to the thermal management control device through the communication device, so that the thermal management control device preheats the battery of the reserved vehicle according to the vehicle battery preheating instruction. In the method, reference is made to the above-described embodiments for those parts which are not described in detail. Referring specifically to fig. 3, the method may include the steps of:

and S310, the automobile remote service platform receives the reservation request sent by the client.

Wherein the reservation request includes a reserved vehicle and a reserved time.

And S320, generating an air conditioner adjusting instruction and a vehicle body equipment temperature adjusting instruction by the automobile remote service platform according to the reserved time, the position information of the reserved vehicle, the environment information of the reserved vehicle and the pre-stored user personalized data.

S330, the automobile remote service platform sends the air conditioning adjusting instruction and the automobile body equipment temperature adjusting instruction to the air conditioning equipment and the automobile body control equipment through the communication equipment respectively, so that the air conditioning equipment adjusts the temperature at the first set time according to the air conditioning adjusting instruction, and the automobile body control equipment adjusts the temperature at the second set time according to the automobile body equipment temperature adjusting instruction.

Wherein the vehicle body control apparatus includes a temperature adjusting apparatus provided at a seat and a steering wheel.

And S340, the automobile remote service platform receives the current battery temperature of the reserved vehicle at the fifth set time and receives the vehicle state of the reserved vehicle sent by the communication equipment.

And S350, the automobile remote service platform generates a vehicle battery preheating instruction according to the current battery temperature and the vehicle state.

And S360, the automobile remote service platform sends the vehicle battery preheating instruction to the thermal management control equipment through the communication equipment, so that the thermal management control equipment preheats the battery of the reserved vehicle according to the vehicle battery preheating instruction.

Alternatively, the fifth set time may be set when the vehicle leaves the factory. The vehicle state may include information such as a remaining power of a power battery of the reserved vehicle and a connection state of an ac charging gun. Specifically, the method for generating the vehicle battery preheating instruction by the automobile remote service platform according to the current battery temperature and the vehicle state comprises the following steps: the automobile remote service platform acquires the residual battery capacity and the state of a charging gun in the vehicle state, and determines the temperature difference between the current battery temperature and the target temperature; and generating the vehicle battery preheating instruction according to the battery residual capacity, the charging gun state and the temperature difference, wherein the vehicle battery preheating instruction comprises preheating time and preheating speed. Optionally, the charging gun state includes an ac charging gun connected state and a non-ac charging gun connected state.

Specifically, after receiving the reservation request, the automobile remote service platform starts to receive the current battery temperature, the power battery residual capacity and the connection state of the alternating current charging gun of the reserved vehicle, which are fed back by the communication device, at a time T7 before the reservation (i.e., a fifth set time). If the residual electric quantity of the power battery is higher than the set electric quantity threshold value and the connection state of the alternating current charging gun is in the connection state of the alternating current charging gun, determining the temperature difference between the current battery temperature and the target temperature, and because the battery can be preheated by using the electric quantity of the alternating current charging pile, the automobile remote service platform generates a first vehicle battery preheating instruction according to the residual electric quantity of the battery, the charging gun state and the temperature difference, namely determining a first preheating time and a first preheating speed so that the thermal management control equipment preheats the battery of the reserved vehicle in the first preheating time (for example, T8 time) according to the first vehicle battery preheating instruction; if the residual electric quantity of the power battery is higher than the set electric quantity threshold value and the connection state of the alternating current charging gun is not in the connection state of the alternating current charging gun, in order to reduce the electric quantity consumption of the power battery, the automobile remote service platform generates a second vehicle battery preheating instruction according to the residual electric quantity of the battery, the charging gun state and the temperature difference, namely, a second preheating time and a second preheating speed are determined, so that the thermal management control device preheats the battery of the reserved vehicle at the second preheating time (for example, T9 time) according to the second vehicle battery preheating instruction. Wherein T9< T8< T7. Through the mode, the automobile remote service platform can control the thermal management control equipment to preheat the battery in advance by combining actual conditions such as the current battery temperature and the vehicle state of the reserved vehicle, and the cruising ability of the reserved vehicle is improved.

It can be understood that the automobile remote service platform can simultaneously control and adjust the temperature of the air conditioner, the temperature of the seat and the steering wheel, filter the air in the reserved vehicle, control the broadcast of the entertainment broadcasting device, control the vehicle body control device to adjust the atmosphere in the vehicle and control the battery of the reserved vehicle according to the reservation request. Referring specifically to the logic diagram of one vehicle control method shown in fig. 4. After the user inputs login information and a voice request to the client, the automobile remote service platform reads user personalized data stored in the database in advance and determines the reservation time. The method comprises the steps that information such as position information of a reserved vehicle, environment information of the reserved vehicle, current battery temperature and vehicle state and the like is obtained, an automobile remote service platform simultaneously generates an air conditioning regulating instruction, a vehicle body equipment temperature regulating instruction, an air filtering instruction, a guest greeting control instruction and a vehicle battery preheating instruction according to reserved time, the position information of the reserved vehicle, the environment information of the reserved vehicle, pre-stored user personalized data, the current battery temperature and the vehicle state to generate four personalized control instructions including an in-vehicle temperature requirement, an in-vehicle air quality requirement, a personalized guest greeting requirement and a form efficiency requirement, the automobile remote service platform sends the reserved time and the personalized control instruction to communication equipment, the communication equipment starts a timer to monitor the reserved time state at any time, and if the reserved time state reaches the reserved time, the personalized control instruction is sent to a corresponding execution module, the communication equipment judges whether the execution module can execute the personalized control instruction according to the control request state fed back by each execution module, if so, each execution module correspondingly executes the personalized control instruction and sends a control operation result to the automobile remote service platform through the communication equipment, and the automobile remote service platform feeds back all the control operation results to the client so that the client displays the control operation result; and if the communication equipment determines that the execution module can not execute the personalized control instruction, the execution module feeds back an execution failure prompt to the client.

According to the technical scheme, the automobile remote service platform can adjust the air conditioner temperature and the temperatures of the seat and the steering wheel according to data of multiple dimensions, and the battery of the reserved vehicle is preheated in advance by combining the current battery temperature and the vehicle state of the reserved vehicle, so that the cruising ability of the reserved vehicle is improved. In addition, the automobile remote service platform can simultaneously control the air conditioning temperature, the temperature of the automobile body control equipment, the air filtration, the atmosphere adjustment in the automobile and the preheating of the battery of the reserved automobile in advance according to the reserved time, the position information of the reserved automobile, the environment information of the reserved automobile, the pre-stored user personalized data, the current battery temperature and the automobile state, so that the effect of integrally and intelligently controlling the automobile is achieved.

Example four

Fig. 5 is a schematic structural diagram of a vehicle control device according to a fourth embodiment of the present invention. The device is configured on the automobile remote service platform. Referring to fig. 5, the apparatus includes: a receiving module 41, an adjustment instruction generating module 42 and an adjustment instruction transmitting module 43.

The receiving module 41 is configured to receive a reservation request sent by a client, where the reservation request includes a reserved vehicle and a reserved time; the adjusting instruction generating module 42 is configured to generate an air conditioning adjusting instruction and a vehicle body equipment temperature adjusting instruction according to the reserved time, the position information of the reserved vehicle, the environment information of the reserved vehicle, and pre-stored user personalized data; adjusting instruction sending module 43, be used for respectively will through communications facilities air conditioner adjusting instruction with body equipment temperature regulation instruction sends air conditioning equipment and body controlgear, so that air conditioning equipment basis air conditioner adjusting instruction adjusts the temperature at first settlement time, and makes body controlgear basis body equipment temperature regulation instruction adjusts the temperature at the second settlement time, wherein, body controlgear is including setting up the temperature regulation equipment in seat and steering wheel department.

On the basis of the above technical solutions, the apparatus further includes: an air filtration module; the air filtering module is used for determining environmental quality data according to the reserved time and the position information of the reserved vehicle;

and generating an in-vehicle air filtering instruction according to the environment quality data, and sending the in-vehicle air filtering instruction to the air conditioning equipment through the communication equipment so that the air conditioning equipment filters the in-vehicle air of the reserved vehicle at a third set time according to the in-vehicle air filtering instruction.

On the basis of the above technical solutions, the apparatus further includes: an in-vehicle atmosphere adjusting module; the in-vehicle atmosphere adjusting module is used for determining whether the user personalized data is the same as the reservation date or not according to the reservation request;

and if the user personalized data is the same as the appointment date, the automobile remote service platform generates a guest-greeting control instruction, the guest-greeting control instruction is sent to entertainment broadcasting equipment and the automobile body control equipment through the communication equipment, so that the entertainment broadcasting equipment broadcasts according to the guest-greeting control instruction, and the automobile body control equipment adjusts the atmosphere in the automobile at a fourth set time according to the guest-greeting control instruction.

On the basis of the above technical solutions, the apparatus further includes: a battery preheating module; the battery preheating module is used for receiving the current battery temperature of the reserved vehicle at a fifth set time and receiving the vehicle state of the reserved vehicle sent by the communication equipment;

generating a vehicle battery preheating instruction according to the current battery temperature and the vehicle state;

and sending the vehicle battery preheating instruction to thermal management control equipment through the communication equipment, so that the thermal management control equipment preheats the battery of the reserved vehicle according to the vehicle battery preheating instruction.

On the basis of the technical scheme, the battery preheating module is further used for acquiring the residual electric quantity of the battery and the state of a charging gun in the vehicle state and determining the temperature difference between the current battery temperature and the target temperature;

generating the vehicle battery preheating instruction according to the battery residual capacity, the charging gun state and the temperature difference, wherein the vehicle battery preheating instruction comprises preheating time and preheating speed

On the basis of the above technical solutions, the apparatus further includes: a time determination module; the time determining module is used for determining the first time according to the in-vehicle temperature of the reserved vehicle, a first target temperature, the reserved time and the power of the air conditioning equipment;

and determining the second time according to the temperature data of the seat and the steering wheel, a second target temperature, the reserved time and the power of the vehicle body control equipment.

On the basis of the above technical solutions, the user personalized data includes: air conditioner personalized data, vehicle body equipment personalized data, personal plan data and vehicle internal environment personalized data; wherein the content of the first and second substances,

the air conditioner personalized data comprises at least one of personalized temperature, air volume mode and blowing mode;

the personalized data of the vehicle body equipment comprises a seat working mode and a steering wheel working mode;

the personal planning data comprises at least one of a user birthday date, a user current day schedule and user travel planning information;

the in-vehicle environment personalized data comprises atmosphere lamp habit data and in-vehicle fragrance habit data.

According to the technical scheme provided by the embodiment, the automobile remote service platform receives the reserved vehicle and the reserved time sent by the client, generates an air conditioning regulation instruction and an automobile body equipment temperature regulation instruction according to the reserved time and by combining position information of the reserved vehicle, environment information of the reserved vehicle, pre-stored user personalized data and other multi-dimensional data, and sends the air conditioning regulation instruction and the automobile body equipment temperature regulation instruction to the air conditioning equipment and the automobile body control equipment respectively, so that the air conditioning equipment regulates the temperature in the automobile to the temperature which is most used by a user according to the air conditioning regulation instruction, and the automobile body control equipment regulates the temperature of a seat and a steering wheel to the temperature which is most used by the user according to the automobile body equipment temperature regulation instruction. When having solved among the prior art mediation air conditioner temperature, seat temperature and steering wheel temperature, need many times remote operation's problem, reach and only need acquire reservation setting at the customer end, car remote service platform just can adjust the purpose of the temperature of a plurality of equipment such as air conditioner, seat and steering wheel according to the data remote control of a plurality of dimensions, realize improving the systematization and intelligent control's of vehicle effect, and then improve the convenience of user's remote control car.

EXAMPLE five

Fig. 6 is a schematic structural diagram of a vehicle control system according to a fifth embodiment of the present invention. Referring to fig. 6, the system includes: the system comprises an automobile remote service platform 1, a client 2, communication equipment 3, air conditioning equipment 4 and automobile body control equipment 5.

The client 2 is configured to receive login information and a reservation request input from the outside, and send the login information and the reservation request to the automobile remote service platform 1, where the reservation request includes a reserved vehicle and reserved time;

the automobile remote service platform 1 is used for generating an air conditioning regulation instruction and an automobile body equipment temperature regulation instruction according to the reserved time, the position information of the reserved vehicle, the environment information of the reserved vehicle and pre-stored user personalized data, and respectively sending the air conditioning regulation instruction and the automobile body equipment temperature regulation instruction to air conditioning equipment 4 and automobile body control equipment 5 through communication equipment 3;

the air conditioning equipment 4 is used for adjusting the temperature at a first set time according to the air conditioning adjusting instruction;

and the vehicle body control device 5 is used for adjusting the temperature at a second set time according to the vehicle body device temperature adjusting instruction, wherein the vehicle body control device 5 comprises temperature adjusting devices arranged at a seat and a steering wheel.

On the basis of the above technical solutions, the system further includes: entertainment and broadcasting equipment 6 and thermal management control equipment 7.

The entertainment broadcasting device 6 is configured to receive a guest greeting control instruction generated by the automobile remote service platform 1 through the communication device 3 when the automobile remote service platform 1 determines that the user personalized data is the same as the appointment date, and broadcast the guest greeting control instruction;

and the thermal management control device 7 is used for receiving a vehicle battery preheating instruction sent by the automobile remote service platform 1 through the communication device 3 and preheating the battery of the reserved vehicle according to the vehicle battery preheating instruction.

It should be noted that, in the embodiment of the vehicle control device, the included units and modules are merely divided according to the functional logic, but are not limited to the above division as long as the corresponding functions can be realized; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (7)

1. A vehicle control method characterized by comprising:

the method comprises the steps that an automobile remote service platform receives a reservation request sent by a client, wherein the reservation request comprises a reserved vehicle and reserved time;

the automobile remote service platform generates an air conditioner adjusting instruction and an automobile body equipment temperature adjusting instruction according to the reserved time, the position information of the reserved vehicle, the environment information of the reserved vehicle and pre-stored user personalized data;

the automobile remote service platform sends the air conditioning regulation instruction and the automobile body equipment temperature regulation instruction to air conditioning equipment and automobile body control equipment through communication equipment respectively so that the air conditioning equipment regulates the temperature at a first set time according to the air conditioning regulation instruction and the automobile body control equipment regulates the temperature at a second set time according to the automobile body equipment temperature regulation instruction, wherein the automobile body control equipment comprises temperature regulation equipment arranged at a seat and a steering wheel;

the automobile remote service platform receives the current battery temperature of the reserved vehicle at a fifth set time and receives the vehicle state of the reserved vehicle sent by the communication equipment;

the automobile remote service platform generates a vehicle battery preheating instruction according to the current battery temperature and the vehicle state;

the automobile remote service platform sends the vehicle battery preheating instruction to a thermal management control device through the communication device, so that the thermal management control device preheats the battery of the reserved vehicle according to the vehicle battery preheating instruction;

the automobile remote service platform generates a vehicle battery preheating instruction according to the current battery temperature and the vehicle state, and the method comprises the following steps:

the automobile remote service platform acquires the residual battery capacity and the state of a charging gun in the vehicle state, and determines the temperature difference between the current battery temperature and the target temperature;

generating a vehicle battery preheating instruction according to the battery residual capacity, the charging gun state and the temperature difference, wherein the vehicle battery preheating instruction comprises preheating time and preheating speed;

the method for determining the first set time and the second set time comprises the following steps:

the automobile remote service platform determines the first set time according to the in-automobile temperature of the reserved vehicle, the first target temperature, the reserved time and the power of the air conditioning equipment;

and the automobile remote service platform determines the second set time according to the temperature data of the seat and the steering wheel, the second target temperature, the reserved time and the power of the automobile body control equipment.

2. The method of claim 1, further comprising:

the automobile remote service platform determines environmental quality data according to the reserved time and the position information of the reserved vehicle;

the automobile remote service platform generates an in-automobile air filtering instruction according to the environment quality data, and sends the in-automobile air filtering instruction to the air conditioning equipment through the communication equipment, so that the air conditioning equipment filters the in-automobile air of the reserved automobile at a third set time according to the in-automobile air filtering instruction.

3. The method of claim 1, further comprising:

the automobile remote service platform determines whether the user personalized data is the same as the reservation time according to the reservation request;

if the automobile remote service platform determines that the user personalized data is the same as the appointment time, the automobile remote service platform generates a guest-welcoming control instruction, the guest-welcoming control instruction is sent to entertainment broadcasting equipment and the automobile body control equipment through the communication equipment, so that the entertainment broadcasting equipment broadcasts according to the guest-welcoming control instruction, and the automobile body control equipment adjusts the atmosphere in the automobile at a fourth set time according to the guest-welcoming control instruction.

4. The method of claim 1, wherein the user personalization data comprises: air conditioner personalized data, vehicle body equipment personalized data, personal plan data and vehicle internal environment personalized data; wherein the content of the first and second substances,

the air conditioner personalized data comprises at least one of personalized temperature, air volume mode and blowing mode;

the personalized data of the vehicle body equipment comprises a seat working mode and a steering wheel working mode;

the personal planning data comprises at least one of a user birthday date, a user current day schedule and user travel planning information;

the in-vehicle environment personalized data comprises atmosphere lamp habit data and in-vehicle fragrance habit data.

5. A vehicle control apparatus, configured for an automotive remote service platform, the apparatus comprising:

the system comprises a receiving module, a sending module and a processing module, wherein the receiving module receives a reservation request sent by a client, and the reservation request comprises a reserved vehicle and reserved time;

the adjustment instruction generation module is used for generating an air conditioner adjustment instruction and a vehicle body equipment temperature adjustment instruction according to the reserved time, the position information of the reserved vehicle, the environment information of the reserved vehicle and pre-stored user personalized data;

the adjusting instruction sending module is used for sending the air conditioning adjusting instruction and the vehicle body equipment temperature adjusting instruction to air conditioning equipment and vehicle body control equipment through communication equipment respectively so that the air conditioning equipment adjusts the temperature at a first set time according to the air conditioning adjusting instruction and the vehicle body control equipment adjusts the temperature at a second set time according to the vehicle body equipment temperature adjusting instruction, wherein the vehicle body control equipment comprises temperature adjusting equipment arranged at a seat and a steering wheel;

the battery preheating module is used for receiving the current battery temperature of the reserved vehicle at a fifth set time and receiving the vehicle state of the reserved vehicle sent by the communication equipment; generating a vehicle battery preheating instruction according to the current battery temperature and the vehicle state; sending the vehicle battery preheating instruction to thermal management control equipment through the communication equipment so that the thermal management control equipment preheats the battery of the reserved vehicle according to the vehicle battery preheating instruction;

the battery preheating module is further used for acquiring the residual battery capacity and the charging gun state in the vehicle state and determining the temperature difference between the current battery temperature and the target temperature; generating a vehicle battery preheating instruction according to the battery residual capacity, the charging gun state and the temperature difference, wherein the vehicle battery preheating instruction comprises preheating time and preheating speed;

wherein the apparatus further comprises: a time determination module; the time determining module is used for determining the first set time according to the in-vehicle temperature of the reserved vehicle, the first target temperature, the reserved time and the power of the air conditioning equipment;

the time determination module is further configured to determine the second set time according to the temperature data of the seat and the steering wheel, a second target temperature, the reserved time, and the power of the vehicle body control device.

6. A vehicle control system, characterized by comprising: the system comprises an automobile remote service platform, a client, communication equipment, air conditioning equipment and automobile body control equipment; wherein the content of the first and second substances,

the client is used for receiving login information and a reservation request input from the outside and sending the login information and the reservation request to the automobile remote service platform, wherein the reservation request comprises a reserved vehicle and reserved time;

the automobile remote service platform is used for generating an air conditioning regulation instruction and an automobile body equipment temperature regulation instruction according to the reserved time, the position information of the reserved vehicle, the environment information of the reserved vehicle and pre-stored user personalized data, and respectively sending the air conditioning regulation instruction and the automobile body equipment temperature regulation instruction to air conditioning equipment and automobile body control equipment through communication equipment; the automobile remote service platform is further used for receiving the current battery temperature of the reserved vehicle at a fifth set time, receiving the vehicle state of the reserved vehicle sent by the communication equipment, and generating a vehicle battery preheating instruction according to the current battery temperature and the vehicle state; the automobile remote service platform sends the vehicle battery preheating instruction to the thermal management control equipment through the communication equipment; wherein, the car remote service platform generates the car battery according to the current battery temperature and the vehicle state and preheats the order, including: the automobile remote service platform is further used for obtaining the battery residual capacity and the charging gun state in the vehicle state, determining the temperature difference between the current battery temperature and the target temperature, and generating a vehicle battery preheating instruction according to the battery residual capacity, the charging gun state and the temperature difference, wherein the vehicle battery preheating instruction comprises preheating time and preheating speed;

the air conditioning equipment is used for adjusting the temperature at a first set time according to the air conditioning adjusting instruction;

the vehicle body control equipment is used for adjusting the temperature at a second set time according to the vehicle body equipment temperature adjusting instruction, wherein the vehicle body control equipment comprises temperature adjusting equipment arranged at a seat and a steering wheel;

wherein the vehicle control system further comprises: a thermal management control device; the thermal management control equipment is used for receiving a vehicle battery preheating instruction sent by the automobile remote service platform through the communication equipment and preheating the battery of the reserved vehicle according to the vehicle battery preheating instruction;

the method for determining the first set time and the second set time comprises the following steps: the automobile remote service platform further determines the first set time according to the in-car temperature of the reserved vehicle, the first target temperature, the reserved time and the power of the air conditioning equipment, and the automobile remote service platform determines the second set time according to the temperature data of the seat and the steering wheel, the second target temperature, the reserved time and the power of the automobile body control equipment.

7. The system of claim 6, further comprising:

the entertainment broadcasting equipment is used for receiving a guest greeting control instruction generated by the automobile remote service platform through the communication equipment when the automobile remote service platform determines that the user personalized data is the same as the appointment time, and broadcasting according to the guest greeting control instruction;

and the thermal management control equipment is used for receiving a vehicle battery preheating instruction sent by the automobile remote service platform through the communication equipment and preheating the battery of the reserved vehicle according to the vehicle battery preheating instruction.

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