CN112848847A - Automobile fragrance control system and method and vehicle - Google Patents

Abstract

The invention relates to an automobile fragrance control system and method and a related vehicle. An automotive fragrance control system comprising: a fragrance component comprising a plurality of fragrances; an information acquisition device configured to acquire a plurality of parameters relating to an automobile; and a controller configured to control turning on one or more of the fragrances in accordance with a user's setting or in accordance with a plurality of parameters. The automobile fragrance control method comprises the following steps: acquiring a plurality of parameters related to the automobile; and controlling the turning on of one or more of the plurality of fragrances according to a user's setting or according to a plurality of parameters.

Description

Automobile fragrance control system and method and vehicle

Technical Field

The invention relates to the technical field of automobile control, in particular to an automobile fragrance control system, an automobile fragrance control method and a vehicle.

Background

With the development of vehicle-mounted systems and the improvement of vehicle grades, some personalized demand modules are gradually added into the vehicle-mounted systems. For example, some vehicle systems have a fragrance system that can be turned on by a user at any time as desired. Further, some vehicles have multiple fragrance systems that are capable of providing multiple fragrances with different fragrance notes, so that a user may select a desired fragrance note based on his or her preference. However, when using these fragrance systems, it is always necessary for the user to manually operate to turn on/off the fragrance system or to select a scent. If the operation is carried out during the driving, potential safety hazards can be brought, and the selected odor type may not well accord with the current scene.

Disclosure of Invention

Therefore, there is a need for a car fragrance control system and method that can automatically turn on corresponding fragrances according to the current scene and user habits and requirements.

To achieve one or more of the above objects, the present invention provides the following technical solutions.

According to a first aspect of the present invention, there is provided an automotive fragrance control system comprising: a fragrance component comprising a plurality of fragrances; an information acquisition device configured to acquire a plurality of parameters relating to an automobile; and a controller configured to control turning on one or more of the plurality of fragrances according to a user's setting or according to a plurality of parameters.

An automotive fragrance control system according to an embodiment of the present invention, wherein the parameters include one or more of the following: time, outside temperature, geographic location, weather.

According to another embodiment of the invention or any of the above embodiments, the vehicle fragrance control system, wherein the controller is further configured to: controlling the turning on of one or more of the plurality of fragrances based on the combined value of the plurality of parameters.

In accordance with another embodiment of the invention or any one of the above embodiments, the vehicle fragrance control system wherein the combined value of the plurality of parameters is a weighted average of the corresponding values of one or more of the plurality of parameters.

According to another embodiment of the invention or any of the above embodiments, the vehicle fragrance control system, wherein the information acquisition means includes one or more of the following items: thermometer, hygrometer, global positioning device, receiver.

According to a second aspect of the present invention, there is provided an automobile fragrance control method, comprising the steps of: acquiring a plurality of parameters related to the automobile; and controlling the turning on of one or more of the plurality of fragrances according to a user's setting or according to a plurality of parameters.

According to an embodiment of the invention, the vehicle fragrance control method, wherein the parameters comprise one or more of the following items: time, outside temperature, geographic location, weather.

According to another embodiment of the present invention or any one of the above embodiments, the step of controlling the turning on of one or more of the plurality of fragrances according to the plurality of parameters further comprises: controlling the turning on of one or more of the plurality of fragrances based on the combined value of the plurality of parameters.

In accordance with another embodiment of the present invention or any one of the above embodiments, the vehicle fragrance control method wherein the combined value of the plurality of parameters is a weighted average of the corresponding values of one or more of the plurality of parameters.

According to a third aspect of the present invention there is provided a vehicle comprising an automotive fragrance control system according to the first aspect of the present invention.

Drawings

The above and/or other aspects and advantages of the present invention will become more apparent and more readily appreciated from the following description of the various aspects taken in conjunction with the accompanying drawings, in which like or similar elements are designated with like reference numerals. The drawings comprise:

FIG. 1 is a schematic block diagram of an automotive fragrance control system according to one embodiment of the present invention; and

FIG. 2 is a schematic flow chart of a method for controlling fragrance of an automobile according to an embodiment of the present invention.

Detailed Description

In this specification, the invention is described more fully with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown. This invention may, however, be embodied in different forms and should not be construed as limited to the embodiments set forth herein. The embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

Words such as "comprising" and "comprises" mean that, in addition to having elements or steps which are directly and unequivocally stated in the description and the claims, the solution of the invention does not exclude other elements or steps which are not directly or unequivocally stated. Terms such as "first" and "second" do not denote an order of the elements in time, space, size, etc., but rather are used to distinguish one element from another.

The present invention is described below with reference to flowchart illustrations, block diagrams, and/or flow diagrams of methods and systems according to embodiments of the invention. It will be understood that each block of the flowchart illustrations and/or block diagrams, and combinations of blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions/acts specified in the flowchart and/or block and/or flow diagram block or blocks.

These computer program instructions may be loaded onto a computer or other programmable data processor to cause a series of operational steps to be performed on the computer or other programmable processor to produce a computer implemented process such that the instructions which execute on the computer or other programmable processor provide steps for implementing the functions or acts specified in the flowchart and/or block diagram block or blocks. It should also be noted that, in some alternative implementations, the functions/acts noted in the blocks may occur out of the order noted in the flowcharts. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality/acts involved.

FIG. 1 is a schematic block diagram of an automotive fragrance control system according to one embodiment of the present invention. The automotive fragrance control system 100 includes a fragrance component 110, an information acquisition device 120, and a controller 130.

In one embodiment, fragrance component 110 comprises a plurality of fragrances. The fragrance component 110 may be any component that can turn on a corresponding fragrance upon receiving a control instruction. For example, fragrance component 110 may include a plurality of containers containing fragrance and a means for controlling the opening of the containers. In another embodiment, fragrance component 110 may also be a humidifier device that also carries a humidifier function.

The information acquisition device 120 is configured to acquire a plurality of parameters about the automobile. The parameters include one or more of the following: time, outside temperature, geographic location, weather. And then transmits the acquired information to the controller 130. For example, the time that the receiver in the information acquisition device 120 obtains from the in-vehicle system may be 9:00, 15:20, 23:30, and so on. The outside temperature obtained by the vehicle thermometer in the information acquisition device 120 may be 25 ℃,16 ℃, or the like. The geographic position obtained by the global positioning device in the information acquisition device 120 via GPS/GYRO positioning or via 3G or 4G may be a position in a global positioning system represented by longitude and latitude, or may be a parking lot, a restaurant, or a park (e.g., a Shangri-La Hotel, a century park, or the like). The weather information acquired by the receiver in the information acquiring device 120 may be real-time weather conditions (which may not accurately represent the accurate weather conditions of the location of the automobile) obtained by the in-vehicle system via a network access such as a car networking, 3G, 4G, etc., or may be the accurate weather conditions around the automobile obtained by measuring the humidity and temperature outside the automobile by in-vehicle sensors (e.g., a thermometer and a hygrometer).

The controller 130 is configured to control the turning on of one or more of the plurality of fragrances according to a user's settings or according to a plurality of parameters. Generally, the controller 130 controls to turn on one fragrance (i.e., one scent) at a time, but may turn on different fragrances at the same or different locations of the vehicle in some cases to obtain mixed fragrances as needed.

The controller 130 is further configured to control the turning on of one or more of the plurality of fragrances based on the combined value of the plurality of parameters. In particular, the combined value of the plurality of parameters is a weighted average of the corresponding numerical values of one or more of the plurality of parameters.

In one embodiment, the controller 130 may assign respective values to the respective parameters in an aspect. For example, the time values corresponding to times 9:00, 15:20, and 23:30 may be 9.00, 15.20, and 23.30, respectively. Alternatively, a certain period of time may be assigned a corresponding time value, e.g. 3:00-11:00 for 0,16:00-24:00 for 1, and other intervals for 0.5. The value for the off-board temperature may be the value of the temperature itself (e.g., 16 ℃ for 16 temperature values) or the value of the temperature plus a predetermined value (e.g., -2 ℃ for 48 and 16 ℃ for 66) to avoid having the temperature term erased at 0 ℃. Similarly, it is also possible to have temperatures above 26 ℃ corresponding to 0, temperatures below 16 ℃ corresponding to 1, and temperature values in other intervals corresponding to 0.5. The location value corresponding to the geographic location may be associated with a frequency with which the automobile is going to the geographic location, e.g., the location value of the first-reached location is 1, and the location value increases as the number of times to go to the location increases. The weather value corresponding to the weather condition can be divided according to the approximate type of the weather, for example, 1-10% in sunny days, 11-20% in rainy days, 21-30% in snow days, 31-40% in haze, and so on. Also, the low to high temperatures in each weather situation may correspond to the minimum to maximum values in each segment, respectively.

The controller 130 may, on the other hand, assign different weight values to different parameters. For example, assigning a temporal weight value W to time_t(e.g., 0.4) assigning a temperature weight value W to the vehicle exterior temperature_T(e.g., 0.2), assign a location weight value W to the geographic location_l(e.g., 0.2), and assigning a weather weight value W to weather_w(e.g., 0.2).

Then, after the respective parameters have been assigned the corresponding values and weight values, a combined value may be calculated. The calculated combination value may then be used to find the corresponding fragrance type using a lookup method from a predetermined "table-combination value-fragrance type table" and turned on by the controller. Additionally, the controller 130 may segment the combined value and assign corresponding different topic names, e.g., 0-30 for cold, 31-50 for fresh, 51-70 for bright, etc.

In one embodiment, the corresponding values of the respective parameters desired to be taken into account may be directly added and then divided by the number of added values to obtain a combined value. For example, if only temperature and time are considered, the combined value obtained in this scenario at 15:20 and 25 ℃ is 15.20+25= 40.20. Then, the corresponding fragrance (for example, magnolia fragrance) is looked up in the 'combination value-fragrance type table' for the scheme and is turned on.

In another embodiment, a weighted average of the individual parameters may be calculated, i.e. the sum of the products of the values corresponding to the parameters that are desired to be taken into account and their respective weight values divided by the number of added values. For example, if only temperature and time are considered, the combined values obtained in this scenario at 15:20 and 25 ℃ are "time values W_t+ temperature value W_T", i.e. 15.20 × 0.4+25 × 0.2 = 11.8. The corresponding fragrance (e.g., rose fragrance) is then looked up in the "combination value-fragrance type table" for this scheme and turned on.

It is to be noted that the parameter values used for calculating the combined values of the parameters, the weight values corresponding to the respective parameters, and the "combined value — fragrance type table" may be adjusted as needed, without being limited to the examples described in the present disclosure.

The controller 130 may also be configured to turn on one or more of the plurality of fragrances based on the user's settings. The user setting may be to use a particular certain one or more fragrances unchanged, to use a particular certain one or more fragrances in case of a certain parameter, or to use a particular certain one or more fragrances in case of a combined value of a particular parameter.

FIG. 2 is a schematic flow chart of a method for controlling fragrance of an automobile according to an embodiment of the present invention. The automobile fragrance control method comprises the following steps: acquiring a plurality of parameters related to the automobile; and controlling the turning on of one or more of the plurality of fragrances based on the plurality of parameters.

In step S210, a plurality of parameters about the automobile are acquired. The parameters include one or more of the following: time, outside temperature, geographic location, weather. And then transmits the acquired information to the controller 130. For example, the time obtained from the on-board system may be 9:00, 15:20, 23:30, etc. The temperature outside the vehicle can be 25 ℃,16 ℃ and the like. The geographic location may be a location in a global positioning system in terms of longitude and latitude, or may be represented as a parking lot, restaurant, park (e.g., a Shangri-La hotel, century park, etc.). The weather information can be real-time weather conditions (which may not accurately represent the accurate weather conditions of the position of the automobile) obtained by the vehicle-mounted system through network approaches such as internet of vehicles, 3G, 4G and the like, and can also be the accurate weather conditions around the automobile obtained by measuring the humidity and the temperature outside the automobile.

In step S230, one or more of the plurality of fragrances are controlled to be turned on according to the user' S settings or according to a plurality of parameters. Typically, one fragrance (i.e., one scent) is controlled to be turned on at a time, but in some cases, different fragrances may be turned on at the same or different locations of the vehicle to obtain a mixed fragrance as desired.

Optionally, in step S220, a combination value of a plurality of parameters is also calculated, and one or more of the plurality of fragrances are controlled to be turned on according to the combination value of the plurality of parameters. In particular, the combined value of the plurality of parameters is a weighted average of the corresponding numerical values of one or more of the plurality of parameters.

In an optional step S220, respective parameters are assigned corresponding values on the one hand. For example, the time values corresponding to times 9:00, 15:20, and 23:30 may be 9.00, 15.20, and 23.30, respectively. Alternatively, a certain period of time may be assigned a corresponding time value, e.g. 3:00-11:00 for 0,16:00-24:00 for 1, and other intervals for 0.5. The value for the off-board temperature may be the value of the temperature itself (e.g., 16 ℃ for 16 temperature values) or the value of the temperature plus a predetermined value (e.g., -2 ℃ for 48 and 16 ℃ for 66) to avoid having the temperature term erased at 0 ℃. Similarly, it is also possible to have temperatures above 26 ℃ corresponding to 0, temperatures below 16 ℃ corresponding to 1, and temperature values in other intervals corresponding to 0.5. The location value corresponding to the geographic location may be associated with a frequency with which the automobile is going to the geographic location, e.g., the location value of the first-reached location is 1, and the location value increases as the number of times to go to the location increases. The weather value corresponding to the weather condition can be divided according to the approximate type of the weather, for example, 1-10% in sunny days, 11-20% in rainy days, 21-30% in snow days, 31-40% in haze, and so on. Also, the low to high temperatures in each weather situation may correspond to the minimum to maximum values in each segment, respectively.

In another aspect, different weight values may be assigned to different parameters. For example, assigning a temporal weight value W to time_t(e.g., 0.4) assigning a temperature weight value W to the vehicle exterior temperature_T(e.g., 0.2), assign a location weight value W to the geographic location_l(e.g., 0.2), and assigning a weather weight value W to weather_w(e.g., 0.2).

Then, after the respective parameters have been assigned the corresponding values and weight values, a combined value may be calculated. The calculated combination value may then be subsequently turned on using a look-up method to find the corresponding fragrance type in table 1 above, which is predetermined. Additionally, the combined value may be segmented and assigned to corresponding different topic names, e.g., 0-30 for cold, 31-50 for fresh, 51-70 for bright, etc. The subject name is then optionally associated with a different scent.

In one embodiment, the corresponding values of the respective parameters desired to be taken into account may be directly added and then divided by the number of added values to obtain a combined value. For example, if only temperature and time are considered, the combined value obtained in this scenario at 15:20 and 25 ℃ is 15.20+25= 40.20. The corresponding fragrance (e.g., magnolia) is then looked up in table 1 for this scheme and turned on.

In another embodiment, a weighted average of the various parameters may be calculatedI.e. the sum of the products of the values corresponding to the parameters that are desired to be taken into account and their respective weight values, divided by the number of added values. For example, if only temperature and time are considered, the combined values obtained in this scenario at 15:20 and 25 ℃ are "time values W_t+ temperature value W_T", i.e. 15.20 × 0.4+25 × 0.2 = 11.8. The corresponding fragrance (e.g., rose fragrance) is then looked up in table 1 for this scheme and turned on.

It is to be noted that the parameter values used for calculating the combined values of the parameters, the weight values corresponding to the respective parameters, and table 1 may be adjusted as needed, without being limited to the examples described in the present disclosure.

One or more of the plurality of fragrances may also be turned on based on user settings. The user setting may be to use a particular certain one or more fragrances unchanged, to use a particular certain one or more fragrances in case of a certain parameter, or to use a particular certain one or more fragrances in case of a combined value of a particular parameter.

According to a third aspect of the invention, there is provided a vehicle comprising an automotive fragrance control system according to the invention.

The embodiments and examples set forth herein are presented to best explain the embodiments in accordance with the present technology and its particular application and to thereby enable those skilled in the art to make and utilize the invention. However, those skilled in the art will recognize that the foregoing description and examples have been presented for the purpose of illustration and example only. The description as set forth is not intended to cover all aspects of the invention or to limit the invention to the precise form disclosed.

Claims (10)

1. An automotive fragrance control system, comprising:

a fragrance component comprising a plurality of fragrances;

an information acquisition device configured to acquire a plurality of parameters regarding the automobile; and

a controller configured to control turning on one or more of the plurality of fragrances in accordance with a user's setting or in accordance with the plurality of parameters.

2. The automotive fragrance control system of claim 1, wherein the parameters include one or more of:

time, outside temperature, geographic location, weather.

3. The automotive fragrance control system of claim 1, wherein the controller is further configured to:

controlling the turning on of one or more of the plurality of fragrances based on the combined value of the plurality of parameters.

4. The automotive fragrance control system of claim 3, wherein the combined value of the plurality of parameters is a weighted average of corresponding numerical values of one or more of the plurality of parameters.

5. The automotive fragrance control system of claim 1, wherein the information acquisition device comprises one or more of:

thermometer, hygrometer, global positioning device, receiver.

6. A method for controlling fragrance in an automobile, comprising the steps of:

obtaining a plurality of parameters about the vehicle; and

controlling turning on one or more of the plurality of fragrances according to a user's settings or according to the plurality of parameters.

7. The automotive fragrance control method of claim 6, wherein the parameters include one or more of:

time, outside temperature, geographic location, weather.

8. The automotive fragrance control method of claim 6, wherein the step of controlling the turning on of one or more of the plurality of fragrances as a function of the plurality of parameters further comprises:

controlling the turning on of one or more of the plurality of fragrances based on the combined value of the plurality of parameters.

9. The automobile fragrance control method of claim 8, wherein the combined value of the plurality of parameters is a weighted average of corresponding numerical values of one or more of the plurality of parameters.

10. A vehicle comprising the automotive fragrance control system of any of claims 1-5.

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