CN109011518B - Automatic intelligent digital exercise and fitness management system - Google Patents

Abstract

The invention discloses an automatic intelligent digital exercise body-building management system, which comprises a key module, a timing module, a data entry module, a data calculation module, a controller, a demand input module, a display module, a storage module and a plan recommendation module, wherein the key module is used for inputting a plurality of data; the key module is used for transmitting a timing signal to the timing module when the body building is started each time, and the timing module automatically starts timing when receiving the timing signal transmitted by the key module; the data entry module is used for entering the fitness item information every time; the plan recommendation module is used for transmitting the selected information to the storage module for storage, and then the plan recommendation module is used for listing the preferred exercise table according to the selected times of the selected information, and the preferred exercise table can be used for preferentially recommending when the plan recommendation module recommends the selected information next time, so that items preferred by a user can be accurately selected; the invention is simple, effective and easy to use.

Description

Automatic intelligent digital exercise and fitness management system

Technical Field

The invention belongs to the field of fitness management systems, relates to an automatic intelligent digital exercise technology, and particularly relates to an automatic intelligent digital exercise fitness management system.

Background

The body-building exercise is an exercise project which is performed by bare hands or various instruments and by using a special action mode and a special method and aims at developing muscles, increasing physical strength, improving physical form and mastering temperament;

various freehand exercises can be used, such as various freehand aerobics, rhythm exercises, gymnastics, and various self-resistance exercises. Various exercise machines can be adopted for various exercises, such as weight lifting machines like dumbbells, barbells and pot bells, anaerobic training devices like horizontal bars, parallel bars, ropes and rods, strength training devices like spring tensioners, pulley tensioners, elastic bands and various specially-made comprehensive strength training frames, and aerobic training devices like power bicycles, stair climbers, flat runners and rowing machines;

the motion modes of the body-building exercise are various, and the whole set of various free-hand body-building exercises is available; there are also light apparatus gymnastics such as ball, stick, these are mainly used in the women's strong and handsome training, by losing weight and improving the physique and form, improve the flexibility, strengthen the charm sense; more, there are many weight lifting exercise movements and other movements that can develop the muscles of various parts of the body; these actions are mainly used for strengthening the body and developing muscles of men and women, and also for body building training of men and women.

In order to achieve the purpose of body building, a special training method is needed. For example, when a weight lifting device such as a barbell is used to perform various motions, special requirements and arrangements are provided in aspects of weight, motion way, arrangement number and times, motion speed and the like of the device.

The fitness exercise is simple and easy to implement and suitable to exercise, the physique of people can be effectively enhanced, the health of people is improved, the muscle strength of the whole body is developed, the strength is enhanced, and the production labor efficiency is improved; can also improve the body type and the posture of people and cultivate the good and interesting of people, so the utility model is deeply popular with people, in particular to people with higher cultural knowledge level. Today, the fitness exercise has strong attraction, and can strengthen the weak and thin people, strengthen the fat people, make children grow healthily and make the old people healthy and long-lived.

At present, however, the method is lack of a method which can combine modern science, make effective judgment on the physical quality of people, obtain each fitness effect and automatically recommend personnel fitness activities according to the fitness effects; to solve the above-mentioned drawbacks, a solution is now provided.

Disclosure of Invention

The invention aims to provide an automatic intelligent digital exercise and fitness management system.

The technical problem to be solved by the invention is as follows:

(1): how to judge the physical quality growth value of the user during each exercise through a plurality of data, and the evaluation result has a certain reference value;

(2): how to recommend corresponding fitness items and corresponding fitness time to the user according to the plurality of groups of physical quality growth values and the fitness intention requirements of the user;

(3): how to realize accurate recommendation of fitness items according to the preferred sports items and the intention requirements of users;

the purpose of the invention can be realized by the following technical scheme:

an automatic intelligent digital exercise body-building management system comprises a key module, a timing module, a data entry module, a data calculation module, a controller, a demand input module, a display module, a storage module and a plan recommendation module;

the timing module is used for automatically starting timing when receiving the timing signal transmitted by the key module; the data entry module is used for entering the fitness item information every time; the heart rate detection module is used for monitoring real-time heart rate information of a user in real time, the heart rate detection module is used for transmitting the real-time heart rate information to the data calculation module, and the data entry module is used for transmitting fitness item information to the data calculation module;

the data calculation module receives heart rate information transmitted by the heart rate detection module, the data calculation module receives fitness item information transmitted by the data entry module, and the data calculation module is in communication connection with the timing module; the data calculation module is used for carrying out relevant processing on the received fitness item information and the received real-time heart rate information in combination with the timing module, and the specific processing steps are not as follows:

the method comprises the following steps: acquiring related data during each exercise, specifically acquiring initial time information of each time of starting timing, and marking the initial time information as T1i (i-1.. n);

step two: acquiring real-time heart rate information, and marking the real-time heart rate information before timing is started as a heart rate normal value Ci (i-1.. n);

step three: acquiring a highest heart rate value of the real-time heart rate information, marking the highest heart rate value as Gi (i 1.. n), and acquiring time information T2i (i 1.. n) corresponding to the highest heart rate value Gi;

step four: transmitting an end signal to a timing module through a key module when the movement is ended, wherein the timing module automatically acquires an end time when receiving the end signal transmitted by the key module, and marks the end time as T3i (i 1.. n);

step five: acquiring a heart rate end value Si (i ═ 1.. n) corresponding to the time T3 i;

step six: time information when the real-time heart rate information is restored from the heart rate end value Si to a normal value, and this time information is labeled as T4i (i ═ 1.. n); marking the real-time heart rate information at the moment as a heart rate resting value Xi (i ═ 1.. n); the Xi ═ Si ± K (i ═ 1.. n), and K is a preset heart rate floating value;

step seven: using formulas

Calculating a fitness value Q1i (i-1.. n) from a normal heart rate to a highest heart rate each time the user exercises;

step eight: using formulas

Calculating a body recovery value Q2i (i ═ 1.. n) each time the user's fitness returns from the heart rate end value to the heart rate rest value;

step nine: weight assignment to the body fitness value and the body recovery value, body fitness value weight as h1, body recovery value weight as h2, h1+ h2 being 1 and h2>h 1; using the formula W_i＝Q1_i*h₁+Q2_i*h₂(i 1.. n) acquiring a body evaluation value Wi (i 1.. n) of the user at each exercise;

step ten: using formulas

Acquiring a physical quality increase value Vi (i-2.. n) of a user;

the data calculation module is used for acquiring specific fitness item information every time, marking the fitness item information as Li, and acquiring fitness item information Li and Li-1 (i-2.. n) corresponding to Vi when Vi is acquired; the data calculation module is used for transmitting the body quality growth value Vi, the corresponding fitness item information Li and the fitness time T3i-T4i to the controller, and the controller is used for transmitting the fitness item information and the fitness time corresponding to the body quality growth value to the storage module for real-time storage; the storage module is used for fusing the body quality growth value, the corresponding fitness item information and the fitness time to form a fitness recording table and then storing the fitness recording table;

after a plurality of times of data acquisition, the user can automatically analyze the exercise intention through the system when inputting the exercise intention requirement through the requirement input module; the requirement input module is used for transmitting intention requirement information to the controller, and the intention requirement information is a physical quality increase value which a user wants to obtain.

Further, the controller receives the intention demand information transmitted by the demand input module and transmits the intention demand information to the plan recommendation module; the plan recommendation module receives the intention demand information transmitted by the controller and automatically makes relevant processing, and the specific processing steps are as follows:

s1: acquiring user intention demand information, analyzing the intention demand information, and acquiring a user intention physical quality increase value in the intention demand information;

s2: comparing the intention physical quality growth value with a fitness record table stored in the storage module;

s3: comparing the intention physical quality growth value with the physical quality growth value stored in the fitness record table;

s4: when the difference between the intention physical quality growth value and the physical quality growth value stored in the fitness record table is within a preset value D, judging that the intention physical quality growth value is consistent with the physical quality growth value in the fitness record table at the moment, and acquiring fitness item information and fitness time corresponding to the physical quality growth values in the fitness record tables;

s5: the controller is used for returning the plurality of fitness item information and the corresponding fitness time to the display module for real-time display, and meanwhile, the requirement input module is used for inputting selected information, wherein the selected information is selected one fitness item information and the corresponding fitness time.

Further, the plan recommendation module is used for transmitting the selected information to the controller, and the controller transmits the selected information to the display module for real-time display when receiving the selected information transmitted by the plan recommendation module; the plan recommending module is also used for transmitting the selected information to the storage module for storage, and the plan recommending module is also used for listing a preferred exercise table according to the selected times of the selected information, and the preferred exercise table is used for preferentially recommending when the plan recommending module recommends the selected information next time.

The invention has the beneficial effects that:

(1) the basic data are obtained through a related monitoring module, and then the related data during each fitness are obtained through a data calculation module, wherein the specific expression is that the initial time information T1i, the heart rate normal value Ci, the highest heart rate value Gi, the time information T2i corresponding to the heart rate maximum value Gi, the end time mark T3i, the heart rate end value Si (i is 1.. n) corresponding to the end time and the time information T4i (i is 1.. n) when the heart rate information is recovered from the heart rate end value Si to the normal value are obtained; then marking the real-time heart rate information at the moment as a heart rate resting value Xi; using formulas

Calculating to obtain a physical fitness value Q1i from the normal heart rate to the highest heart rate when the user exercises; using formulas

Calculating a body recovery value Q2i each time the user exercises from the heart rate end value to the heart rate resting value; then using the formula W_i＝Q1_i*h₁+Q2_i*h₂Acquiring a body evaluation value Wi of a user during each exercise; final reuse formula

Obtaining a physical quality growth value Vi of a user; the results of the invention have strong reference value through the steps;

(2) according to the method, the user intention physical quality growth value in the intention demand information is obtained; comparing the intention physical quality growth value with a fitness record table stored in the storage module; comparing the intention physical quality growth value with the physical quality growth value stored in the fitness record table; when the difference between the intention physical quality growth value and the physical quality growth value stored in the fitness record table is within a preset value D, judging that the intention physical quality growth value is consistent with the physical quality growth value in the fitness record table at the moment, and acquiring fitness item information and fitness time corresponding to the physical quality growth values in the fitness record tables; the controller is used for returning the information of the plurality of fitness items and the corresponding fitness time to the display module for real-time display, so that a user can conveniently select a desired fitness item;

(3) meanwhile, the plan recommendation module is used for transmitting the selected information to the storage module for storage, and then the plan recommendation module is used for listing the preferred exercise table according to the selected times of the selected information, and the preferred exercise table can be used for preferentially recommending the selected information when the plan recommendation module recommends the selected information next time, so that items preferred by the user can be selected accurately; the invention is simple, effective and easy to use.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a block diagram of the system of the present invention.

Detailed Description

As shown in fig. 1, an automated intelligent digital exercise fitness management system includes a key module, a timing module, a data entry module, a data calculation module, a controller, a demand input module, a display module, a storage module, and a plan recommendation module;

the timing module is used for automatically starting timing when receiving the timing signal transmitted by the key module; the data entry module is used for entering the fitness item information every time; the heart rate detection module is used for monitoring real-time heart rate information of a user in real time, the heart rate detection module is used for transmitting the real-time heart rate information to the data calculation module, and the data entry module is used for transmitting fitness item information to the data calculation module;

the data calculation module receives heart rate information transmitted by the heart rate detection module, the data calculation module receives fitness item information transmitted by the data entry module, and the data calculation module is in communication connection with the timing module; the data calculation module is used for carrying out relevant processing on the received fitness item information and the received real-time heart rate information in combination with the timing module, and the specific processing steps are not as follows:

the method comprises the following steps: acquiring related data during each exercise, specifically acquiring initial time information of each time of starting timing, and marking the initial time information as T1i (i-1.. n);

step two: acquiring real-time heart rate information, and marking the real-time heart rate information before timing is started as a heart rate normal value Ci (i-1.. n);

step three: acquiring a highest heart rate value of the real-time heart rate information, marking the highest heart rate value as Gi (i 1.. n), and acquiring time information T2i (i 1.. n) corresponding to the highest heart rate value Gi;

step four: transmitting an end signal to a timing module through a key module when the movement is ended, wherein the timing module automatically acquires an end time when receiving the end signal transmitted by the key module, and marks the end time as T3i (i 1.. n);

step five: acquiring a heart rate end value Si (i ═ 1.. n) corresponding to the time T3 i;

step six: time information when the real-time heart rate information is restored from the heart rate end value Si to a normal value, and this time information is labeled as T4i (i ═ 1.. n); marking the real-time heart rate information at the moment as a heart rate resting value Xi (i ═ 1.. n); the Xi ═ Si ± K (i ═ 1.. n), and K is a preset heart rate floating value;

step seven: using formulas

Calculating a fitness value Q1i (i-1.. n) from a normal heart rate to a highest heart rate each time the user exercises;

step eight: using formulas

Calculating a body recovery value Q2i (i ═ 1.. n) each time the user's fitness returns from the heart rate end value to the heart rate rest value;

step nine: weight distribution is carried out on the physical quality value and the physical recovery value, and the physical quality is obtainedThe quality value weight is assigned as h1, the body recovery value weight is assigned as h2, h1+ h2 is 1 and h2>h 1; using the formula W_i＝Q1_i*h₁+Q2_i*h₂(i 1.. n) acquiring a body evaluation value Wi (i 1.. n) of the user at each exercise;

step ten: using formulas

Acquiring a physical quality increase value Vi (i-2.. n) of a user;

the data calculation module is used for acquiring specific fitness item information every time, marking the fitness item information as Li, and acquiring fitness item information Li and Li-1 (i-2.. n) corresponding to Vi when Vi is acquired; the data calculation module is used for transmitting the body quality growth value Vi, the corresponding fitness item information Li and the fitness time T3i-T4i to the controller, and the controller is used for transmitting the fitness item information and the fitness time corresponding to the body quality growth value to the storage module for real-time storage; the storage module is used for fusing the body quality growth value, the corresponding fitness item information and the fitness time to form a fitness recording table and then storing the fitness recording table;

after a plurality of times of data acquisition, the user can automatically analyze the exercise intention through the system when inputting the exercise intention requirement through the requirement input module; the requirement input module is used for transmitting intention requirement information to the controller, and the intention requirement information is a physical quality increase value which a user wants to obtain;

the controller receives the intention demand information transmitted by the demand input module and transmits the intention demand information to the plan recommendation module; the plan recommendation module receives the intention demand information transmitted by the controller and automatically makes relevant processing, and the specific processing steps are as follows:

s1: acquiring user intention demand information, analyzing the intention demand information, and acquiring a user intention physical quality increase value in the intention demand information;

s2: comparing the intention physical quality growth value with a fitness record table stored in the storage module;

s3: comparing the intention physical quality growth value with the physical quality growth value stored in the fitness record table;

s4: when the difference between the intention physical quality growth value and the physical quality growth value stored in the fitness record table is within a preset value D, judging that the intention physical quality growth value is consistent with the physical quality growth value in the fitness record table at the moment, and acquiring fitness item information and fitness time corresponding to the physical quality growth values in the fitness record tables;

s5: the controller is used for returning the information of the plurality of fitness items and the corresponding fitness time to the display module for real-time display, and meanwhile, the demand input module is used for inputting selected information, wherein the selected information is information for selecting a certain fitness item and the corresponding fitness time;

the plan recommendation module is used for transmitting the selected information to the controller, and the controller transmits the selected information to the display module for real-time display when receiving the selected information transmitted by the plan recommendation module; the plan recommending module is also used for transmitting the selected information to the storage module for storage, and the plan recommending module is also used for listing a preferred exercise table according to the selected times of the selected information, and the preferred exercise table is used for preferentially recommending when the plan recommending module recommends the selected information next time.

When the automatic intelligent digital exercise body-building management system works, firstly, a user wants to send a timing signal to a timing module through a key module when each exercise starts, and at the moment, the timing module starts to automatically time; meanwhile, the timing module can be a clock module, information is marked on the current time point by a timing signal transmitted by the key module to be the starting time, and the body-building project information of the time is input by the data input module, so that the body-building project information is convenient to analyze in the later period; meanwhile, heart rate information of relevant nodes of the user body building is monitored in real time by means of a heart rate detection module, and corresponding time is automatically acquired from a timing module at the corresponding nodes; then, analyzing the monitored heart rate information by using the data calculation module in combination with each time point information of the timing module to obtain the physical quality increase value of the time, obtaining fitness items, fitness time and corresponding physical quality increase values during a plurality of times of exercises after the exercise for a plurality of times, inputting an intention physical quality increase value which is required to be obtained by a person through the requirement input module during later-period fitness, and recommending a plurality of groups of fitness items and fitness time through the intention physical quality increase value; selecting the fitness items by the user and recording the selected times, and preferentially recommending the items in the subsequent recommendation;

the invention has the following beneficial effects:

(1) the basic data are obtained through a related monitoring module, and then the related data during each fitness are obtained through a data calculation module, wherein the specific expression is that the initial time information T1i, the heart rate normal value Ci, the highest heart rate value Gi, the time information T2i corresponding to the heart rate maximum value Gi, the end time mark T3i, the heart rate end value Si (i is 1.. n) corresponding to the end time and the time information T4i (i is 1.. n) when the heart rate information is recovered from the heart rate end value Si to the normal value are obtained; then marking the real-time heart rate information at the moment as a heart rate resting value Xi; using formulas

Calculating to obtain a physical fitness value Q1i from the normal heart rate to the highest heart rate when the user exercises; using formulas

Calculating a body recovery value Q2i each time the user exercises from the heart rate end value to the heart rate resting value; then using the formula W_i＝Q1_i*h₁+Q2_i*h₂Acquiring a body evaluation value Wi of a user during each exercise; final reuse formula

Obtaining a physical quality growth value Vi of a user; the results of the invention have strong reference value through the steps;

(2) according to the method, the user intention physical quality growth value in the intention demand information is obtained; comparing the intention physical quality growth value with a fitness record table stored in the storage module; comparing the intention physical quality growth value with the physical quality growth value stored in the fitness record table; when the difference between the intention physical quality growth value and the physical quality growth value stored in the fitness record table is within a preset value D, judging that the intention physical quality growth value is consistent with the physical quality growth value in the fitness record table at the moment, and acquiring fitness item information and fitness time corresponding to the physical quality growth values in the fitness record tables; the controller is used for returning the information of the plurality of fitness items and the corresponding fitness time to the display module for real-time display, so that a user can conveniently select a desired fitness item;

(3) meanwhile, the plan recommendation module is used for transmitting the selected information to the storage module for storage, and then the plan recommendation module is used for listing the preferred exercise table according to the selected times of the selected information, and the preferred exercise table can be used for preferentially recommending the selected information when the plan recommendation module recommends the selected information next time, so that items preferred by the user can be selected accurately; the invention is simple, effective and easy to use.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (3)

1. An automatic intelligent digital exercise body-building management system is characterized by comprising a key module, a timing module, a data entry module, a data calculation module, a controller, a demand input module, a display module, a storage module and a plan recommendation module;

the timing module is used for automatically starting timing when receiving the timing signal transmitted by the key module; the data entry module is used for entering the fitness item information every time;

the exercise equipment also comprises a heart rate detection module, wherein the heart rate detection module is used for monitoring real-time heart rate information of a user in real time, the heart rate detection module is used for transmitting the real-time heart rate information to the data calculation module, and the data entry module is used for transmitting exercise item information to the data calculation module;

the data calculation module receives heart rate information transmitted by the heart rate detection module, the data calculation module receives fitness item information transmitted by the data entry module, and the data calculation module is in communication connection with the timing module; the data calculation module is used for carrying out relevant processing on the received fitness item information and the received real-time heart rate information in combination with the timing module, and the specific processing steps are not as follows:

the method comprises the following steps: acquiring related data during each exercise, specifically acquiring initial time information of each time of starting timing, and marking the initial time information as T1i (i-1.. n);

step two: acquiring real-time heart rate information, and marking the real-time heart rate information before timing is started as a heart rate normal value Ci (i-1.. n);

step three: acquiring a highest heart rate value of the real-time heart rate information, marking the highest heart rate value as Gi (i 1.. n), and acquiring time information T2i (i 1.. n) corresponding to the highest heart rate value Gi;

step four: transmitting an end signal to a timing module through a key module when the movement is ended, wherein the timing module automatically acquires an end time when receiving the end signal transmitted by the key module, and marks the end time as T3i (i 1.. n);

step five: acquiring a heart rate end value Si (i ═ 1.. n) corresponding to the time T3 i;

step six: time information when the real-time heart rate information is restored from the heart rate end value Si to a normal value, and this time information is labeled as T4i (i ═ 1.. n); marking the real-time heart rate information at the moment as a heart rate resting value Xi (i ═ 1.. n); the Xi ═ Si ± K (i ═ 1.. n), and K is a preset heart rate floating value;

step seven: using formulas

Calculate each time userA fitness value Q1i (i-1.. n) from a normal heart rate to a highest heart rate;

step eight: using formulas

Calculating a body recovery value Q2i (i ═ 1.. n) each time the user's fitness returns from the heart rate end value to the heart rate rest value;

step nine: weight assignment to the body fitness value and the body recovery value, body fitness value weight as h1, body recovery value weight as h2, h1+ h2 being 1 and h2>h 1; using the formula W_i＝Q1_i*h₁+Q2_i*h₂(i 1.. n) acquiring a body evaluation value Wi (i 1.. n) of the user at each exercise;

step ten: using formulas

Acquiring a physical quality increase value Vi (i-2.. n) of a user;

the data calculation module is used for acquiring specific fitness item information every time, marking the fitness item information as Li, and acquiring fitness item information Li and Li-1 (i-2.. n) corresponding to Vi when Vi is acquired; the data calculation module is used for transmitting the body quality growth value Vi, the corresponding fitness item information Li and the fitness time T3i-T4i to the controller, and the controller is used for transmitting the fitness item information and the fitness time corresponding to the body quality growth value to the storage module for real-time storage; the storage module is used for fusing the body quality growth value, the corresponding fitness item information and the fitness time to form a fitness recording table and then storing the fitness recording table;

after a plurality of times of data acquisition, the user can automatically analyze the exercise intention through the system when inputting the exercise intention requirement through the requirement input module; the requirement input module is used for transmitting intention requirement information to the controller, and the intention requirement information is a physical quality increase value which a user wants to obtain;

the plan recommendation module is in communication connection with the controller and the storage module.

2. The automated intelligent digital sports fitness management system of claim 1, wherein the controller receives the intent requirement information transmitted by the requirement input module and transmits the intent requirement information to the plan recommendation module; the plan recommendation module receives the intention demand information transmitted by the controller and automatically makes relevant processing, and the specific processing steps are as follows:

s1: acquiring user intention demand information, analyzing the intention demand information, and acquiring a user intention physical quality increase value in the intention demand information;

s2: comparing the intention physical quality growth value with a fitness record table stored in the storage module;

s3: comparing the intention physical quality growth value with the physical quality growth value stored in the fitness record table;

s4: when the difference between the intention physical quality growth value and the physical quality growth value stored in the fitness record table is within a preset value D, judging that the intention physical quality growth value is consistent with the physical quality growth value in the fitness record table at the moment, and acquiring fitness item information and fitness time corresponding to the physical quality growth values in the fitness record tables;

s5: the controller is used for returning the plurality of fitness item information and the corresponding fitness time to the display module for real-time display, and meanwhile, the requirement input module is used for inputting selected information, wherein the selected information is selected one fitness item information and the corresponding fitness time.

3. The automated intelligent digital sports fitness management system of claim 2, wherein the plan recommendation module is configured to transmit selected information to the controller, and the controller transmits the selected information to the display module for real-time display upon receiving the selected information transmitted by the plan recommendation module; the plan recommending module is also used for transmitting the selected information to the storage module for storage, and the plan recommending module is also used for listing a preferred exercise table according to the selected times of the selected information, and the preferred exercise table is used for preferentially recommending when the plan recommending module recommends the selected information next time.

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