CN109908551B - Bicycle exercise method and device - Google Patents

Abstract

The invention relates to a bicycle exercise method and device, and belongs to the technical field of sports or fitness equipment. By adopting the bicycle exercising method and the device, video or audio multimedia can be played when a user exercises; the user can tread the bicycle along with the multimedia, so that the interestingness of the exercise is improved; meanwhile, a sensor arranged at the pedal is used for acquiring treading data in real time; the trampling data is compared with the multimedia to generate a real-time comparison result, so that a user can know how to trample the current effect through the comparison result, the user can conveniently and correspondingly adjust the trampling effect in real time, a better exercise effect is achieved, further, the user can correspondingly score the trampling of the user and even network ranking are achieved, the exercise interest is further improved, the bicycle exercising method can be applied to fitness equipment such as a common bicycle or a spinning bicycle, the application occasions are various, and the user experience is better.

Description

Bicycle exercise method and device

Technical Field

The invention relates to the technical field of sports or fitness equipment, in particular to a bicycle exercise method and device.

Background

The bicycle, also called as a bicycle or a bicycle, is one of the most successful human-powered machines invented by human beings, and is a complex machine consisting of a plurality of simple machines. The bicycle can be divided into two categories, i.e., a bicycle (bicycle) which can be ridden and used for getting on the road and a bicycle used for indoor exercise according to the functions of the bicycle.

The bicycle is one of the best tools for overcoming the heart function fault. The bicycle can not only compress the blood flow by the movement of the legs and draw the blood from the vascular ends back to the heart, but also strengthen the microvascular tissue, and the habitual bicycle movement can enlarge the heart gradually. The bicycle can prevent hypertension, obesity and angiosclerosis, and strengthen bones. The bicycle is a weight-losing tool, and according to statistics, a person weighing 75 kg can reduce the weight by half a kilogram when riding 73 miles at a speed of 9 miles and half an hour, but must be kept constant every day.

The existing bicycle is only used for riding or simply used for exercise due to the lack of a special human-vehicle interaction mode, and a user cannot master a correct method for exercise through the bicycle; in addition, as the current social development enters the big data era, the existing bicycle cannot be compared and analyzed with other users in the exercise and use processes, and the interactivity and the interestingness are poor.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a bicycle exercise method and device which can provide human-vehicle interaction, enable a user to know how to tread effect while exercising, improve the exercise interest and effectively improve the exercise effect.

In order to achieve the above object, the bicycle exercising method of the present invention comprises the steps of:

(1) playing the multimedia;

(2) the user tramples the bicycle along with the multimedia;

(3) collecting treading data in real time;

(4) and comparing the trampling data with the played multimedia to generate a real-time comparison result.

In the bicycle exercise method, the multimedia is video or audio;

the step (2) is specifically as follows:

the user steps on the bicycle following the rhythm of the video or audio.

In the bicycle exercise method, the step (3) is specifically as follows:

the force of treading by a user and the rotating speed, displacement and acceleration of the bicycle are acquired by utilizing a sensor arranged at the pedal of the bicycle.

In the bicycle exercising method, the sensor is arranged at the crank of the pedal at one side of the bicycle.

In the bicycle exercising method, the step (4) specifically comprises the following steps:

(41) determining a trampling time point according to the trampling force of the user, which is acquired by a sensor;

(42) and comparing the stepping time point with the rhythm of the video or audio, and taking the matching degree of the stepping time point and the rhythm of the video or audio as the real-time comparison result.

In the bicycle exercise method, the matching degree M is as follows: m ═ 1- (| P-Ps |/Ps) × 100%, where P is the current tread frequency obtained from the tread time point, and Ps is a preset frequency determined by the rhythm of the video or audio.

In the bicycle exercising method, the step (4) further comprises the following steps:

(43) and sending prompt information to the user according to the matching degree.

In the bicycle exercising method, the step (4) further comprises the following steps:

(44) scoring the exercise of the user according to the matching degree and the rotating speed, the displacement and the acceleration of the bicycle;

(45) and ranking the scores by using a network.

The invention also provides a bicycle exercise device, which comprises a bicycle and a mobile terminal.

The bicycle is characterized in that a sensor is arranged at a pedal of the bicycle and used for collecting treading data;

the mobile terminal is used for playing multimedia, so that a user can tread the bicycle along with the multimedia, and the mobile terminal is connected with the sensor and used for comparing the treading data with the played multimedia to generate a real-time comparison result.

The invention also provides another bicycle exercise device which is a bicycle type fitness apparatus, wherein a sensor is arranged at the pedal of the bicycle type fitness apparatus and used for collecting treading data; the bicycle type fitness equipment is also used for playing multimedia, so that a user can tread along with the multimedia, and the treading data is compared with the played multimedia to generate a real-time comparison result.

By adopting the bicycle exercising method and the device, video or audio multimedia can be played when a user exercises; the user can tread the bicycle along with the multimedia, so that the interestingness of the exercise is improved; meanwhile, a sensor arranged at the pedal is used for acquiring treading data in real time; the trampling data is compared with the multimedia to generate a real-time comparison result, so that a user can know how to trample the current effect through the comparison result, the user can conveniently and correspondingly adjust the trampling effect in real time, a better exercise effect is achieved, further, the user can correspondingly score the trampling of the user and even network ranking are achieved, the exercise interest is further improved, the bicycle exercising method can be applied to fitness equipment such as a common bicycle or a spinning bicycle, the application occasions are various, and the user experience is better.

Drawings

FIG. 1 is a flow chart illustrating the steps of a bicycle exercise method of the present invention.

Detailed Description

In order to clearly understand the technical contents of the present invention, the following examples are given in detail.

Please refer to fig. 1, which is a flowchart illustrating steps of a bicycle exercise method according to the present invention.

In one embodiment, the bicycle exercise method comprises the steps of:

(1) playing the multimedia;

(2) the user tramples the bicycle along with the multimedia;

(3) collecting treading data in real time;

(4) and comparing the trampling data with the played multimedia to generate a real-time comparison result.

In a preferred embodiment, the multimedia is video or audio; the step (2) is specifically as follows: the user steps on the bicycle following the rhythm of the video or audio.

The step (3) is specifically as follows: the force of treading by a user and the rotating speed, displacement and acceleration of the bicycle are acquired by utilizing a sensor arranged at the pedal of the bicycle. The sensor may be provided at a crank of a pedal on one side of the bicycle.

The step (4) specifically comprises the following steps:

(41) determining a trampling time point according to the trampling force of the user, which is acquired by a sensor;

(42) and comparing the stepping time point with the rhythm of the video or audio, and taking the matching degree of the stepping time point and the rhythm of the video or audio as the real-time comparison result.

In a further preferred embodiment, the matching degree M is: m ═ 1- (| P-Ps |/Ps) × 100%, where P is the current tread frequency obtained from the tread time point, and Ps is a preset frequency determined by the rhythm of the video or audio.

In a more preferred embodiment, the step (4) further comprises the following steps:

(43) sending prompt information to the user according to the matching degree;

(44) scoring the exercise of the user according to the matching degree and the rotating speed, the displacement and the acceleration of the bicycle;

(45) and ranking the scores by using a network.

The invention also provides a bicycle exercise device, which comprises a bicycle and a mobile terminal.

Wherein, a sensor is arranged at the pedal of the bicycle and is used for collecting pedaling data;

the mobile terminal is used for playing multimedia, so that a user tramples the bicycle along with the multimedia, and the mobile terminal is connected with the sensor and used for comparing the trampling data with the played multimedia to generate a real-time comparison result.

The invention also provides another bicycle exercise device which is a bicycle type fitness apparatus, wherein a sensor is arranged at the pedal of the bicycle type fitness apparatus and used for collecting treading data; the bicycle type fitness equipment is also used for playing multimedia, so that a user can tread along with the multimedia, and the treading data is compared with the played multimedia to generate a real-time comparison result.

In practical applications, the bicycle exercising method of the present invention is implemented by the following embodiments.

Example 1

Taking a common bicycle as an example, the bicycle can comprise two parts of hardware and software.

Mobile terminals, for example: the intelligent flat plate is connected with two main raw data, namely trampling frequency and trampling intensity, collected by the bicycle and the sensor through Bluetooth; and connect with the internet through WIFI. The sensor can detect the rotating position state of the pedal through the gyroscope so as to measure the rotating speed, the displacement, the speed, the stepping acceleration, the stepping rhythm and the like. The sensor is simultaneously provided with a high-sensitivity bending measurement sensor, and the bending degree is processed by an algorithm to obtain the pressure on the crank through detecting the extremely fine bending degree of the metal crank and combining the hardness value of the metal material of the crank. By combining the rotating speed, the displacement, the acceleration and the pressure value, corresponding data such as work (output power), a combustion calorie value, movement intensity and the like can be calculated.

The tablet computer installs and runs customized software that plays live or recorded video or audio through the screen. Particularly, the video of the bicycle riding course can be played, the motion data of a rider/exerciser is synchronized by using the connected sensor, and after the original motion data is processed by an algorithm, the method guidance is provided for the rider and the whole network ranking of the motion data is carried out.

In addition, software installed in the tablet personal computer can measure and calculate the bottom rhythm of the music song played in real time by analyzing the music oscillogram and performing wavelet analysis on mathematical waves represented by music through a Fourier transform algorithm. The basic unit of tempo is BPM. This tempo can be used in comparison to the user's pedaling tempo.

The software can distribute the video content to multiple online users simultaneously for full network synchronization. If the flat plate is connected with a bicycle and a sensor, under the condition that a user who watches the flat plate simultaneously rides, the screen can display the calculated exercise data (namely, data obtained by calculating two original data of treading frequency and treading intensity) of the user, and if a plurality of people watch the video in the whole network and move simultaneously, the software can display all the user real-time score ranks simultaneously. The ranking score is based on a score calculated from the raw data of the frequency of pedaling and the strength of pedaling.

The motion method part comprises the following steps:

the user completes the bicycle riding exercise according to the video, the music rhythm and the data guidance by watching the video. In particular, the user may start a video or the like with the sensor stepping to a particular frequency and intensity. After a user treads a pedal of a bicycle, a tablet personal computer on the bicycle automatically detects Bluetooth and ANT + signals generated by a sensor located on the pedal, and the Bluetooth and the ANT + signals are automatically connected in a matched mode. And the tablet personal computer calculates after receiving the data sent by the sensor.

Raw data: the frequency and intensity of the treading are converted into the following two numbers by the algorithm: a. fitting degree of trampling frequency and music rhythm: the percentage of engagement between the pedaling frequency and the frequency of music being played in the video is calculated.

The matching degree percentage is 1- (| current frequency-preset recommended value |/preset recommended value) × 100% (for example: given recommended value 120, current frequency 100, matching degree is 1- ((120 + 100)/120) —. if given recommended value 120, current frequency 61, matching degree is 1- ((61-60)/60).

b. Real-time treading intensity: the heavier the tread, the larger the number.

The user exercise method comprises the following steps: the user watches the video and listens to the music rhythm, and meanwhile, the user only needs to pay attention to the real-time data a and b to achieve stronger sports entertainment and exercise effects. The user only needs to:

the first step is as follows: listening to music and watching videos and ensuring that the riding and music rhythm of the user are completely consistent as much as possible, so that a is maintained at 100% as much as possible;

the second step is that: meanwhile, the treading force is enhanced in a mode of adding resistance and the like to enable the data b to be as large as possible;

the third step: the total score c of the cycling movement of the user can be obtained. The total score c ═ Σ (average power per second × degree of matching). And c, ranking all users participating in the curriculum online in real time by the system. Real-time ranking may enhance interactivity.

The bicycle exercise method of embodiment 1 has the advantages that the defects of strong repeatability, tediousness and weak interactivity of bicycle movement in the prior art are overcome, and riding guidance is performed on a user through the most intuitive feeling of people on videos and music and combination of data, music and video contents; the upper hand threshold of the movement is reduced, the interestingness is improved, and meanwhile the user is helped to achieve a better movement effect.

Example 2

The difference from embodiment 1 is that the method can also be conveniently applied to exercise equipment such as spinning.

When the method is applied to such fitness equipment, the hardware device described in embodiment 1 may be used to implement the exercise method, that is, a video or audio is played through a mobile terminal such as a tablet, a sensor arranged on a pedal is used to collect data, and then the data is sent to the mobile terminal in a wired or wireless manner to implement the subsequent method in embodiment 1.

In addition, the method can also be realized by playing video or audio through the existing display screen on the fitness equipment and acquiring data through the existing sensor.

Example 3

The difference from the above embodiments 1 and 2 is that the sensors used in the present invention can be integrated into one or a pair of dedicated pedals to form a dedicated sensor pedal. The bicycle exercising device can be formed by replacing common pedals on a bicycle or a spinning bicycle with one or a pair of special sensor pedals and playing videos or audios by matching with mobile terminals such as a mobile phone or a tablet and the like, so that a corresponding exercising method is realized.

By adopting the bicycle exercising method and the device, video or audio multimedia can be played when a user exercises; the user can tread the bicycle along with the multimedia, so that the interestingness of the exercise is improved; meanwhile, a sensor arranged at the pedal is used for acquiring treading data in real time; the trampling data is compared with the multimedia to generate a real-time comparison result, so that a user can know how to trample the current effect through the comparison result, the user can conveniently and correspondingly adjust the trampling effect in real time, a better exercise effect is achieved, further, the user can correspondingly score the trampling of the user and even network ranking are achieved, the exercise interest is further improved, the bicycle exercising method can be applied to fitness equipment such as a common bicycle or a spinning bicycle, the application occasions are various, and the user experience is better.

In this specification, the invention has been described with reference to specific embodiments thereof. It will, however, be evident that various modifications and changes may be made thereto without departing from the broader spirit and scope of the invention. The specification and drawings are, accordingly, to be regarded in an illustrative rather than a restrictive sense.

Claims (10)

1. A method of performing a bicycle exercise device, the bicycle exercise device including a bicycle, the method comprising the steps of:

(1) the bicycle exercise device plays multimedia so that a user tramples the bicycle along with the multimedia;

(2) the bicycle exercise device collects trampling data in real time, wherein the trampling data comprises trampling frequency and trampling intensity, and the trampling data is obtained in real time according to a sensor arranged on a bicycle;

(3) the bicycle exercise device measures and calculates the bottom layer rhythm of the multimedia played in real time;

(4) the bicycle exercise device compares the trampling frequency with the bottom layer rhythm of the played multimedia to generate a real-time matching degree result, and converts the trampling intensity to obtain real-time trampling power; and multiplying the average trampling power per second by the matching degree and summing the result to be used as a basis for evaluating the single-vehicle riding motion.

2. The bicycle exercise method of claim 1, wherein the multimedia is video or audio;

the step of the bicycle by the user along with the multimedia is specifically as follows:

the user steps on the bicycle following the rhythm of the video or audio.

3. The bicycle exercise method of claim 2, wherein the real-time collected pedaling data specifically comprises:

the force of treading by a user and the rotating speed, displacement and acceleration of the bicycle are acquired by utilizing a sensor arranged at the pedal of the bicycle.

4. The method of claim 3, wherein the sensor is disposed at a crank of a side pedal of the bicycle.

5. The bicycle exercise method of claim 4, wherein the step (4) comprises the steps of:

(41) determining a trampling time point according to the trampling force of the user, which is acquired by a sensor;

(42) comparing the stepping time point with the rhythm of the video or audio, and taking the matching degree of the stepping time point and the rhythm of the video or audio as the real-time comparison result;

(43) and converting to obtain real-time treading power according to the collected treading strength and by combining the rotating speed, the displacement and the acceleration of the bicycle.

6. The bicycle exercise method of claim 5, wherein the matching degree M is:

M＝1-(|P-Ps|/Ps)×100％

wherein P is a current pedaling frequency obtained according to the pedaling time point, and Ps is a preset frequency determined by the rhythm of the video or audio.

7. The bicycle exercise method of claim 5, wherein the step (4) further comprises the steps of:

(44) and sending prompt information to the user according to the matching degree.

8. The bicycle exercise method of claim 7, wherein the step (4) further comprises the steps of:

(45) scoring the user exercise according to the matching degree and the treading power, wherein the scoring calculation formula is as follows:

c＝∑(W×M)

wherein c is the total score of the riding movement of the user, W is the average treading power per second, and M is the corresponding matching degree;

(46) and ranking the scores by using a network.

9. A bicycle exercise device, the device comprising:

the bicycle comprises a bicycle, wherein a sensor is arranged at a pedal of the bicycle and used for collecting pedaling data, the pedaling data comprises pedaling frequency and pedaling intensity, and the pedaling data is acquired in real time according to the sensor arranged on the bicycle;

the mobile terminal is used for playing multimedia and enabling a user to tread the bicycle along with the multimedia, is connected with the sensor and is used for comparing the treading frequency with the bottom layer rhythm of the played multimedia to generate a real-time comparison result and converting the treading intensity to obtain real-time treading power; and multiplying and summing the average trampling power per second and the matching degree to be used as a basis for evaluating the cycling motion of the bicycle, wherein the bicycle exercise device measures and calculates the bottom layer rhythm of the multimedia played in real time.

10. A bicycle exercise device is characterized in that the device is a bicycle type body-building apparatus, a sensor is arranged at a pedal of the bicycle type body-building apparatus and used for collecting pedaling data, and the pedaling data comprises pedaling frequency and pedaling strength, wherein the pedaling data is obtained in real time according to the sensor arranged on a bicycle; the bicycle type fitness equipment is also used for playing multimedia, so that a user tramples along with the multimedia, compares the trampling frequency with the bottom layer rhythm of the played multimedia to generate a real-time comparison result, and converts the trampling strength to obtain real-time trampling power; and multiplying and summing the average trampling power per second and the matching degree to be used as a basis for evaluating the cycling motion of the bicycle, wherein the bicycle exercise device measures and calculates the bottom layer rhythm of the multimedia played in real time.

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