CN112930008B - Method and system for controlling atmosphere lamp in vehicle - Google Patents

Abstract

The application discloses an in-vehicle atmosphere lamp control method and system for guiding a user in a vehicle to adjust the breathing state by controlling the atmosphere lamp in the vehicle, so as to ensure the breathing health of the user in the vehicle. The method comprises the following steps: monitoring respiratory state information of a target user in a vehicle; if the breathing state information indicates that the breathing state of the target user is abnormal, determining target working parameters of atmosphere lamps in the vehicle based on an auxiliary breathing strategy corresponding to the breathing state information; and controlling the atmosphere lamp to work according to the target working parameters so as to guide the target user to adjust the breathing state of the target user.

Description

Method and system for controlling atmosphere lamp in vehicle

Technical Field

The application relates to the technical field of vehicles, in particular to a method and a system for controlling atmosphere lamps in a vehicle.

Background

As people stay in vehicles for an increasing time, vehicles have become a third living space in addition to home and companies, and there is an increasing demand for comfort in vehicles. Respiratory health is one of the most intuitive feelings of people on comfort in a car.

Therefore, a solution is needed that can ensure the respiratory health of people in a vehicle.

Disclosure of Invention

The embodiment of the application provides a control method and a system for an atmosphere lamp in a vehicle, which are used for guiding a user in the vehicle to adjust the breathing state by controlling the atmosphere lamp in the vehicle and ensuring the breathing health of the user in the vehicle.

In order to solve the technical problems, the following technical solutions are adopted in the embodiments of the present application:

according to a first aspect of embodiments of the present application, there is provided an in-vehicle atmosphere lamp control method, including:

monitoring respiratory state information of a target user in a vehicle;

if the breathing state information indicates that the breathing state of the target user is abnormal, determining target working parameters of atmosphere lamps in the vehicle based on an auxiliary breathing strategy corresponding to the breathing state information;

and controlling the atmosphere lamp to work according to the target working parameters so as to guide the target user to adjust the breathing state of the target user.

According to a second aspect of embodiments of the present application, there is provided an in-vehicle atmosphere lamp control system, including:

an atmosphere lamp provided in the vehicle;

a respiration state monitoring device for monitoring respiration state information of a target user in a vehicle;

And the vehicle-mounted system is used for determining target working parameters of atmosphere lamps in the vehicle based on the auxiliary breathing strategy corresponding to the breathing state information when the breathing state information indicates that the breathing state of the target user is abnormal, and controlling the atmosphere lamps to work according to the target working parameters so as to guide the target user to adjust the breathing state of the target user.

The above-mentioned at least one technical scheme that this application embodiment adopted can reach following beneficial effect:

by monitoring the breathing state information of the target user in the vehicle, when the breathing state information indicates that the breathing state of the target user is abnormal, the atmosphere lamp in the vehicle is controlled to work with corresponding target working parameters based on the auxiliary breathing strategy corresponding to the breathing state information so as to guide the target user to adjust the breathing state of the target user. Therefore, the atmosphere lamp in the vehicle can be automatically controlled to work according to the breathing state of the user, the effect of the atmosphere lamp is bound with the current breathing state of the user, and the user is guided to adjust the breathing state, so that the breathing health of the user in the vehicle is guaranteed. Meanwhile, the interest of the atmosphere lamp in the vehicle is also increased.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:

fig. 1 is a schematic flow chart of a method for controlling an in-vehicle atmosphere lamp according to an exemplary embodiment of the present application;

fig. 2 is a schematic flow chart of a method for controlling an in-vehicle atmosphere lamp according to another exemplary embodiment of the present application;

fig. 3 is a schematic flow chart of a method for controlling an in-vehicle atmosphere lamp according to another exemplary embodiment of the present application;

fig. 4 is a flowchart of a method for controlling an in-vehicle atmosphere lamp according to another exemplary embodiment of the present application;

fig. 5 is a flowchart of a method for controlling an in-vehicle atmosphere lamp according to another exemplary embodiment of the present application;

fig. 6 is a flowchart of a method for controlling an in-vehicle atmosphere lamp according to another exemplary embodiment of the present application;

FIG. 7 is a schematic block diagram of an in-vehicle atmosphere lamp control system according to an exemplary embodiment of the present application;

FIG. 8 is a schematic block diagram of an in-vehicle atmosphere lamp control system provided in accordance with another exemplary embodiment of the present application;

Fig. 9 is a schematic interaction diagram between modules in an in-vehicle atmosphere lamp control system according to an exemplary embodiment of the present application.

Detailed Description

For the purposes, technical solutions and advantages of the present application, the technical solutions of the present application will be clearly and completely described below with reference to specific embodiments of the present application and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

In order to ensure the breathing health of a user in a vehicle, the embodiment of the application provides a method and a system for controlling an atmosphere lamp in the vehicle, which are used for controlling the atmosphere lamp in the vehicle to work based on the breathing state of the user in the vehicle so as to guide the user to adjust the breathing state.

The following describes in detail the technical solutions provided by the embodiments of the present application with reference to the accompanying drawings.

Example 1

Referring to fig. 1, a flow chart of a method for controlling an in-vehicle atmosphere lamp according to an exemplary embodiment of the present application is provided, and the method may include the following steps:

S102, monitoring breathing state information of a target user in the vehicle.

The target user may be any user in the vehicle, such as a driver, a passenger located in a co-driver, or a passenger located in a rear seat, and the number of target users may be one or more, which is not limited in the embodiment of the present application.

The respiration state information of the target user may include the number of breaths, the breathing frequency, the degree of the respiration, and the like of the target user. The respiratory state information of the target user may be obtained in any suitable manner. Alternatively, the respiration state information of the target user may be acquired by a respiration state monitoring device, such as a smart wearable device with a respiration monitoring function worn by the target user, or the like.

For example, taking the intelligent wearable device as an example, the intelligent wearable device can communicate with a vehicle machine system of a vehicle through a built-in communication component (such as a Bluetooth communication component and the like), after an atmosphere lamp automatic control function of the vehicle is triggered to be started, the vehicle machine system can trigger the intelligent wearable device to start working, a respiration signal of a target user is acquired in real time through a built-in respiration signal sensing component, current respiration state information of the target user is determined based on the respiration signal of the target user in a preset time period between the current moments, and then the current respiration state information of the target user is transmitted to the vehicle machine system through the communication component. The preset time period may be set in a user-defined manner according to actual needs, for example, the preset time period may be set to 1 minute before the current time.

S104, if the breathing state information of the target user indicates that the breathing state of the target user is abnormal, determining the target working parameters of the atmosphere lamp in the vehicle based on the auxiliary breathing strategy corresponding to the breathing state information of the target user.

After the respiratory state information of the target user is acquired, whether the respiratory state of the target user is abnormal or not may be determined based on the respiratory state information of the target user. For example, if the respiratory rate of the target user exceeds the set rate, an abnormality in the respiratory state of the target user may be determined; if the respiration rate of the target user does not exceed the set frequency, it may be determined that the respiration state of the target user is normal. As another example, if the respiration depth of the target user fluctuates greatly, it may be determined that the respiration state of the target user is abnormal; if the fluctuation of the breathing depth of the target user is small, the breathing state of the target user can be determined to be normal. Of course, it should be appreciated that any other suitable manner of determining whether the breathing state of the target user is abnormal may be employed.

Assisted breathing strategies refer to strategies for guiding a user in the adjustment of the breathing state. The auxiliary breathing strategy may be preset by the user or may be generated based on breathing state information of the target user. Optionally, in order to guide the target user to adjust the breathing state step by step with a relatively suitable rhythm, so as to avoid discomfort caused by the excessively fast adjustment rhythm of the target user, the difference degree between the breathing state information of the target user and the preset normal breathing state information can be determined first, and the auxiliary breathing strategy corresponding to the breathing state information can be determined based on the difference degree. The normal breathing state information refers to state information of the user in a normal breathing state, and may include, but is not limited to, the breathing frequency, the breathing depth degree and the like of the user in the normal breathing state. For example, if the difference between the breathing rate of the target user and the breathing rate in the normal breathing state is large, then the corresponding auxiliary breathing strategy may be determined to guide the slow target user to adjust the breathing rate of the target user; conversely, a corresponding secondary respiratory strategy may be determined to direct the rapid target user to adjust his own respiratory rate.

Subsequently, a target operating parameter of the mood light within the vehicle may be determined in accordance with the assisted breathing strategy, wherein the operating parameter of the mood light may include, for example, but not limited to, at least one of the following: flicker frequency, brightness, color, etc. For example, the target flashing frequency of the atmosphere lamp can be determined according to the breathing rhythm indicated by the auxiliary breathing strategy, so that the atmosphere lamp flashes at the target flashing frequency, and a target user can be guided to breathe according to the breathing rhythm indicated by the auxiliary breathing strategy; and/or, the target brightness of the atmosphere lamp can be determined according to the breathing depth degree indicated by the auxiliary breathing strategy so as to adjust the brightness of the atmosphere lamp to the target brightness, thereby guiding the target user to breathe according to the breathing depth degree indicated by the auxiliary breathing strategy.

In addition, the number of the target users in the vehicle can be multiple, and further, for each target user, an appropriate auxiliary breathing strategy can be selected according to the breathing state information of the target user, and target working parameters of the atmosphere lamp for each target user can be determined based on the selected auxiliary breathing strategy. Of course, in order to distinguish different target users, the atmosphere lamp can be matched with different colors for different target users, so that different target users are guided to adjust the breathing state of the user according to the guidance of the corresponding auxiliary breathing strategy.

And S106, controlling the atmosphere lamp to work according to the target working parameters so as to guide the target user to adjust the breathing state of the target user.

Specifically, the atmosphere lamp can be controlled to flash at the target flashing frequency in the target working parameters so as to guide the target user to adjust the breathing frequency of the target user along with the flashing rhythm of the atmosphere lamp, or the brightness of the atmosphere lamp can be adjusted to the target brightness in the target working parameters so as to guide the target user to adjust the breathing state of the target user according to the breathing depth degree indicated by the brightness of the atmosphere lamp, and the like, so that the breathing state of the target user is recovered to be normal, and the breathing health of the target user is ensured.

In addition, when the number of target users is plural, the target users may be distinguished by different colors, and the atmosphere lamp may be controlled to be sequentially lighted in different colors, so as to sequentially guide the target users to adjust the breathing state of the target users.

By adopting the technical scheme of the embodiment of the application, through monitoring the breathing state information of the target user in the vehicle, when the breathing state information indicates that the breathing state of the target user is abnormal, the atmosphere lamp in the vehicle is controlled to work with corresponding target working parameters based on the auxiliary breathing strategy corresponding to the breathing state information so as to guide the target user to adjust the breathing state of the target user. Therefore, the atmosphere lamp in the vehicle can be automatically controlled to work according to the breathing state of the user, the effect of the atmosphere lamp is bound with the current breathing state of the user, and the user is guided to adjust the breathing state, so that the breathing health of the user in the vehicle is guaranteed. Meanwhile, the interest of the atmosphere lamp in the vehicle is also increased.

Example 2

Referring to fig. 2, a flow chart of a method for controlling an atmosphere lamp in a vehicle according to another exemplary embodiment of the present application is provided, and the embodiment is further improved based on embodiment 1, and the specific improvement is that: before the atmosphere lamp is controlled to work with the target working parameters, the atmosphere lamp is controlled to work for a certain period of time along with the breathing state information of the target user. As shown in fig. 2, the method for controlling an in-vehicle atmosphere lamp in the present embodiment may include the steps of:

s202, monitoring breathing state information of a target user in the vehicle.

S204, if the breathing state information of the target user indicates that the breathing state of the target user is abnormal, determining the working parameters of the atmosphere lamp, which are matched with the breathing state information of the target user.

In an alternative scheme, the working parameters matched with the breathing state information of the target user can be determined based on the mapping relation between the breathing state information and the working parameters of the atmosphere lamp, wherein the mapping relation can be preset by the user according to actual needs.

In particular, the breathing state information includes a breathing frequency and a breathing depth, which may include, for example, but not limited to, a first preset mapping between the breathing frequency and the flicker frequency of the mood light, a second preset mapping between the breathing depth and the brightness of the mood light, and a third preset mapping between the breathing state and the color of the mood light. Accordingly, a flicker frequency of the mood light corresponding to the breathing frequency of the target user may be determined based on the first preset mapping relation, for example, the flicker frequency of the mood light is set to be the same as the breathing frequency of the target user, so that the mood light flicker synchronously with the breathing frequency of the target user; and/or determining the brightness of the atmosphere lamp corresponding to the breath level of the target user based on the second preset mapping relation, for example, if the breath of the target user is shallow, the brightness of the atmosphere lamp is small, otherwise, the brightness of the atmosphere lamp is large, so that the target user notices the breathing mode of the target user; and/or determining, based on the third preset mapping relationship, a color of the atmosphere lamp corresponding to the breathing state of the target user, for example, if the breathing state of the target user is normal, the color of the atmosphere lamp is green, and if the breathing state of the target user is abnormal, the color of the atmosphere lamp is red, so as to remind the target user of paying attention to the current breathing state of the target user.

S206, controlling the atmosphere lamp to work for a first preset time period according to the matched working parameters.

The first preset duration may be preset by the user according to actual needs, for example, the first preset duration may be set to 2 minutes, which is not limited in the embodiment of the present application.

S208, after the atmosphere lamp works for a first preset time period according to the matched working parameters, determining the target working parameters of the atmosphere lamp in the vehicle based on the auxiliary breathing strategy corresponding to the breathing state information of the target user.

S210, controlling the atmosphere lamp to work according to the target working parameters so as to guide the target user to adjust the breathing state of the target user.

For S202, S208 to S210, reference may be made to the technical details of the method for controlling an in-vehicle atmosphere lamp provided in embodiment 1, and the description thereof will not be repeated here.

Therefore, by the method for controlling the atmosphere lamp in the vehicle, when the breathing state of the target user is abnormal, the atmosphere lamp can be controlled to work for the first preset time period with the working parameters matched with the breathing state information of the target user, so that the target user can timely acquire the current breathing state of the target user, and the effect of reminding the target user of carrying out state adjustment is achieved; and then, controlling the atmosphere lamp to work with the target working parameters corresponding to the auxiliary breathing strategy so as to instruct the target user to carry out breathing training along with the guidance of the auxiliary breathing strategy, and playing a role in guiding the target user to adjust the breathing state of the target user. Therefore, compared with a mode of directly controlling the atmosphere lamp to guide the target user to adjust the breathing state, the method has the advantages that the target user is reminded to guide the target user to adjust the breathing state, the target user can adjust the breathing state gradually at a proper rhythm, and discomfort caused by too fast adjusting rhythm of the target user is avoided.

Example 3

Referring to fig. 3, a flow chart of a method for controlling an atmosphere lamp in a vehicle according to another exemplary embodiment of the present application is provided, and the embodiment is further improved based on embodiment 1, and the specific improvement is that: and in the process of controlling the atmosphere lamp to work with the target working parameters, continuously monitoring the breathing state information of the target user, and controlling the atmosphere lamp to work along with the breathing state information of the target user when the breathing following mode is triggered. As shown in fig. 3, the method for controlling an in-vehicle atmosphere lamp in the present embodiment may include the steps of:

s302, monitoring breathing state information of a target user in the vehicle.

S304, if the breathing state information of the target user indicates that the breathing state of the target user is abnormal, determining the target working parameters of the atmosphere lamp in the vehicle based on the auxiliary breathing strategy corresponding to the breathing state information of the target user.

S306, controlling the atmosphere lamp to work according to the target working parameters so as to guide the target user to adjust the breathing state of the target user.

And S308, continuously monitoring the breathing state information of the target user.

For S302 to S308, reference may be made to the technical details described in detail in embodiment 1, and details are not repeated here.

And S310, after the atmosphere lamp works for a second preset time period with the target working parameters, or when the monitored breathing state information indicates that the breathing state of the target user is recovered to be normal, determining the working parameters of the atmosphere lamp, which are matched with the breathing state information of the target user.

And S312, controlling the atmosphere lamp to work according to the matched working parameters.

The second preset duration may be preset by the user according to actual needs, for example, the second preset duration may be set to 5 minutes, which is not limited in the embodiment of the present application.

The specific implementation manner of steps S310 to S312 can be referred to in the technical details described in embodiment 2, and will not be repeated here.

Therefore, according to the method for controlling the atmosphere lamp in the vehicle, after the atmosphere lamp works for the second preset time period with the target working parameters corresponding to the auxiliary breathing strategy, or after the breathing state of the target user is recovered to be normal, the atmosphere lamp is controlled to work with the working parameters matched with the breathing state information of the target user, so that the target user can timely know whether the breathing state of the target user is adjusted in place or not through the working state of the atmosphere lamp after the breathing state of the target user is adjusted according to the guidance of the atmosphere lamp, and further the breathing health of the target user in the vehicle is guaranteed.

Of course, it should be understood that if the monitored respiratory status information indicates that the respiratory status of the target user is still abnormal, the atmosphere lamp may be controlled to continue to operate with the target operating parameter corresponding to the auxiliary respiratory policy, so as to play a role in continuously guiding the target user to adjust the respiratory status of the target user, so that the respiratory status of the target user can be recovered to be normal.

Example 4

Referring to fig. 4, a flow chart of a method for controlling an atmosphere lamp in a vehicle according to another exemplary embodiment of the present application is provided, and the embodiment is further improved based on embodiment 1, and the specific improvement is that: when the breathing state of the target user is abnormal, the target user is guided to adjust the breathing state of the target user by matching with voice prompt. As shown in fig. 4, the in-vehicle atmosphere lamp control method in the present embodiment may include the steps of:

s402, monitoring breathing state information of a target user in the vehicle.

S404, if the breathing state information of the target user indicates that the breathing state of the target user is abnormal, determining the target working parameters of the atmosphere lamp in the vehicle based on the auxiliary breathing strategy corresponding to the breathing state information of the target user.

S406, controlling the atmosphere lamp to work according to the target working parameters so as to guide the target user to adjust the breathing state of the target user.

The specific implementation manner of steps S402 to S406 can be referred to in the technical details described in embodiment 1, and will not be repeated here.

S408, based on the auxiliary breathing strategy, the car machine voice assistant of the control car outputs prompt information, wherein the prompt information is used for prompting a target user to breathe according to the breathing rhythm indicated by the auxiliary breathing strategy.

For example, the auxiliary respiratory strategy is "inhale slowly for 4 seconds, pause for 1 second and exhale slowly", and accordingly, the vehicle voice assistant can be controlled to output the prompt voice of "1-2-3-4 inhale, pause for 1 second and exhale slowly".

Therefore, according to the method for controlling the atmosphere lamp in the vehicle, under the condition that the breathing state of the user is abnormal, the atmosphere lamp in the vehicle is controlled to work according to the target working parameters corresponding to the corresponding auxiliary breathing strategy, the user is guided to adjust the breathing state of the user together with voice prompts, the effect of carrying out breathing training guidance on the user can be enhanced, and the user can be ensured to recover to the normal breathing state.

Example 5

Referring to fig. 5, a flow chart of a method for controlling an atmosphere lamp in a vehicle according to another exemplary embodiment of the present application is provided, and the embodiment is further improved based on embodiment 1, and the specific improvement is that: and when the breathing state of the target user is normal, controlling the atmosphere lamp to work along with the breathing state information of the target user. As shown in fig. 5, the in-vehicle atmosphere lamp control method in the present embodiment may include the steps of:

S502, monitoring breathing state information of a target user in the vehicle.

S504, determining whether the breathing state of the target user is normal or not based on the breathing state information of the target user.

If the respiration state of the target user is abnormal, the following steps S506 to S508 are performed; if the respiration state of the target user is normal, the following steps S510 to S512 are performed.

S506, determining target working parameters of atmosphere lamps in the vehicle based on the auxiliary breathing strategy corresponding to the breathing state information of the target user.

And S508, controlling the atmosphere lamp to work according to the target working parameters so as to guide the target user to adjust the breathing state of the target user.

S510, determining the working parameters of the atmosphere lamp, which are matched with the breathing state information of the target user.

And S512, controlling the atmosphere lamp to work according to the matched working parameters.

The specific implementation manner of each step may refer to the technical details described in detail in each embodiment, which are not described herein.

Therefore, according to the method for controlling the atmosphere lamp in the vehicle, the breathing state information of the target user in the vehicle is monitored, and when the breathing state of the target user is abnormal, the atmosphere lamp in the vehicle is controlled to work according to the corresponding target working parameters based on the auxiliary breathing strategy corresponding to the breathing state information of the target user so as to guide the target user to adjust the breathing state of the target user; and when the breathing state of the target user is normal, the atmosphere lamp is controlled to work with working parameters matched with the breathing state information of the target user, so that the target user can timely acquire the breathing state of the target user. Therefore, the atmosphere lamp in the vehicle can be automatically controlled to work according to the breathing state of the user in the vehicle, the effect of the atmosphere lamp is bound with the current breathing state of the user, the user is guided to keep the normal breathing state, and the breathing health of the user in the vehicle is ensured. Meanwhile, the interest of the atmosphere lamp in the vehicle is also increased.

It should be noted that, the execution subjects of the steps of the method provided in the above embodiments may be the same device, or the method may also be executed by different devices. For example, taking embodiment 1 as an example, the execution subject of steps S102 and S104 may be device 1, and the execution subject of S106 may be device 2; for another example, the execution subject of S102 may be device 1, and the execution subjects of S104 and S106 may be device 2; etc.

Example 6

In order to enable those skilled in the art to more fully understand the technical solution of the embodiments of the present application, the following describes in detail the method for controlling the interior atmosphere lamp according to the embodiments of the present application with reference to a flow diagram in a practical scenario shown in fig. 6. It should be understood that the following scenario is only an exemplary illustration and is not to be construed as limiting the scenario of the method.

Specifically, one practical scenario of the method for controlling an in-vehicle atmosphere lamp provided in the embodiment of the present application is: the target user may operate the on-board system of the vehicle to turn on the automatic control function of the mood light within the vehicle. After the function is started, the vehicle machine system can trigger the intelligent wearing equipment of the target user to start working so as to monitor the breathing state information of the target user and send the breathing state information to the vehicle machine system of the vehicle, and the vehicle machine system can control the atmosphere lamp of the vehicle according to the breathing state information of the target user so as to enable the effect of the atmosphere lamp to be bound with the current breathing state of the user, thereby achieving the purpose of guiding the target user to adjust the breathing state. As shown in fig. 6, a schematic flow chart of the method for controlling an in-vehicle atmosphere lamp according to the embodiment of the present application, which is applied to the above scenario, includes:

S601, the target user turns on an automatic control function for atmosphere lamps in the vehicle using the vehicle system.

S602, the vehicle machine system triggers the intelligent wearable equipment of the target user to monitor the breathing state information of the target user.

S603, the vehicle machine system determines whether the breathing state of the target user is abnormal according to the breathing state information of the target user returned by the intelligent wearable device.

If the respiration state of the target user is abnormal, S604 to S610 are performed; if the respiration state of the target user is normal, S611 to S612 are performed.

S604, the vehicle system determines the working parameters of the atmosphere lamp, which are matched with the breathing state information of the target user.

S605, the vehicle system controls the atmosphere lamp to work according to the matched working parameters.

S606, after the atmosphere lamp works for a first preset time period according to the matched working parameters, the vehicle-mounted system determines the target working parameters of the atmosphere lamp based on the auxiliary breathing strategy corresponding to the breathing state information of the target user.

S607, the vehicle-mounted system controls the atmosphere lamp to work according to the target working parameters so as to guide the target user to adjust the breathing state of the target user.

And S608, the vehicle-mounted system controls the vehicle-mounted voice assistant to output prompt information based on the auxiliary breathing strategy, wherein the prompt information is used for prompting the target user to breathe according to the breathing rhythm indicated by the auxiliary breathing strategy.

S609, after the atmosphere lamp works for a second preset time period with the target working parameters, or when the breathing state information of the target user indicates that the breathing state of the target user is recovered to be normal, the vehicle-mounted system determines the working parameters of the atmosphere lamp, which are matched with the breathing state information of the target user.

S610, the vehicle system controls the atmosphere lamp to work according to the working parameters.

S611, the vehicle system determines the working parameters of the atmosphere lamp, which are matched with the breathing state information of the target user.

And S612, the vehicle system controls the atmosphere lamp to work according to the matched working parameters.

According to the method for controlling the atmosphere lamp in the vehicle, the breathing state information of the target user in the vehicle is monitored, and when the breathing state of the target user is abnormal, the atmosphere lamp in the vehicle is controlled to work with corresponding target working parameters based on the auxiliary breathing strategy corresponding to the breathing state information of the target user so as to guide the target user to adjust the breathing state of the target user; and when the breathing state of the target user is normal, the atmosphere lamp is controlled to work with working parameters matched with the breathing state information of the target user, so that the target user can timely acquire the breathing state of the target user. Therefore, the atmosphere lamp in the vehicle can be automatically controlled to work according to the breathing state of the user in the vehicle, the effect of the atmosphere lamp is bound with the current breathing state of the user, the user is guided to keep the normal breathing state, and the breathing health of the user in the vehicle is ensured. Meanwhile, the interest of the atmosphere lamp in the vehicle is also increased.

Example 7

Based on the same thought, the embodiment of the application also provides an in-vehicle atmosphere lamp control system. Referring to fig. 7, a schematic block diagram of an in-vehicle atmosphere lamp control system according to an exemplary embodiment of the present application is provided. As shown in fig. 7, the system includes an atmosphere lamp 710, a respiration state monitoring device 720, and a vehicle system 730, wherein the atmosphere lamp 710 and the respiration state monitoring device 720 are connected to the vehicle system 730, respectively.

The mood light 710 is disposed within the vehicle and may operate under the control of the vehicle system 730. The atmosphere lamp 710 may be of any suitable type. The atmosphere lamp 710 has a controller and a lighting element built therein, and the controller can receive a control signal transmitted from the vehicle system 730 and control the lighting element to operate based on the control signal.

The respiratory status monitoring device 720 may be used to monitor respiratory status information of a target user within the vehicle.

The vehicle-mounted system 730 may be configured to determine, based on a secondary breathing policy corresponding to the breathing state information, a target working parameter of an atmosphere lamp in the vehicle when the breathing state information indicates that the breathing state of the target user is abnormal, and control the atmosphere lamp to work with the target working parameter, so as to guide the target user to adjust the breathing state of the target user.

In the in-vehicle atmosphere lamp control system, the breathing state monitoring equipment is used for monitoring the breathing state information of the target user in the vehicle, and when the breathing state information indicates that the breathing state of the target user is abnormal, the vehicle machine system controls the atmosphere lamp in the vehicle to work with corresponding target working parameters based on the auxiliary breathing strategy corresponding to the breathing state information so as to guide the target user to adjust the breathing state of the target user. Therefore, the atmosphere lamp in the vehicle can be automatically controlled to work according to the breathing state of the user, the effect of the atmosphere lamp is bound with the current breathing state of the user, and the user is guided to adjust the breathing state, so that the breathing health of the user in the vehicle is guaranteed. Meanwhile, the interest of the atmosphere lamp in the vehicle is also increased.

In order to enable those skilled in the art to better understand the in-vehicle atmosphere lamp control system provided in the embodiments of the present application, the following describes in detail each module and the interaction process between each module in the in-vehicle atmosphere lamp control system provided in the embodiments of the present application with reference to the accompanying drawings.

In the embodiment of the present application, the respiratory status monitoring device 720 may be any device having a respiratory status monitoring function. In an alternative, as shown in fig. 8, the respiratory status monitoring device 720 may include a smart wearable device with a respiratory signal sensing component and a communication component built-in, where the smart wearable device may be communicatively connected to the vehicle system through the communication component. For example, the communication component may be a bluetooth component, whereby the smart wearable device may make a bluetooth connection with the vehicle system. Of course, it should be understood that the communication component may also be any other suitable type of communication component, such as a Wifi (Wireless-Fidelity) component, or the like.

Specifically, as shown in fig. 9, the respiration signal sensing component may acquire a respiration signal of the target user, determine respiration state information of the target user based on the respiration signal of the target user in a preset time before the current moment, and send the respiration state information of the target user to the communication component, and the communication component forwards the respiration state information to the vehicle system. After receiving the breathing state information from the communication component, the vehicle machine system determines a target working parameter of an atmosphere lamp in the vehicle based on a secondary breathing strategy corresponding to the breathing state information if the breathing state information indicates that the breathing state of a target user is abnormal, and generates a corresponding control signal based on the target working parameter and sends the control signal to a controller of the atmosphere lamp. And the controller of the atmosphere lamp controls the lighting element in the atmosphere lamp to work according to the target working parameter based on the received control signal so as to guide the target user to adjust the breathing state of the target user.

Optionally, before determining the target operating parameter of the mood light in the vehicle, the vehicle-mounted system may determine the auxiliary breathing strategy corresponding to the breathing state information of the target user by: determining the difference degree between the breathing state information and preset normal breathing state information, and determining an auxiliary breathing strategy corresponding to the breathing state information based on the difference degree.

Alternatively, the vehicle system may determine the target operating parameters of the atmosphere lamp by: and determining a target flicker frequency of an atmosphere lamp in the vehicle based on the breathing rhythm indicated by the auxiliary breathing strategy.

Further, in order to better guide the target user to adjust the breathing state step by step with a proper rhythm, so as to avoid discomfort of the body caused by too fast adjustment rhythm of the target user, the vehicle-mounted system can also determine the working parameters of the atmosphere lamp, which are matched with the breathing state information, before controlling the atmosphere lamp to work with the target working parameters, and control the atmosphere lamp to work with the matched working parameters for a first preset duration. Correspondingly, after the atmosphere lamp works for the first preset time period with the matched working parameters, the atmosphere lamp is controlled to work with the target working parameters.

Further, in order to enable the target user to timely acquire whether the self breathing state is adjusted in place or not through the working state of the atmosphere lamp after the self breathing state is adjusted according to the guidance of the atmosphere lamp, the breathing state monitoring equipment can continuously monitor the breathing state information of the target user and send the breathing state information to the vehicle-mounted system in the working process of the atmosphere lamp. The vehicle-mounted system can determine the working parameters of the atmosphere lamp, which are matched with the breathing state information, after the atmosphere lamp works for a second preset time period with the target working parameters, or when the monitored breathing state information indicates that the breathing state of the target user is recovered to be normal, and control the atmosphere lamp to work with the matched working parameters.

Further, in order to strengthen the effect of carrying out breathing training guide to the user to ensure that the user can resume normal breathing state, the car machine system can also cooperate the voice prompt to guide the user to adjust self breathing state jointly. Specifically, if the breathing state of the target user is abnormal, the vehicle-mounted system can also control a vehicle-mounted voice assistant of the vehicle to output prompt information based on the auxiliary breathing strategy, wherein the prompt information is used for prompting the target user to breathe according to the breathing rhythm indicated by the auxiliary breathing strategy.

Further, if the respiration state of the target user is normal, the vehicle-mounted system can determine the working parameters of the atmosphere lamp, which are matched with the respiration state information, and control the atmosphere lamp to work with the matched working parameters. Therefore, the atmosphere lamp in the vehicle can be automatically controlled to work according to the breathing state of the user in the vehicle, the effect of the atmosphere lamp is bound with the current breathing state of the user, the user is guided to keep the normal breathing state, and the breathing health of the user in the vehicle is ensured. Meanwhile, the interest of the atmosphere lamp in the vehicle is also increased.

Optionally, the breathing state information includes a breathing frequency and a breathing depth, and the operating parameter of the mood light includes at least one of a flicker frequency, a brightness, and a color of the mood light. The vehicle system may determine the operating parameters of the mood light that match the target user's breathing state information by: determining a flicker frequency of the atmosphere lamp corresponding to the breathing frequency of the target user based on a first preset mapping relation between the breathing frequency and the flicker frequency; and/or determining the brightness of the atmosphere lamp corresponding to the breath level of the target user based on a second preset mapping relation between the breath level and the brightness; and/or determining the color of the atmosphere lamp corresponding to the breathing state indicated by the breathing state information of the target user based on a third preset mapping relation between the breathing state and the color.

The foregoing describes specific embodiments of the present disclosure. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims can be performed in a different order than in the embodiments and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing are also possible or may be advantageous.

In summary, the foregoing description is only a preferred embodiment of the present application, and is not intended to limit the scope of the present application. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

The system, apparatus, module or unit set forth in the above embodiments may be implemented in particular by a computer chip or entity, or by a product having a certain function. One typical implementation is a computer. In particular, the computer may be, for example, a personal computer, a laptop computer, a cellular telephone, a camera phone, a smart phone, a personal digital assistant, a media player, a navigation device, an email device, a game console, a tablet computer, a wearable device, or a combination of any of these devices.

Computer readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of storage media for a computer include, but are not limited to, phase change memory (PRAM), static Random Access Memory (SRAM), dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), read Only Memory (ROM), electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium, which can be used to store information that can be accessed by a computing device. Computer-readable media, as defined herein, does not include transitory computer-readable media (transmission media), such as modulated data signals and carrier waves.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. In particular, for system embodiments, since they are substantially similar to method embodiments, the description is relatively simple, as relevant to see a section of the description of method embodiments.

Claims (7)

1. An in-vehicle atmosphere lamp control method, characterized by comprising:

monitoring respiratory state information of a target user in a vehicle;

if the breathing state information indicates that the breathing state of the target user is abnormal, determining target working parameters of atmosphere lamps in the vehicle based on an auxiliary breathing strategy corresponding to the breathing state information;

controlling the atmosphere lamp to work according to the target working parameters so as to guide the target user to adjust the breathing state of the target user;

after the respiration state information indicates that the respiration state of the target user is abnormal and before the atmosphere lamp is controlled to work with the target operation parameter, the method further comprises:

determining working parameters of the atmosphere lamp, which are matched with the breathing state information;

Controlling the atmosphere lamp to work for a first preset time period according to the matched working parameters;

after the monitoring of the respiration state information of the target user in the vehicle, the method further comprises:

if the breathing state information indicates that the breathing state of the target user is normal, determining working parameters of the atmosphere lamp, which are matched with the breathing state information;

controlling the atmosphere lamp to work according to the matched working parameters;

after said controlling the ambient light to operate at said target operating parameter, the method further comprises:

continuing to monitor the respiration state information of the target user;

after the atmosphere lamp works for a second preset time period with the target working parameters, determining the working parameters of the atmosphere lamp, which are matched with the breathing state information;

and controlling the atmosphere lamp to work according to the matched working parameters.

2. The method of claim 1, wherein the respiratory status information comprises respiratory rate and respiratory effort, and the operating parameters of the mood light comprise at least one of a flicker rate, a brightness, and a color of the mood light;

the determining the working parameters of the atmosphere lamp, which are matched with the breathing state information, comprises the following steps:

Determining a flicker frequency of the atmosphere lamp corresponding to the breathing frequency of the target user based on a first preset mapping relation between the breathing frequency and the flicker frequency; and/or the number of the groups of groups,

determining the brightness of the atmosphere lamp corresponding to the breath level of the target user based on a second preset mapping relation between the breath level and the brightness; and/or the number of the groups of groups,

and determining the color of the atmosphere lamp corresponding to the breathing state indicated by the breathing state information of the target user based on a third preset mapping relation between the breathing state and the color.

3. The method of claim 1, wherein prior to the determining the target operating parameter of the mood light within the vehicle based on the corresponding assisted breathing strategy of the breathing state information, the method further comprises:

determining the degree of difference between the breathing state information and preset normal breathing state information;

based on the degree of difference, a secondary respiratory strategy corresponding to the respiratory state information is determined.

4. The method according to claim 1, wherein in case the respiratory status information indicates that the respiratory status of the target user is abnormal, the method further comprises:

Based on the auxiliary breathing strategy, controlling a vehicle-mounted voice assistant of the vehicle to output prompt information, wherein the prompt information is used for prompting the target user to breathe according to the breathing rhythm indicated by the auxiliary breathing strategy.

5. The method of claim 1, wherein the operating parameters of the atmosphere lamp comprise a flicker frequency of the atmosphere lamp;

the determining the target working parameter of the atmosphere lamp in the vehicle based on the auxiliary breathing strategy corresponding to the breathing state information comprises the following steps:

and determining a target flicker frequency of an atmosphere lamp in the vehicle based on the breathing rhythm indicated by the auxiliary breathing strategy.

6. An in-vehicle atmosphere lamp control system, comprising:

an atmosphere lamp provided in the vehicle;

a respiration state monitoring device for monitoring respiration state information of a target user in a vehicle;

the vehicle-mounted system is used for determining target working parameters of atmosphere lamps in the vehicle based on a secondary breathing strategy corresponding to the breathing state information when the breathing state information indicates that the breathing state of the target user is abnormal, and controlling the atmosphere lamps to work according to the target working parameters so as to guide the target user to adjust the breathing state of the target user;

After the breathing state information indicates that the breathing state of the target user is abnormal, before the atmosphere lamp is controlled to work with the target working parameter, the vehicle-mounted system is further used for:

determining working parameters of the atmosphere lamp, which are matched with the breathing state information;

controlling the atmosphere lamp to work for a first preset time period according to the matched working parameters;

after the monitoring of the respiration state information of the target user in the vehicle, the vehicle-mounted system is further configured to:

if the breathing state information indicates that the breathing state of the target user is normal, determining working parameters of the atmosphere lamp, which are matched with the breathing state information;

controlling the atmosphere lamp to work according to the matched working parameters;

after the controlling the ambient light to operate at the target operating parameter, the vehicle-to-machine system is further configured to:

continuing to monitor the respiration state information of the target user;

after the atmosphere lamp works for a second preset time period with the target working parameters, determining the working parameters of the atmosphere lamp, which are matched with the breathing state information;

and controlling the atmosphere lamp to work according to the matched working parameters.

7. The system of claim 6, wherein the respiratory status monitoring device comprises an intelligent wearable device having a respiratory signal sensing component and a communication component built-in, the intelligent wearable device being communicatively connected to the vehicle system through the communication component;

the respiration signal sensing component is used for acquiring the respiration signal of the target user and determining the respiration state information of the target user based on the respiration signal of the target user in the preset time before the current moment;

the communication component is used for establishing communication connection with the vehicle-mounted system and sending the breathing state information monitored by the breathing signal sensing component to the vehicle-mounted system based on the communication connection.

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