阅读说明：本技术 一种心肺功能锻炼系统以及方法 (Cardiopulmonary function exercise system and method ) 是由 马永 马赛 王成兴 杨建东 于 2020-12-29 设计创作，主要内容包括：本发明适用计算机技术领域,提供了心肺功能锻炼系统以及方法,包括：可穿戴显示端,用于获取用户视觉范围内携带有运动器材信息的区域图像；接收运动指标及运动器材信息在区域图像中的位置信息；根据运动器材信息在区域图像中的位置信息显示运动指标,以供用户按照运动指标进行心肺功能锻炼；信息处理端,用于获取用户的年龄信息及心肺功能信息；接收区域图像；根据年龄信息、心肺功能信息及运动器材信息,生成对应的运动指标；获取运动器材信息在区域图像中的位置信息。本发明协助用户选择适合自身进行心肺功能锻炼的运动器材,并向用户提供针对性的运动指标指导,丰富用户的心肺功能锻炼方式,提高心肺功能锻炼兴趣,使心肺功能得以有效增强。(The invention is suitable for the technical field of computers, and provides a cardio-pulmonary function exercise system and a method, wherein the cardio-pulmonary function exercise system comprises the following steps: the wearable display end is used for acquiring an area image carrying sports equipment information in a user visual range; receiving the sports index and the position information of the sports equipment information in the area image; displaying a motion index according to the position information of the motion equipment information in the area image so that a user can exercise the cardio-pulmonary function according to the motion index; the information processing terminal is used for acquiring age information and cardiopulmonary function information of a user; receiving a region image; generating a corresponding exercise index according to the age information, the cardiopulmonary function information and the exercise equipment information; and acquiring the position information of the sports equipment information in the area image. The invention assists the user to select the sports equipment suitable for self-carrying out the cardio-pulmonary function exercise, provides targeted exercise index guidance for the user, enriches the cardio-pulmonary function exercise mode of the user, improves the cardio-pulmonary function exercise interest and effectively enhances the cardio-pulmonary function.)

1. A cardio-pulmonary function exercise system is characterized by comprising a wearable display end and an information processing end communicated with the wearable display end;

the wearable display end is used for acquiring an area image in a visual range of a user, and the area image carries sports equipment information; sending the area image to the information processing terminal; receiving the motion index sent by the information processing terminal and the position information of the motion equipment information in the area image; displaying the sports index according to the position information of the sports equipment information in the area image so that a user can exercise the cardio-pulmonary function according to the sports index;

the information processing terminal is used for acquiring age information and cardiopulmonary function information of a user; receiving an area image sent by the wearable display end; generating a corresponding exercise index according to the age information, the cardiopulmonary function information and the exercise equipment information; acquiring the position information of the sports equipment information in the area image; and sending the motion index and the position information of the motion equipment information in the area image to the wearable display terminal.

2. The cardiopulmonary function exercise system of claim 1,

the wearable display end is also used for receiving dynamic cardio-pulmonary function data corresponding to the sports equipment information when a user moves on the sports equipment; displaying the dynamic cardiopulmonary function data in a regional image within a user's visual range;

the information processing terminal is communicated with the sports equipment and is also used for acquiring dynamic cardio-pulmonary function data corresponding to the sports equipment information when a user exercises on the sports equipment; and sending the dynamic cardiopulmonary function data to the wearable display terminal.

3. The cardiorespiratory function exercise system of claim 2, wherein the motion indicator carries a cardiorespiratory risk threshold corresponding to age information and cardiorespiratory function information of the user;

the wearable display end is also used for receiving a rest instruction sent by the information processing end; displaying the rest indication in a region image within a visual range of a user;

the information processing end is communicated with the sports equipment and is further used for controlling the sports equipment to stop running and sending a rest instruction to the wearable display end when the dynamic cardio-pulmonary function data is judged to exceed the cardio-pulmonary risk threshold according to the dynamic cardio-pulmonary function data and the sports indexes.

4. The cardiopulmonary function exercise system of claim 1,

the wearable display end is also used for receiving the exercise prohibition identification sent by the information processing end; displaying the exercise prohibition identification according to the position information of the sports equipment information in the area image;

the information processing terminal is further used for judging whether the sports equipment information is matched with the exercise of the user according to the age information and the cardiopulmonary function information; when the fact that the sports equipment information does not match with the user to exercise is judged according to the age information and the cardiopulmonary function information, an exercise prohibition identification is generated; and sending the exercise prohibition identification to the wearable display terminal.

5. The cardiopulmonary function exercise system of claim 1,

the wearable display end is also used for acquiring hand images in the visual range of the user; receiving a virtual acupuncture point massage model sent by an information processing end; displaying the virtual acupuncture point massage model so that a user can perform heart and lung function massage adjustment according to the pre-stored virtual acupuncture point massage model;

the information processing terminal is also used for responding to the cardio-pulmonary function massage adjustment request operation of the user and acquiring a hand image of the user; generating a virtual acupuncture point massage model corresponding to the hand image according to the hand image, and sending the virtual acupuncture point massage model to a wearable display end.

6. The cardiopulmonary function exercise system of claim 1,

the wearable display end is also used for receiving a pre-stored virtual standard heart-lung function exercise model sent by the information processing end; displaying the pre-stored virtual standard cardiopulmonary function exercise model to enable a user to perform cardiopulmonary function adjustment movement according to the pre-stored virtual standard cardiopulmonary function exercise model;

the information processing terminal is also used for acquiring the heart-lung function regulating movement information of the user when the user performs heart-lung function regulating movement; and when the cardiopulmonary function adjusting movement of the user is judged to be not matched with the standard cardiopulmonary function exercise action, sending the pre-stored virtual standard operation model to a wearable display terminal.

7. The cardiopulmonary function exercise system of claim 1,

the wearable display end is also used for receiving the virtual heart-lung function exercise model sent by the information processing end; displaying the virtual cardiopulmonary function exercise model so that a user can exercise the cardiopulmonary function according to the virtual cardiopulmonary function exercise model;

the information processing terminal is also used for receiving a cardio-pulmonary function exercise request of a user; generating a corresponding virtual heart-lung function exercise model according to the age information and the heart-lung function information of the user; and sending the virtual heart-lung function exercise model to a wearable display end.

8. The cardiopulmonary function exercise system of claim 1,

the wearable display end is also used for acquiring an area image carrying food materials in a user visual range; sending the area image carrying the food materials to the information processing terminal; receiving a food material collocation guide sent by the information processing terminal; displaying the food material collocation guide in the area image carrying the food materials;

the information processing terminal is further used for receiving the area image carrying the food material information sent by the wearable display terminal; generating a food material matching guide corresponding to the food material information according to the age information and the cardiopulmonary function information of the user; and sending the food material matching guide to the wearable display end.

9. The cardiorespiratory function exercise system of claim 1, wherein the cardiorespiratory function information comprises resting heart rate information, dynamic heart rate information, and pulmonary function information.

10. A method of exercising cardiopulmonary function, comprising:

acquiring age information and cardiopulmonary function information of a user;

acquiring an area image in a visual range of a user, wherein the area image carries sports equipment information;

generating a corresponding exercise index according to the age information, the cardiopulmonary function information and the exercise equipment information;

acquiring the position information of the sports equipment information in the area image;

and displaying the sports index according to the position information of the sports equipment information in the area image so that a user can exercise the cardio-pulmonary function according to the sports index.

Technical Field

The invention belongs to the technical field of computers, and particularly relates to a cardiopulmonary function exercise system and a cardiopulmonary function exercise method.

Background

Cardiopulmonary function refers to a person's ability to take oxygen and convert it into energy. The whole process involves the functions of blood production and pumping of the heart, the ability of the lungs to take oxygen and exchange gas, the efficiency of the blood circulation system to carry oxygen to various parts of the body, and the function of the muscles to use this oxygen. Therefore, the enhancement of the heart and lung functions is beneficial to the healthy operation of main functions of the body, and the probability of suffering from chronic diseases such as cardiovascular diseases, endocrine system diseases and respiratory system diseases is greatly lower.

The existing cardiopulmonary function enhancement method mainly carries out proper physical exercise according to medical advice or expert guidance, such as riding, swimming, climbing stairs, jogging, fast walking, climbing mountains and the like, but the provided exercise modes are relatively boring traditional outdoor exercises, and targeted exercise guidance cannot be set for the physical conditions of all individuals.

Therefore, the existing cardiopulmonary function enhancement method has the problems of boring exercise mode, lack of a targeted guidance scheme and limitation of field requirements, so that the cardiopulmonary function cannot be efficiently exercised.

Disclosure of Invention

The embodiment of the invention aims to provide a cardio-pulmonary function exercise system, and aims to solve the problems that the existing cardio-pulmonary function enhancement method is boring in exercise mode, lacks of a targeted guidance scheme, and is limited by field requirements, so that the cardio-pulmonary function cannot be efficiently exercised.

The embodiment of the invention is realized in such a way that the cardio-pulmonary function exercise system comprises a wearable display end and an information processing end communicated with the wearable display end;

the wearable display end is used for acquiring an area image in a visual range of a user, and the area image carries sports equipment information; sending the area image to the information processing terminal; receiving the motion index sent by the information processing terminal and the position information of the motion equipment information in the area image; displaying the sports index according to the position information of the sports equipment information in the area image so that a user can exercise the cardio-pulmonary function according to the sports index;

the information processing terminal is used for acquiring age information and cardiopulmonary function information of a user; receiving an area image sent by the wearable display end; generating a corresponding exercise index according to the age information, the cardiopulmonary function information and the exercise equipment information; acquiring the position information of the sports equipment information in the area image; and sending the motion index and the position information of the motion equipment information in the area image to the wearable display terminal.

Another object of an embodiment of the present invention is to provide a method for exercising cardiopulmonary function, including:

acquiring age information and cardiopulmonary function information of a user;

acquiring an area image in a visual range of a user, wherein the area image carries sports equipment information;

generating a corresponding exercise index according to the age information, the cardiopulmonary function information and the exercise equipment information;

acquiring the position information of the sports equipment information in the area image;

and displaying the sports index according to the position information of the sports equipment information in the area image so that a user can exercise the cardio-pulmonary function according to the sports index.

The cardio-pulmonary function exercise system provided by the embodiment of the invention obtains the area image carrying the sports equipment information in the visual range of the user through the wearable display end, and sends the area image to the information processing terminal, the information processing terminal acquires the age information and the cardiopulmonary function information of the user, generating a corresponding sports index according to the age information, the cardiopulmonary function information and the sports equipment information, further acquiring the position information of the sports equipment information in the area image, and sending the sports index and the position information of the sports equipment information in the area image to the wearable display terminal, and the wearable display end displays the motion index according to the position information of the motion equipment information in the area image, so that a user can exercise the cardio-pulmonary function according to the motion index. The invention can assist the user to select the sports equipment suitable for self-carrying out the cardio-pulmonary function exercise, and provides targeted exercise index guidance for the user according to the age information and the cardio-pulmonary function information of the user, thereby being beneficial to enriching the cardio-pulmonary function exercise modes of the user and improving the cardio-pulmonary function exercise interest of the user, and further effectively enhancing the cardio-pulmonary function.

Drawings

FIG. 1 is a schematic diagram of a cardiopulmonary exercise device according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of another alternative cardiopulmonary exercise device according to an embodiment of the present invention;

fig. 3 is a flowchart illustrating an implementation of a cardiopulmonary function exercise method according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The embodiment of the invention provides a cardio-pulmonary function exercise system to solve the problems that the existing cardio-pulmonary function enhancement method has boring exercise mode, lacks a targeted guidance scheme, is limited by field requirements, and cannot exercise cardio-pulmonary function efficiently, a wearable display end is used for acquiring a region image carrying exercise equipment information in a visual range of a user, and sending the region image to an information processing end, the information processing end is used for acquiring age information and cardio-pulmonary function information of the user, generating a corresponding exercise index according to the age information, the cardio-pulmonary function information and the exercise equipment information, further acquiring position information of the exercise equipment information in the region image, and sending the exercise index and the position information of the exercise equipment information in the region image to the wearable display end, and the wearable display end displays the motion index according to the position information of the motion equipment information in the area image, so that a user can exercise the cardio-pulmonary function according to the motion index. The invention can assist the user to select the sports equipment suitable for self-carrying out the cardio-pulmonary function exercise, and provides targeted exercise index guidance for the user according to the age information and the cardio-pulmonary function information of the user, thereby being beneficial to enriching the cardio-pulmonary function exercise modes of the user and improving the cardio-pulmonary function exercise interest of the user, and further effectively enhancing the cardio-pulmonary function.

To further explain the technical means and effects of the present invention adopted to achieve the predetermined objects, the following detailed description of the embodiments, structures, features and effects according to the present invention will be given with reference to the accompanying drawings and preferred embodiments.

Fig. 1 is a schematic structural diagram of a cardiorespiratory exercise system according to an embodiment of the present invention, and for convenience of illustration, only the parts related to the embodiment of the present invention are shown.

In an embodiment of the present invention, the cardiorespiratory exercise system includes a wearable display terminal 110 and an information processing terminal 120 in communication with the wearable display terminal 110.

In the embodiment of the present invention, the wearable display terminal 110 can be in the form of glasses, helmet, eye mask, etc., which can be worn on the head of the user and has a transparent display screen in front of the eyes of the user. The information processing terminal 120 stores various attributes of sports equipment and image information, and is a terminal with information acquisition and information analysis processing capabilities, such as but not limited to a smart phone, a tablet computer, a notebook computer, and a desktop computer.

The wearable display terminal 110 is configured to obtain an area image within a visual range of a user, where the area image carries information of a piece of sports equipment; sending the area image to the information processing terminal 120; receiving the sports index sent by the information processing terminal 120 and the position information of the sports equipment information in the area image; and displaying the sports index according to the position information of the sports equipment information in the area image so that a user can exercise the cardio-pulmonary function according to the sports index.

In the embodiment of the present invention, in order to more conveniently obtain the area image in the visual range of the user, it is common that a plurality of image information collecting devices are disposed at positions in each direction of the eye frame component of the wearable display terminal 110, and according to the position information of the plurality of image information collecting devices, the area image in the visual range of the user can be obtained by fusing and removing the duplicate of the area image obtained by the plurality of image information collecting devices.

In the embodiment of the present invention, the exercise index includes, but is not limited to, an exercise speed index, an exercise time index, an exercise frequency index, an exercise respiration index, an exercise heart rate index, a risk index, and the like. For example, the current sports equipment is a treadmill, and the corresponding sports index is displayed as' preparation for sports time 10-20 min; the movement speed is 4-6km/h, and the movement time is 20-30 min; the number of exercises is 3-5 times per day, with intervals > 30min.

In the embodiment of the present invention, the sports index is displayed on the transparent display screen of the wearable display terminal 110, so that the user can synchronously see the corresponding sports index while seeing the corresponding sports equipment. And the position displayed by the sports index is determined according to the position displayed by the sports equipment in the area image, so that the display position of the sports index in the area image can be ensured to be exactly corresponding to the corresponding sports equipment.

The information processing terminal 120 is configured to obtain age information and cardiopulmonary function information of a user; receiving the area image sent by the wearable display terminal 110; generating a corresponding exercise index according to the age information, the cardiopulmonary function information and the exercise equipment information; acquiring the position information of the sports equipment information in the area image; and sending the motion index and the position information of the sports equipment information in the area image to the wearable display terminal 110.

In the embodiment of the present invention, the age information and the cardiopulmonary function information of the user may be acquired through manual entry, or acquired through a manner of importing the cardiopulmonary function information of the user after the cardiopulmonary function information of the user is tested by a cardiopulmonary function tester.

In the embodiment of the present invention, the cardiopulmonary function information includes, but is not limited to, indexes such as resting heart rate information, dynamic heart rate information, and pulmonary function information; wherein the resting heart rate information is the heart rate measured in a resting state; the lung function information comprises indexes of lung volume function and lung ventilation function, the indexes of the lung volume function comprise tidal volume, supplementary expiratory volume, supplementary inspiratory volume, deep inspiratory volume, vital capacity, functional residual capacity, residual capacity and total lung volume, and the indexes of the lung ventilation function comprise lung ventilation volume, forced vital capacity, maximum expiratory mid-segment volume and the like.

In the embodiment of the invention, because people of different ages and with cardiopulmonary function exercise the exercise intensity is different, for the sake of safety, the exercise intensity born by the weak cardiopulmonary function is often lower than that born by the strong cardiopulmonary function. As described in the above example, the sports apparatus is a treadmill, and the corresponding sports index is displayed as "preparation for exercise time 10-20 min; the movement speed is 4-6km/h, and the movement time is 20-30 min; the exercise frequency is 3-5 times per day, and the interval time is more than 30min.. the index is equivalent to slow walking and is suitable for patients with weak heart and lung functions; and the exercise index is displayed as "preparation exercise time 15 min; the movement speed is 9-10km/h, and the movement time is 45 min; exercise times 3-5 times a day, interval > 30min. Therefore, the targeted exercise index is generated according to the age information, the cardiopulmonary function information and the corresponding exercise equipment of the user, and the risk of exercising the weak cardiopulmonary function is reduced. In addition, as the cardiopulmonary function of the user is often influenced by staying up all night, fatigue degree and the like to cause short-time drop, if the current situation of the cardiopulmonary function of the user can be tested before the user prepares for exercise, the obtained cardiopulmonary function information is more accurate, the corresponding exercise indexes are more targeted, and sudden death crisis of the user with overfatigue can be avoided.

In the embodiment of the present invention, after receiving the area image, the information processing terminal 120 performs equipment on the piece of sports equipment information in the area image, may directly obtain an image of the piece of sports equipment in the area image in an image color difference manner, determines the type of the piece of sports equipment according to the image of the piece of sports equipment or by combining with a database in which the attribute information of the piece of sports equipment is stored, and further may obtain the position information of the piece of sports equipment information in the area image by using a coordinate axis or a positioning point.

The cardio-pulmonary function exercise system provided by the embodiment of the invention obtains the area image carrying the sports equipment information in the visual range of the user through the wearable display end, and sends the area image to the information processing terminal, the information processing terminal acquires the age information and the cardiopulmonary function information of the user, generating a corresponding sports index according to the age information, the cardiopulmonary function information and the sports equipment information, further acquiring the position information of the sports equipment information in the area image, and sending the sports index and the position information of the sports equipment information in the area image to the wearable display terminal, and the wearable display end displays the motion index according to the position information of the motion equipment information in the area image, so that a user can exercise the cardio-pulmonary function according to the motion index. The invention can assist the user to select the sports equipment suitable for self-carrying out the cardio-pulmonary function exercise, and provides targeted exercise index guidance for the user according to the age information and the cardio-pulmonary function information of the user, thereby being beneficial to enriching the cardio-pulmonary function exercise modes of the user and improving the cardio-pulmonary function exercise interest of the user, and further effectively enhancing the cardio-pulmonary function.

Fig. 2 is a schematic structural diagram of another cardiopulmonary exercise device according to an embodiment of the present invention, which is similar to the above embodiment, except that:

in an embodiment of the present invention, the wearable display terminal 110 is further configured to receive dynamic cardiopulmonary function data corresponding to the user when the user moves on the sports equipment corresponding to the sports equipment information; displaying the dynamic cardiopulmonary function data in a regional image within a user's visual range.

The information processing terminal 120 is in communication with the sports equipment 210, and is further configured to obtain dynamic cardiopulmonary function data corresponding to the user when the user exercises on the sports equipment corresponding to the sports equipment information; sending the dynamic cardiopulmonary function data to the wearable display 110.

In an embodiment of the present invention, the dynamic cardiopulmonary function data may refer to a corresponding dynamic heart rate of the user when exercising on a corresponding piece of athletic equipment. The dynamic cardiopulmonary function data may be obtained by communicatively connecting the information processing terminal 120 to the sports equipment 210 connected with the heart rate tester, or directly obtaining the dynamic cardiopulmonary function data by communicatively connecting the information processing device 120 to the heart rate tester, which is not specifically limited in the embodiment of the present invention.

In the embodiment of the invention, the dynamic cardiopulmonary function data is displayed in the area image in the visual range of the user, so that the user can pay attention to the change situation of the heart rate value of the user in real time while moving, the movement situation of the user can be adjusted by combining the limitation on the movement heart rate index in the movement index, and the user can select to stop moving immediately when seeing that the dynamic heart rate value exceeds the limit value on the movement heart rate index in the movement index, so as to avoid potential danger.

In a preferred embodiment of the present invention, the difference between the above embodiments is that the exercise index carries a cardiopulmonary risk threshold corresponding to the age information and cardiopulmonary function information of the user.

In this embodiment of the present invention, the wearable display terminal 110 is further configured to receive a rest instruction sent by the information processing terminal 120; displaying the rest indication in a region image within a visual range of a user.

The information processing terminal 120 is further configured to control the sports equipment 210 to stop operating and send a rest instruction to the wearable display terminal 110 when it is determined that the dynamic cardiopulmonary function data exceeds the cardiopulmonary risk threshold according to the dynamic cardiopulmonary function data and the sports index.

In the embodiment of the present invention, the cardiopulmonary risk threshold may be a single value, such as a heart rate risk value of 120 times/min, and when the dynamic heart rate value exceeds 120 times/min, it is determined that the current user is in a dangerous condition and needs to rest immediately; or may be a value within a certain period of time, such as 100 times/min within 5 minutes, and when the dynamic heart rate value continuously exceeds 100 times/min for 5 minutes, the current user is determined to be in a dangerous condition and needs to take a rest immediately.

In the embodiment of the present invention, the information processing device 120 is communicated with a sports apparatus, when the information processing device 120 determines that the dynamic cardiopulmonary function data exceeds the cardiopulmonary risk threshold according to the dynamic cardiopulmonary function data and the sports index, the sports apparatus 210 is controlled to stop running, and meanwhile, the wearable display end displays a rest instruction in the area image in the visual range of the user, so that the user can be reminded to rest in time, and the danger caused by the fact that the user overestimates his own physical quality is avoided.

In a preferred embodiment of the present invention, the difference from the above embodiment is that:

in this embodiment of the present invention, the wearable display terminal 110 is further configured to receive an exercise prohibition identifier sent by the information processing terminal; and displaying the exercise prohibition identification according to the position information of the sports equipment information in the area image.

The information processing terminal 120 is further configured to determine whether the exercise equipment information matches the exercise of the user according to the age information and the cardiopulmonary function information; when the fact that the sports equipment information does not match with the user to exercise is judged according to the age information and the cardiopulmonary function information, an exercise prohibition identification is generated; sending the exercise prohibition identifier to the wearable display terminal 110.

In the embodiment of the invention, because people of different ages and with cardiopulmonary functions have different corresponding exercise intensities and even different suitable exercise types when performing cardiopulmonary function exercises, when the exercise intensity of the current exercise equipment is judged to be too high according to the age information and the cardiopulmonary function information of the user and exceeds the cardiopulmonary function bearing capacity of the user, an exercise prohibition identifier is generated to remind the user that the current exercise mode is not suitable for being performed, so that dangerous accidents are avoided.

In a preferred embodiment of the present invention, the information processing terminal 120 is further configured to recommend to the user a category of cardiopulmonary exercise suitable for the user to take according to the age information and the cardiopulmonary function information.

The embodiment of the invention also provides another cardio-pulmonary function exercise system, which is similar to the embodiment, except that:

in the embodiment of the present invention, the wearable display terminal 110 is further configured to collect hand images in the visual range of the user; receiving the virtual acupoint massage model sent by the information processing terminal 120; and displaying the virtual acupuncture point massage model so that the user can perform heart and lung function massage adjustment according to the pre-stored virtual acupuncture point massage model.

In the embodiment of the invention, the heart and lung functions can be improved to a certain extent by massaging the acupuncture points, for example, the elbow is bent to 90 degrees, the depression in the middle of the elbow transverse striation and the bone edge of the elbow fossa is the Quchi acupuncture point, or the Neiguan acupuncture point is positioned at the two inches (three transverse fingers wide) of the wrist transverse striation, and the Quchi acupuncture point or the Neiguan acupuncture point is massaged for not less than 100 times by using a finger cutting method; the acupuncture point massage is combined with the cardio-pulmonary function movement to carry out cardio-pulmonary function exercise, so that the effect of enhancing the cardio-pulmonary function can be realized more efficiently.

The information processing terminal 120 is further configured to respond to a cardiopulmonary function massage adjustment request operation of a user, and acquire a hand image of the user; and generating a virtual acupuncture point massage model corresponding to the hand image according to the hand image, and sending the virtual acupuncture point massage model to the wearable display terminal 110.

In the embodiment of the invention, the shape and size of the hand of the user are identified through the hand image of the user, so that a virtual acupuncture point massage model corresponding to the hand image is generated, the virtual acupuncture point massage model is a three-dimensional virtual simulation model, a three-dimensional virtual model is generated by utilizing computer simulation, the aim is to guide the user to bend the elbow to find the Quchi acupuncture point or the Neiguan acupuncture point and guide the user to carry out finger pressure massage is achieved through the virtual acupuncture point massage model, the user is guided to find the position of the Quchi acupuncture point or the Neiguan acupuncture point through the virtual acupuncture point massage model, the user does not need to master related knowledge skills, and the operability is strong.

The embodiment of the invention also provides another cardio-pulmonary function exercise system, which is similar to the embodiment, except that:

the wearable display terminal 110 is further configured to receive a pre-stored virtual standard cardiopulmonary function exercise model sent by the information processing terminal 120; and displaying the pre-stored virtual standard cardiopulmonary function exercise model so that a user can perform cardiopulmonary function adjusting movement according to the pre-stored virtual standard cardiopulmonary function exercise model.

The information processing terminal 120 is further configured to obtain the cardiopulmonary function regulating movement information of the user when the user performs cardiopulmonary function regulating movement; when the cardiopulmonary function regulating movement of the user is judged not to be matched with the standard cardiopulmonary function exercise action, the pre-stored virtual standard operation model is sent to the wearable display terminal 110.

In the embodiment of the invention, the virtual standard cardiorespiratory function exercise model is also a three-dimensional virtual simulation model, a three-dimensional virtual model is generated by computer simulation, and aims to provide a standard exercise operation instruction for a user, and the pre-stored virtual standard cardiorespiratory function exercise model is used for the user to find the action error in time and correct the action error in time; for example, the virtual standard cardiopulmonary function exercise model may be a cardiopulmonary function exercise action virtual model, and the user performs cardiopulmonary function adjustment movement according to the virtual model, thereby avoiding the occurrence of a situation where the cardiopulmonary function exercise effect is not good due to an action irregularity of the user.

In the embodiment of the present invention, the pre-stored virtual standard cardiorespiratory function exercise model may be generated by various cardiorespiratory function exercise motions (such as yoga, running, leg raising, walking race, etc.), and the method of determining whether the cardiorespiratory function adjustment motion of the user matches the standard cardiorespiratory function exercise motions is, for example, when the user is performing a certain yoga motion (such as chicken independence), comparing the motion with the standard cardiorespiratory function exercise motion model in the standard cardiorespiratory function exercise motions to see whether the motion matches, i.e., whether the motion is standard, and if the motion is not standard, displaying the pre-stored standard cardiorespiratory function exercise model through the wearable display terminal 110, so that the user performs the cardiorespiratory function adjustment motion according to the pre-stored standard cardiorespiratory function exercise model.

According to the cardiopulmonary function exercise system provided by the embodiment of the invention, when a user performs cardiopulmonary function adjustment movement, cardiopulmonary function adjustment movement information of the user is obtained through the information processing terminal, and when the cardiopulmonary function adjustment movement of the user is judged to be not matched with standard cardiopulmonary function exercise actions, a pre-stored virtual standard operation model is sent to the wearable display terminal, and the wearable display terminal displays the pre-stored virtual standard cardiopulmonary function exercise model, so that the user performs cardiopulmonary function adjustment movement according to the pre-stored virtual standard cardiopulmonary function exercise model. The invention not only can avoid the accident of excessive sprain of the body of the user caused by improper actions, but also can avoid the situation of poor cardio-pulmonary function exercise effect caused by nonstandard actions of the user, thereby further ensuring the cardio-pulmonary function exercise effect.

Embodiments of the present invention also provide a preferred cardiorespiratory exercise system, similar to the above embodiments, except that:

the wearable display terminal 110 is further configured to receive the virtual cardiorespiratory function exercise model sent by the information processing terminal 120; displaying the virtual cardiopulmonary function exercise model so that a user can exercise the cardiopulmonary function according to the virtual cardiopulmonary function exercise model.

The information processing terminal 120 is further configured to receive a request for performing cardio-pulmonary function exercise of the user; generating a corresponding virtual heart-lung function exercise model according to the age information and the heart-lung function information of the user; the virtual cardiorespiratory function exercise model is sent to the wearable display 110.

In the embodiment of the present invention, the virtual cardiorespiratory function exercise model is also a three-dimensional virtual simulation model, which utilizes computer simulation to generate a three-dimensional virtual model, and aims to provide exercise instructions for a user, and is different from the virtual standard cardiorespiratory function exercise model in that the virtual cardiorespiratory function exercise model is generated according to age information and cardiorespiratory function information of the user, for example, if the user is older, the cardiorespiratory function is weaker, and the appropriate cardiorespiratory function exercise movement is slow walking, the virtual cardiorespiratory function exercise model related to slow walking is generated, and the virtual cardiorespiratory function exercise model related to slow walking can also be obtained by retrieving the virtual cardiorespiratory function exercise model related to slow walking from another database; and if the user is suitable for the yoga movement with low movement amplitude, generating a virtual heart and lung function exercise model related to the yoga movement with low movement amplitude.

In a preferred embodiment of the present invention, when there are many suitable cardiorespiratory function exercise motions, such as yoga, jogging, and walking race, according to the age information and the cardiorespiratory function information of the user, a corresponding virtual cardiorespiratory function exercise model related to yoga, a virtual cardiorespiratory function exercise model related to jogging, and a virtual cardiorespiratory function exercise model related to walking race may be generated, respectively, so that the user may select an exercise model according to his/her preference.

According to the cardiopulmonary function exercise system provided by the embodiment of the invention, a cardiopulmonary function exercise request of a user is received through an information processing end, a corresponding virtual cardiopulmonary function exercise model is generated according to the age information and the cardiopulmonary function information of the user, the virtual cardiopulmonary function exercise model is sent to a wearable display end, and the wearable display end displays the virtual cardiopulmonary function exercise model, so that the user can exercise the cardiopulmonary function according to the virtual cardiopulmonary function exercise model. According to the invention, the targeted virtual heart-lung function exercise model suitable for the user is generated through the age information and the heart-lung function information of the user, and the user can exercise the standard heart-lung function according to the virtual heart-lung function exercise model, so that the adaptability is wide.

The embodiment of the invention also provides another cardio-pulmonary function exercise system, which is similar to the embodiment, and is different from the embodiment in that:

the wearable display terminal 110 is further configured to obtain an area image carrying the food material in the user visual range; sending the area image carrying the food material to the information processing terminal 120; receiving the food material matching guide sent by the information processing terminal 120; and displaying the food material collocation guide in the area image carrying the food materials.

In the embodiment of the invention, reasonable diet collocation has an invisible effect on heart-lung health, a plurality of nutrients in diet can help strengthen heart and lung, for example, potassium element is a heart-protecting element in the list of minerals, so that the excitability of cardiac muscle can be inhibited, and the heart rate can be controlled, and bananas, papaya, mushrooms, potatoes and the like are foods rich in potassium element; polyunsaturated fatty acids such as omega-3 fatty acids are useful in preventing systemic inflammatory response and cardiovascular disease, with the purpose of protecting the heart; magnesium can help regulate tachycardia, arrhythmia, myocardial necrosis and calcification, and is like cereals, beans, amaranth, mushrooms, sesame, etc. Therefore, the diet is matched and combined with the cardio-pulmonary function exercise to carry out cardio-pulmonary function training, and the effect of enhancing the cardio-pulmonary function is realized more effectively. In addition, the food material collocation guide is displayed on the transparent display screen of the wearable display terminal 110, so that the user can synchronously see the corresponding food material collocation guide while seeing the food materials.

The information processing terminal 120 is further configured to receive the area image carrying the food material information sent by the wearable display terminal 110; generating a food material matching guide corresponding to the food material information according to the age information and the cardiopulmonary function information of the user; and sending the food material matching guide to the wearable display terminal 110.

In the embodiment of the present invention, the information processing terminal 120 stores a database of various food material attributes and image information, and further stores a meal collocation database. Judging the elements lacking in the user according to the age information and the cardiopulmonary function information of the user to generate a food material matching guide corresponding to the current food material, if the heart rate of the user is too fast, obtaining the type of the current food material rich in potassium element, and generating the corresponding food material matching guide by combining the type of the food material with the existing meal matching database.

According to the cardio-pulmonary function exercise system provided by the embodiment of the invention, the area image carrying the food material in the visual range of the user is acquired through the wearable display terminal, the area image carrying the food material is sent to the information processing terminal, the information processing terminal generates the food material matching guide corresponding to the food material information according to the age information and the cardio-pulmonary function information of the user, and sends the food material matching guide to the wearable display terminal, and the wearable display terminal displays the food material matching guide in the area image carrying the food material, so that the user can cook the food by using the current food material to condition the cardio-pulmonary function of the user without the guidance of experts or the inquiry of corresponding food material matching information, and the operability is strong.

Fig. 3 shows a flow of implementing a method for exercising cardiopulmonary function according to an embodiment of the present invention, and for convenience of description, only the parts related to the embodiment of the present invention are shown, which is detailed as follows:

in step S301, age information and cardiopulmonary function information of the user are acquired.

In the embodiment of the present invention, the age information and the cardiopulmonary function information of the user may be acquired through manual entry, or acquired through a manner of importing the cardiopulmonary function information of the user after the cardiopulmonary function information of the user is tested by a cardiopulmonary function tester.

In the embodiment of the present invention, the cardiopulmonary function information includes, but is not limited to, indexes such as resting heart rate information, dynamic heart rate information, and pulmonary function information; wherein the resting heart rate information is the heart rate measured in a resting state; the lung function information comprises indexes of lung volume function and lung ventilation function, the indexes of the lung volume function comprise tidal volume, supplementary expiratory volume, supplementary inspiratory volume, deep inspiratory volume, vital capacity, functional residual capacity, residual capacity and total lung volume, and the indexes of the lung ventilation function comprise lung ventilation volume, forced vital capacity, maximum expiratory mid-segment volume and the like.

Step S302, obtaining an area image in the visual range of the user, wherein the area image carries the information of the sports equipment.

In the embodiment of the present invention, in order to more conveniently obtain the area image in the visual range of the user, it is common that a plurality of image information collecting devices are disposed at positions in each direction of the eye frame component of the wearable display terminal 110, and according to the position information of the plurality of image information collecting devices, the area image in the visual range of the user can be obtained by fusing and removing the duplicate of the area image obtained by the plurality of image information collecting devices.

And step S303, generating a corresponding exercise index according to the age information, the cardiopulmonary function information and the exercise equipment information.

In the embodiment of the present invention, the exercise index includes, but is not limited to, an exercise speed index, an exercise time index, an exercise frequency index, an exercise respiration index, an exercise heart rate index, a risk index, and the like. For example, the current sports equipment is a treadmill, and the corresponding sports index is displayed as' preparation for sports time 10-20 min; the movement speed is 4-6km/h, and the movement time is 20-30 min; the number of exercises is 3-5 times per day, with intervals > 30min.

In the embodiment of the invention, because people of different ages and with cardiopulmonary function exercise the exercise intensity is different, for the sake of safety, the exercise intensity born by the weak cardiopulmonary function is often lower than that born by the strong cardiopulmonary function. As described in the above example, the sports apparatus is a treadmill, and the corresponding sports index is displayed as "preparation for exercise time 10-20 min; the movement speed is 4-6km/h, and the movement time is 20-30 min; the exercise frequency is 3-5 times per day, and the interval time is more than 30min.. the index is equivalent to slow walking and is suitable for patients with weak heart and lung functions; and the exercise index is displayed as "preparation exercise time 15 min; the movement speed is 9-10km/h, and the movement time is 45 min; exercise times 3-5 times a day, interval > 30min. Therefore, the targeted exercise index is generated according to the age information, the cardiopulmonary function information and the corresponding exercise equipment of the user, and the risk of exercising the weak cardiopulmonary function is reduced.

Step S304, acquiring the position information of the sports equipment information in the area image.

In the embodiment of the invention, the position information of the sports equipment information in the area image can be acquired by using the coordinate axes or the positioning points.

Step S305, displaying the exercise index according to the position information of the exercise equipment information in the area image, so that a user can exercise the cardio-pulmonary function according to the exercise index.

In the embodiment of the present invention, the sports index is displayed on the transparent display screen of the wearable display terminal 110, so that the user can synchronously see the corresponding sports index while seeing the corresponding sports equipment. And the position displayed by the sports index is determined according to the position displayed by the sports equipment in the area image, so that the display position of the sports index in the area image can be ensured to be exactly corresponding to the corresponding sports equipment.

According to the cardio-pulmonary function exercise system provided by the embodiment of the invention, the area image carrying sports equipment information in the visual range of the user is obtained, the age information and the cardio-pulmonary function information of the user are obtained, the corresponding exercise index is generated according to the age information, the cardio-pulmonary function information and the sports equipment information, the position information of the sports equipment information in the area image is further obtained, and the exercise index is displayed according to the position information of the sports equipment information in the area image, so that the user can exercise the cardio-pulmonary function according to the exercise index. The invention can assist the user to select the sports equipment suitable for self-carrying out the cardio-pulmonary function exercise, and provides targeted exercise index guidance for the user according to the age information and the cardio-pulmonary function information of the user, thereby being beneficial to enriching the cardio-pulmonary function exercise modes of the user and improving the cardio-pulmonary function exercise interest of the user, and further effectively enhancing the cardio-pulmonary function.

In one embodiment, a computer device is proposed, the computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the following steps when executing the computer program:

acquiring age information and cardiopulmonary function information of a user;

acquiring an area image in a visual range of a user, wherein the area image carries sports equipment information;

generating a corresponding exercise index according to the age information, the cardiopulmonary function information and the exercise equipment information;

acquiring the position information of the sports equipment information in the area image;

and displaying the sports index according to the position information of the sports equipment information in the area image so that a user can exercise the cardio-pulmonary function according to the sports index.

In one embodiment, a computer readable storage medium is provided, having a computer program stored thereon, which, when executed by a processor, causes the processor to perform the steps of:

acquiring age information and cardiopulmonary function information of a user;

acquiring an area image in a visual range of a user, wherein the area image carries sports equipment information;

generating a corresponding exercise index according to the age information, the cardiopulmonary function information and the exercise equipment information;

acquiring the position information of the sports equipment information in the area image;

and displaying the sports index according to the position information of the sports equipment information in the area image so that a user can exercise the cardio-pulmonary function according to the sports index.

It should be understood that, although the steps in the flowcharts of the embodiments of the present invention are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a portion of the steps in various embodiments may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a non-volatile computer-readable storage medium, and can include the processes of the embodiments of the methods described above when the program is executed. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.