KR20190069642A - Online system for learning cycle based on real-time instruction - Google Patents

Abstract

The present invention relates to a real time instruction-based online cycle instruction system. According to the present invention, the real time instruction-based online cycle instruction system includes: a cycle device formed to sense the exercise condition of a riding member in real time; a user terminal mounted on the cycle device, and displaying at least one among a real time image of an instructor and a real time exercise situation of another member; a management server including an information storage module storing member information obtained from the user terminal; and an analysis server including an exercise analysis module analyzing real time exercise conditions of exercising members. According to the present invention, the real time instruction-based online cycle instruction system is capable of enabling a user to have online spinning cycle instruction at home.

Description

{ONLINE SYSTEM FOR LEARNING CYCLE BASED ON REAL-TIME INSTRUCTION}

The present invention relates to an on-line training system based on real-time teaching, and to an on-line training system based on real-time teaching capable of training a spinning cycle against a plurality of members connected through online.

In recent years, many people are enjoying the spinning cycle, which is the exercise to perform while on a cycle. Basically, it is popular because it consumes a great amount of momentum compared to simply riding a cycle because it performs cycle and motion together with exciting music at the same time.

However, such spinning is quite a high-intensity motion, and proper pedaling and rhythm of operation must be matched, otherwise the exercise efficiency is lowered and the risk of injury is greatly increased. In order to overcome these problems, most indoor gymnasiums have opened a spinning cycle education program by inviting professional instructors.

However, since the spinning cycle training that takes place off-line is aimed at a number of students, it is impossible to provide high-level education to individual students. In order to exercise the spinning cycle, it is necessary to go to the gym.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a real-time teaching-based on-line training system capable of receiving a spinning cycle on-line regardless of a place.

The above object is achieved by a cyclic device configured to detect a movement state of a boarding member in real time according to the present invention; A user terminal mounted on the cyclic device and displaying at least one of a real-time image of a tutor or a real-time motion situation of another member; A management server including an information storage module for storing member information obtained from the user terminal; And an analysis server including a motion analysis module for analyzing a real-time motion state of the members in motion.

The analysis server may further include an operation analysis module for analyzing the spinning operation of each member.

Also, the motion analysis module calculates a real-time momentum of each member, the motion analysis module calculates a motion agreement degree between the tutor and the member, and the analysis server calculates a correction momentum based on the calculated real- And a calculation result output module.

The analysis server may further include a motion coefficient calculation module that calculates a motion coefficient that considers the physical capabilities of the member based on the information of each member acquired from the information storage module, And the corrected momentum value can be calculated by applying the obtained motion coefficient value.

The cycle device may further include: a cycle main body; And a body weight sensor for measuring a body weight of a member aboard the cycle main body in real time, wherein the information storage module includes at least one of a key, sex, age, and a real time body weight obtained from the body weight sensor And the motion coefficient calculation module can calculate a real time motion coefficient for each member based on data including a key, a sex, an age, and a real time weight.

The cycle device may further include a correction sensor for correcting an error occurring in the body weight measured by the body weight measuring sensor due to a pressing force applied to the cycle body.

In addition, the cycle device may further include a motion detection sensor for detecting an operation of a member boarding the cycle main body, wherein the motion analysis module detects a motion of the member through a leg motion of the member sensed by the motion detection sensor, The speed can be calculated.

The cyclic device may further include a motion sensor for detecting an operation of a member on the cycle main body, and a speed measuring sensor for measuring a speed of the disk drum of the cycle main body.

The cyclic device may further include a body composition measuring sensor for measuring a body composition of a member who has boarded the cycle body.

The management server may further include a group management module that manages a plurality of exercise groups, and the member may select one of a plurality of exercise groups managed by the group management module through the user terminal .

The exercise group managed by the group management module may be any one of exercise groups established by the instructor designated by the administrator, or exercise groups established by the joined members.

The user terminal may further include: a display device for displaying data; A transmission / reception module for transmitting / receiving data; . ≪ / RTI >

In addition, the screen displayed from the screen of the display device at the time of exercise may include a main display unit displaying at least one of the real time operation of the tutor or the information of other members in the group movement; An operation name display section for displaying a name of an operation; A performance display unit for displaying at least one of the motion information of the members who have entered the same motion group and the position of the user in the same motion group based on the motion information; And an exercise information display unit for displaying exercise information of the user.

The user terminal may further include a rendering module rendering the detected operation from the cyclic device and providing the generated rendering to the display device.

The rendering module may include: a storage medium storing a plurality of preset spinning operation data; A motion analyzer for analyzing the motion data received from the motion sensor; An operation determining unit for comparing the analyzed motion data with the spinning operation data stored in the storage medium, and selecting a spinning operation with a high degree of operation agreement; And a renderer for converting the spinning operation selected from the operation determining unit into an image and displaying the converted image on the display device.

In addition, it is configured to be able to transmit and receive data to and from the management server, receives and displays data of a specific member from the management server, receives a health status of the member from a predetermined external expert and responds to the management server And may further include an expert terminal configured.

According to the present invention, a real-time teaching-based online cycle education system capable of receiving a spinning cycle education through online is provided.

In addition, not only a predetermined professional instructor but also a registered member can exercise a spinning cycle exercise by opening a sports group, so that it can be utilized for personal purposes such as marketing.

In addition, by analyzing the degree of agreement of the spinning action between the tutor and the member and providing such information to the members in real time, members can exercise in a more accurate posture.

In addition, by calculating the individual exercise coefficients in real time in consideration of the differences in the physical abilities of the members, and correcting the exercise amounts in accordance with the body abilities, all the members in the same exercise group can be evaluated with accurate standards. It can inspire competition consciousness.

Further, since the motion coefficient of the member is calculated on the basis of the body weight changing in real time, more accurate physical ability measurement is possible.

In addition, since motion data can be displayed on a display device by performing an operation performed by a teacher or a moving member without a separate camera through a method of rendering the motion data into an image, it is possible not only to reduce the installation cost of a separate camera , And excessive data packet consumption due to real-time video transmission can be minimized.

In addition, each member has the advantage of being able to manage professional health by listening to professional opinions of health professionals from medical experts simply by performing continuous exercise without any special measures.

1 is a schematic conceptual diagram of an on-line training system based on real-time teaching according to an embodiment of the present invention,
FIG. 2 is a conceptual diagram of a user terminal and a cycle device of an on-line teaching system based on real-time teaching of FIG. 1,
FIG. 3 shows an example of a screen configuration displayed on a display device after member registration and authentication in the online cycle education system based on real-time teaching shown in FIG. 1,
FIG. 4 shows an example of a screen configuration displayed on a display device in the step of selecting a tutor in the online cycle education system based on the real-time teaching of FIG. 1,
5 schematically illustrates the operation principle of the rendering module of the on-line teaching system based on the real-time teaching of FIG. 1,
FIG. 6 illustrates a screen configuration of a display device on a member side during exercise in an online cycle education system based on real-time teaching of FIG. 1,
Fig. 7 shows an example of a screen of the display device of Fig. 6,
FIG. 8 is a diagram showing a screen configuration of a display device on the teacher side during exercise in the online cycle education system based on the real-time teaching of FIG. 1,
FIG. 9 shows an example of a screen configuration of a display device for displaying the movement performance of each member in the online cycle education system based on the real-time teaching of FIG.

Hereinafter, a real-time teaching-based online cycle education system 100 according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a conceptual diagram of a user terminal and a cycle device of an on-line training system based on the real-time teaching of FIG. 1; FIG.

1 and 2, a real-time teaching-based on-line training system 100 according to an embodiment of the present invention includes a system configured such that a plurality of members can receive a real- A management server 130, an analysis server 140, and a specialist terminal 150. The analysis server 140 includes an analysis server 140,

The on-line teaching system 100 based on real-time teaching according to an embodiment of the present invention is a service system in which a settled instructor provides a cycle education contents to a plurality of members connected through online. By being educated on the basis of online, the trainees are able to provide a high level of education, and the members who exercise are not only able to exercise more precisely in a more accurate manner, but also achieve a sense of accomplishment by competing with other members entering the same exercise group .

First, constituent elements constituting the present invention will be described.

The cycle device 110 includes a cycle main body 111, a weight measurement sensor 112, a motion detection sensor 114, and a speed measurement sensor 115, which are devices for measuring movement data, And a body composition measuring sensor 116.

The cycle main body 111 is configured such that the disc drum is rotatably mounted and rotated in association with the pedal rotated by the physical pressing force of the foot of the boarding member.

In addition, a center of the cycle main body 111 is installed so that the height of the saddle can be adjusted so that the member can ride.

Since the structure of the cycle main body 111 is the same as that of a general Indoor cycle structure, detailed description is omitted.

The weight measuring sensor 112 is a device for measuring the body weight of a member in motion while riding in the cycle body 111. In the present invention, the weight measuring sensor 112 is installed in a saddle .

On the other hand, when the user is in motion, a force in the opposite direction of gravity is applied due to the rolling motion of the foot, thus the accuracy of the weight data measured by the weight measuring sensor 112 is lowered. In this embodiment, , A separate correction sensor 113 can be mounted on the pedal. The correction sensor 113 measures a pressing force applied to the pedal, and the weight measurement sensor 112 adds a loss due to the pressing force measured by the correction sensor 113 to the weight data measured in real time, do.

Accordingly, the weight measuring sensor 112 can use the data of the correction sensor 113 to more accurately measure the real-time weight of the member during exercise.

The motion sensing sensor 114 senses the real-time motion of the member who boarded the cycle body 111. In this embodiment, the motion detection sensor 114 is preferably configured to detect the upper and lower body movement of the member, but may be configured to detect only the upper body movement of the member, if necessary.

The speed measuring sensor 115 is mounted on a disk drum of the cycle main body 111 for measuring the rotational speed of the disk drum. The rotational speed data of the disk drum measured by the speed measuring sensor 115 is transmitted to the analysis server 140, which will be described later, and serves as a reference for calculating the real-time momentum of the member.

However, according to the following description, when the motion detecting sensor 114 detects the lower body motion of the member and calculates the rotation speed of the disk drum, the speed measuring sensor 115 is not necessarily required. However, by including the speed measurement sensor 115, it is possible to measure the speed more accurately than when only the motion detection sensor 114 is used.

The body component measurement sensor 116 is a sensor for measuring in real time the body composition of a member who has boarded the cycle body 111. It is preferable that the body component of the member changing in real time during exercise is measured and mounted on the member's wrist, but the structure or the mounting site is not limited thereto.

The display unit 121, the transmission / reception module 122, and the rendering module 122 are connected to the user terminal 120. The user terminal 120 displays externally received data to a member in motion and transmits various data collected from a member in motion to the outside. (123) and a control unit (128).

The display device 121 is mounted on the upper end of the cycle main body 111 and is configured to display data transmitted from the outside or receive data from a member. In this embodiment, the display device 121 includes a touch function and may be any one of OLED (Organic Light Emitting Diodes), TFT-LCD (Thin Film Transistor-Liquid Crystal Display) and LCD (Liquid Crystal Display) , And the display device 121 are not limited to those described above.

Also, a speaker and a microphone for audio input / output may be mounted on the display device 121, and a hardware or software codec for video / audio reproduction may be installed.

The transmission / reception module 122 is a communication module for exchanging data with a management server 130, an analysis server 140, and another user terminal 120, which will be described later, and supports one or more communication protocols. For example, But is not limited to, at least some of the communication protocols such as IP, IPX, SPX, NetBIOS, Ethernet, ARCNET, Fiber Distributed Date Interface (FDDI), IEEE 802.11, IEEE 802.11a and direct synchronization connections.

The rendering module 123 receives the motion data of the tutor detected from the motion detection sensor 114 mounted on the teacher-side cycle device 110 and generates a two-dimensional image or 3 Dimensional image, and includes a motion analysis unit 124, an operation determination unit 125, and a renderer 126. The motion analysis unit 124 includes a motion estimation unit 125 and a renderer 126. [

The motion analyzer 124 receives the motion data sensed from the teacher device or the cycling device 110 of the active member and analyzes the data. More specifically, the motion analyzer 124 separates the received motion data into a series of consecutive operations, and analyzes them in a chronological order.

The operation determining unit 125 determines a spinning operation having the highest degree of matching by matching among various types of spinning operations stored in advance and an operation analyzed by the motion analyzing unit 124.

The renderer 126 converts the spinning operation determined by the operation determining unit 125 into a two-dimensional or three-dimensional image on the display device 121 and displays the converted image.

Therefore, when there is no separate camera for photographing the movement of the tutor on the tutor side, the rendering module 123 performs the spinning operation performed by the tutor using only the motion detection sensor 114 mounted on the cycle device 110 And converts and displays the image data in real time to the teaching target member. That is, it is possible to inform the teaching target members of the real-time operation of the tutor by using only the cycle device 110 without providing a separate camera roll on the tutor side.

Conversely, through the rendering module 123, the real-time motion of the moving member can be transmitted to the tutor side, and the tutor can correct the posture of the member based on this information.

The control unit 128 controls data transmitted from the transmission / reception module 122, the display device 121, and the rendering module 123, and may include hardware and an operating system including one or more processors.

The control unit 128 may further include a storage medium 127 for storing data. The storage medium 127 may store standardized spinning operations, image data for rendering the same, and the like.

The management server 130 includes an authentication processing module 131, an information storage module 132, and a group management module 133, which are servers for managing the information of the members as a whole and for managing groups in which teaching takes place .

The authentication processing module 131 is a module for performing basic management rules of a member such as member registration, authentication, log-in, and logout. Information such as a new member of the member is inputted through the authentication processing module 131, and it can be determined whether or not the member is registered after joining.

The information storage module 132 is used to store data collected from the user terminal 120, the expert terminal 150, the management server 130 and the analysis server 140 used by the tutor and a plurality of members will be.

The group management module 133 is for grouping a plurality of members into a preset reference so as to be taught by the same classroom teacher, creating a sports group, and managing a specific member by entering the corresponding sports group.

In the present embodiment, the group management module 133 basically binds the members who designate specific tutors to the same group, but the criteria for forming the exercise groups are not limited.

The analysis server 140 is a server for analyzing real-time exercise information and results of members and providing them to members. The server 140 includes a motion analysis module 141, a motion analysis module 142, a result calculation module 143, Module 144, as shown in FIG.

The motion analysis module 141 analyzes the real-time motion state of the members in motion, specifically, real-time motion amounts of the members.

The operation analysis module 142 calculates the degree of agreement between the spinning operation of the tutor and the spinning operation performed by the member in the teaching from the tutor.

The result calculation module 143 calculates a motion result value using at least one of the real-time momentum calculated by the motion analysis module 141 and the motion coherence data calculated by the motion analysis module 142. Particularly, the result calculation module 143 calculates a real-time motion result value in consideration of each member's motion coefficient calculated from the motion coefficient calculation module 144, which will be described later.

The motion coefficient calculation module 144 calculates a motion coefficient in consideration of the physical abilities of the member based on the information of each member obtained from the information storage module 132 described above. That is, each member calculates the coefficient of motion of each member based on the personal information already stored or the data measured in real time because there is individual difference in physical ability. More details will be described later.

The expert terminal 150 is configured to transmit and receive data to and from the management server 130 or the analysis server 140 and can receive and display data of specific members from the management server 130 and the analysis server 140 .

The expert terminal 150 diagnoses the health state based on the provided member data, receives the health state data, and allows the expert terminal 150 to retransmit the health state data to the management server 130. In addition, the expert terminal 150 can input expert advice information including a motion method, a schedule, a proper exercise amount, and the like, but is not limited thereto.

At this time, the external experts may be set as predetermined professional medical personnel, or may be external personnel matched through a separate platform service.

Therefore, there is an advantage that it is possible to confirm the health state of the user without visiting the specialized institution such as the hospital using the expert terminal 150. [

Hereinafter, the operation method and operation principle of the on-line teaching system 100 based on real-time teaching according to an embodiment of the present invention will be described in detail with reference to the above description.

First, an unregistered member joins a service. The unregistered member inputs predetermined membership information by using the display device 121 of the user terminal 120 and the authentication processing module 131 of the management server 130 transmits the input data to the corresponding member And receives the personal information of the subscriber. At this time, the information necessary for membership can be basic information including an ID, a password and a name, additional information such as physical information including a key and a weight, and an athletic career.

When the membership is completed by the above-described procedure, the authentication processing module 131 processes the corresponding member so that the member is automatically logged in, and the information storage module 132 stores the data of the joined member.

FIG. 3 shows an example of a screen configuration displayed on a display device after member registration and authentication in the online cycle education system based on the real-time teaching of FIG. 1 is completed.

When the member authentication and login step is completed, a screen as shown in Fig. 3 may appear.

FIG. 4 shows an example of a screen configuration displayed on a display device in the step of selecting a tutor in the online cycle education system based on the real-time teaching of FIG.

As shown in FIG. 4, the member selects a tutor who wants to take the course. At this time, the tutor may be a small number of professional instructors pre-designated by the manager, or may be another member who sets up a direct exercise group. That is, according to the present invention, not only a designated professional instructor but also a general registered member can play a role of a tutor.

When the instructor selection of the logged-in member is completed, the group management module 133 determines whether the exercise group of the tutor is in the current education in progress state. If the current exercise group is in progress, the member enters the corresponding exercise group. If the exercise group is scheduled to progress the lecture, the schedule is notified to the user's terminal 120 before the lecture of the exercise group is started Send it.

When the member enters the exercise group of the tutor while aboard the cycle main body 111, the teaching of the tutor proceeds and the members in the exercise group start the exercise according to the instruction contents of the tutor.

At the same time, the tutor starts the spinning lecture while aboard the cycle main body 111.

(Member movement and measurement)

At this time, the lecture screen of the tutor is displayed to the members belonging to the exercise group in real time, and is transmitted by either one of the following two methods.

First, a camera mounted on the teacher-side cyclic device 110 takes a tutor in real time and transmits the corresponding image data in real time. The transmitted image data is transmitted to the members who entered the exercise group in real time, and the corresponding image is displayed through the display device 121 of each member.

Secondly, the case where the teacher-side cyclic device 110 does not have a separate camera and the cyclic device 110 used by the general member is used, or the installed camera does not operate will be described. When the tutor performs the spinning operation mainly performed by the upper body motion, the motion sensing sensor 114 mounted on the cycle device 110 senses the spinning operation of the tutor. The motion data of the sensed teacher is transmitted to the user terminal 120 of the members in the exercise group and the rendering module 123 of the user terminal 120 of each member converts the motion data into an image, Lt; / RTI >

FIG. 5 schematically illustrates the operation principle of the rendering module of the on-line teaching system based on the real-time teaching of FIG. 1,

5, the motion analyzer 124 analyzes motion data on the side of the teacher who has received the motion data, and the motion determining unit 125 determines whether or not the plurality of spinning operations previously stored in the storage medium 127 The analyzed motion data are matched with each other and the spinning operation performed by the tutor is selected according to the degree of matching. Finally, the renderer 126 displays the selected spinning operation on the member's display device 121 with the highest degree of match through the agreement analysis. That is, according to this method, since the spinning motion of the tutor can be predicted and displayed only by the motion data without receiving the real-time image through the camera, the burden of the camera installation cost and the data packet cost can be minimized.

The member starts his / her exercise in a state where he / she is sitting on the cycle main body 111 in accordance with the spinning operation of the tutor displayed on the display device 121.

At the same time, the weight measurement sensor 112 of the cycle device 110 measures the weight of the active member in real time. However, while the pedal is constantly pressed during the exercise, a force in the opposite direction to gravity is applied to the weight measurement sensor 112, and therefore, the measurement reliability of the weight detected by the weight measurement sensor 112 is lowered. ) Corrects it. That is, the correction sensor 113 corrects the value of the body weight measured by the body weight measuring sensor 112 by the force applied to the pedal, and corrects the data so as to approximate the actual body weight of the member. The measured body weight data is transmitted in real time to the information storage module 132 of the management server 130 via the transmission / reception module 122.

In addition to the body weight measurement, the body composition data of the member under exercise by the body composition measurement sensor 116 is measured in real time, and the body composition data is transmitted to and stored in the information storage module 132 of the management server 130.

Further, the virtual moving speed of the cycle main body 111 is measured to calculate the momentum. In the present invention, the speed of the cycle main body 111 can be measured by one of the following two methods.

First, the rotational speed of the disk drum can be measured by the speed measuring sensor 115 mounted on the disk drum of the cycle main body 111. According to this method, the rotational speed of the disk drum can be measured relatively accurately.

Secondly, the rotation speed of the disk drum can be calculated selectively using the motion detection sensor 114 only when the speed measurement sensor 115 is not provided or the speed measurement sensor 115 malfunctions. That is, the rotation detecting unit 114 senses the rotational motion of the foot of a member who rides on the cycle body 111, and calculates the rotational speed of the disk drum.

That is, in the present invention, the rotation speed of the disk drum is measured using the speed measuring sensor 115, and the rotation speed of the disk drum is measured by using the motion detection sensor 114 only as an auxiliary, By predicting and calculating the rotation speed, it is possible to prepare for malfunction of some components and to secure the stability of the system as a whole.

The rotational speed data of the disk drum measured or calculated is transmitted to the motion analysis module 141 of the analysis server 140 through the transmission / reception module 122.

A plurality of members belonging to each group perform a movement according to a spinning operation of a teacher, a motion sensing sensor 114 senses a spinning operation of each member, and the sensed data is transmitted to an operation analysis module 142 of the analysis server 140 ).

(Member movement contents analysis)

As described above, the data input from each member or collected during the movement is transmitted to at least one of the management server 130 or the analysis server 140 through the transmission / reception module 122 of the user terminal 120.

First, the motion analysis module 142 calculates the degree of agreement between the motion data transmitted from the motion sensor 114 of each member and the spinning motion performed by the tutor. Specifically, the operation analysis module 142 divides one spinning operation into a plurality of continuous stopping operations, calculates a degree of agreement between the stopping operations, and calculates a final operation agreement degree. The calculated motion conformity is transmitted to the motion analysis module 141, which will be described later, in real time.

The motion analyzing module 141 analyzes data on the rotation speed of the disk drum of the cycle main body 111 collected by each member, data on the spinning operation and the motion accuracy, exercise time, and the weight of the member measured in real time, Motion data such as real-time consumption momentum, virtual movement distance, minimum speed, and average speed are calculated.

Particularly, the momentum measured by the motion analysis module 141 is separately calculated from the first momentum obtained from the spinning operation and the second momentum obtained from the pedaling of the cycle body 111.

The first amount of exercise is calculated by multiplying the exercise amount for each spinning operation performed by the motion matching degree analyzed by the motion analysis module 142. [

[Equation 1]

(Where M ₁ is the first momentum, m is the momentum for each spinning motion, and c is the motion match for each spinning motion)

[Table 1] below shows an example of calculating the first momentum amount M ₁ through Equation ( ₁ ).

Spinning action name Momentum by motion Motion match momentum First momentum Right-hand lift 2 times 5 0.8 4.0
34.5 Left hand lifting 2 times 5 0.9 4.5 5 folds of both arms folded 20 0.5 10.0 It happened 5 times 20 0.8 16

Next, the second momentum M ₂ can be expressed as a value obtained by integrating the product of the calorie consumption coefficient and the real-time weight as the exercise time, as shown in the following equation ( ₂ ).

&Quot; (2) "

In addition, an example of the calorie consumption coefficient can be shown as [Table 2] below.

Speed (km / h) Calorie consumption coefficient (Kcal / kg / min) 13 0.0650 16 0.0783 19 0.0939 22 0.114 24 0.124 26 0.136 27 0.149 ... ...

Thus, real-time momentum (M) calculated in the motion analysis module 141 may be represented by the sum of the first and momentum (M _1), a second momentum (M ₂₎ is calculated in real time values.

At the same time, the motion coefficient calculation module 144 calculates the motion coefficient E considering the physical abilities of each member. In other words, the motion coefficient (E) is calculated by considering the physical abilities such as age, sex, weight, and height in real time, and assuming that the member's momentum (M) And the coefficient E is calculated.

The motion coefficient E can be expressed by the following equation (3).

&Quot; (3) "

(Where S is the sex of the member, B is the real-time body mass index, A is the age)

However, it is preferable that the motion coefficient E decreases when the sex is male, and increases when the sex is female.

That is, since the motion coefficient E calculated in the present invention is calculated in consideration of the real-time weight, there is an advantage that the difference in physical ability among members can be accurately considered.

[Table 3] below is an example of the calculated motion coefficient.

Age (A) Sex (S) Body mass index (B) The coefficient of motion (E) 20 south 20 1.0 20 south 30 1.11 20 female 20 1.12 20 female 30 1.22 30 south 20 1.04 30 south 30 1.08 30 female 20 1.16 30 female 30 1.25 ...

The result calculation module 143 calculates the corrected momentum M _rev using the momentum calculated in real time in the motion analysis module 141 and the motion coefficient E calculated in the motion coefficient calculation module 144. [

That is, the correction momentum M _rev can be expressed as follows.

&Quot; (4) "

Therefore, the corrected exercise amount M _rev calculated by the result calculation module 143 is higher than the actual exercise amount M in the case of a person whose physical abilities are lowered. In the case of a person having excellent physical abilities, Which is lower than the exercise amount (M). By correcting the amount of exercise according to each member's ability through the exercise amount correction function, a plurality of members exercising in the group can be evaluated relatively fairly.

The data thus calculated is stored in real time for each member in the information storage module 132 of the management server 130. Accordingly, when a specific member is required, desired data can be extracted through the user terminal 120 and displayed on the display device 121. [

(Display screen configuration on the display device)

FIG. 6 is a diagram showing a screen configuration of a display device on the member side during exercise in an online cycle training system based on the real-time teaching of FIG. 1, FIG. 7 shows an example of a screen of the display device of FIG. 6, 1 shows a screen configuration of a display device on a teacher's side during exercise in an on-line teaching system based on real-time teaching.

6 to 8, the display area of each member's display device 121 is divided into a plurality of virtual areas during exercise, and each area includes a main display part 121a, an operation name display part 121b, A performance display unit 121c, and an exercise information display unit 121d.

The main display unit 121a is an area for displaying a real-time exercise scene of a teacher or a member in motion. That is, the main display unit 121a determines whether the user who uses the current user terminal 120 is a tutor or an active member, and selects and displays different screens according to the user.

6 and 7, the main display unit 121a may display a real-time image photographed by a camera installed on the tutor's side, The image of the tutor converted from the motion data by the rendering module 123 may be displayed.

On the other hand, if the user of the user terminal 120 is a tutor, as shown in FIG. 8, information on at least one of the active members is displayed on the main display unit 121a, not on the screen of the user . In this case, detailed information of the member having the smallest amount of correction exercise in the exercise group can be displayed on the user terminal 120 of the tutor, and the real time operation of the member converted through the rendering module 123 is displayed in real time can do. The instructor can use this detailed information to correct the operation of the member displayed on the main display unit 121a.

However, the member displayed on the tutor's main display unit 121a is not limited to the above-described contents, and the selected member may be displayed according to preset selection conditions, or a randomly selected member may be displayed. Also, several members may be displayed at the same time.

Accordingly, the main display unit 121a of the present invention displays different screens according to the user. Specifically, the main display unit 121a allows the members to learn a more accurate operation by displaying a movement screen of the tutor, There is an advantage in that it is possible to calibrate the operation of each member by displaying detailed information of some members.

The action name display section 121b is an area for displaying the name of the spinning operation performed by the tutor in real time.

The performance display unit 121c is an area for displaying the motional performance of a plurality of members exercising in the same exercise group. Specifically, the following contents may be displayed on the performance display unit 121c.

1. Momentum by Member - Displays the momentum of all members in the same exercise group in real time

2. Calibrated momentum by member - Displays the corrected momentum of all members in the same exercise group in real time

3. Travel Distance by Member - Displays the virtual distance of all members in the same exercise group in real time

4. My Rank - Displays my workout rank within the same workout group based on one or more of the momentum, the corrected momentum, and the shift distance.

The exercise information display section 121d is an area for displaying the detailed exercise information of the person himself / herself. The movement information display unit 121d may display the current movement speed, the average movement speed, the movement distance, the exercise amount, the correction exercise amount, the real time body weight, the real time body mass index, and the real time body composition.

Based on this information, I can not only confirm the exercise information in real time, but also increase the competitiveness by raising the competitiveness. In addition, the teacher can grasp the status of each member in real time, encourage the exercise of the member whose performance is decreased, and teach the correct spinning operation, so that the user can receive spinning cycle training online.

(Rewards system)

In the present invention, it is possible to determine the exercise order in the same exercise group and provide the reward according to the performance. That is, as described above, the reward can be provided by ranking on the basis of the complete distance, the amount of exercise, the amount of correction exercise, and the like.

The reward the member receives may be exhausted, for example, in the following manner.

1. Extension of Registration Period

Members can use the rewards to extend their membership term, or to select a tutorial group. It can also be used to raise membership levels.

2. Rewards through group opening

In the system of the present invention, not only a designated professional lecturer but also general members can set up a group of exercises, so that they can be reused as rewards in the established exercise group. Through this, general members can open a sports group for the purpose of personal promotion, and other members can enter a group established by a general member and receive a reward.

(Member Management System)

According to the system of the present invention, the following member management system can be additionally provided.

1, provides regular exercise data

Each member can request motion result data for each period through the user terminal 120 and receives data stored in the management server 130 through the transmission and reception module 122 and is displayed on the display device 121 .

Therefore, members can exercise their systematically by checking the status of their workouts by period.

FIG. 9 shows an example of a screen configuration of a display device for displaying the movement performance of each member in the online cycle education system based on the real-time teaching of FIG.

2. Check your health status with a specialist

The body information and the exercise data of each member stored in the management server 130 are periodically transmitted to the expert terminal. The predetermined expert diagnoses the health state based on the data displayed on the expert terminal 150, and transmits the diagnosed health data to the management server 130.

The management server 130 transmits health status data diagnosed by an expert to the user terminal 120 of each member and the member can regularly check the health status of the member so that the health checkup can be performed indirectly Health care is possible.

The scope of the present invention is not limited to the above-described embodiments, but may be embodied in various forms of embodiments within the scope of the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

110: Cycle device 120: User terminal
130: management server 140: analysis server
150: Expert terminal

Claims (16)

A cyclic device configured to detect a motion state of a boarding member in real time;
A user terminal mounted on the cyclic device and displaying at least one of a real-time image of a tutor or a real-time motion situation of another member;
A management server including an information storage module for storing member information obtained from the user terminal;
And an analysis server that includes a motion analysis module for analyzing a real-time motion state of the members in motion. The method according to claim 1,
The analysis server,
And a motion analysis module for analyzing the spinning motion of each member. The method of claim 2,
The motion analysis module calculates the real-time momentum of each member,
Wherein the motion analysis module calculates an agreement degree of motion between the tutor and the member,
Wherein the analysis server further comprises a result calculation module for calculating a corrected momentum based on the calculated real-time momentum and the motion agreement degree. The method of claim 3,
Wherein the analysis server further comprises a motion coefficient calculation module for calculating a motion coefficient in consideration of the physical abilities of the member based on the information of each member obtained from the information storage module,
Wherein the result calculation module calculates the corrected momentum by applying the motion coefficient values calculated for each member. The method of claim 4,
The cycle device comprising:
A cycle body; And a weight measuring sensor for measuring a weight of a member aboard the cycle main body in real time,
Wherein the information storage module stores at least one of a key input from each member, sex, age, and a real-time weight obtained from the weight measurement sensor,
Wherein the motion coefficient calculation module calculates a real-time motion coefficient for each member based on data including a key, a sex, an age, and a real-time weight. The method of claim 5,
The cycle device comprising:
And a correction sensor for correcting an error occurring in a body weight value measured by the weight measurement sensor by a pressing force applied to the cycle main body. The method of claim 5,
Wherein the cycle device further includes a motion detection sensor for detecting an operation of a member aboard the cycle main body,
Wherein the motion analysis module calculates the virtual speed of the body cycle through a leg motion of the member sensed by the motion detection sensor. The method of claim 5,
The cycle device comprising:
A motion detection sensor for detecting an operation of a member aboard the cycle main body; And a speed measuring sensor for measuring the speed of the disk drum of the cycle main body. The method of claim 5,
The cycle device comprising:
And a body composition measuring sensor for measuring a body composition of a member who has boarded the cycle main body. The method according to any one of claims 7 to 9,
Wherein the management server further comprises a group management module for managing a plurality of exercise groups,
Wherein the member selects any one of a plurality of exercise groups managed by the group management module through the user terminal and enters the on-line training course based on real-time teaching. The method of claim 10,
Wherein the exercise group managed by the group management module is any one of a sports group established by the instructor designated by the manager or a sports group established by the affiliated member. The method of claim 10,
The user terminal comprises:
A display device for displaying data; A transmission / reception module for transmitting / receiving data; Wherein the on-line teaching system is based on real-time teaching. The method of claim 12,
A screen displayed from a screen of the display device at the time of exercise,
A main display unit for displaying at least one of a real time action of a teacher or information of another member in motion in a group; An operation name display section for displaying a name of an operation; A performance display unit for displaying at least one of the motion information of the members who have entered the same motion group and the position of the user in the same motion group based on the motion information; And an exercise information display unit for displaying exercise information of the user. 14. The method of claim 13,
The user terminal comprises:
And a rendering module rendering the detected motion from the cyclic device and providing the rendered motion to the display device. 15. The method of claim 14,
The rendering module includes:
A storage medium storing a plurality of preset spinning operation data; A motion analyzer for analyzing motion data received from the motion sensor; An operation determining unit for comparing the analyzed motion data with the spinning operation data stored in the storage medium, and selecting a spinning operation with a high degree of operation agreement; And a renderer for converting the spinning operation selected from the operation determining unit into an image and displaying the converted spinning operation on the display device. 16. The method of claim 15,
Receiving and displaying data of a specific member from the management server, receiving health status of the member from a predetermined external expert, and responding to the management server And an expert terminal. The on-line training system based on real-time teaching.

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