CN111452747A

CN111452747A - Vehicle-mounted health monitoring method and monitoring system

Info

Publication number: CN111452747A
Application number: CN202010260516.5A
Authority: CN
Inventors: 陈加慧; 邱聪雨; 郭建飞; 梁登宇
Original assignee: Zhejiang Geely Holding Group Co Ltd; Ningbo Geely Automobile Research and Development Co Ltd
Current assignee: Zhejiang Geely Holding Group Co Ltd; Ningbo Geely Automobile Research and Development Co Ltd
Priority date: 2020-04-03
Filing date: 2020-04-03
Publication date: 2020-07-28

Abstract

The invention provides a vehicle-mounted health monitoring method and a vehicle-mounted health monitoring system, and belongs to the field of vehicle safety. The vehicle-mounted health monitoring method comprises the following steps: acquiring physiological characteristics of a user in a vehicle, wherein the physiological characteristics comprise facial blood flow data of the user; generating a health portrait comprising user physiological state data and psychological state data according to the physiological characteristics, or sending the physiological characteristics to a cloud end, and receiving the health portrait comprising the user physiological health data and the psychological health data obtained by processing facial blood flow data through the cloud end; judging the health state of the user according to the health portrait; and providing corresponding health services for the user according to the health state of the user. The invention also provides a vehicle-mounted health monitoring system corresponding to the vehicle-mounted health monitoring method. The vehicle-mounted health monitoring method and the monitoring system can provide corresponding self-adaptive adjustment when the user health data fluctuate within a normal range, so that the driving safety is improved, and the accuracy of user health analysis is improved.

Description

Vehicle-mounted health monitoring method and monitoring system

Technical Field

The invention relates to the field of vehicle safety, in particular to a vehicle-mounted health monitoring method and a vehicle-mounted health monitoring system.

Background

With the development of science and technology, people's demand for automobiles is far from being simple as a travel tool, and the demand for the science and technology sense and the intellectualization of automobiles is higher and higher. However, as people depend on automobiles, the amount of exercise is reduced, and the influence on the health of the people is not negligible. Meanwhile, in the driving process, serious traffic accidents caused by the situations of fatigue driving, sudden diseases and the like of the user are not inconstant. If the health condition of the user can be monitored constantly in the user vehicle process, an alarm is given to prompt the user when the health condition of the user is abnormal, and corresponding guidance measures are given to the user, so that traffic accidents caused by poor physical conditions of a driver can be reduced to a great extent; to address this problem, there are also many solutions, for example, vehicle health systems that incorporate smart wearable devices; a vehicle-mounted health system with a health data acquisition sensor is arranged in a vehicle.

The existing vehicle-mounted system mainly monitors physiological health data of a user, and prompts and takes corresponding measures for the user by combining a voice and display system of a vehicle machine.

Disclosure of Invention

It is an object of the first aspect of the present invention to provide a vehicle health monitoring method, which can improve the accuracy of user health analysis.

Another object of the present invention is to provide adaptive adjustment for the fluctuation of user health data in a normal range, so as to further improve driving safety.

It is an object of a second aspect of the invention to provide an on-board health monitoring system that can improve the accuracy of user health analysis.

In particular, the invention provides a vehicle-mounted health monitoring method, which comprises the following steps:

acquiring physiological characteristics of a user in a vehicle, wherein the physiological characteristics comprise facial blood flow data of the user;

generating a health portrait comprising user physiological state data and psychological state data according to the physiological characteristics, or sending the physiological characteristics to a cloud end, and receiving the health portrait comprising the user physiological health data and the psychological health data obtained after the cloud end processes the facial blood flow data;

judging the health state of the user according to the health portrait;

and providing corresponding health services for the user according to the health state of the user.

Optionally, the step of providing the corresponding health service to the user according to the health status of the user includes:

when the health state of the user fluctuates within a normal range, one or more of a seat system, an air conditioning system, an ambience light system, a music system and a navigation system of the vehicle are adjusted according to the health state of the user to control the vehicle to enter a corresponding adjustment mode.

Optionally, when the health status of the user fluctuates within a normal range, the step of adjusting one or more of a seat system, an air conditioning system, an ambience light system, a music system, and a navigation system of the vehicle according to the health status of the user to control the vehicle to enter a corresponding adjustment mode includes:

when the health state of the user is that certain psychological pressure exists, controlling the vehicle to play one or more of soothing music, releasing fresh fragrance, starting a massage function and recommending a route with lower traffic pressure so as to control the vehicle to enter a soothing mode; and/or

When the health state of the user is a fatigue state, the vehicle is controlled to play music of a passion, adjust air volume, reduce the temperature in the vehicle, release refreshing fragrance and improve one or more of the brightness of light in the vehicle so as to control the vehicle to enter a vitality mode.

Optionally, providing a corresponding health service for the user according to the health status of the user, further comprising:

when the user is in the abnormal health state, sending out prompt information for prompting the user that the user is in the abnormal health state, acquiring health guidance information of a health institution and pushing the health guidance information to the user.

Optionally, after the step of providing the corresponding health service to the user according to the health status of the user, the method further includes:

and recording the remission degree of the health state of the user after the vehicle provides the health service for the user, so as to adjust the subsequent health service according to the recorded data.

Optionally, after the steps of generating a health portrait including user physiological state data and psychological state data according to the physiological characteristics, or sending the physiological characteristics to a cloud, and receiving a health portrait including user physiological health data and psychological health data obtained by processing the facial blood flow data by the cloud, the method further includes:

displaying the health representation in the vehicle to show the health status of the user.

In particular, the present invention also provides a vehicle health monitoring system, comprising:

the system comprises an acquisition unit, a processing unit and a display unit, wherein the acquisition unit is used for acquiring physiological characteristics of a user in the vehicle, and the physiological characteristics comprise facial blood flow data of the user;

the vehicle-mounted computer is connected with the acquisition unit and used for generating a health portrait comprising physiological state data and psychological state data according to the physiological characteristics, judging the health state of the user according to the health portrait and providing corresponding health services for the user according to the health state of the user; or

The vehicle-mounted computer is connected with the acquisition unit and the cloud end in a communication mode, the vehicle-mounted computer is used for sending the physiological characteristics to the cloud end and receiving a health portrait containing user physiological health data and mental health data obtained after the cloud end processes the facial blood flow data, and the vehicle-mounted computer is further used for providing corresponding health services for the user according to the health state of the user.

Optionally, the vehicle-mounted health monitoring system further comprises:

the vehicle adjusting system is connected with the vehicle-mounted computer and comprises one or more of a seat system, an air conditioning system, an atmosphere lamp system, a music system and a navigation system;

and the vehicle-mounted computer is used for adjusting the vehicle adjusting system according to the health state of the user when the health state of the user fluctuates in a normal range so as to control the vehicle to enter a corresponding adjusting mode.

Optionally, the vehicle-mounted health monitoring system further comprises:

the display screen is used for displaying the health image and prompt information of the abnormal health state of the user;

and the video chat system is used for acquiring the health guidance information of the health institution and pushing the health guidance information to the user.

Optionally, the vehicle-mounted computer is further configured to record a degree of remission of the health state of the user after the vehicle provides the health service for the user, so as to adjust subsequent health service according to the recorded data.

The vehicle-mounted health monitoring method can obtain the physiological state data and the psychological state data of the user according to the facial blood flow data of the user, so that the health state of the user is judged. The data for analyzing the health state of the user comprises the physiological state data and the psychological state data, so that the accuracy of the health analysis of the user can be improved, the health state of the user is further ensured, and the driving safety is improved.

Furthermore, the vehicle is controlled to enter a corresponding regulation mode when the health state of the user fluctuates within a normal range, so that the regulation equipment on the vehicle is fully combined with the health data of the user, corresponding adaptive regulation is provided, corresponding service and regulation are not provided any more when the health state of the user is abnormal as in the prior art, the defect of the prior art is made up, the stability of the health of the user is further ensured, and the driving safety is improved.

Furthermore, by recording the preference of the user and analyzing the alleviation degree of the different modes selected by the user on the health data of the user, for example, the car machine health system can analyze which mode can help the heart rate fluctuation of the user to be smooth, so that the psychological pressure of the user can be relieved. When the heart rate fluctuation of the user is large or the psychological pressure is large, the vehicle-mounted health system can automatically adjust the vehicle-mounted system, and the relieving mode is provided. After a period of recording and learning, the vehicle machine can more accurately know the health condition of the user and provide customized personalized service for the user.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

FIG. 1 is a flow diagram of an in-vehicle health monitoring method according to one embodiment of the present invention;

FIG. 2 is a flow diagram of an on-board health monitoring method according to another embodiment of the present invention;

FIG. 3 is a connection block diagram of an in-vehicle wellness monitoring system according to one embodiment of the present invention;

FIG. 4 is a connection block diagram of an in-vehicle wellness monitoring system according to another embodiment of the present invention.

Detailed Description

FIG. 1 is a flow diagram of an in-vehicle health monitoring method according to one embodiment of the present invention. As shown in fig. 1, in one embodiment, the method for monitoring health of a vehicle according to the present invention comprises the following steps:

step S10: physiological characteristics of a user in the vehicle are collected, the physiological characteristics including facial blood flow data of the user. For example, a human face of the user is scanned by the camera 11 in the vehicle, and the blood spectrum optical imaging technology is used to extract the facial blood flow data of the user. Of course, the physiological characteristics herein include not only facial blood flow data, but also some other data, such as personal characteristics, including data of age, sex, height, weight, etc.

Step S20: and generating a health portrait comprising user physiological state data and psychological state data according to the physiological characteristics, or sending the physiological characteristics to a cloud end, and receiving the health portrait comprising the user physiological health data and the psychological health data obtained after the cloud end processes the facial blood flow data.

Acquisition of physiological state data is relatively straightforward, such as acquiring a user's heart rate, respiration, blood pressure, facial age, etc., from facial blood flow data. In addition, the facial blood flow data can be used for judging the psychological state of the user, analyzing the facial expression of the user and judging whether the user has psychological stress and emotional state. And combining the physiological state data and the psychological state data to form a health portrait of the user.

The data analysis in step S20 may be performed by the vehicle end of the vehicle, or the vehicle end may send the parameters to the cloud end 200 for analysis, and then the parameters are pushed to the vehicle end by the cloud end 200 for corresponding display. The cloud 200 utilizes advanced signal processing technology to improve the signal-to-noise ratio of data and extract feature information, and then reveals the physiological and psychological states of the user through artificial intelligence.

Step S30: and judging the health state of the user according to the health portrait.

The health portrait can be used for representing whether cardiovascular disease risks exist, whether blood vessels are stiff, whether heart rate is abnormal, whether atria have fibrillation, whether psychological stress is too large, and which state the mood is in, such as happy state, sad state, aversion to people, depression, anxiety and the like, so as to judge the health state of the user.

Step S40: and providing corresponding health services for the user according to the health state of the user.

The vehicle-mounted health monitoring method of the embodiment can obtain the physiological state data and the psychological state data of the user according to the facial blood flow data of the user, so that the health state of the user is judged. The data for analyzing the health state of the user comprises the physiological state data and the psychological state data, so that the accuracy of the health analysis of the user can be improved, the health state of the user is further ensured, and the driving safety is improved.

FIG. 2 is a flow chart of an on-board health monitoring method according to another embodiment of the invention. As shown in fig. 2, in another embodiment, step S40 includes:

step S41: when the health state of the user fluctuates within a normal range, one or more of a seat system, an air conditioning system, an ambience lamp system, a music system and a navigation system of the vehicle are adjusted according to the health state of the user to control the vehicle to enter a corresponding adjustment mode.

It should be explained that "fluctuation in the normal range" herein refers to whether the health status data of the user belongs to the normal interval, and only the fluctuation occurs, and the case where the health data exceeds the normal range value is not included herein, and the case where the health data exceeds the normal range value is referred to as an abnormal case herein. For example, the range of blood pressure values for normal adults is: when the systolic pressure is 90-139 mmHg and the diastolic pressure is 60-89 mmHg, and when the systolic pressure exceeds the range, the user is considered to be in an abnormal health state, and when the diastolic pressure is within the range, the user is considered to have a significant fluctuation, for example, when the systolic pressure of the user is 90mmHg for a moment and 130mmHg for a moment, the user repeatedly fluctuates, and the health state of the user is considered to be in a normal range. Whether other physiological data and psychological data fluctuate within a normal range can be judged with reference to the above-described method.

The embodiment provides a corresponding adjustment mode aiming at the health state that the health state of the user fluctuates in a normal range, fully combines equipment on the vehicle and health data of the user, provides corresponding self-adaptive adjustment, does not provide corresponding service and adjustment only when the health state of the user is abnormal as in the prior art any more, makes up the deficiency of the prior art, further ensures the stability of the health of the user, and improves the driving safety.

In a further embodiment of the present invention, step S40 includes:

when the health state of the user is that certain psychological pressure exists, controlling the vehicle to play one or more of soothing music, releasing fresh fragrance, starting a massage function and recommending a route with lower traffic pressure so as to control the vehicle to enter a soothing mode; and/or when the health state of the user is a fatigue state, controlling the vehicle to play music of a passion, adjusting air volume, reducing the temperature in the vehicle, releasing refreshing fragrance and improving the brightness of light in the vehicle so as to control the vehicle to enter a vitality mode.

The above-described soothing and energizing modes can be adjusted by means of devices in the vehicle. For example, the music system 31 is used to control the vehicle to play different types of music; utilizing air conditioning system 32 to release fragrances of different efficacy; providing a massage function with the seat system 33; recommending routes using the navigation system 34, such as a route with less traffic stress or a route with better scenery when the user is more mentally stressed; the ambient light system 35 of the vehicle is used to control the brightness of the light in the vehicle.

Of course, before the vehicle enters into different adjustment modes, the user can be asked whether to enter into the mode or not. Or the user can select the mode through a human-computer interaction interface (vehicle health APP) when the user wants to enter a certain mode.

When the health state of the user fluctuates in a normal range, different adjusting modes are provided for different health states of the user, the abnormal health state of the user can be prevented to a certain extent, the current psychological state and physiological state are relieved, adjusting equipment in a vehicle plays a better service role, and the driving experience of the user is improved.

When the health state of the user is monitored by the cloud 200 to fluctuate in a normal range, the health state APP of the vehicle can be pushed according to the fluctuation condition of the health data of the user, the health APP of the vehicle informs the user in a message prompt mode, and when the user receives the health service prompt, the health system of the vehicle automatically provides personalized health service according to training and learning of the health data of the user.

Of course, in other embodiments, other adjustment modes may be included, and are not limited herein. For example, the training mode is further included, different videos are played through the display screen 40, the user can follow deep breathing relaxation videos, muscle relaxation videos, eye relaxation videos and head and neck relaxation videos to do corresponding actions, and the problem of limb stiffness caused by long-time driving can be solved.

As shown in fig. 2, in another embodiment, step S40 further includes:

s42: when the user is in the abnormal health state, sending out prompt information for prompting the user that the user is in the abnormal health state, acquiring health guidance information of the health institution 300, and pushing the health guidance information to the user.

For example, "please pay attention to self health, drive cautiously" is displayed and played through the vehicle entertainment information system. Meanwhile, when the health status is seriously abnormal, a doctor or a consultant remotely connected with the health institution 300 can seek professional help in time to obtain related assistance.

Specifically, the in-vehicle health APP can ask the user whether to remotely connect a doctor or a health advisor, and if the user allows the in-vehicle health APP, the in-vehicle health APP remotely video-connects the medical system to seek help and share the vehicle position information to the doctor or the health advisor. After receiving help seeking, a doctor or a health consultant gives an emergency remote video to firstly guide the user to stop in a safe zone, then provides medical inquiry according to various health data indexes of the user detected by the camera 11 at the moment, and guides the user to save oneself or other on-site personnel to save help according to the current situation of the user, so that when the user suddenly has abnormal health conditions, help can be provided for the user at the first time, and the life safety and driving safety of the user are guaranteed.

Certainly, when the user feels that the body is not proper, a doctor or a health adviser can be remotely connected through the vehicle-mounted health APP, and a video chat system in the vehicle is started for remote communication to obtain health guidance.

After the health portrait of the user is obtained, on one hand, the health portrait can be presented to the user through the vehicle health APP, so that the user can know the self health condition at any time; on the other hand, the cloud 200 or the vehicle end sends the health data analysis result of the user to a hospital or a professional medical institution. The doctor or the health consultant gives corresponding health guidance according to the health data of the user and transmits the health guidance back to the automobile end, or transmits the health guidance back to the cloud end 200 and transmits the health guidance to the automobile end health APP through the cloud end 200.

The health guide includes, for example, judging from the health data of the user and the trend of data change, if the user is in a sub-health state, a doctor or a health counselor gives a careful health care charter in the aspects of diet, exercise, rest time and the like, so that the user can pay attention to his own health at any time even when he does not feel the physical abnormality. If the user feels the self health condition is abnormal, the doctor or health counselor can remotely consult the self health condition.

In other embodiments of the present invention, step S40 is followed by:

s50: and recording the remission degree of the health state of the user after the vehicle provides the health service for the user, so as to adjust the subsequent health service according to the recorded data.

That is to say, the vehicle can record user's taste to the degree of alleviating of the different modes of user's selection to user's health data is analyzed simultaneously, for example, car machine health system can analyze which kind of mode can help user's heart rate fluctuation to tend to smooth, can alleviate user's psychological pressure. When the heart rate fluctuation of the user is large or the psychological pressure is large, the vehicle-mounted health system can automatically adjust the vehicle-mounted system, and the relieving mode is provided. After a period of recording and learning, the vehicle machine can more accurately know the health condition of the user and provide customized personalized service for the user.

In another embodiment, step S20 is followed by:

the health representation is displayed in the vehicle to show the user's own health status.

Specifically, the health portrait is presented to the user through the vehicle health APP, and various health parameters of the user are displayed in real time. Certainly, when the health state of the user fluctuates in a normal range or the health state of the user is abnormal, corresponding data and prompts can be displayed through the vehicle health APP, so that the user can be reminded to pay attention to the health of the user and clearly determine which parameter has a problem, and the user can adjust the health of the user in a targeted mode.

FIG. 3 is a block diagram of the connection of the in-vehicle wellness monitoring system 100 according to one embodiment of the present invention. FIG. 4 is a block diagram of the connection of the in-vehicle wellness monitoring system 100 according to another embodiment of the present invention. The invention also provides a vehicle-mounted health monitoring system 100, which comprises an acquisition unit 10 and a vehicle-mounted computer 20, as shown in fig. 3. The acquisition unit 10 is used for acquiring physiological characteristics of a user in the vehicle, wherein the physiological characteristics comprise facial blood flow data of the user. The on-board computer 20 is connected with the acquisition unit 10 and is used for generating a health portrait comprising physiological state data and psychological state data according to the physiological characteristics, judging the health state of the user according to the health portrait, and providing corresponding health services for the user according to the health state of the user. In another embodiment, as shown in fig. 4, the vehicle-mounted computer 20 is connected to both the acquisition unit 10 and the cloud 200, the vehicle-mounted computer 20 is configured to send the physiological characteristics to the cloud 200, receive a health portrait including user physiological health data and mental health data obtained by processing the facial blood flow data by the cloud 200, and the vehicle-mounted computer 20 is further configured to provide corresponding health services to the user according to the health status of the user.

As shown in FIG. 4, the acquisition unit 10 may be a camera 11 in a vehicle, and the vehicle-mounted computer 20 may be a host 21 of a vehicle-mounted entertainment information system.

The vehicle-mounted health monitoring system 100 of the present embodiment can obtain physiological state data and psychological state data of the user from the facial blood flow data of the user, thereby determining the health state of the user. The data for analyzing the health state of the user comprises the physiological state data and the psychological state data, so that the accuracy of the health analysis of the user can be improved, the health state of the user is further ensured, and the driving safety is improved.

As shown in FIG. 4, in some embodiments of the present invention, the in-vehicle health monitoring system 100 further includes a vehicle regulation system 30 coupled to the in-vehicle computer 20. Optionally, the vehicle conditioning system 30 includes one or more of a seat system 33, an air conditioning system 32, an ambience light system 35, a music system 31, and a navigation system 34. The onboard computer 20 is configured to adjust the vehicle adjustment system 30 according to the health status of the user when the health status of the user fluctuates within a normal range, so as to control the vehicle to enter a corresponding adjustment mode. The music playing system 31 is used for controlling the vehicle to play different types of music. The air conditioning system 32 is used to deliver fragrances of different efficacy. The seat system 33 is used to provide a massage function. The navigation system 34 is used to recommend routes. The ambience lamp system 35 is used to control the light intensity in the vehicle. The adjustment mode may include the above-described relaxation mode, vitality mode, and training mode, etc. The method comprises the steps of controlling the vehicle to enter a relieving mode when a certain psychological stress exists in the user, controlling the vehicle to enter a vitality mode when the user is in a fatigue state, prompting the user that the user is in an abnormal health state when the user is in the abnormal health state, acquiring health guidance information of a health institution 300 and pushing the health guidance information to the user.

In other embodiments, the vehicle adjusting system 30 may also include other devices, and any device that can affect the physiology and psychology of the user may be considered as belonging to the vehicle adjusting system 30, and is not limited herein.

Optionally, the onboard computer 20 or the cloud 200 is further in communication connection with the health institution 300 (see fig. 3 and 4) for sending the physiological status data and the psychological status data to the health institution 300 to provide professional health counseling services and health prompts for the user.

As shown in FIG. 4, in one embodiment, the in-vehicle health monitoring system 100 further includes a display screen 40 for displaying a health image, a prompt indicating that the user is in an abnormal health state.

Optionally, as shown in fig. 4, the in-vehicle health monitoring system 100 further includes a video chat system 50 for acquiring health guidance information of the health institution 300 and pushing the health guidance information to the user. The specific adjustment method is explained in detail above, and is not described herein again.

In another embodiment, the onboard computer 20 is further configured to record the degree of relief of the health status of the user after the vehicle provides the health service to the user, so as to adjust the subsequent health service according to the recorded data.

The invention relates to an intelligent vehicle-mounted health system which is based on a camera in a vehicle and a vehicle-mounted information entertainment system and is remotely combined with a hospital or a professional health medical institution. The system can learn the health condition of the user according to various body health data of the user, and adaptively adjust systems such as music, air conditioners, seats, lighting, video chatting and the like in the vehicle according to the health condition of the user, for example, the system can provide a route with low pressure, can customize different massage modes, adaptively adjust the seats and automatically play different types of music. Ambient lighting, even smell, in the vehicle is associated with real-time life health data of the user, so that the driving experience of the user is enriched; meanwhile, the system is also a vehicle-mounted doctor or health advisor, and when the health condition of the user is abnormal, health guidance opinions and remote health inquiry services are provided for the user, so that the safe driving of the user is guaranteed.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.

Claims

1. A vehicle-mounted health monitoring method is characterized by comprising the following steps:

judging the health state of the user according to the health portrait;

2. The vehicle-mounted health monitoring method according to claim 1, wherein the step of providing the corresponding health service to the user according to the health status of the user comprises:

3. The in-vehicle health monitoring method of claim 2, wherein the step of adjusting one or more of a seat system, an air conditioning system, an ambience light system, a music system, and a navigation system of the vehicle according to the health status of the user to control the vehicle to enter a corresponding adjustment mode when the health status of the user fluctuates within a normal range comprises:

4. The vehicle-mounted health monitoring method according to claim 3, wherein providing the user with corresponding health services according to the health status of the user further comprises:

5. The vehicle-mounted health monitoring method according to claim 1, further comprising, after the step of providing the corresponding health service to the user according to the health status of the user:

6. The vehicle-mounted health monitoring method according to any one of claims 1 to 5, wherein after the step of generating the health image including the physiological state data and the psychological state data of the user according to the physiological characteristics, or sending the physiological characteristics to a cloud, and receiving the health image including the physiological health data and the psychological health data of the user obtained by processing the facial blood flow data by the cloud, the method further comprises:

7. An in-vehicle health monitoring system, comprising:

8. The vehicle health monitoring system of claim 7, further comprising:

9. The vehicle health monitoring system of claim 8, further comprising:

10. The on-board health monitoring system of any of claims 7-9,

the vehicle-mounted computer is also used for recording the alleviation degree of the health state of the user after the vehicle provides the health service for the user, so as to adjust the subsequent health service according to the recorded data.