CN111643853A - Mobile device based on cardiopulmonary endurance - Google Patents

Mobile device based on cardiopulmonary endurance Download PDF

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Publication number
CN111643853A
CN111643853A CN202010516680.8A CN202010516680A CN111643853A CN 111643853 A CN111643853 A CN 111643853A CN 202010516680 A CN202010516680 A CN 202010516680A CN 111643853 A CN111643853 A CN 111643853A
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information
user
motion
exercise
scheme
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CN111643853B (en
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林家仕
张娟
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Jimei University
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Jimei University
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    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B22/00Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements
    • A63B22/02Exercising apparatus specially adapted for conditioning the cardio-vascular system, for training agility or co-ordination of movements with movable endless bands, e.g. treadmills
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B24/00Electric or electronic controls for exercising apparatus of preceding groups; Controlling or monitoring of exercises, sportive games, training or athletic performances
    • A63B24/0062Monitoring athletic performances, e.g. for determining the work of a user on an exercise apparatus, the completed jogging or cycling distance
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B24/00Electric or electronic controls for exercising apparatus of preceding groups; Controlling or monitoring of exercises, sportive games, training or athletic performances
    • A63B24/0075Means for generating exercise programs or schemes, e.g. computerized virtual trainer, e.g. using expert databases
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B24/00Electric or electronic controls for exercising apparatus of preceding groups; Controlling or monitoring of exercises, sportive games, training or athletic performances
    • A63B24/0087Electric or electronic controls for exercising apparatus of groups A63B21/00 - A63B23/00, e.g. controlling load
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B71/00Games or sports accessories not covered in groups A63B1/00 - A63B69/00
    • A63B71/06Indicating or scoring devices for games or players, or for other sports activities
    • A63B71/0619Displays, user interfaces and indicating devices, specially adapted for sport equipment, e.g. display mounted on treadmills
    • A63B71/0669Score-keepers or score display devices
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B24/00Electric or electronic controls for exercising apparatus of preceding groups; Controlling or monitoring of exercises, sportive games, training or athletic performances
    • A63B24/0075Means for generating exercise programs or schemes, e.g. computerized virtual trainer, e.g. using expert databases
    • A63B2024/0081Coaching or training aspects related to a group of users

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  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Engineering & Computer Science (AREA)
  • Cardiology (AREA)
  • Vascular Medicine (AREA)
  • Human Computer Interaction (AREA)
  • Databases & Information Systems (AREA)
  • Software Systems (AREA)
  • Rehabilitation Tools (AREA)
  • Medical Treatment And Welfare Office Work (AREA)

Abstract

The invention discloses a movement method, a movement device, mobile equipment, a server and a movement system based on cardiopulmonary endurance, wherein the movement method comprises the steps that the mobile equipment collects information of a user and generates movement scheme information, the mobile equipment sends the movement scheme information to the server, and the server receives and stores the received movement scheme information; the server receives verification information sent by the movement device, returns a verification result after matching verification, and judges whether the user is allowed to carry out movement training or not according to the verification result by the movement device; and the motion device detects motion trigger operation, sends the motion scheme information confirmed by the user to the server and executes the motion scheme information. The exercise method and the exercise device disclosed by the invention combine the three factors of strength, speed and gradient together according to the physique level of a user, realize diversity, continuity, periodicity and intermittence in a cardiopulmonary endurance training mode, greatly avoid the boring feeling in the training process, and adopt high-strength intermittent training, so that the expected training effect can be obtained in less time on a treadmill.

Description

Mobile device based on cardiopulmonary endurance
Technical Field
The invention relates to the field of cardio-pulmonary endurance training, in particular to a movement method, a movement device, mobile equipment, a server and a movement system based on cardio-pulmonary endurance.
Background
At present, the treadmill exercise is one of the motion modes that people took exercise cardiopulmonary endurance, and the treadmill can change speed or slope according to user's needs manual, and the user can change the speed or the slope of treadmill in good time through the button on the manual operation panel in the exercise process. After obtaining a running platform device, a user can carry out effective cardiopulmonary endurance training according to the physical fitness level of the user, so that the situation that the user can not achieve the expected training effect due to blind training on the running platform is avoided.
Disclosure of Invention
The embodiment of the invention discloses a movement method, a movement device, mobile equipment, a server and a movement system based on cardiopulmonary endurance, and aims to solve the problem of how to perform effective cardiopulmonary endurance training aiming at the physical fitness level of a user.
In order to solve the above technical problem, the embodiments of the present invention disclose the following technical solutions.
The invention discloses a first aspect of the application, which is a movement method based on cardiopulmonary endurance, and the method comprises the following steps:
the mobile equipment collects the basic information, the movement information, the daily activity grade information and the feedback information corresponding to the physical condition safety information of the user, generating the exercise scheme information of the user according to the basic information, the exercise information and the daily activity level information of the user, the motion scheme information comprises a user number, a scheme number, a serial number, a duration, a rate, a gradient and an intensity, the motion scheme information selected by the user is determined, the mobile equipment sends the motion scheme information to the server, receiving successful receiving information returned by the server, wherein the successful receiving information is uniquely corresponding to the motion scheme information, displaying the successful receiving information so that the motion device in the motion area reads the successful receiving information, and when the feedback information corresponding to the physical condition safety information of the user does not meet the preset condition, preventing the generation of the exercise scheme information.
The server receives movement scheme information sent by mobile equipment and stores the received movement scheme information, generates successful receiving information uniquely corresponding to the movement scheme information, returns the corresponding successful receiving information to the mobile equipment, stores the successful receiving information in association with the user, receives verification information sent by a movement device located in a movement area, wherein the verification information comprises successful receiving information to be verified, the successful receiving information is read from the mobile equipment used by the user by the movement device, performs matching verification on the successful receiving information to be verified and the stored successful receiving information associated with the user, returns a verification result to the movement device, and judges whether the user is allowed to perform movement training according to the matching verification result by the movement device; and receiving the motion scheme information sent by the motion device in the motion area, returning corresponding successful receiving information to the motion device in the motion area, and updating the motion scheme information of the fifth receiving module into the storage module.
The motion device detects motion triggering operation, displays received motion scheme information, a user confirms the currently displayed motion scheme information, sends the motion scheme information confirmed by the user to a server, receives successful receiving information returned by the server, and executes the motion scheme information confirmed by the user, wherein the successful receiving information is only corresponding to the motion scheme information.
With reference to the first aspect, in a first possible implementation manner of the first aspect, the method further includes: on the motion device, according to scheme selection of a user, updating selected second motion scheme information into motion scheme information of the user, wherein the motion scheme information comprises user numbers, scheme numbers, sequence numbers, duration, speed, gradient and strength, one user number corresponds to a plurality of scheme numbers, one scheme number corresponds to a plurality of sequence numbers, one sequence number corresponds to one duration, one speed and one gradient, the sum of the durations corresponding to all the sequence numbers is the motion duration, a plurality of continuous sequence numbers form a sequence group, one scheme number corresponds to a plurality of sequence groups, the strengths corresponding to adjacent sequence numbers in a single sequence group are equal, or the speeds are equal, or the gradients corresponding to all the adjacent sequence numbers in the single sequence group are equal, and if the strengths corresponding to the adjacent sequence numbers in the single sequence group are equal, the gradients corresponding to the parts in the single sequence group or all the adjacent sequence numbers are increased progressively; if the gradients corresponding to the adjacent serial numbers in the single serial group are equal, the intensity corresponding to part or all of the adjacent serial numbers in the single serial group is increased progressively; if the speeds corresponding to the adjacent serial numbers in the single serial group are equal, the gradients corresponding to part or all of the adjacent serial numbers in the single serial group are decreased progressively; the gradients corresponding to the adjacent serial numbers corresponding to the adjacent sequence groups are different.
The mobile device performs a motion prompt to the user when the user is detected to enter a predefined motion area and a motion device is in a standby state and no motion trigger operation of the user is detected within a predefined motion time period.
With reference to the first possible implementation manner of the first aspect, in a second possible implementation manner of the first aspect, the method further includes: one user number corresponds to two scheme numbers, the time lengths of the corresponding adjacent serial numbers in the first scheme number are equal, the time lengths of the corresponding adjacent serial numbers in the second scheme number are unequal, the sum of the products of the intensities and the time lengths corresponding to all the serial numbers in the first scheme number is approximately equal to the sum of the products of the intensities and the time lengths corresponding to all the serial numbers in the second scheme number, and the error between the two products is within 3%.
With reference to the first aspect, in a third possible implementation manner of the first aspect, the generating of the motion scheme information includes the following steps:
s11, determining the daily activity level of the user according to the daily activity level information;
s12, extracting the sex, age, height and weight of the user basic information, and calculating the maximum oxygen uptake of the user according to a formula
VO2max=56.363+1.921 × (daily activity grade) -0.381 × (age) -0.754 × (body mass index) +10.987 × (male 1, female 0);
s13, determining the cardiopulmonary endurance level according to the calculated maximum oxygen uptake combined with the cardiopulmonary endurance level comparison table;
s14, calculating the exercise intensity according to the determined cardiopulmonary endurance level and a combination formula, wherein the exercise intensity is expressed by energy metabolism equivalent MET (merry-go),
when the heart-lung endurance is in the high grade, V is adoptedO2RSetting the exercise intensity by the formula
Target VO2R=%VO2R+VO2restVO2R=VO2max-VO2rest%VO2R=(VO2max-VO2rest) × expected Strength%
VO2rest =1MET =3.5ml/Kg/min target MET = target VO2R÷(1MET);
When the cardiopulmonary endurance class is "medium" and "low", the% V is adoptedO2maxSetting the exercise intensity by the formula
Target VO2max=VO2max× desired intensity% target MET = target VO2max÷(1MET);
S15, calculating the relation between the gradient and the speed under different intensities according to the gradient and speed formula of the sports device
FC = (3.5+0.2 × (speed) +0.9 × (speed) × gradient) ÷ 3.5
Where FC represents locomotor capacity in MET, speed in m/min, and slope in%.
The preparation of the cardiopulmonary endurance level comparison table comprises the following steps:
s21, grouping by gender into male and female;
s22, grouping by age on the basis of b1, and grouping into 20-39 years and 40-59 years;
s23, on the basis of b2, the cardiopulmonary endurance grades are divided into low, medium and high according to the maximum oxygen uptake value,
male 20-39 years old, maximum oxygen intake value less than or equal to 39ml/Kg/min, cardiopulmonary endurance grade low;
male 20-39 years old, maximum oxygen intake value is 40-47ml/Kg/min, cardiopulmonary endurance grade is middle;
male 20-39 years old, maximum oxygen intake value greater than or equal to 48ml/Kg/min, cardiopulmonary endurance of high grade;
male is 40-59 years old, maximum oxygen intake value is less than or equal to 31ml/Kg/min, and cardiopulmonary endurance is low;
male is 40-59 years old, the maximum oxygen intake value is between 32-39ml/Kg/min, and the cardiopulmonary endurance grade is middle;
male is 40-59 years old, maximum oxygen intake value is greater than or equal to 40ml/Kg/min, and cardiopulmonary endurance is high;
female 20-39 years old, maximum oxygen intake value less than or equal to 33ml/Kg/min, cardiopulmonary endurance grade low;
female 20-39 years old, maximum oxygen intake value is 34-41ml/Kg/min, cardiopulmonary endurance grade is middle;
female 20-39 years old, maximum oxygen intake value greater than or equal to 42ml/Kg/min, cardiopulmonary endurance of high grade;
female is 40-59 years old, maximum oxygen intake value is less than or equal to 29ml/Kg/min, cardiopulmonary endurance is low;
female is 40-59 years old, the maximum oxygen intake value is between 30-36ml/Kg/min, and the cardiopulmonary endurance is middle grade;
female is 40-59 years old, maximum oxygen intake value is greater than or equal to 37ml/Kg/min, and cardiopulmonary endurance is high.
The invention discloses a second aspect of the application discloses a motion device based on cardiopulmonary endurance, which comprises: the detection module is used for detecting motion trigger operation; the first display module is used for displaying the received motion scheme information; the confirming module is used for confirming the motion scheme information currently displayed by the first display module; the second sending module is used for sending the motion scheme information confirmed by the user to a server; the second receiving module is used for receiving successful receiving information returned by the server, and the successful receiving information uniquely corresponds to the motion scheme information; and the execution module is used for executing the motion scheme information confirmed by the user.
The third aspect of the present application discloses a mobile device based on cardiopulmonary endurance, comprising: the acquisition module is used for acquiring feedback information corresponding to the basic information, the movement information, the daily activity grade information and the physical condition safety information of the user; the generating module is used for generating motion scheme information of the user according to the basic information, the motion information and the daily activity grade information of the user, wherein the motion scheme information comprises a user number, a scheme number, a sequence number, duration, speed, gradient and strength; the fourth sending module is used for sending the motion scheme information to a server; a third receiving module, configured to receive successful receiving information returned by the server, where the successful receiving information uniquely corresponds to the motion scheme information; the second display module is used for displaying the receiving success information so that the moving device in the moving area reads the receiving success information; and the generation control module is used for preventing the generation of the movement scheme information when the feedback information corresponding to the physical condition safety information of the user does not meet the preset condition.
The fourth aspect of the present application discloses a server based on cardiopulmonary endurance, the server comprising: the fourth receiving module is used for receiving the motion scheme information sent by the mobile equipment; a fifth receiving module, configured to receive motion scheme information sent by a motion device in a motion area; a sixth receiving module, configured to receive the heart rate value sent by the exercise device in the exercise area; the storage module is used for storing the received motion scheme information and the heart rate value; the first returning module is used for returning corresponding receiving success information to the mobile equipment; the second returning module is used for returning corresponding receiving success information to the motion device positioned in the motion area; the association storage module is used for generating the receiving success information which is uniquely corresponding to the movement scheme information and performing association storage on the receiving success information and the user; the information receiving module is used for receiving verification information sent by a motion device located in a motion area, wherein the verification information comprises receiving success information to be verified, and the receiving success information is read from the mobile equipment used by the user by the motion device; the matching verification module is used for matching and verifying the receiving success information to be verified and the stored receiving success information which is associated with the user, returning a verification result to the motion device, and judging whether the user is allowed to carry out motion training by the motion device according to the matching and verifying result; and the second updating module is used for updating the motion scheme information of the fifth receiving module into the storage module.
The invention discloses a motion system based on cardiopulmonary endurance, which comprises a motion device, a mobile device and a server, wherein the motion device is used for detecting motion trigger operation; displaying the received motion scheme information; the user confirms the motion scheme information currently displayed by the first display module; sending the motion scheme information confirmed by the user to a server; receiving successful receiving information returned by the server, wherein the successful receiving information is uniquely corresponding to the motion scheme information; and executing the motion scheme information confirmed by the user.
The server is used for receiving the motion scheme information sent by the mobile equipment; storing the received motion scheme information; generating receiving success information uniquely corresponding to the motion scheme information, returning the corresponding receiving success information to the mobile equipment, and performing associated storage on the receiving success information and the user; receiving verification information sent by a motion device located in a motion area, wherein the verification information comprises receiving success information to be verified, and the receiving success information is read from a mobile device used by a user by the motion device; matching and verifying the receiving success information to be verified with the stored receiving success information associated with the user, returning a verification result to the motion device, and judging whether the user is allowed to carry out motion training by the motion device according to the matching and verifying result; receiving motion scheme information sent by a motion device in a motion area; returning corresponding receiving success information to the motion device positioned in the motion area; and updating the motion scheme information of the fifth receiving module into the storage module.
The mobile equipment is used for acquiring feedback information corresponding to the basic information, the motion information, the daily activity grade information and the physical condition safety information of the user; generating exercise scheme information of the user according to the basic information, the exercise information and the daily activity grade information of the user, wherein the exercise scheme information comprises a user number, a scheme number, a sequence number, duration, speed, gradient and strength; sending the motion scheme information to a server; receiving successful receiving information returned by the server, wherein the successful receiving information is uniquely corresponding to the motion scheme information; displaying the receiving success information so that the moving device in the moving area reads the receiving success information; and when the feedback information corresponding to the physical condition safety information of the user does not meet the preset condition, preventing the generation of the exercise scheme information.
Advantageous effects
The exercise method and the exercise device based on the cardiopulmonary endurance can achieve the following beneficial effects.
1. Can provide an efficient exercise scheme for specifically exercising the cardio-pulmonary endurance aiming at different sexes and different ages.
2. Fuse together intensity, speed and the three factor of slope, realize the change of intensity through the change of speed and slope, embody same intensity through the combination of different speeds and slope, realized diversity on the cardiopulmonary endurance training mode, the persistence, periodicity, intermittent type nature, greatly avoided the user to feel boring when taking exercise.
3. Due to the fact that the gender and the age grouping are adopted, the problem of relative strength of different ages and genders in training is effectively solved.
4. Because the invention adopts high-intensity intermittent training, the expected training effect can be obtained in less time on the treadmill.
5. When the invention is applied to a large-scale fitness center, a user can obtain a cardiopulmonary endurance training scheme aiming at the self physique level through mobile equipment, such as a smart phone, and through corresponding APP application program operation in advance, the training of cardiopulmonary endurance can be completed on the treadmill by reading a two-dimensional code displayed on the user mobile equipment through the treadmill, the speed, the gradient and the corresponding duration of the treadmill can be automatically changed in the whole course according to the exercise scheme information in the training process, the user does not need to manually operate keys on a panel, and the exercise experience of the user is improved. Greatly saves the resources of the fitness center for configuring the coach and greatly saves the time for the user to talk about the scheme with the coach.
6. On the exercise device, the selected second exercise scheme information is updated to the exercise scheme information of the user according to the scheme selection of the user, and the arrangement is such that before the user starts exercising, if the coach feels that the second exercise scheme is more suitable for the current situation of the user, the user updates the second exercise scheme to the current exercise scheme on the panel of the treadmill so as to obtain better exercise effect.
7. In a predefined movement time period, when the user is detected to enter a predefined movement area, the movement device is in a standby state and the movement trigger operation of the user is not detected, the mobile device executes movement prompt to the user, so that the utilization rate of resources of the fitness center is greatly improved, and the situation that the user forgets own training course due to chat communication among the users can be greatly avoided.
Drawings
The invention and its advantages will be better understood in the following description of embodiments given as non-limiting examples with reference to the accompanying drawings, in which:
FIG. 1 is a flow chart of a method of exercise based on cardiopulmonary endurance, according to an exemplary embodiment of the present application;
FIG. 2 is a block diagram of a mobile device for use with a cardiopulmonary endurance based exercise system according to an exemplary embodiment of the present application;
FIG. 3 is a flow chart of another exercise method based on cardiopulmonary endurance, according to an exemplary embodiment of the present application;
FIG. 4 is a block diagram of a server for use with a cardiopulmonary endurance based exercise system according to an exemplary embodiment of the present application;
FIG. 5 is a flow chart of yet another exercise method based on cardiopulmonary endurance, according to an exemplary embodiment of the present application;
FIG. 6 is a block diagram of an exercise apparatus for use with an exercise system based on cardiopulmonary endurance, according to an exemplary embodiment of the present application;
FIG. 7 is a flowchart of a method for generating motion planning information according to an exemplary embodiment of the present application;
FIG. 8 is a schematic diagram of information transfer for an exercise system based on cardiopulmonary endurance, according to an exemplary embodiment of the present application;
FIG. 9 is a flow chart of a cardiopulmonary endurance-based exercise system, according to an exemplary embodiment of the present application;
fig. 10-19 are schematic diagrams of interfaces of a mobile device for use in a cardiopulmonary endurance based exercise system, according to an exemplary embodiment of the present application.
Detailed Description
Fig. 1 is a flowchart of a method for exercise based on cardiopulmonary endurance, which is applied to a mobile device of an exercise system based on cardiopulmonary endurance, according to an exemplary embodiment of the present application. Referring to fig. 1, a method for a mobile device for use in a cardiopulmonary endurance-based exercise system according to an embodiment of the present invention includes the steps of:
s31, acquiring feedback information corresponding to the basic information, the movement information, the daily activity grade information and the physical condition safety information of the user;
s32, generating exercise scheme information of the user according to the basic information, the exercise information and the daily activity grade information of the user, wherein the exercise scheme information comprises a user number, a scheme number, a sequence number, a duration, a speed, a gradient and strength;
s33, waiting for the user to select the motion scheme information;
s34, sending the motion scheme information selected by the user to a server;
s35, receiving successful receiving information returned by the server, wherein the successful receiving information only corresponds to the motion scheme information;
and S36, displaying the receiving success information so that the moving device of the moving area reads the receiving success information.
And a judging step is arranged between the steps S31 and S32, when the feedback information corresponding to the physical condition safety information of the user does not meet the preset condition, the generation of the exercise scheme information is prevented, and the user is informed that the exercise training is not suitable.
The basic information of the user includes: gender, age, height and weight, the age being in units of years, the height being in units of centimeters and the weight being in units of kilograms. The motion information includes: the exercise intensity range and the exercise duration are expected, the exercise intensity range is in a percentage system, and the unit of the exercise duration is minutes.
The daily activity grade information is acquired in a form of a radio topic, and the method comprises the following steps:
1. you go out the way is () A. always use the elevator and the vehicle B. walk and climb the stairs often
2. The time of your family activity is () A, 0B, 10-60 minutes C, 1 hour or more
3. The time for your physical exercise per week is () A, 0B, 10-30 min C, 30-60 min D, 1-3 h E, more than 3 h
The different answers correspond to different scores, the scores are used as one of the bases for formulating the subsequent exercise scheme, the correspondence table of the answers and the scores is shown in table 1, and table 1 is a daily activity grade scoring table.
The physical condition safety information is acquired in the form of a radio topic, and the method comprises the following steps:
1. the doctor tells you that you can only attend the physical activities recommended by the doctor. () A, is B, is
2. The doctor tells you whether you have heart disease. () A, is B, is
3. The doctor tells you whether the blood pressure exceeds 160/100 mmHg. () A, is B, is
4. In the last 6 months, when you are doing physical activity or exercise, there is a feeling of chest pain or severe suffocation. ()
A. Is B, is
5. Last 6 months, when you are doing physical activity or exercise, whether you have lost balance or fallen because of dizziness. Or syncope occurs. () A, is B, is
6. Whether there is bone, joint pain, or dysfunction aggravated by physical activity or movement. () A, is B, is
7. You know if there are other reasons you cannot attend physical activities. () A, is B, is
The answer to the seven radio questions is feedback information corresponding to the physical condition safety information, and is also used as a basis for judging whether the current user can perform the exercise, if one or more than one choice is yes, the current user is informed that the current user is not suitable for performing the exercise, and the user is asked to call or personally consult a family doctor of the user, and the mobile device does not generate exercise scheme information, as shown in fig. 16. If all the seven-to-one selection questions are selected to be 'no', the current user is informed that the current user is suitable for the exercise at present to a certain extent, and the mobile equipment generates exercise scheme information.
The mobile device generates the motion scheme information according to the collected information, as shown in the flowchart of fig. 7, including the following steps:
s11, determining the daily activity level of the user according to the collected daily activity level information;
s12, extracting the sex, age, height and weight of the user basic information, and calculating the maximum oxygen uptake of the user according to a formula
VO2max =56.363+1.921 x (daily activity rating) -0.381 x (age) -0.754 x (body mass index) +10.987 x (male 0, female 1);
s13, determining the cardiopulmonary endurance level according to the calculated maximum oxygen uptake combined with the cardiopulmonary endurance level comparison table;
s14, calculating exercise intensity according to the determined cardiopulmonary endurance level and the combination formula, wherein the exercise intensity is expressed by energy metabolism equivalent MET (merry-go), and when the cardiopulmonary endurance level is high, V is adoptedO2RSetting the exercise intensity by the formula
Target VO2R=%VO2R+VO2restVO2R=VO2max-VO2rest%VO2R=( VO2max-VO2rest) × expected Strength%
VO2rest=1MET =3.5ml/Kg/min target MET = target VO2R÷(1MET)
When the heart and lung endurance grades are in 'middle' and 'low', the exercise intensity is set by adopting a% VO2max method, and the formula is
Target VO2max=VO2max× desired intensity% target MET = target VO2max÷(1MET);
S15, calculating the relation between the gradient and the speed under different intensities according to the gradient and speed formula of the sports device
FC = (3.5+0.2 × (speed) +0.9 × (speed) × gradient) ÷ 3.5
Where FC represents locomotor capacity in MET, speed in m/min, and slope in%.
The preparation of the cardiopulmonary endurance level comparison table comprises the following steps:
s21, grouping by gender into male and female;
s22, grouping by age on the basis of b1, and grouping into 20-39 years and 40-59 years;
s23, on the basis of b2, the cardiopulmonary endurance grades are divided into low, medium and high according to the maximum oxygen uptake value,
male 20-39 years old, maximum oxygen intake value less than or equal to 39ml/Kg/min, cardiopulmonary endurance grade low;
male 20-39 years old, maximum oxygen intake value is 40-47ml/Kg/min, cardiopulmonary endurance grade is middle;
male 20-39 years old, maximum oxygen intake value greater than or equal to 48ml/Kg/min, cardiopulmonary endurance of high grade;
male is 40-59 years old, maximum oxygen intake value is less than or equal to 31ml/Kg/min, and cardiopulmonary endurance is low;
male is 40-59 years old, the maximum oxygen intake value is between 32-39ml/Kg/min, and the cardiopulmonary endurance grade is middle;
male is 40-59 years old, maximum oxygen intake value is greater than or equal to 40ml/Kg/min, and cardiopulmonary endurance is high;
female 20-39 years old, maximum oxygen intake value less than or equal to 33ml/Kg/min, cardiopulmonary endurance grade low;
female 20-39 years old, maximum oxygen intake value is 34-41ml/Kg/min, cardiopulmonary endurance grade is middle;
female 20-39 years old, maximum oxygen intake value greater than or equal to 42ml/Kg/min, cardiopulmonary endurance of high grade;
female is 40-59 years old, maximum oxygen intake value is less than or equal to 29ml/Kg/min, cardiopulmonary endurance is low;
female is 40-59 years old, the maximum oxygen intake value is between 30-36ml/Kg/min, and the cardiopulmonary endurance is middle grade;
female is 40-59 years old, maximum oxygen intake value is greater than or equal to 37ml/Kg/min, and cardiopulmonary endurance is high.
The prepared cardiopulmonary endurance ratings are shown in table 2.
Due to the fact that the gender and the age grouping are adopted, the problem of relative strength of different ages and the gender in training is effectively solved, and an efficient exercise scheme for specifically exercising the cardio-pulmonary endurance can be provided for different genders and different ages.
Fig. 2 is a block diagram of a mobile device for use in a cardiopulmonary endurance based exercise system according to an exemplary embodiment of the present application. Referring to fig. 2, a mobile device disclosed in an embodiment of the present application includes: the device comprises an acquisition module, a generation module, a selection module, a fourth sending module, a third receiving module, a second display module and a generation control module.
The acquisition module is used for acquiring feedback information corresponding to the basic information, the movement information, the daily activity grade information and the physical condition safety information of the user. The generation module is used for generating exercise scheme information of the user according to the basic information, the exercise information and the daily activity grade information of the user, wherein the exercise scheme information comprises a user number, a scheme number, a sequence number, duration, speed, gradient and intensity. The selection module is used for selecting the motion scheme information by the user. And the fourth sending module is used for sending the motion scheme information to a server. And the third receiving module is used for receiving successful receiving information returned by the server, wherein the successful receiving information uniquely corresponds to the motion scheme information. The second display module is used for displaying the receiving success information so that the moving device of the moving area reads the receiving success information. The generation control module is used for preventing the generation of the movement scheme information when the feedback information corresponding to the physical condition safety information of the user does not meet the preset condition.
The mobile equipment disclosed by the embodiment of the invention further comprises a motion prompt module, wherein the motion prompt module is used for executing motion prompt to the user when the user is detected to enter the predefined motion area, the motion device is in a standby state and the motion trigger operation of the user is not detected in the predefined motion time period. The arrangement greatly improves the utilization rate of the resources of the fitness center and can also greatly avoid forgetting the training course of the user due to chat and communication among the users.
Taking a male user who is healthy, is 25 years old, 65kg in weight, 170cm in height, uses an elevator and a vehicle in a going-out mode, works for 2 hours every week and does not have sports exercise every week as an example, the planned exercise intensity range is 50% -60%, and the exercise duration is half an hour. The user has started the corresponding APP application on the mobile device and has performed information acquisition, see fig. 10-15. After the user clicks "confirm submission", because the feedback information corresponding to the physical condition safety information meets the preset condition, the mobile device generates the motion scheme information and informs that the user can perform the motion, and simultaneously provides a motion scheme selection key to wait for the user to select, as shown in fig. 17.
And obtaining the daily activity grade of the user as 3 according to the daily activity information of the user and by comparing with a daily activity grade grading table of a table 1.
Calculating body mass index BMI = weight/height 2=65/1.702=22.49 according to the height and weight of the user, and calculating the maximum oxygen uptake according to a formula
VO2max =56.363+1.921 x (daily activity grade) -0.381 x (age) -0.754 x (body mass index) +10.987 x (male 1, female 0)
=56.363+1.921×3-0.381×25-0.754×22.49+10.987×0
=46.63(ml/Kg/min)
The cardiopulmonary endurance level of the user can be found to be in a "medium" level by referring to the cardiopulmonary endurance level comparison table of table 2. Since the heart and lung endurance level is in the middle level, the exercise intensity is set by adopting a% VO2max method, and the formula is
Target VO2max=VO2max× desired intensity% target MET = target VO2max÷(1MET)
The calculated maximum oxygen uptake and the expected intensity are substituted into the formula to calculate the exercise intensity,
target VO2max=VO2max× desired strength% =46.63 × (50% -60%) =23.3 ~ 28(ml/Kg/min)
Target MET = target VO2max÷(1MET)=(23.3~28)÷3.5=6.65~8(METs)。
Therefore, the exercise intensity of the user is between 6.65 and 8METs, and the exercise duration selected by the user is half an hour, so that the exercise scheme of the user is divided into two, and the first exercise scheme is as follows: the movement scheme is numbered as scheme 01, the movement scheme is divided into 15 segments, the time length of each segment is equal and is 2 minutes, the total time length is 30 minutes, the segments are represented by serial numbers, from 1 to 15, each serial number corresponds to one time length, one speed and one gradient, 3 continuous serial numbers form a sequence group, the sequence group comprises 5 sequence groups which are respectively sequence groups 1, 2, 3, 4 and 5, the gradients corresponding to the sequence groups are respectively 0%, 1%, 2%, 3% and 0%, the intensity in each sequence group in the sequence groups 1 to 4 is increased progressively and is respectively 6METs, 7METs and 8METs, the intensity in the sequence group 5 is decreased progressively and is respectively 8METs, 7METs and 6METs, and the speeds corresponding to the three intensities under different gradients are obtained by inquiring the gradient and speed comparison table of the intensities in the table 3. The method comprises the following specific steps:
the speeds of the intensity 6METs, 7METs and 8METs under the gradient of 0 percent are 5.3Km/h, 6.3Km/h and 7.4Km/h respectively;
the speeds of the intensity 6METs, 7METs and 8METs under the gradient of 1 percent are 5.0Km/h, 6.0Km/h and 7.0Km/h respectively;
the speeds of the 6METs, 7METs and 8METs with the gradient of 2% are respectively 4.80Km/h, 5.8Km/h and 6.7 Km/h;
the speeds of the strengths 6METs, 7METs and 8METs under the gradient of 3 percent are 4.6Km/h, 5.6Km/h and 6.5Km/h respectively;
the above information is arranged in the form of a table, as shown in table 4. Referring to table 4, the time period of 30 minutes is divided into 15 segments, each segment has the same time period, 3 consecutive segments form a sequence group, there are 5 sequence groups, the gradients of the previous 4 sequence groups increase progressively, the gradients in a single sequence group increase progressively at the same speed, and the gradients between adjacent sequence groups are not equal. It is thus clear that fuse together intensity, speed and slope three factor, realize the change of intensity through the change of speed and slope, embody same intensity through the combination of different speed and slopes, realized diversity on the cardiopulmonary endurance training mode, the continuation, periodicity, intermittent type nature, greatly avoided the user to feel boring when taking exercise. Meanwhile, the invention adopts high-intensity intermittent training, so that the expected training effect can be obtained in less time on the running platform.
The second motion scheme is: the motion scheme is numbered as scheme 02 and is divided into 15 segments, the time duration of each segment is unequal and is respectively 1.5 minutes and 2.5 minutes, the two segments are alternately arranged, the total time duration is 30 minutes, the segments are represented by serial numbers, from the serial number 1 to the serial number 15, one serial number corresponds to one time duration, one speed and one gradient, 4 continuous serial numbers form a sequence group which comprises 4 sequence groups respectively 1, 2, 3 and 4, wherein the sequence group 4 only comprises 3 serial numbers, the gradients of the 4 sequence groups are respectively 0%, 1%, 2% and 0%, the partial intensities in the sequence groups 1 to 3 are increased progressively and respectively are 6METs, 7METs, 8METs and 7METs, the intensities in the sequence group 4 are decreased progressively and respectively are 8METs, 7METs and 6METs, and obtaining the corresponding speeds of the three intensities under different gradients through a lookup table 3 for the gradient and speed comparison table of each intensity. The method comprises the following specific steps:
the speeds of the intensity 6METs, 7METs, 8METs and 7METs under the gradient of 0 percent are 5.3Km/h, 6.3Km/h, 7.4Km/h and 6.3Km/h respectively;
the speeds of the strengths 6METs, 7METs and 8METs under the gradient of 1% are 5.0Km/h, 6.0Km/h, 7.0Km/h and 6.0Km/h respectively;
the speeds of the 6METs, 7METs and 8METs with the gradient of 2% are respectively 4.80Km/h, 5.8Km/h, 6.7Km/h and 5.8 Km/h;
the speeds of the 8METs, 7METs and 6METs under the gradient of 0 percent are 7.4Km/h, 6.3Km/h and 5.3Km/h respectively;
the above information is arranged in the form of a table, as shown in table 5. As can be seen from table 5, the time duration of 30 minutes is divided into 15 segments, each segment is unequal, 4 consecutive segments form one sequence group, and there are 4 sequence groups in total, where the sequence group 4 only includes 3 segments, the slope of the first 3 sequence groups increases progressively, the slope in a single sequence group is equal, the intensity corresponding to the first 3 sequence numbers in the single sequence group increases progressively, the intensity corresponding to the 4 th sequence number in the single sequence group is smaller than the intensity corresponding to the 3 rd sequence number, the intensity in the 4 th sequence group decreases progressively and the slopes are equal, and the slopes between adjacent sequence groups are unequal. It is thus clear that fuse together intensity, speed and slope three factor, realize the change of intensity through the change of speed and slope, embody same intensity through the combination of different speed and slopes, realized diversity on the cardiopulmonary endurance training mode, the continuation, periodicity, intermittent type nature, greatly avoided the user to feel boring when taking exercise.
The sum of the products of intensity and duration for a single sequence number of case 01 is
The movement amount Z1=2 × 6+2 × 7+2 × 8+2 × 6+2 × 7+2 × 8+2 × 6+2 × 7+2 × 8+2 × 6+2 × 7+2 × 8+2 × 6+2 × 7+2 × 8=210
The sum of the products of intensity and duration for a single sequence number of case 02 is
The motion amount Z2=1.5 × 6+2.5 × 7+1.5 × 8+2.5 × 7+1.5 × 6+2.5 × 7+1.5 × 8+2.5 × 7+1.5 × 6+2.5 × 7+1.5 × 8+2.5 × 7+1.5 × 6=210
So Z1= Z2.
That is, the amount of motion for the two motion schemes is equal for the same length of motion.
After the user clicks the key "select motion scheme" on the screen of the mobile device, as shown in fig. 17, the mobile device displays the two motion schemes on the interface for the user to select, as shown in fig. 18. After the user selects the scheme 01, the mobile equipment sends the motion scheme information selected by the user to a server and receives the receiving success information returned by the server, wherein the receiving success information uniquely corresponds to the motion scheme information. The mobile device displays the reception success information, and as shown in fig. 19, the reception success information is carried in a two-dimensional code form to facilitate the moving device in the moving area to read the reception success information, and simultaneously informs the user of the position information of the assigned moving device.
Fig. 3 is a flowchart of a method for exercising based on cardiopulmonary endurance, which is applied to a server of an exercising system based on cardiopulmonary endurance, according to an exemplary embodiment of the present application. Referring to fig. 3, a method for a server of a heart-lung endurance exercise system according to an embodiment of the present invention includes the following steps:
s41, receiving the motion scheme information sent by the mobile equipment and storing the received motion scheme information; the movement scheme information of the user is kept on the server through the arrangement, and data loss caused by reloading of the system by the user is avoided;
s42, generating receiving success information which is uniquely corresponding to the motion scheme information; the receiving success information comprises motion scheme information, generation date and time and the position of the motion device;
s43, corresponding receiving success information is returned to the mobile equipment;
s44, storing the received success information and the user in an associated manner;
s45, receiving verification information sent by the moving device in the moving area, wherein the verification information comprises successful receiving information to be verified and position information of the moving device;
s46, matching and verifying the receiving success information to be verified with the stored receiving success information associated with the user;
s47, returning a verification result to the moving device; the verification result comprises yes and no, and if the verification result is yes, the user is allowed to move; and if the verification result is 'no', rejecting the user to perform the exercise. The setting ensures the unique correspondence between the user and the motion device at the current moment, and avoids the conflict that a plurality of users use one motion device at the same time.
Before the user exercises, the coach feels that the scheme currently selected by the user is not suitable for the current situation of the user, and the user operates on the panel of the treadmill to update the second motion scheme to the current motion scheme so as to obtain better exercise effect. Therefore, the method for the server of the exercise system based on the cardiopulmonary endurance further comprises the following steps:
s48, receiving motion scheme information sent by the motion device in the motion area;
s49, returning corresponding receiving success information to the moving device in the moving area;
and S50, updating the motion scheme information of the fifth receiving module into the storage module.
Fig. 4 is a block diagram of a server applied to a cardiopulmonary endurance-based exercise system according to an exemplary embodiment of the present application. Referring to fig. 4, a server disclosed in an embodiment of the present invention includes: the device comprises a fourth receiving module, a fifth receiving module, a sixth receiving module, a storage module, a first returning module, a second returning module, an associated storage module, an information receiving module, a matching verification module and a second updating module. The fourth receiving module is used for receiving the motion scheme information sent by the mobile device. The fifth receiving module is used for receiving the motion scheme information sent by the motion device in the motion area. The sixth receiving module is used for receiving the heart rate value sent by the motion device of the motion area. The storage module is used for storing the received motion scheme information and the heart rate value. The first returning module is used for returning the corresponding receiving success information to the mobile equipment. The second returning module is used for returning corresponding receiving success information to the moving device located in the moving area. And the association storage module is used for generating the receiving success information uniquely corresponding to the movement scheme information and performing association storage on the receiving success information and the user. The information receiving module is used for receiving verification information sent by a motion device located in a motion area, the verification information comprises receiving success information to be verified, and the receiving success information is read from the mobile equipment used by the user by the motion device. The matching verification module is used for matching and verifying the receiving success information to be verified and the stored receiving success information related to the user, returning a verification result to the movement device, and judging whether the user is allowed to carry out movement training by the movement device according to the matching and verifying result. The second updating module is used for updating the motion scheme information of the fifth receiving module into the storage module.
Fig. 5 is a flowchart of a method for exercising based on cardiopulmonary endurance, which is applied to an exercising apparatus of an exercising system based on cardiopulmonary endurance, according to an exemplary embodiment of the present application. Referring to fig. 5, the method for exercise equipment used in an exercise system based on cardiopulmonary endurance according to an embodiment of the present invention includes the steps of:
s51, detecting a motion trigger operation; when a user displays two-dimensional code information received by the mobile equipment on a reading window of the motion device, the motion device detects motion trigger operation;
s52, reading the receiving success information on the mobile equipment; the motion device scans two-dimensional code information displayed on the mobile equipment;
s53, sending verification information to the server; the motion device sends motion scheme information and position information of the motion device to a server;
s54, receiving a verification result returned by the server, and judging whether the user is allowed to exercise according to the verification result; the verification result comprises yes and no, and if the verification result is yes, the user is allowed to move; if the verification result is 'no', rejecting the user to move;
s55, displaying the received motion scheme information;
s56, confirming the currently displayed motion scheme information by the user;
s57, sending the motion scheme information confirmed by the user to a server;
s58, receiving the receiving success information returned by the server, wherein the receiving success information uniquely corresponds to the motion scheme information. The setting ensures that the motion scheme information currently stored by the server is the motion scheme information currently trained by the user;
and S59, executing the motion scheme information confirmed by the user.
Before the user exercises, the coach feels that the scheme currently selected by the user is not suitable for the current situation of the user, and the user operates on the panel of the treadmill to update the second motion scheme to the current motion scheme so as to obtain better exercise effect. Therefore, the method for exercise equipment used in an exercise system based on cardiopulmonary endurance according to an embodiment of the present application further includes the following steps between steps S55 and S56:
and S551, updating the selected second motion scheme information into the motion scheme information of the user according to the scheme selection of the user, wherein the motion scheme information comprises a user number, a scheme number, a sequence number, a duration, a speed, a gradient and strength.
Fig. 6 is a block diagram of an exercise apparatus for use in an exercise system based on cardiopulmonary endurance according to an exemplary embodiment of the present application. Referring to fig. 6, the exercise apparatus disclosed in the embodiment of the present application includes: the device comprises a detection module, a reading module, a first display module, a first sending module, a second sending module, a first receiving module, a second receiving module and an execution module. The detection module is used for detecting motion trigger operation and detecting whether a user displays the two-dimensional code in front of a reading window of the motion device. The reading module is used for reading the successful receiving information on the mobile equipment and reading the two-dimensional code information displayed on the mobile equipment of the user. The first sending module is used for sending the verification information to the server; and sending the motion scheme information and the position information of the motion device to a server. The first receiving module is used for receiving the verification result returned by the server, and the verification result comprises 'yes' and 'no'. The judging module is used for judging the exercise authority of the user, judging whether the user is allowed to exercise according to the verification result, and if the verification result is 'yes', allowing the user to exercise; and if the verification result is 'no', rejecting the user to perform the exercise. The first display module is used for displaying the received motion scheme information. The confirming module is used for confirming the motion scheme information currently displayed by the first display module. And the second sending module is used for sending the motion scheme information confirmed by the user to a server. The second receiving module is used for receiving successful receiving information returned by the server, and the successful receiving information uniquely corresponds to the motion scheme information. The execution module is used for executing the motion scheme information confirmed by the user.
If the coach feels that the scheme currently selected by the user is not suitable for the current situation of the user before the user exercises, the user operates on the panel of the treadmill, and the second motion scheme is updated to the current motion scheme, so that a better training effect is obtained. Therefore, the exercise device applied to the exercise system based on the cardiopulmonary endurance disclosed in the embodiment of the present invention further includes a first updating module, configured to update the selected second exercise scheme information to the exercise scheme information of the user according to the scheme selection of the user, where the exercise scheme information includes a user number, a scheme number, a serial number, a duration, a rate, a slope, and an intensity.
In order to facilitate training and evaluation of a user, the effect of the cardiopulmonary endurance exercise is evaluated through the change of the heart rate, so the exercise device applied to the exercise system based on the cardiopulmonary endurance disclosed by the embodiment of the invention further comprises a heart rate acquisition module and a third sending module. The heart rate acquisition module is used for acquiring a heart rate value in the motion process of the user, and the third sending module is used for sending the heart rate value acquired by the heart rate acquisition module to the server.
Then, for example, after receiving the receiving success information returned by the server, the user goes to the movement area to find the designated movement device according to the position information indicated on the screen of the mobile device, the mobile device obtains the current position information of the user through the GPS system and detects that the user has entered the designated area "K area", for example, when the user watches the exercise training courses of other users, the designated movement device is in a standby state for a long time, the user does not perform a triggering operation on the designated movement device, the standby time of the movement device exceeds a predefined time, the mobile device performs a movement prompt to the user, and the prompt includes but is not limited to a vibration prompt or a sound prompt of the mobile device. After the user obtains the prompt of the mobile equipment, triggering operation is carried out on a designated motion device, a two-dimensional code displayed on the mobile equipment is displayed in front of a reading window of the mobile equipment, the motion device scans the two-dimensional code information displayed on the mobile equipment and then sends motion scheme information and position information of the motion device to a server, a verification result returned by the server is received, the verification result is yes, the user is allowed to move, the motion device displays the received motion scheme information and waits for confirmation of the user, if the coach passes through and browses the current motion scheme information of the user at the moment, the coach feels that the scheme selected by the user at present is not suitable for the current situation of the user, the user operates on a panel of a running platform, and the second motion scheme is updated to be the current motion scheme, so that a better training effect is obtained. After the user confirms the currently displayed motion scheme information, the motion device sends the motion scheme information confirmed by the user to the server and receives the receiving success information returned by the server, and after the user presses the 'starting' case on the panel of the motion device, the motion device executes the motion scheme information confirmed by the user, and the user starts motion training.
Fig. 9 is a flowchart of a method for exercising based on cardiopulmonary endurance, which is applied to an exercising system based on cardiopulmonary endurance, according to an exemplary embodiment of the present application. Referring to fig. 9, the method for applying a cardiopulmonary endurance-based exercise system according to an embodiment of the present invention includes the steps of:
s101, opening an APP application program of the mobile equipment;
s102, the mobile equipment acquires feedback information corresponding to the basic information, the movement information, the daily activity grade information and the physical condition safety information of the user;
s103, the mobile equipment generates motion scheme information of the user according to the basic information, the motion information and the daily activity grade information of the user, wherein the motion scheme information comprises a user number, a scheme number, a sequence number, duration, rate, gradient and intensity;
s104, selecting motion scheme information by a user;
s105, the mobile equipment sends the motion scheme information to a server;
s106, the server receives the motion scheme information sent by the mobile equipment and stores the received motion scheme information;
s107, the server generates receiving success information uniquely corresponding to the motion scheme information;
s108, the server returns corresponding receiving success information to the mobile equipment;
s109, the server stores the received success information and the user in an associated manner;
s110, the mobile equipment receives the successful receiving information returned by the server;
s111, the mobile equipment displays the receiving success information so that the moving device in the moving area reads the receiving success information;
s112, the mobile equipment displays the information of successful receiving to the motion device;
s113, detecting motion trigger operation by the motion device;
s114, the moving device reads the successful receiving information on the mobile equipment and sends verification information to the server;
s115, the server receives verification information sent by the moving device, wherein the verification information comprises receiving success information to be verified;
s116, matching and verifying the receiving success information to be verified and the stored receiving success information related to the user, and returning a verification result to the motion device;
s117, the exercise device receives the verification result returned by the server, and judges whether the user is allowed to exercise according to the verification result;
s118, the motion device displays the received motion scheme information;
s119, confirming the motion scheme information currently displayed by the first display module by a user;
s120, the motion device sends the motion scheme information confirmed by the user to a server;
s121, receiving motion information sent by a motion device and storing the received motion scheme information;
s121, returning corresponding receiving success information to the moving device;
s122, the moving device receives the receiving success information returned by the server;
and S123, the motion device executes the motion scheme information confirmed by the user.
Fig. 8 is a schematic information transfer diagram of an exercise system based on cardiopulmonary endurance according to an exemplary embodiment of the present application, where the exercise system includes a mobile device, an exercise apparatus, and a server.
Referring to fig. 8, the information transfer among the mobile device, the motion device, and the server is as follows:
1. the mobile equipment generates the motion scheme information of the user according to the basic information, the motion information and the daily activity level information of the user and sends the motion scheme information to the server.
2. And the server receives the motion scheme information sent by the mobile equipment and returns the receiving success information uniquely corresponding to the motion scheme information to the mobile equipment.
3. The mobile equipment receives the successful receiving information and displays the successful receiving information to the motion device so as to trigger the motion device.
4. The motion device reads the successful receiving information of the mobile equipment and sends verification information to the server.
5. And the server receives the verification information sent by the motion device and returns a verification result to the motion device.
When the application of the invention is applied to a large-scale fitness center, a user can obtain a cardiopulmonary endurance training scheme aiming at the self physique level through a mobile device, such as a smart phone, through corresponding APP application program operation in advance, the training of the cardiopulmonary endurance can be completed on the treadmill by reading a two-dimensional code displayed on the mobile device of the user through the treadmill, the speed, the gradient and the corresponding duration of the treadmill can be automatically changed in the whole course according to the exercise scheme information in the training process, the user does not need to manually operate keys on a panel, and the exercise experience of the user is improved. Greatly saves the resources of the fitness center for configuring the coach and greatly saves the time for the user to talk about the scheme with the coach.
The exercise scheme is formulated by taking the population with different sexes, different age groups and different cardiopulmonary endurance grades in the table 2 as an example, the expected intensity is 50-60%, and the exercise duration is 30 minutes.
Example 1
20-39 year old male with cardiopulmonary endurance rating of "low
Since the cardiopulmonary endurance rating of this group was "low", the% V was usedO2maxSetting the exercise intensity by the formula
Target VO2max=VO2max× desired intensity% target MET = target VO2max÷(1MET)
The exercise intensity is calculated by substituting the maximum oxygen uptake 39 of the group into the above formula,
target VO2max=VO2max× desired strength% =39 × (50% -60%) =19.5 ~ 23.4(ml/Kg/min)
Target MET = target VO2max÷(1MET)=(19.5~23.4)÷3.5=5.57~6.68(METs)。
Thus, the intensity values are 6METs, 7METs, the gradient is 0%, 1%, 2%, 3%, and the movement duration 30 minutes is divided into 15 segments.
Scheme 03: the time length of each segment is equal and is 2 minutes, the segments are represented by serial numbers, the serial numbers 1-12 are divided into 3 sequence groups, 4 serial numbers of each sequence group are respectively sequence group 1, sequence group 2 and sequence group 3, serial numbers 13-15 form sequence group 4, the strength in each sequence group is equal, the gradients corresponding to adjacent serial numbers in the sequence groups 1-3 are increased progressively from 0%, 1%, 2% and 3%, and the gradients corresponding to adjacent serial numbers in the sequence group 4 are decreased progressively from 2%, 1% and 0%. The slope and speed comparison table of each intensity in the lookup table 3 can be used for obtaining the speeds of different intensities under different slopes, which is concretely as follows:
the speeds of the strength 6METs and the strength 7METs under the gradient of 0 percent are 5.3Km/h and 6.3Km/h respectively;
the speeds of the intensity 6METs and the intensity 7METs under the gradient of 1 percent are 5Km/h and 6Km/h respectively;
the speeds of the strength 6METs and the strength 7METs under the gradient of 2 percent are 4.8Km/h and 5.8Km/h respectively;
the speeds of the strength 6METs and the strength 7METs under the gradient of 3 percent are 4.6Km/h and 5.6Km/h respectively;
the above information is arranged in the form of a table as shown in table 6.
Scheme 04: the time length of each segment is unequal, namely 1.5 minutes and 2.5 minutes, the two segments are alternately arranged, the total time length is 30 minutes, the segments are represented by sequence numbers, in sequence numbers 1-12, each 2 sequence numbers form a sequence group, namely a sequence group 1, a sequence group 2, a sequence group 3, a sequence group 4, a sequence group 5, a sequence group 6, and sequence numbers 14-15 form a sequence group 7, the intensity in each sequence group is equal, the gradients corresponding to adjacent sequence numbers in the sequence group 1, the sequence group 2 and the sequence group 5 are sequentially increased from 0% and 1%, the gradients corresponding to adjacent sequence numbers in the group 3, the sequence group 4 and the sequence group 6 are sequentially increased from 2% and 3%, and the gradients and the speed comparison table of the intensities in the lookup table 3 can obtain the speeds of different intensities under different gradients, which are specifically as follows:
the speeds of the strength 6METs and the strength 7METs under the gradient of 0 percent are 5.3Km/h and 6.3Km/h respectively;
the speeds of the intensity 6METs and the intensity 7METs under the gradient of 1 percent are 5Km/h and 6Km/h respectively;
the speeds of the strength 6METs and the strength 7METs under the gradient of 2 percent are 4.8Km/h and 5.8Km/h respectively;
the speeds of the strength 6METs and the strength 7METs under the gradient of 3 percent are 4.6Km/h and 5.6Km/h respectively;
the above information is arranged in the form of a table, as shown in table 7.
The sum of the products of intensity and duration for a single sequence number of the scheme 03 is
The movement amount Z3=2 × 6+2 × 6+2 × 6+2 × 6+2 × 7+2 × 7+2 × 7+2 × 7+2 × 6+2 × 6+2 × 6+2 × 6+2 × 6=188
The sum of the products of intensity and duration for a single sequence number of case 04 is
The motion amount Z4=1.5 × 6+2.5 × 6+1.5 × 7+2.5 × 7+1.5 × 6+2.5 × 6+1.5 × 7+2.5 × 7+1.5 × 6+2.5 × 6+1.5 × 6+2.5 × 6+1.5 × 7+2.5 × 6+1.5 × 6=186
The error between Z3 and Z4 is a34= (Z3-Z4)/Z3= (188-.
That is, the amount of motion for the two motion schemes is approximately equal for the same length of motion.
Example 2
20-39 year old male with cardiopulmonary endurance rating of "middle" group
Since the cardiopulmonary endurance rating of this group was "medium", the% V was usedO2maxSetting the exercise intensity by the formula
Target VO2max=VO2max× desired intensity% target MET = target VO2max÷(1MET)
The exercise intensity is calculated by substituting the two maximum oxygen uptake rates 40 and 47 of the group into the above formula,
target VO2max1=VO2max1× desired strength% =40 × (50% -60%) =20 ~ 24(ml/Kg/min)
Target VO2max2=VO2max2× desired strength% =47 × (50% -60%) =23.5 ~ 28.2(ml/Kg/min)
Thus, the target VO2max=20~28.2(ml/Kg/min)
Target MET = target VO2max ÷ (1MET) = (20-28.2) ÷ 3.5= 5.71-8.06 (METs).
The gradient is 0%, 1%, 2% and 3%, and the movement time of 30 minutes is divided into 15 segments.
Scheme 05: the time length of each segment is equal to 2 minutes, the segments are represented by serial numbers, the serial numbers 1-2 form a sequence group 1, the serial numbers 3-14 are divided into 3 sequence groups, 4 serial numbers of each sequence group are respectively a sequence group 2, a sequence group 3 and a sequence group 4, the strength in each sequence group is equal, the gradients corresponding to the adjacent serial numbers in the sequence group 1 are sequentially increased from 0% to 1%, and the gradients corresponding to the adjacent serial numbers in the sequence groups 2-4 are sequentially increased from 0%, 1%, 2% and 3%. The slope and speed comparison table of each intensity in the lookup table 3 can be used for obtaining the speeds of different intensities under different slopes, which is concretely as follows:
the speeds of the intensity 6METs, 7METs and 8METs under the gradient of 0 percent are 5.3Km/h, 6.3Km/h and 7.4Km/h respectively;
the speeds of the 7METs and 8METs under the gradient of 1 percent are 6Km/h and 7Km/h respectively;
the speeds of the 7METs and 8METs under the gradient of 2 percent are 5.8Km/h and 6.7Km/h respectively;
the speeds of the 7METs and 8METs under the gradient of 3 percent are 5.6Km/h and 6.5Km/h respectively;
the above information is arranged in the form of a table, as shown in table 8.
Scheme 06: the time length of each segment is unequal, namely 1.5 minutes and 2.5 minutes, the time length of each segment is 1.5 minutes and 2.5 minutes, the segments are alternately arranged, the total time length is 30 minutes, the segments are represented by serial numbers, the serial numbers 1, 2 and 3 form a sequence group 1, the serial numbers 4 to 7 form a sequence group 2, the serial numbers 8 and 9 form a sequence group 3, the serial numbers 10 and 11 form a sequence group 4, and the serial numbers 12 to 14 form a sequence group 5, the intensity in the sequence group 1 is sequentially increased from 6.7METs, 7.5METs and 8.3METs, and the gradient is sequentially increased from 0%, 1% and 2%; the strength in the sequence group 2 is equal, and the gradient is increased from 0%, 1%, 2% and 3% in sequence; the strength in the sequence group 3 is increased from 7.5METs and 8.3METs in sequence, and the gradient is increased from 1% and 2% in sequence; the strength in the sequence group 4 is increased progressively from 8.0METs and 7.7METs in sequence, the gradients are equal, and the gradients are 0%; the strength in the sequence group 5 is increased from 7.5METs, 7.2METs and 7.1METs in sequence, and the gradient is increased from 1%, 2% and 3% in sequence; the strength of serial number 15 is 6METs, the gradient is 0%; the speed of different intensities under different slopes is calculated through a formula, which is as follows:
the speed of the 6.7METs strength at 0% slope is 6 Km/h;
the speed of the 7.5METs strength at a slope of 1% is 6.5 Km/h;
the speed of the 8.3METs strength at a slope of 2% is 7 Km/h;
the speed of the 7.7METs strength at 0% slope is 7 Km/h;
the speed of the 7.2METs strength at a slope of 2% is 6 Km/h;
the speed of the 7.1METs strength at a grade of 3% is 5.6 Km/h;
the speed of the 6METs strength at a slope of 0% is 5.3 Km/h;
the speed of the 8METs at 0%, 1%, 2%, 3% slope is 7.4Km/h, 7Km/h, 6.7Km/h, 6.5 Km/h;
the above information is arranged in the form of a table, as shown in table 9.
The sum of the products of intensity and duration for a single sequence number of scheme 05 is
The movement amount Z3=2 × 7+2 × 7+2 × 8+2 × 8+2 × 8+2 × 8+2 × 8+2 × 8+2 × 8+2 × 8+2 × 7+2 × 7+2 × 7+2 × 7+2 × 7+2 × 6=224
The sum of the products of intensity and duration for a single sequence number of the case 06 is
The motion amount Z6=1.5 × 6.7+2.5 × 7.5+1.5 × 8.3+2.5 × 8+1.5 × 8+2.5 × 8+1.5 × 8+2.5 × 7.5+1.5 × 8.3+2.5 × 8+1.5 × 7.7+2.5 × 7.5+1.5 × 7.2+2.5 × 7.1+1.5 × 6=224
That is, the amount of motion for the two motion schemes is approximately equal for the same length of motion.
Example 3
20-39 year old male with high cardiopulmonary endurance rating
Since the cardiopulmonary endurance rating of this group was "high", V was usedO2RSetting the exercise intensity by the formula
Target VO2R=%VO2R+VO2restVO2R=VO2max-VO2rest%VO2R=(VO2max-VO2rest) × expected Strength%
VO2rest=1MET =3.5ml/Kg/min target MET = target VO2R÷(1MET)
The exercise intensity is calculated by substituting the group's maximum oxygen uptake 48 into the above equation,
target VO2R=(48-3.5)×(50%~60%)+3.5=25.75~30.2(ml/Kg/min)
Target MET = (25.75-30.2) ÷ 3.5= 7.36-8.63 (METs).
The gradient is 0%, 1%, 2% and 3%, and the movement time of 30 minutes is divided into 15 segments.
Scheme 07: the time length of each subsection is equal to 2 minutes, the subsections are represented by serial numbers, the serial numbers 4-6 form a sequence group 1, the serial numbers 7 and 8 form a sequence group 2, the serial numbers 13-15 form a sequence group 3, the strength in the sequence group 1 is equal to 8METs, and the gradient is increased from 1%, 2% and 3% in sequence; the speeds in the sequence group 2 are equal and are all 7Km/h, and the intensity is decreased from 8.3METs and 8METs in sequence; the speeds in the sequence group 3 are equal and are all 6Km/h, and the intensity is decreased from 7.5METs, 7.2METs and 6.7METs in sequence; the strength of serial numbers 1-3 are 7.7METs, 8.5METs, 8.6METs, respectively, and the gradient is 0%, 1%, 0%, respectively; the strengths of Nos. 9 to 12 were 8.4METs, 8.0METs, 8.8METs and 7.7METs, respectively, and the gradients were 0%, 1%, 2% and 0%, respectively.
The speed of the intensity under different slopes is calculated by the formula, which is as follows:
the speeds of the strength 8METs under the gradient of 1%, 2% and 3% are 7Km/h, 6.7Km/h and 6.5Km/h respectively;
the speed of the 7.7METs strength at 0% slope is 7 Km/h;
the speed of the 8.5METs strength at a slope of 1% is 7.5 Km/h;
the speed of the 8.6METs strength at 0% slope is 8 Km/h;
the speed of the 8.4METs strength at 0% grade is 7.8 Km/h;
the speed of the 8.8METs strength at a grade of 2% is 7.5 Km/h;
the gradient of different intensities at different speeds is calculated by a formula, which is as follows:
the slope of the strength 8METs at speed 7Km/h is 1%;
the slope of the strength 8.3METs at speed 7Km/h is 2%;
the slope of the 7.5METs strength at 6Km/h speed is 3%;
the slope of the 7.2METs strength at 6Km/h speed is 2%;
the slope of the 6.7METs strength at 6Km/h speed is 0%;
the above information is arranged in the form of a table, as shown in table 10.
Scheme 08: the time length of each segment is unequal, namely 1.5 minutes and 2.5 minutes, the time length of each segment is set alternately, the total time length is 30 minutes, the segments are represented by serial numbers, and the serial numbers 1 and 2 form a sequence group 1; sequence numbers 3-5 constitute a sequence group 2, and sequence numbers 8-11 constitute a sequence group 3; the gradients in the sequence group 1 are equal and are 0%, and the intensity is increased progressively by 7.0METs and 7.5METs in sequence; the strength in the sequence group 2 is equal and is 8METs, and the gradient is increased by 1%, 2% and 3% in sequence; gradients in the sequence group 3 are equal and are 0%, and the intensity is increased progressively by 7.7METs, 8.1METs, 8.6METs and 9.1METs in sequence; the strength of serial numbers 6 and 7 is 7.5METs and 7.2METs respectively, and the gradient is 1 percent and 2 percent respectively; the strengths of Nos. 12 to 15 were 9.1METs, 8.3METs, 7.5METs and 6.7METs, respectively, and the pitches were 3%, 2%, 1% and 0%, respectively.
The speed of different intensities under different slopes is calculated through a formula, which is as follows:
the speeds of the strengths 7METs, 7.5METs, 7.7METs, 8.1METs, 8.6METs and 9.1METs at the gradient of 0% are 6.3Km/h, 6.8Km/h, 7Km/h, 7.5Km/h, 8Km/h and 8.5Km/h, respectively;
the speeds of the strength 8METs under the gradient of 1%, 2% and 3% are 7Km/h, 6.7Km/h and 6.5Km/h respectively;
the speed of the 7.5METs strength at a slope of 1% is 6.5 Km/h;
the speed of the 7.2METs strength at a slope of 2% is 6 Km/h;
the speed of the 9.1METs strength at 3% grade is 7.5 Km/h;
the speed of the 8.3METs strength at a slope of 2% is 7 Km/h;
the speed of the 7.5METs strength at a slope of 1% is 6.5 Km/h;
the speed of the 6.7METs strength at 0% slope is 6 Km/h;
the above information is arranged in the form of a table as shown in table 11.
The sum of the products of intensity and duration for a single sequence number of scheme 07 is
The motion amount Z7=2 × 7.7+2 × 8.5+2 × 8.6+2 × 8+2 × 8+2 × 8+2 × 8.3+2 × 8+2 × 8.4+2 × 8+2 × 8.8+2 × 7.7+2 × 7.5+2 × 7.2+2 × 6.7=238.4
The sum of the products of intensity and duration for a single sequence number of scenario 08 is
The motion amount Z8=1.5 × 7+2.5 × 7.5+1.5 × 8+2.5 × 8+1.5 × 8+2.5 × 7.5+1.5 × 7.2+2.5 × 7.7+1.5 × 8.1+2.5 × 8.6+1.5 × 9.1+2.5 × 9.1+1.5 × 8.3+2.5 × 7.5+1.5 × 6.7=233
The error between Z7 and Z8 is a78= (Z7-Z8)/Z7= (238.4-233)/238.4=0.0224= 2.24%.
That is, the amount of motion for the two motion schemes is approximately equal for the same length of motion.
Similarly, the motion scheme information of other groups in table 2 is formulated, as shown in tables 12-29, and will not be described herein again.
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Figure 589300DEST_PATH_IMAGE012

Claims (4)

1. A mobile device based on cardiopulmonary endurance, the mobile device comprising:
the acquisition module is used for acquiring feedback information corresponding to the basic information, the movement information, the daily activity grade information and the physical condition safety information of the user;
the generating module is used for generating motion scheme information of the user according to the basic information, the motion information and the daily activity grade information of the user, wherein the motion scheme information comprises a user number, a scheme number, a sequence number, duration, speed, gradient and strength;
the selection module is used for selecting the motion scheme information by a user;
the fourth sending module is used for sending the motion scheme information to a server;
a third receiving module, configured to receive successful receiving information returned by the server, where the successful receiving information uniquely corresponds to the motion scheme information;
the second display module is used for displaying the receiving success information so that the moving device in the moving area reads the receiving success information;
and the generation control module is used for preventing the generation of the movement scheme information when the feedback information corresponding to the physical condition safety information of the user does not meet the preset condition.
2. The mobile device of claim 1, further comprising:
and the motion prompt module is used for executing motion prompt to the user when the user is detected to enter a predefined motion area, the motion device is in a standby state and the motion trigger operation of the user is not detected in a predefined motion time period.
3. The mobile device according to claim 2, wherein the mobile device collects feedback information corresponding to the basic information, the exercise information, the daily activity level information and the physical condition safety information of the user, and generates exercise scheme information of the user according to the basic information, the exercise information and the daily activity level information of the user.
4. The mobile device according to claim 3, wherein the mobile device sends user-selected exercise scheme information to a server and receives reception success information returned by the server, the reception success information uniquely corresponds to the exercise scheme information, the reception success information is displayed, so that the exercise device in the exercise area reads the reception success information, and when feedback information corresponding to the physical condition safety information of the user does not meet a preset condition, the generation of the exercise scheme information is prevented.
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