CN112026687B

CN112026687B - Device and method for detecting state before and after body center adjustment movement in vehicle

Info

Publication number: CN112026687B
Application number: CN202010678572.0A
Authority: CN
Inventors: 丁磊; 安健; 曹皖新
Original assignee: Human Horizons Shanghai Internet Technology Co Ltd
Current assignee: Human Horizons Shanghai Internet Technology Co Ltd
Priority date: 2020-07-15
Filing date: 2020-07-15
Publication date: 2022-04-08
Anticipated expiration: 2040-07-15
Also published as: CN112026687A

Abstract

The invention provides a device and a method for detecting the state before and after the body center adjustment movement in a vehicle, which relate to the technical field of vehicle control systems and comprise the following steps: an instruction receiving unit for receiving an operation instruction of a user; a user state detection unit for detecting the state data of the user; a content indication unit for providing a physical and mental adaptation exercise content indication to a user; the vehicle interior environment setting unit is used for setting the vehicle interior environment according to the body and mind adjustment motion content; the control unit is respectively connected with the instruction receiving unit, the user state detection unit, the content indication unit and the vehicle internal environment setting unit and is used for detecting the user state according to the operation instruction and the preset sequence, providing the body and mind adjustment movement content indication for the user and setting the vehicle internal environment. The method has the advantages that the state detection and the physical and mental adjustment motion content of the user are combined, and the immersive physical and mental adjustment motion experience is provided for the user.

Description

Device and method for detecting state before and after body center adjustment movement in vehicle

Technical Field

The invention relates to the technical field of vehicle control systems, in particular to a device and a method for detecting the state before and after the body center adjusting movement in a vehicle.

Background

With the rapid development of the automobile industry and the increasing improvement of the living standard of people, automobiles begin to go into thousands of households. People are looking for safety and reliability of vehicles, and nowadays, people pay more attention to additional functions of vehicles. The vehicle is used as a fourth space outside modern work, family and social contact, an independent and private space is arranged inside the vehicle, vehicle manufacturers consume a large amount of manpower and material resources to manufacture vehicle interior space decorations with various styles, and the interior space decorations can be adjusted to a state meeting the comfort requirement of a user through equipment inside the vehicle. Therefore, how to further utilize the interior space of the vehicle to provide personalized additional functions of the vehicle becomes a research and development direction in the industry.

The existing mature scheme for utilizing the internal space of the vehicle is to add atmosphere light in the vehicle, create the internal environment atmosphere of the vehicle through the change of the light color and the brightness, and hopefully adjust the emotion of a vehicle user, however, the scheme lacks a matched application scene and cannot increase the willingness of the user to stay in the internal space of the vehicle, and therefore the purpose of further utilizing the internal space of the vehicle is not achieved.

Disclosure of Invention

To the problem that exists among the prior art, this application provides a state detection device before and after motion is adjusted to automobile interior body heart, wherein, includes:

an instruction receiving unit for receiving an operation instruction of a user;

a user state detection unit for detecting the state data of the user;

a content indication unit for providing a physical and mental adaptation exercise content indication to a user;

the vehicle interior environment setting unit is used for setting the vehicle interior environment according to the body and mind adjustment motion content;

the control unit is respectively connected with the instruction receiving unit, the user state detection unit, the content indication unit and the in-vehicle environment setting unit and is used for controlling the user state detection unit to detect the user state according to the operation instruction and the preset sequence, controlling the content indication unit to provide the body and mind adjustment movement content indication for the user and controlling the in-vehicle environment setting unit to set the in-vehicle environment.

Preferably, the mobile terminal further comprises an information display unit, wherein the information display unit is connected with the control unit and used for displaying the user state obtained by analyzing the state data of the user detected by the user state detection unit.

Preferably, the system further comprises a first remote service unit, wherein the first remote service unit is communicatively connected to the control unit, and is configured to analyze the state data to obtain the user state, and transmit the user state back to the control unit.

Preferably, the mobile terminal further includes an access module of at least one mobile terminal, where the access module is disposed in the first remote service unit and/or the control unit, and is used for an additional mobile terminal to be in communication connection with the first remote service unit and/or the control unit, and controllably receive and display the user status.

Preferably, the user status at least comprises the identity, heart rate, blood pressure, breathing frequency and current mood of the user.

Preferably, the user state detection unit is a biometric camera.

Preferably, the content indication unit comprises a sound indication module, and the sound indication module is used for sending a sound indication to the user according to the mind and body adaptation exercise content; and/or

The content indicating unit comprises an image indicating module which is used for sending image indication to a user according to the physical and mental adaptation motion content.

Preferably, the vehicle interior environment setting unit includes a vehicle interior light adjusting module for adjusting light inside the vehicle; and/or

The in-vehicle environment setting unit comprises an in-vehicle air conditioner adjusting module used for adjusting an air conditioner in the vehicle; and/or

The vehicle interior environment setting unit comprises a vehicle interior fragrance adjusting module used for adjusting a fragrance generating device in the vehicle; and/or

The in-vehicle environment setting unit comprises a seat adjusting module used for adjusting a sitting posture angle and/or a heating gear and/or a ventilation gear of a seat on which a user sits.

Preferably, the control unit comprises a scene management module, and the scene management module is connected with the in-vehicle environment setting unit;

and according to at least one scene template associated with said psycho-adaptive motion content,

controlling the interior light adjusting module to adjust the light of the interior of the vehicle, and/or

Controlling the in-vehicle air conditioner adjusting module to adjust the air conditioner inside the vehicle, and/or

A fragrance generating device for controlling the in-vehicle fragrance adjusting module to adjust the interior of the vehicle, and/or

Controlling the seat adjustment module to adjust a sitting angle and/or a heating gear and/or a ventilation gear of a seat on which a user sits.

Preferably, the control unit includes a scene editing module, the scene editing module is connected to the scene management module and provides an editing interface, and the editing interface is used for a user to edit the corresponding scene template; and/or

The control unit comprises a scene downloading module, and the scene downloading module is respectively connected with a second remote service unit and the scene management module and is used for downloading the corresponding scene template from the second remote service unit; and/or

The control unit comprises a scene selection module, the scene selection module is connected with the scene management module and provides a selection interface, and the selection interface is used for a user to select the corresponding scene template.

Preferably, the device further comprises a vehicle state detection unit, the vehicle state detection unit is connected to the control unit and is configured to detect a current state of the vehicle, and the control unit is configured to determine whether to start the mind and body adaptation exercise content according to the operation instruction according to the current state of the vehicle.

Preferably, the psychosomatic movement comprises meditation.

The application also provides a vehicle-mounted system, which comprises the vehicle interior body center adjusting motion state detection device.

The application also provides a vehicle, wherein the vehicle comprises the state detection device before and after the body center adjusting movement in the vehicle.

The application also provides a vehicle, wherein, including above-mentioned on-vehicle system.

The application also provides a method for detecting the state before and after the body and mind adjusting movement in the automobile, wherein the method comprises the following steps:

step S1, receiving an operation instruction of a user;

step S2, detecting the state data of the user;

step S3, starting a physical and mental adjustment exercise, and optionally providing an instruction of the content of the physical and mental adjustment exercise to the user;

step S4, setting the environment in the vehicle according to the body and mind adaptation motion content;

step S5, detecting the status data of the user.

Preferably, between the step S2 and the step S3, displaying the user status obtained by analyzing the status data of the user obtained in the step S2 to the user; and/or

The step S5 is followed by displaying to the user status obtained from the analysis of the user status data obtained in the step S5; and/or

The step S5 is followed by displaying to the user status obtained from the analysis of the user status data obtained in the step S2, compared with the user status obtained from the analysis of the user status data obtained in the step S5.

Preferably, a first remote service unit is provided;

the first remote service unit obtains the user status according to the status data analysis obtained in the step S2; and/or

The first remote service unit obtains the user status according to the status data analysis obtained in the step S5; and/or

The user status obtained by the first remote service unit according to the status data analysis obtained at the step S2 is compared with the user status obtained according to the status data analysis obtained at the step S5 and a comparison result is obtained.

Preferably, an access interface of at least one mobile terminal is further provided, through which at least one additional mobile terminal can controllably receive and display the user status and/or the comparison result.

Preferably, a biological recognition camera is provided for collecting the state data of the user.

Preferably, in step S3, the user is instructed to perform the physical and mental adjustment exercise content by sound; and/or

In step S3, an instruction for adjusting the exercise content is sent to the user through the image.

Preferably, the step S4 includes

Adjusting light inside the vehicle; and/or

Adjusting an air conditioner inside the vehicle; and/or

Adjusting a fragrance generating device inside the vehicle; and/or

Adjusting a sitting angle and/or a heating gear and/or a ventilation gear of a chair on which a user sits.

Preferably, in step S4, according to at least one scene template associated with the psychosomatic motion content,

the adjusting module adjusts the light of the interior of the vehicle, and/or

Adjusting air conditioning in the vehicle interior, and/or

Adjusting a fragrance generating device in a vehicle interior, and/or

Preferably, an editing interface is provided for a user to edit the corresponding scene template; and/or

Providing a second remote service unit for downloading the corresponding scene template from the second remote service unit; and/or

And providing a selection interface for a user to select the corresponding scene template.

Preferably, the step S1 and the step S2 further include detecting a current state of the vehicle to determine whether to start the mind-and-body adapting motion content according to the operation instruction.

Preferably, the vehicle state includes a gear position, a starting switch position, an environment outside the vehicle, a position of a driver and a passenger, a hardware state inside the vehicle, a communication signal state and a data connection state.

Preferably, the psychosomatic movement comprises meditation.

The technical scheme has the following advantages or beneficial effects: the content of the body and mind adjustment movement of the user in the vehicle is provided, the state detection of the user is combined with the body and mind adjustment movement content, the environment in the vehicle is set according to the body and mind adjustment movement content, the immersive body and mind adjustment movement experience is provided for the user in the vehicle, the intention of the user staying in the vehicle space is improved, and the utilization rate of the vehicle inner space is improved.

Drawings

FIG. 1 is a schematic structural diagram of a state detecting device before and after a body-center adjusting movement in a vehicle according to a preferred embodiment of the present application;

fig. 2 to 6 are schematic structural diagrams of a control unit of the state detection device before and after the body-center adjusting movement in the vehicle according to the preferred embodiment of the present application;

FIG. 7 is a schematic diagram of a first remote service unit of the state detection device before and after the movement for adjusting the body core in the vehicle according to the preferred embodiment of the present application;

FIG. 8 is a flow chart illustrating a method for detecting a state before and after a movement for adjusting the body core of a vehicle according to a preferred embodiment of the present application;

figure 9 is a schematic view of a pre-meditation health monitoring report in an embodiment of the present application, using a meditation as an example;

fig. 10 is a schematic diagram of a health monitoring report after meditation according to an embodiment of the present application using meditation as an example.

Detailed Description

The present application will now be described in detail with reference to the drawings and specific examples. The present application is not limited to this embodiment, and other embodiments may be included in the scope of the present application as long as they meet the gist of the present application.

The main idea of the present application is to provide an immersive body and mind adjustment exercise experience for a user in an interior space of a vehicle, and provide state detection information before and after the body and mind adjustment exercise for the user to determine the body and mind adjustment exercise effect. Also, the scope of protection of the present application should not be limited by the examples used to illustrate the feasibility of the present application.

In accordance with the above-mentioned problems in the prior art, there is provided a device for detecting a state before and after a movement for adjusting a body core in a vehicle, as shown in fig. 1, wherein the device comprises:

an instruction receiving unit 1 for receiving an operation instruction of a user;

a user status detection unit 2 for detecting status data of a user;

a content indication unit 3 for providing a physical and mental adjustment exercise content indication to the user;

a vehicle interior environment setting unit 4 for setting a vehicle interior environment according to the body and mind adjustment motion content;

a control unit 5, respectively connected to the instruction receiving unit 1, the user status detecting unit 2, the content indicating unit 3, and the in-vehicle environment setting unit 4, for controlling the user status detecting unit 2 to detect the user status according to the operation instruction and a preset sequence, controlling the content indicating unit 3 to provide the user with the physical and mental adjustment motion content indication, and controlling the in-vehicle environment setting unit 4 to set the in-vehicle environment.

Specifically, in the above embodiment, the command receiving unit 1 may be implemented by a collection device inside the vehicle, such as a sound collection device or a motion collection device.

As a preferred embodiment, as shown in fig. 2, the sound collecting device 11 may be a sound collector arranged inside the vehicle to collect the voice uttered by the user, and further, the control unit 5 may be provided with a voice recognition module 51 to recognize the voice command uttered by the user through the voice recognition module 51.

As a preferred embodiment, as shown in fig. 2, the motion capture device 12 may be an image capture device, such as a camera disposed inside a vehicle, for capturing the motion of the user, which may be a gesture motion, a body motion, an expression motion, etc., and further, the control unit 5 may be disposed with a motion recognition module 52 for recognizing the motion command issued by the user through the motion recognition module 52.

As a preferred embodiment, as shown in fig. 2, the instruction receiving unit 1 may also be an interactive interface 13, and the user may input an operation instruction by operating the interactive interface 13, where the interactive interface 13 may be represented by one or more physical mechanisms such as a button, a knob, and an operating lever; optionally, the interactive interface 13 may also be represented by an operation menu provided by a touch screen; on this basis, the control unit 5 may be provided with an interactive interface processing module 53 to process instructions input by the user through operations.

As a preferred embodiment, the operation instruction may be started corresponding to a body and mind adaptation exercise process, that is, the control unit 5 starts the body and mind adaptation exercise process when receiving the operation instruction, and optionally, the operation instruction may also correspond to selection of the body and mind adaptation exercise content, that is, the instruction receiving unit 1 may receive different operation instructions for a user to select different body and mind adaptation exercise contents currently available for the vehicle, and the control unit 5 starts the corresponding body and mind adaptation exercise process according to the body and mind adaptation exercise contents corresponding to the operation instruction of the user.

As a preferred embodiment, as shown in fig. 3, the user state detection means 2 may be a biometric camera 21 provided in the vehicle interior, and output by capturing a live image of the user as state data of the user. On this basis, as an optional implementation manner, as shown in fig. 3, the control unit 5 may be provided with an image preprocessing module 54, where the image preprocessing module 54 may perform preprocessing on the real-time image, where the preprocessing may be an encryption processing beneficial to data security transmission, a compression processing beneficial to reducing data transmission bandwidth, a filtering processing beneficial to image recognition, an image segmentation processing beneficial to face recognition, and a feature extraction processing beneficial to biological feature recognition.

As an alternative embodiment, as shown in fig. 3, the user status detecting unit 2 may also be a sensor 22 disposed inside the vehicle, the user touches the sensor through a limb, and the status data of the user is formed by a signal generated by the sensor, the sensor may be a heart rate sensor and/or a blood pressure sensor and/or a blood oxygen saturation sensor, the sensor may be connected to the control unit 5 through a cable or a wireless transmission manner, such as bluetooth, and preferably, the sensor may be embodied as a wearable device, such as a bracelet. On this basis, as an alternative embodiment, the control unit 5 may be provided with a signal preprocessing module 55, and the signal preprocessing module 55 may perform preprocessing on the above signals, where the preprocessing may be one or more of level matching processing for data reception, signal filtering processing for data reading, and encoding processing for data transmission.

As a preferred embodiment, the user status comprises at least the identity, heart rate, blood pressure, breathing frequency and current mood of the user. In this embodiment, the identity of the user may be obtained by identifying the real-time image, preferably, the heart rate, blood pressure, and breathing frequency of the user may be obtained by analyzing the real-time image captured by the biometric camera 21, or may be acquired by the sensor 22, and preferably, the mood of the user may be obtained by identifying the expression characteristics of the real-time image.

As a preferred embodiment, as shown in fig. 4, the content indicating unit 3 may be a sound indicating module 31, the sound indicating module 31 is configured to send a sound indication to the user according to the body and mind adaptation exercise content, the sound indicating module 31 may be implemented by a speaker disposed inside the vehicle, further, the sound indication may be a voice and/or an effect sound, and on the basis, the control unit 5 may be configured to provide a sound indication generating module 56; preferably, the voice instruction generating module 56 may include a voice storage unit 561, the voice storage unit 561 may store the voice and/or the effect sound in advance, and the voice instruction generating module 56 reads the voice and/or the effect sound in the voice storage unit 561 according to the instruction sent by the control unit 5, transmits the voice and/or the effect sound to the speaker, and plays the voice and/or the effect sound through the speaker; optionally, the voice instruction generating module 56 may include a Text storage unit 562, and provide a Speech synthesis engine 563, such as a TTS (Text To Speech) engine, and the voice instruction generating module 56 reads the Text in the Text storage unit 562 according To the instruction sent by the control unit 5, forms Speech through the Speech synthesis engine 563, and then transmits the Speech To the speaker, and plays the Speech through the speaker. It should be noted that before the speaker plays the audio prompt, the signal carrying the audio prompt may need to be further processed by one or more of digital-to-analog conversion processing, filtering processing, and amplification processing, which are all technical means commonly used in the art and are not the invention points of the present application, and therefore, the details are not described again.

As an alternative embodiment, as shown in fig. 4, the content indicating unit 3 may be an image indicating module 32, and the image indicating module 32 is configured to send an image indication to the user according to the body and mind adaptation exercise content. The image indication module may be implemented by a display screen arranged inside the vehicle, and further, the image indication may be a video and/or a picture, and on the basis, the control unit 5 may be configured with an image indication generation module 57; preferably, the image indication generating module 57 may include an image storage unit 571, the image storage unit 571 may store the images and/or pictures in advance, and the image indication generating module 57 reads the images and/or pictures in the image storage unit 571 according to the instruction sent by the control unit 5, transmits the images and/or pictures to the display, and displays the images and/or pictures on the display. It should be noted that, before the display displays the image prompt, the signal carrying the image prompt may need to be subjected to one or more of decoding processing, filtering processing, and resolution adaptation processing, which are all technical means commonly used in the art and are not the invention points of the present application, and thus, are not described again.

In a preferred embodiment, the audio indication module 31 and the image indication module 32 may be provided at the same time, and in a preferred embodiment, the audio indication module 31 may be implemented by a surround sound playing system formed by a plurality of speakers provided in the vehicle, and further preferably, the image indication module 32 may be implemented by a multi-screen linkage display system formed by a plurality of display screens provided in the vehicle. In one embodiment, if the body and mind adjustment movement content is body and mind adjustment movement at sea, the multi-screen linked display system can be used for displaying images or pictures of the sea in a linked manner, and the surround sound playing system can be used for playing various sounds generated by sea water and sea waves and voice guidance when the body and mind adjustment movement is performed on the user. In another embodiment, if the psychosomatic motion content is a psychosomatic motion in a forest, the multi-screen linked display system may be configured to display images or pictures of the forest in a linked manner, and the surround sound playing system may be configured to play various sounds generated by animals and plants in the forest and voice guidance for the psychosomatic motion of the user. Through surround sound play system and/or many screen linkage display system can build the motion experience space of immersive body and mind adaptation inside the vehicle, make the user stop in the wish of in-car space improve to the utilization ratio of vehicle inner space has been improved.

As a preferred embodiment, as shown in fig. 6, different mind-and-body-adapting sports content may be downloaded through an additional remote service platform 74, and the downloading manner of the mind-and-body-adapting sports content may be a synchronous downloading mode for direct downloading through the control unit 5 by communicatively connecting the additional remote service platform 74, and the synchronous downloading mode may be implemented based on a transmission protocol such as HTTP, FTP, etc.; optionally, the mode may also be a transfer mode in which an additional mobile terminal is downloaded from the additional remote service platform 74 to the mobile terminal, and then the mobile terminal is transmitted to the control unit 5 through an in-vehicle network or a mobile network; alternatively, the control unit 5 or an additional mobile terminal may send a download request to the additional remote service platform 74, and the additional service terminal processes the download request and then performs a push mode for pushing the downloaded content to the control unit 5. The selection of the download mode can be comprehensively considered according to the vehicle use condition, the network condition, the user self condition and other factors in the use environment. If the user is driving or will drive the vehicle and the mobile network environment is better, the synchronous downloading mode can be selected; if the user is not around the vehicle and cannot control the vehicle immediately, or the mobile network used by the control unit 5 of the vehicle is poor in environment or insufficient in flow, the transit mode can be selected, and correspondingly, the in-vehicle network can adopt a connection form of wifi, bluetooth, Zigbee and the like without paying extra service cost; if the user is leaving the vehicle, the push mode may be selected.

As a preferred embodiment, as shown in fig. 5, the in-vehicle environment setting unit 4 includes an in-vehicle light adjusting module 41 that adjusts the light of the interior of the vehicle according to the instruction sent by the control unit 5; on this basis, the in-vehicle environment setting unit 4 may further include an in-vehicle air conditioner adjusting module 42 that adjusts an air conditioner inside the vehicle according to the instruction sent by the control unit 5; on this basis, the in-vehicle environment setting unit 4 may further include an in-vehicle fragrance adjusting module 43 that adjusts a fragrance generating device inside the vehicle according to an instruction sent by the control unit 5; on this basis, the in-vehicle environment setting unit 4 may further include a seat adjusting module 44 that adjusts a sitting posture angle and/or a heating gear and/or a ventilation gear of the seat on which the user sits according to the instruction sent by the control unit 5. The adjusting modules can be connected through an internal network of the vehicle, preferably, can be connected through a can (controller Area network) bus network, and optionally, can also be connected through a wireless communication network such as wifi, bluetooth, zigbee and the like.

The control unit 5 may control the in-vehicle environment setting unit 4 to adjust the in-vehicle environment according to one or more of the above-mentioned psychosomatic exercise content, the out-vehicle environment, the current time, and the like, so as to provide a comfortable psychosomatic exercise experience environment for the user, thereby improving the stickiness of the user to the vehicle interior space.

As a preferred embodiment, the control unit 5 may include a scene management module 581, and the scene management module 581 is connected to the in-vehicle environment setting unit 4; and controlling the interior light adjusting module 41 to adjust the light of the interior of the vehicle, and/or controlling the interior air conditioning adjusting module 42 to adjust the air conditioner of the interior of the vehicle, and/or controlling the interior fragrance adjusting module 43 to adjust the fragrance generating device of the interior of the vehicle, and/or controlling the seat adjusting module 44 to adjust the sitting posture angle and/or the heating gear and/or the ventilation gear of the seat on which the user sits, according to at least one scene template associated with the psychosomatic motion content. The vehicle interior environment is uniformly set according to the scene template associated with the mind-body adaptation motion content by providing the scene management module 581. The internal environment of the vehicle can be adapted to the body and mind adjustment motion content currently performed by the user, so that immersive experience can be created for the user, and the body and mind adjustment motion effect is improved. The scene templates mentioned above are associated with the corresponding psychometric motion content, i.e. when the corresponding psychometric motion content is activated, the associated scene templates are also called by the scene management module 581; further preferably, the scene template may be downloaded into the control unit 5 as part of the corresponding psycho-adaptive motion content.

As an optional implementation manner, the control unit 5 further includes a scene editing module 582, where the scene editing module 582 is connected to the scene management module 581, and provides an editing interface for a user to edit the corresponding scene template. Because a generic scene template may not be suitable for all users, by providing the scene editing module 582, the user can edit the elements in the scene template according to his or her own needs, so that a personalized immersive experience can be created for the user.

As an optional implementation manner, the control unit 5 further includes a scene downloading module 583, and the scene downloading module 583 is respectively connected to a second remote service unit 73 and the scene management module 581, and is used for downloading the corresponding scene template from the second remote service unit 73. The method for downloading the scene template is preferably the same as the method for downloading the psychosomatic motion content.

As an optional implementation manner, the control unit 5 further includes a scene selection module 584, where the scene selection module 584 is connected to the scene management module 581, and provides a selection interface for a user to select a corresponding scene template.

As a preferred embodiment, the Control unit 5 may be an ecu (electronic Control unit) electronic Control unit provided inside the vehicle, and the electronic Control unit may implement the above-mentioned modules by an internally provided program.

As a preferred embodiment, the control unit 5 controls each unit to work according to a preset sequence, the preset sequence includes but is not limited to that the control unit 5 firstly controls the user state detection unit 2 to detect the user state data as the pre-physical and mental adjustment exercise state data according to the operation instruction, then controls the content indication unit 3 to provide the user with the physical and mental adjustment exercise content, and controls the user state detection unit 2 to detect the user state data again as the post-physical and mental adjustment exercise state data after the physical and mental adjustment exercise is finished, so that the user can timely acquire the user state data before and after the physical and mental adjustment exercise.

After analyzing the state of the user before the body and mind adaptation movement according to the state data before the body and mind adaptation movement and analyzing the state of the user after the body and mind adaptation movement according to the state data after the body and mind adaptation movement, comparing the state of the user before the body and mind adaptation movement with the state of the user after the body and mind adaptation movement, and judging the effect of the body and mind adaptation movement process according to the comparison result, if the state of the user after the body and mind adaptation movement is better than the state of the user before the body and mind adaptation movement, the current body and mind adaptation movement process can be judged to be effective for the user, otherwise, the current body and mind adaptation movement process can be considered to be ineffective for the user.

As an alternative embodiment, the control unit 5 may further control the user state detection unit 2 at predetermined time intervals during the psychosomatic exercise, detect the user state data, compare the user state obtained from the previous detection with the user state obtained from the state data analysis, and stop the current psychosomatic exercise content when one or more of the user state is found to be degraded, the state is continuously degraded within a preset time period, and the state cannot be restored to the state at the beginning of the current period after the state is degraded within the preset time period.

As a preferred embodiment, as shown in fig. 6, the system further comprises an information display unit 6, and the information display unit 6 is connected to the control unit 5 for displaying the user status obtained by analyzing the status data of the user detected by the user status detection unit 2.

Specifically, in the above embodiment, the information display unit 6 is preferably implemented by a display screen provided inside the vehicle, so that the user can view the state of himself or herself more intuitively.

In a preferred embodiment, the system further comprises a first remote service unit 7, wherein the first remote service unit 7 is communicatively connected to the control unit 5, and is configured to analyze the status data to obtain the status of the user, and transmit the status of the user back to the control unit.

Specifically, in the above embodiment, the first remote service unit 7 may be one or a combination of one or more servers, a service platform provided by a third party, and a cloud service platform, and the first remote service unit 7 analyzes the status data, so as to effectively reduce the data computation amount at the local end of the vehicle, and further, it is not necessary to additionally provide a special computation device in the vehicle to improve the data computation analysis capability. In a preferred embodiment, as shown in fig. 7, a combination of a service platform 71 formed on a server cluster and a cloud platform 72 may be provided to implement the first remote service unit 7. The service platform 71 is connected to the control unit 5 of the vehicle through the mobile network to receive the user status data transmitted by the control unit 5, preprocesses the user status data and transmits the preprocessed user status data to the cloud platform 72, and the cloud platform 72 analyzes the user status data to obtain the user status. The cloud platform 72 may return to the service platform 71 to store the user status or directly push the user status to the control unit 5 of the vehicle through the mobile network.

In a specific embodiment, as shown in fig. 7, the cloud platform 72 may include at least one logic function module 721 corresponding to a user status to be analyzed, a corresponding auxiliary module 722, and an interface module 723 corresponding to a service interface, where the logic function module, the auxiliary module, and the interface module are connected through a message bus 724, and the service platform 71 accesses the interface module 723 of the cloud platform 72 through a message publishing and subscribing system 711. Preferably, the logic function module may correspond to one or more of analysis functions of a state type of the user, such as heart rate analysis, blood pressure analysis, breathing frequency analysis, mood analysis, and the like, the auxiliary module may be one or more of a database module, an algorithm support module, and a data security module, the message bus may be a RabbitMQ message queue, and further preferably, the message publishing and subscribing system may be a kafka stream processing platform.

As an alternative embodiment, the service platform 71 may provide an access interface 712 of a third-party service for connecting to the third-party service platform 70, and the service platform 71 may upload the user status data to the third-party service platform 70 through the access interface 712 and obtain the analyzed user status through the third-party service platform 70. Preferably, the access interface 712 may be based on API interfaces conforming to a request method and a response method of the http protocol, and further preferably, the access interface 712 may use a JSON data format.

In a specific embodiment, the biometric camera captures a real-time image of the user, and the real-time image is encrypted and compressed by the control unit 5 and then transmitted to the service platform 71, and the service platform 71 sends the status data of the user to the cloud platform 72 or the third-party service platform 70 by sending a subscription, and receives the status of the user obtained by analyzing the status data. Preferably, the live video can be encoded in h.265 format and compressed at a compression ratio of 1: 300.

As an alternative embodiment, the first remote service unit 7 may be integrated in the same platform as the additional remote service platform 74 described above, as shown in fig. 6. Further alternatively, the second remote service unit 73 may be integrated with an additional remote service platform 74, and further preferably, the first remote service unit 7 may be integrated with the second remote service unit 73.

As a preferred embodiment, the system further comprises at least one mobile terminal access module 81, and the access module 81 is disposed in the first remote service unit 7 and/or the control unit 5, and is used for the additional mobile terminal 8 to be communicatively connected to the first remote service unit 7 and/or the control unit 5, and controllably receive and display the user status.

Specifically, in the above embodiment, the controllable receiving is specifically that the user needs to be able to view the user status on the mobile terminal 8 while viewing the user status through the information display unit 6, or the user needs to view historical data of the user status, at this time, the user may send a corresponding request to the remote service unit 7 or the control unit 5, and the remote service unit 7 or the control unit 5 pushes the user status to the mobile terminal 8 for displaying according to the request. The above request may be received by the instruction receiving unit 1 and sent to the remote service unit 7 via the control unit 5.

Further preferably, the access module 81 is further configured for the additional mobile terminal 8 to communicatively connect the first remote service unit 7 and/or the control unit 5 for other data item transmission, as mentioned above, for the transmission of the psychometric motion content between the additional mobile terminal 8 and the control unit 5; or the additional mobile terminal 8 may be connected to the scene editing module 582 and/or the scene selecting module 583 provided by the control unit through the access module 81, and the additional mobile terminal 8 edits and/or selects the scene template; or the additional mobile terminal 8 may connect to the first remote service unit 7 through the access module 81 and access the additional remote service platform 74 and/or the second remote service unit 73 through the first remote service unit 7, thereby realizing the downloading of the psycho-adaptive motion content and/or the scene template.

As a preferred embodiment, a vehicle state detection unit 9 may be further included, the vehicle state detection unit 9 is connected to the control unit 5 and configured to detect a current state of the vehicle, and the control unit 5 is configured to determine whether to start the mind-body adaptation of the motion content according to the operation instruction according to the current state of the vehicle.

Specifically, in the above embodiment, in order to ensure driving safety and good experience of the user during the body and mind adjustment movement process, a plurality of pre-use conditions for starting the body and mind adjustment movement content may be preset, and the vehicle state detection unit 9 detects the current state of the vehicle, on the premise that the current state of the vehicle meets the pre-use conditions, the control unit 5 will start the body and mind adjustment movement content according to the operation instruction, otherwise, even if the operation instruction of the user is received, the control unit 5 will not start the body and mind adjustment movement content. The aforementioned pre-use condition may be that the vehicle is in a powered-on state and in a parking state, the user sits on a seat inside the vehicle, that is, at least one occupancy signal is valid, the user state detection unit 2 is in a valid use state, the data connection state with the first remote service unit 7 is normal, and the like.

As a preferred embodiment, the above-mentioned physical and mental adaptation movements include, but are not limited to, meditation, sedentary, neck adaptation, eye adaptation, and both hands adaptation.

The application also provides a vehicle-mounted system, wherein the vehicle-mounted system comprises the state detection device which is recorded in the technical scheme and used before and after the body center adjusting movement in the vehicle.

The present application further provides a vehicle, wherein, includes the state detection device before and after the movement is adjusted to the body mind in the car that records in above-mentioned technical scheme.

The application further provides a vehicle, wherein the vehicle-mounted system is provided.

The present application further provides a method for detecting a state before and after a body-mind adjustment movement in a vehicle, as shown in fig. 8, wherein the method comprises the following steps:

step S1, receiving an operation instruction of a user;

step S2, detecting the state data of the user;

step S5, detecting the status data of the user.

According to the technical scheme, the state of the user is detected before the body and mind adjustment motion content starts and after the body and mind adjustment motion content is finished, so that whether the body and mind adjustment motion process is effective on the user is judged. The specific determination method has already been described above, and thus is not described in detail. Furthermore, the environment in the vehicle is set according to the body and mind adjustment motion content in the body and mind adjustment motion process, immersive body and mind adjustment motion experience is provided for a user, the willingness of the user to stay in the vehicle inner space can be improved, and the utilization rate of the vehicle inner space is improved.

As a preferred embodiment, between the steps S2 and S3, displaying the user status obtained from the analysis of the status data of the user obtained in the step S2 to the user; further preferably, step S5 is followed by displaying the user status obtained from the analysis of the user status data obtained in step S5 to the user; further preferably, the step S5 may be followed by displaying to the user status obtained from the analysis of the status data of the user obtained in the step S2, compared with the user status obtained from the analysis of the status data of the user obtained in the step S5. The above embodiment enables the user to visually know the self state before the body and mind adjustment movement starts and after the body and mind adjustment movement ends, and can help the user to judge whether the body and mind adjustment movement process is effective for the user.

As an alternative embodiment, in step S3, the user status data may be detected at predetermined time intervals, the status of the user obtained by analyzing the status data is compared with the status of the user obtained by the previous detection, and the psychosomatic exercise process may be stopped when one or more of the user' S status is found to be degraded, the status is continuously degraded within a preset time period, and the status at the beginning of the current period cannot be recovered after the degradation within the preset time period.

As a preferred embodiment, a biometric camera may be provided to collect the status data of the user, and further optionally, the status of the user may also be collected by a sensor provided inside the vehicle.

As a preferred embodiment, a first remote service unit may be provided; the first remote service unit obtains the user status according to the status data analysis obtained in step S2; and/or the first remote service unit analyzes the state data obtained in the step S5 to obtain the user state; and/or the first remote service unit analyzes the obtained user status according to the status data obtained at step S2, compares the obtained user status according to the analysis of the status data obtained at step S5, and obtains the comparison result. As a preferred embodiment, the user status comprises at least the identity, heart rate, blood pressure, breathing frequency and current mood of the user.

As a preferred embodiment, an access interface of at least one mobile terminal is also provided, through which at least one additional mobile terminal can controllably receive and display the user status and/or the comparison result.

As a preferred embodiment, in step S3, an instruction of the physical and mental adjustment exercise content may be sent to the user by sound; further optionally, in step S3, an indication of the physical and mental adaptation exercise content may be sent to the user through an image.

In a preferred embodiment, step S4 includes

Adjusting light inside the vehicle; and/or

Adjusting an air conditioner inside the vehicle; and/or

Adjusting a fragrance generating device inside the vehicle; and/or

Further preferably, in step S4, the environment inside the vehicle may be adjusted according to one or more of the psychometric exercise content, the environment outside the vehicle, the current time, and the like, so as to provide a comfortable psychometric exercise experience environment for the user, thereby improving the stickiness of the user to the vehicle interior space.

As a preferred embodiment, in step S4, the adjusting module may adjust the lighting inside the vehicle and/or adjust the air conditioning inside the vehicle and/or adjust the fragrance generating device inside the vehicle and/or adjust the sitting posture angle of the seat on which the user sits and/or the heating gear and/or the ventilation gear according to at least one scene template associated with the psycho-physical motion content.

In the above embodiment, the vehicle interior environment is uniformly set according to the scene template associated with the mind-and-body adaptation motion content. The internal environment of the vehicle can be adapted to the body and mind adjustment motion content currently performed by the user, so that immersive experience can be created for the user, and the body and mind adjustment motion effect is improved.

As an optional implementation way, an editing interface can be provided for a user to edit the corresponding scene template; because the universal scene template may not be suitable for all users, the user can edit the elements in the scene template according to the needs of the user by providing the editing interface, so that personalized immersive experience can be created for the user.

As an optional implementation, a second remote service unit may be further provided to download the corresponding scene template from the second remote service unit, and the method for downloading the scene template is described above, and therefore, the description is omitted here.

As an optional implementation, a selection interface may also be provided for the user to select the corresponding scene template.

As a preferred embodiment, between the step S1 and the step S2, the method further includes detecting a current state of the vehicle to determine whether to start the physical and mental adaptation of the motion content according to the operation instruction. As a preferred embodiment, the vehicle state includes gear, start switch position, environment outside the vehicle, occupant position, hardware state inside the vehicle, communication signal state, and data connection state.

The above-described embodiments may determine that the vehicle is in a safe, operable state, thereby enabling a user to perform a psycho-fitting athletic experience in a safe, comfortable, and controllable vehicle interior.

Examples

The present embodiment is an application example of the meditation as a physical and mental adaptation exercise.

In this embodiment, the user can perform a meditation experience in the vehicle to achieve physical and mental relaxation.

The user inputs the operation instruction for selecting the meditation content through the operation interface arranged in the vehicle. The instruction receiving unit receives the operation instruction and sends the operation instruction to the control unit, the control unit judges the current state of the vehicle, and after the condition that the vehicle state accords with the corresponding meditation content starting condition is determined, the control unit starts the corresponding meditation content.

After the meditation content in the vehicle is started, the control unit firstly generates a first detection trigger signal and sends the first detection trigger signal to the user state detection unit, the user state detection unit collects current state data of a user according to the first detection trigger signal to serve as state data before the meditation content starts, the state data are sent to the control unit, the control unit uploads the state data to the first remote service unit, the state data are preprocessed through a service platform which is arranged on a server cluster in the first remote service unit, and then the preprocessed state data are further uploaded to a cloud platform which is connected with the service platform to be processed.

Above-mentioned user state detecting element is for installing the biological identification camera in the car, and above-mentioned state data is the user's image that biological identification camera was shot and is obtained, and the cloud platform carries out image recognition and feature extraction to the user image can to the at least discernment characteristic value of this user's image of relevance and feed back this discernment characteristic value to service platform, and this discernment characteristic value includes but not limited to user's rhythm of the heart, respiratory frequency, systolic pressure, diastolic pressure and current mood.

After receiving the identification characteristic value, the service platform can generate a health monitoring report of the user according to the identification characteristic value, as shown in fig. 9, the health monitoring report is a health monitoring report before the meditation content, then the service platform sends the health monitoring report before the meditation content to the control unit of the vehicle, the control unit sends the health monitoring report before the meditation content to the display screen arranged in the vehicle for real-time display, and sends a trigger signal corresponding to the meditation content start, the content indication unit provides a corresponding meditation content indication to the user after receiving the trigger signal corresponding to the meditation content start, and according to the characteristics of the meditation content in the embodiment, the indication of the meditation content can be sent to the user through sound and/or images, such as displaying the visual experience of the environment corresponding to the meditation by means of displaying the images and the pictures, creating the auditory experience of the environment corresponding to the meditation by means of playing the sound and the voice, and prompting the user to adjust the body posture, adjusting respiration, and performing progress prompt according to meditation content setting.

Further, the control unit may adjust the vehicle interior environment through the in-vehicle environment setting unit to provide the user with a comfortable meditation experience space during the meditation. Specifically, different meditation contents can be associated with different scene templates, and the states of corresponding in-vehicle hardware devices can be uniformly adjusted through the scene templates, so that the internal environment of the vehicle can be matched with the different meditation contents, and the experience of a user is effectively improved. In this embodiment, the scene templates may be associated by adding a script file to the meditation content, and the control unit may send a control command corresponding to the scene template to the in-vehicle environment setting unit by reading the script file, so as to adjust the hardware devices corresponding to the in-vehicle environment, respectively. The in-vehicle hardware devices include but are not limited to air conditioners, fragrances, music, mood lamps and the like, and the state of the in-vehicle hardware devices is adjusted to adjust the heart rate and mood of the user in the meditation process.

After the meditation content is finished, the control unit generates a second detection trigger signal and sends the second detection trigger signal to the user state detection unit, the user state detection unit collects current state data of a user according to the second detection trigger signal and uploads the state data to the service platform, and the state data are preprocessed through the service platform and then further uploaded to the cloud platform for processing. The state data is the state data after the meditation content is finished, and similarly, the cloud platform carries out the same processing process on the state data to obtain at least one identification characteristic value of the user at the moment and feeds the identification characteristic value back to the service platform.

After receiving the identification feature value, the service platform can generate a health monitoring report of the user as the user status based on the identification feature value, and as shown in fig. 10, the health monitoring report is a health monitoring report after meditation and the health monitoring report after meditation includes user status comparison information before the meditation content starts and after the meditation content ends. Specifically, in a complete meditation experience process, after the service platform generates and transmits a health monitoring report before meditation, the identification characteristic value corresponding to the health monitoring report before meditation is stored as historical data before meditation, the identification characteristic value obtained after the end of the subsequent reception of the meditation content is used as current data after meditation, then a health monitoring report after meditation containing user state comparison information of the historical data before meditation and the current data after meditation is generated, the health monitoring report after meditation is transmitted to a control unit of a vehicle, and the health monitoring report after meditation is transmitted to a display screen by the control unit to be displayed in real time so that a user can check the health monitoring report in time.

Further, the pre-meditation health monitoring report and the post-meditation health check monitoring report, which characterize the user's status, may also include health indexes characterized by different colors. Specifically, the identification characteristic values include five types of characteristic data including heart rate, breathing frequency, systolic pressure, diastolic pressure and current mood, each type of characteristic data having a corresponding normal standard range, preferably, wherein the normal standard range of the heart rate is 60 beats to 100 beats per minute, the normal standard range of the breathing frequency is 12 to 20 beats per minute, the normal standard range of the systolic pressure is 100 mmhg to 120 mmhg, the normal standard range of the diastolic pressure is 60 mmhg and 80 mmhg, and the current mood defines a corresponding normal standard range according to the identification result, including but not limited to the user being stressed, fatigued, awake or sleepy. In the case of tension, the corresponding recognition feature value may be a tension degree score, such as any one of 0 to 99, and the corresponding normal standard range may be set according to requirements.

After defining the normal standard range corresponding to the above five types of feature data, comparing the identification feature values of each type of feature data with the normal standard range, if all the identification feature values are within the normal standard range, indicating that the user is in a healthy state, at this time, preferably representing the health index of the user in green, and if any one identification feature value is not within the normal standard range, indicating that the user may be in a sub-healthy state, at this time, preferably representing the health index of the user in yellow.

In the present embodiment, by combining the biometric technology with the meditation content, acquiring the biometric data of the user by using the biometric technology before the start and after the end of the meditation content, and processing the biometric data to obtain the health monitoring report before the meditation before the start of the meditation content and the health monitoring report after the meditation after the end of the meditation content, the user can check the health monitoring result of the user and the change of the health status before and after the meditation in time. Preferably, the health monitoring report after meditation includes user status comparison information before and after meditation, so that the user can more intuitively view the result.

Further, the state detection device before and after the body center adjusting movement in the automobile requires that the automobile is in a power-on state, preferably in a parking state, so that the use safety is ensured, and further preferably, a user can be required to sit on a seat in the automobile, namely, at least one occupation signal is effective, so that the state detection unit of the user can accurately acquire the state data of the user. The application is good for the environment requirement outside the car when the state detection device before and after the motion is adjusted to body heart in the car uses, homoenergetic normal use under any weather, road conditions and temperature condition. Further preferably, the user can view the pre-meditation health monitoring report and the post-meditation health monitoring report in real time on a display screen provided inside the vehicle, and can also view the reports through the mobile terminal. The user can initiate a report pushing request through the instruction receiving unit, the control unit sends a corresponding pushing request to the service platform after receiving the request, and the service platform pushes the corresponding health monitoring report before meditation and/or the health monitoring report after meditation to the mobile terminal as pushing information after receiving the pushing request. The current health monitoring report and the health monitoring report of the query history can be displayed through the mobile terminal.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims

1. A device for detecting a state before and after a movement for adjusting a body core in a vehicle, comprising:

an instruction receiving unit for receiving an operation instruction of a user;

a user state detection unit for detecting the state data of the user;

the control unit is respectively connected with the instruction receiving unit, the user state detection unit, the content indication unit and the in-vehicle environment setting unit and is used for controlling the user state detection unit to detect the user state according to the operation instruction and the preset sequence, controlling the content indication unit to provide the body and mind adjustment movement content indication for the user and controlling the in-vehicle environment setting unit to set the in-vehicle environment;

the control unit is further configured to determine and adjust the physical and mental adjustment exercise content according to the comparison result of the user states at different detected time nodes.

2. The apparatus as claimed in claim 1, further comprising an information display unit connected to the control unit for displaying the user status analyzed and obtained according to the status data of the user detected by the user status detection unit.

3. The apparatus according to claim 2, further comprising a first remote service unit communicatively connected to the control unit for analyzing the user status according to the status data and transmitting the user status back to the control unit.

4. The apparatus of claim 3, further comprising an access module of at least one mobile terminal, wherein the access module is disposed on the first remote service unit and/or the control unit, and is configured to allow an additional mobile terminal to be communicatively connected to the first remote service unit and/or the control unit, and controllably receive and display the user status.

5. The apparatus for detecting the status of the inside of a vehicle before and after a psychomotor exercise according to claim 2, wherein the user status at least comprises the identity, heart rate, blood pressure, breathing frequency and current mood of the user.

6. The apparatus for detecting a state before and after an in-vehicle body movement adjusting motion according to claim 1, wherein the user state detecting unit is a biometric camera.

7. The in-vehicle body and mind adaptation movement before and after state detection apparatus according to claim 1, wherein the content indication unit comprises a sound indication module, the sound indication module is used for sending sound indication to the user according to the body and mind adaptation movement content; and/or

8. The apparatus for detecting a state before and after an in-vehicle body movement according to claim 1, wherein the in-vehicle environment setting unit includes an in-vehicle light adjusting module for adjusting a light of an interior of the vehicle; and/or

9. The apparatus for detecting a state before and after an in-vehicle body movement according to claim 8, wherein the control unit comprises a scene management module, the scene management module is connected to the in-vehicle environment setting unit;

10. The apparatus of claim 9, wherein the control unit comprises a scene editing module, the scene editing module is connected to the scene management module and provides an editing interface for a user to edit the corresponding scene template; and/or

11. The apparatus as claimed in claim 1, further comprising a vehicle status detecting unit, connected to the control unit, for detecting a current status of the vehicle, wherein the control unit is configured to determine whether to start the mind-adapting motion according to the operation command according to the current status of the vehicle.

12. The in-vehicle body-mind adaptation movement pre-and-post-state detection device according to claim 1, wherein the body-mind adaptation movement includes meditation.

13. An on-board system comprising the in-vehicle body-mind adaptation movement before and after state detection apparatus according to any of claims 1 to 12.

14. A vehicle characterized by comprising the in-vehicle body-mind adaptation movement before and after-movement state detecting device as recited in any one of claims 1 to 12.

15. A vehicle characterized by comprising the on-board system of claim 13.

16. A method for detecting the state before and after the body center adjusting movement in a vehicle is characterized by comprising the following steps:

step S1, receiving an operation instruction of a user;

step S2, detecting the state data of the user;

step S5, detecting the state data of the user;

the state detection method further comprises the following steps:

and judging and adjusting the physical and mental adjustment exercise content according to the detected comparison result of the state data of the users on different time nodes.

17. The method as claimed in claim 16, further comprising displaying a user status obtained by analyzing the user status data obtained in step S2 to the user between step S2 and step S3; and/or

18. The method of claim 17, wherein a first remote service unit is provided;

19. The method for detecting the state before and after movement for adapting the body core of a vehicle as claimed in claim 17, further comprising providing an access interface of at least one mobile terminal, wherein at least one additional mobile terminal is capable of controllably receiving and displaying the user state and/or the comparison result through the access interface.

20. The method of claim 17, wherein the user status comprises at least an identity, a heart rate, a blood pressure, a breathing frequency, and a current mood of the user.

21. The method of claim 16, wherein a biometric camera is provided to collect the status data of the user.

22. The method for detecting the state before and after an in-vehicle body-and-mind adaptation exercise according to claim 16, wherein in step S3, an instruction of the content of the body-and-mind adaptation exercise is sent to the user by sound; and/or

23. The method for detecting the state before and after movement for adapting the body core of the vehicle as claimed in claim 16, wherein said step S4 includes

Adjusting light inside the vehicle; and/or

Adjusting an air conditioner inside the vehicle; and/or

Adjusting a fragrance generating device inside the vehicle; and/or

24. The method for detecting the before and after physical and mental adjustment movement of claim 23, wherein in step S4, according to at least one scene template associated with the physical and mental adjustment movement content,

the adjusting module adjusts the light of the interior of the vehicle, and/or

Adjusting air conditioning in the vehicle interior, and/or

Adjusting a fragrance generating device in a vehicle interior, and/or

25. The method of claim 24, wherein an editing interface is provided for a user to edit the corresponding scene template; and/or

26. The method for detecting the before and after physical and mental adaptation exercise status of claim 16, wherein between the step S1 and the step S2, the method further comprises detecting the current status of the vehicle to determine whether to start the physical and mental adaptation exercise content according to the operation command.

27. The method of claim 26, wherein the current state of the vehicle comprises a gear position, a position of a start switch, an environment outside the vehicle, a position of a driver, a hardware state inside the vehicle, a communication signal state, and a data connection state.

28. The method for detecting the state before and after an in-vehicle body-mind adaptation movement according to claim 16, wherein the body-mind adaptation movement includes meditation.