WO2019225772A1

WO2019225772A1 - Integrated platform system for managing and recommending exercise by using mobile device

Info

Publication number: WO2019225772A1
Application number: PCT/KR2018/005813
Authority: WO
Inventors: 김민철
Original assignee: Kim Min Chul
Priority date: 2018-05-23
Filing date: 2018-05-23
Publication date: 2019-11-28

Abstract

The present invention relates to an integrated platform system for managing and recommending exercises by using a mobile device, which, by means of a mobile device, informs a user of exercise programs possible to do in everyday life or in a fitness center, etc., measures and manages the amount of the exercise, and motivates and encourages the user to do exercise in various ways, and thus health promotion of the user can be achieved. Specifically, the system comprises: one or more user terminals, each of which includes a measurement means including a plurality of sensors to measure the exercise amount of an exercise program done by a user, receives the input of user information on the user and information related to the user's everyday life, determines the user's grade on the basis of the information, organizes one or more exercise programs and a recommended daily exercise amount for each of the exercise programs according to the grade and notifies the user thereof, and displays the user's exercise progress state by analytically comparing the exercise amount for each of the exercise programs, measured by the measurement means, with a predetermined recommended daily exercise amount for each of the exercise programs; and a management server which is connected to the user terminals through a communication network, receives input information, configuration information, and measurement information of the user terminals and users' exercise progress states processed by the user terminals, and stores the information and states according to the users.

Description

Integrated exercise management and recommended platform system using mobile device

The present invention is to guide the information on the sports events that can be carried out in a daily life or fitness center using a mobile device, to measure and manage the amount of exercise, to induce exercise with motivation in various forms to the user's health The present invention relates to an integrated exercise management and recommended platform system using mobile devices that can be promoted.

Recently, with the development of the Internet and communication technology, technologies for allowing users to receive various health-related services including exercise guidance through various webs or mobiles have been proposed.

For example, Korean Patent Laid-Open Publication No. 10-2014-33850 discloses "Step (S10) of accessing the U-Health Center through the web; The U-Health Center identifies the accessor, the situation information and bio-signal for service provision Analyzing (S20); when the analysis is completed, transmitting the biosignal and analysis result to a doctor for accurate clinical diagnosis (S30); referring to the biosignal and analysis result of the accessor and making a recommendation to the visitor. (S40) and the U-Health Center to provide exercisers, dietary content provided by the content provider to the visitor in order to provide a customized service to the accessor based on the analysis information (S50); "Health care service method using the context information based on the U-Health platform" is proposed.

However, even with the above system, it is somewhat insufficient to promote the user's health by identifying the user's accurate exercise information and providing a customized service accordingly.

Therefore, an object of the present invention is to guide the information on the exercise items that can be carried out in a daily life or fitness center using a mobile device, to measure and manage the amount of exercise, and to induce exercise with motivation in various forms It aims to provide an integrated exercise management and recommended platform system using mobile devices that can promote the health of users.

As a means for solving the above problems, the integrated exercise management and recommendation platform system using the mobile device of the present invention includes a measuring means for measuring the amount of exercise for the exercise item that the user includes a plurality of sensors, User information and daily life information about the user are input and based on this, the user's grade is determined and set and guides one or more exercise items according to the grade and daily recommended exercise amount according to the exercise items, and the exercise amount measured by the exercise item and At least one user terminal displaying the exercise achievement state of the user by comparing and analyzing the daily recommended exercise amount for each preset exercise item; And a management server connected to the user terminal through a communication network and receiving input information, setting information, and measurement information of the user terminal, and an exercise achievement state of the user processed by the user terminal, and storing the user achievement state for each user. .

As one example, the exercise item set in the user terminal is any one of the exercise item that the user can perform in daily life, the measuring means is provided in the user terminal and acceleration and the movement according to the movement of the user terminal An inertial sensor for measuring rotational angular velocity; A camera sensor provided in the user terminal and configured to photograph one or more of the user's face or iris; A proximity sensor provided at the user terminal and configured to detect whether the user is in proximity to the body; And the translational motion of the lateral direction (X axis direction), the upper direction (Y axis direction) and the front direction (Z axis direction) of the user terminal, and the X, Y and Z axes, respectively, by the inertial sensor. Computing a rotational motion based on the reference, and real-time recognition of the face photographed by the camera sensor, and determine in real time the proximity of the body detected by the proximity sensor in real time, the recognition state of the face or iris and the proximity of the body And an exercise amount calculation module for identifying one exercise item among the exercise items by combining the calculated translational and rotational motions and counting the exercise amount of the exercise item.

As an example, the exercise amount calculation module may separate the user's face and the background from the image captured by the camera sensor, analyze the change of the user's face and the background, and count the exercise amount of the corresponding exercise item. Determining cheating

As one example, the exercise item set in the user terminal is any one of the exercise item that the user can perform in daily life, the measuring means is provided in the user terminal and the acceleration and the movement according to the movement of the user terminal An inertial sensor for measuring rotational angular velocity; A step counter sensor provided in the user terminal for sensing a step of the user; An air pressure sensor provided in the user terminal for measuring an air pressure in real time; And the translational motion of the lateral direction (X axis direction), the upper direction (Y axis direction) and the front direction (Z axis direction) of the user terminal, and the X, Y and Z axes, respectively, by the inertial sensor. Computing a rotational movement as a reference, and grasps one of the exercise items by combining the step detected by the step counter sensor, the air pressure measured by the barometric pressure sensor and the calculated translational and rotational movements It may include; an exercise amount calculation module for counting the exercise amount of the exercise event.

As one example, the exercise amount calculation module calculates the speed of the user's step detected by the step counter sensor, measures the speed of the calculated step and the step detected by the step counter sensor and the barometric pressure sensor. Combining the barometric pressure can identify the exercise of one of the exercise item and count the amount of exercise of the exercise item.

As an example, the measuring means may include a camera sensor provided in the user terminal and configured to photograph an image of the front of the user; And a speaker sensor provided at the user terminal and configured to input sound while a user performs exercise, wherein the exercise amount calculating module recognizes a step shape from an image photographed by the camera sensor, and recognizes the speaker sensor. Recognizing the sound of the user's footsteps from the sound input through the sound, and analyzing the change of the step shape and the footstep sound can determine the user's cheating in counting the amount of exercise of the exercise.

As one example, the exercise item is set in the user terminal may be one selected from a variety of exercise exercise items provided in the fitness center, the device, the first sensor is mounted to each unit weight, the weight and A second sensor for detecting a movement of the first sensor and outputting a sensing signal and a unique sensor for identifying the movement of the first sensor, and collecting and transmitting a sensing signal output from the second sensor; The measuring means includes: an exercise amount calculation module for receiving the identification information and the detection signal transmitted from the data transfer module, analyzing the same, identifying the exercise of the machine, and counting the weight weight and the amount of exercise of the corresponding machine exercise; Can be.

As one example, the exercise item set in the user terminal may be one selected from a variety of exercise exercise items provided in the fitness center, the device is stacked side by side in the vertical direction and a plurality of weights provided with a fastening hole And a selection pin inserted into the fastening hole of the selected one weight, and a distance measuring unit installed at an upper portion of the plurality of weights and sensing a distance from the selection pin to output a detection signal, and unique identification information. And a data transfer module for collecting and transmitting a detection signal output from the distance measuring unit, wherein the measuring means receives and analyzes the identification information and the detection signal transmitted from the data transfer module and performs the mechanical motion. And an exercise amount calculation module for identifying and counting the total weight and the amount of exercise of the device exercise.

As one example, the user terminal may provide a sound effect at each counting point in measuring the amount of exercise in the measuring means.

As one example, the user terminal may provide a sound effect at a predetermined time interval in measuring the amount of exercise in the measuring means.

As an example, the user terminal may set an alarm for selecting a time zone during which the user can exercise for one or more exercise items to be guided and the daily recommended exercise amount, and set the corresponding exercise item and the daily recommended exercise amount in the selected time period. If it does not achieve the output of a bell or vibration signal at a predetermined time interval, it can be guided to the unachieved exercise amount.

As an example, a compensation server connected to the management server receives a user's exercise achievement state from the management server, calculates a reward point or a reward coupon according to the exercise achievement rate during the first set time, and transmits the reward point to the user terminal. It may further include;

As an example, one or more acquaintance terminals connected to the management server and receiving and monitoring the exercise amount and exercise achievement state for each exercise item of the user for the selected one user terminal may be monitored.

As one example, the user terminal may be to search for and analyze the type of sensor included in the operating system environment and the measurement means, and to select and guide one or more exercise items according to the operating system environment and the type of sensor. have.

Therefore, the integrated exercise management and recommendation platform system using the mobile device of the present invention analyzes the user's living patterns and grades according to the input of the user information and daily life information, and guides the recommended daily exercise amount so that the user can perform the customized exercise. It is possible to measure the amount of exercise of the user with only the mobile device of the user without additional devices such as wearable devices.

In addition, in addition to inducing daily exercise using activities in daily life at any time, anywhere, at home, at work, or on the move, it also measures and collects the amount of exercise performed by fitness sensors, etc. In particular, by providing the correct exercise method and prescription information as well as services that can motivate the exercise in various forms through mobile devices, the user's continuous exercise and further improving the user's health There is an advantage that can be planned.

1 is a block diagram showing the configuration of the integrated exercise management and recommended platform system using a mobile device according to the present invention.

Figure 2 is a block diagram showing the configuration of the measuring means for daily exercise according to an embodiment of the present invention.

3 is a schematic diagram illustrating three axis directions of a user terminal according to an exemplary embodiment.

4A and 4B are screens of a user interface for face recognition according to an embodiment of the present invention.

5 is a schematic diagram of the exercise amount measurement for the exercise standing and standing exercise according to an embodiment of the present invention.

Figure 6 is a schematic diagram of the amount of exercise for exercise exercise sit-ups according to an embodiment of the present invention.

Figure 7 is a schematic diagram of the amount of exercise for the push-ups exercise item according to an embodiment of the present invention.

8 is a block diagram showing the configuration of the measuring means for the exercise equipment fitness center according to an embodiment of the present invention.

9 is a view showing a method for measuring the total weight of the movement of the apparatus according to an embodiment of the present invention.

10 is a view showing a method for measuring the total weight of the exercise device according to another embodiment of the present invention.

11A and 11B are screens of a user interface for exercising a device according to an embodiment of the present invention.

12A to 12D are interface screens illustrating an exercise check of a user through a coach terminal according to an exemplary embodiment.

Hereinafter, the configuration and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

The integrated exercise management and recommended platform system using the mobile device of the present invention (hereinafter referred to as the 'platform system') is a living exercise that can be freely performed in daily life using a mobile device possessed by the user, that is, the user terminal 100. Of course, it is possible to measure the amount of exercise for exercise equipment that can be performed in the fitness center, and to collect a variety of exercise information, including the user's daily exercise amount to be managed for each user.

In addition, the platform system of the present invention can prescribe and manage the user's exercise by allowing the coach terminal 300 or the acquaintance terminal 500 to share the exercise information of the user performed in the user terminal 100 through a communication network. In particular, by providing various types of motivational functions to the user terminal 100, the user's health can be promoted by continuously inducing the user's exercise.

Referring to FIG. 1, the platform system of the present invention may include a user terminal 100, a management server 200, a coach terminal 300, a reward server 400, and an acquaintance terminal 500.

The user terminal 100 is provided with a measuring means for measuring the amount of exercise for the exercise item selected by the user or the exercise item automatically detected, the user information and daily life information for the user is input.

The user may be a user registered as a member through an authentication process suitable for any one of the known authentication methods, including face recognition, iris recognition, fingerprint recognition, ID / nickname / phone number, GPS recognition, etc. User information and daily life information are input by using input means including a keypad provided at 100.

Here, the user information may include information such as a user's physical condition, age, gender, etc. The daily life information may include the user's wake-up time, lunch time, commute / commute time, whether or not to use public transportation, how to sleep, etc. In everyday life, the user may include information that enables exercise activities.

The user terminal 100 may determine a user's life pattern and grade based on the input user information and daily life information, and set at least one exercise item and a daily recommended exercise amount for each exercise item according to the grade.

For example, the reference of the recommended daily exercise amount information for each exercise item presented to the user may be determined by age and gender according to information input through the user terminal 100 as shown in Table 1 and Table 2 below.

As described above, the user terminal 100 may guide one or more exercise items and recommended daily exercise amount information for each exercise item set according to the grade, and may display them on the display screen. In this case, the guide information may include the number of repetitions for each exercise and the calories burned during the exercise, and the grade criteria, the check method, the no count criteria, the preferred exercise postures, and the desirable wearing of the user terminal 100 for the selected exercise event or the like. It may include information such as a gripping state.

Meanwhile, the user terminal 100 may compare and analyze the exercise amount for each exercise item measured by the measuring means and the recommended daily exercise amount for each preset exercise item, and determine the exercise achievement state of the user, and display it on the display screen.

In this case, the user terminal 100 generates guidance information suitable for each situation when the amount of exercise is not counted due to the insufficiency of the recommended daily exercise amount or when the posture is determined to be unstable in the measuring means. This can be indicated.

For example, if the user terminal 100 does not achieve the recommended daily exercise amount, the user terminal 100 may generate an incomplete signal, and may inform the user of information including the unsuccessful exercise item and the remaining number of times through a push alarm or the like. Allows the user to induce or motivate supplemental exercise for lack of exercise.

In addition, the user terminal 100 may generate a correction signal when it is determined that the posture of the user is unstable in a specific exercise item, and guide the user to the correct posture method information on the exercise item through a push alarm. Induce the user to recognize the correct exercise posture once again.

In this case, when an unachieved signal or a calibration signal is generated in the user terminal 100, an administrator, for example, a call center or a coach terminal 300 described below is connected to directly inform the user of an intellectual matter through a voice or a message. You may.

The user terminal 100 provides a sound effect at each counting point in measuring the amount of exercise in the measuring means to induce the user's interest, or provide a sound effect at a predetermined time interval to perform the exercise at a constant speed Can be given.

In particular, the user terminal 100 may set an alarm to directly input and select a time zone during which the user can exercise with respect to one or more exercise items to be guided and the daily recommended exercise amount. When the amount of exercise cannot be achieved, a bell or vibration signal may be output at predetermined time intervals, and the amount of exercise that is not achieved may be guided.

That is, the user terminal 100 may help the user achieve the exercise goal by turning off the alarm only when the user achieves the exercise amount for the exercise item by the set alarm function.

The user terminal 100 may be a mobile terminal such as a user's smart phone or tablet PC, and by installing and executing a specific exercise management app (App) distributed from a service provider to provide an integrated exercise management service including exercise quantity measurement. Can be provided.

The management server 200 is connected to the user terminal 100 through a communication network, the input information, the setting information and the measurement information of the user terminal 100 and the exercise achievement state of the user processed in the user terminal 100, etc. It can receive and store and manage by user.

In other words, the management server 200 may collect and collect exercise information including an exercise amount of each exercise item of the user recorded and processed from the user terminal 100 and store the information in a database.

The database may store not only exercise information for each sport item but also additional information including user information of a registered user, for example, a user's name, gender, body information, progress step, and the like.

The information stored in the database may be classified and stored according to the age, physical condition, and gender of the user, and may be used as reference data in classifying a grade through user information input from the user terminal 100.

The management server 200 may extract and provide response information corresponding to the information request from the user terminal 100 from the database.

In addition, the management server 200 may be configured to receive the unachieved signal and the calibration signal generated by the user terminal 100 to separate users requiring special management and designate the special management target.

The coach terminal 300 may be a terminal operated by an exercise management call center or a fitness center contracted with a service provider.

The coach terminal 300 may receive exercise information about one or more users selected in association with the management server 200.

In this case, the management server 200 may provide a one-to-one user-customized service by transmitting the exercise information of the user received through one user terminal 200 to one coach terminal 300, The exercise information about the user terminal 100 may be transmitted to one coach terminal 300 to provide a service for a plurality of users. Naturally, such a service setting may be selectively performed according to an operation method.

In addition, the coach terminal 300 may provide a check and prescription information regarding the amount of exercise or posture when the user exercises a specific exercise item based on the exercise information transmitted from the selected one or more user terminals 100.

That is, the coach terminal 300 is a terminal for performing exercise management for the user by a trainer or the like, and checks the exercise information including the body information and the exercise amount information of each user to point out the correction and the posture for the specific exercise. In addition, it is to provide the selected user terminal 100 with checks and prescription information, such as scheduling matters such as increase or decrease in future exercise.

The check and prescription information and the like provided by the coach terminal 300 may include one or more of text, voice, image, and video, and the like so as to motivate a user to exercise as described above. The coach terminal 300 receives the user terminal 100 information designated as a special management target from the management server 200, and when the unachieved signal or the calibration signal is generated in the user terminal 100, the corresponding user terminal 100. ) So that call center staff or trainers can direct voice management.

In addition, the check and prescription information for the user provided by the coach terminal 300 may be provided to the user terminal 100 via the management server 200, the check and provided to each user terminal 100 Prescription information is also preferably serviced to be stored in the database of the management server 200 for each user so that it can be provided at a later request of the user terminal 100.

Here, the exercise information transmitted to the coach terminal 300 may further include a video photographed for the exercise action performed by the user.

To this end, the management server 200 provides a storage space for uploading the video taken by the user, the user uploads the video to the management server through the user terminal 100, etc., the user's exercise The related video may be stored for each user in the database.

In addition, the management server 200 preferably protects the user's privacy by providing an image editing function such as filtering, stitching, image quality de-drading, etc., on the user's face in the uploaded video.

In addition, the coach terminal 300 receives exercise information including a video of at least one selected user from the management server 200 to observe the exercise scene of the user in more detail, thereby deriving accurate check and prescription information accordingly. Do it.

The reward server 400 is connected to the management server 200 and receives the user's exercise achievement state from the management server 200, and calculates a reward point or reward coupon according to the exercise achievement rate for the first set time It may be transmitted to the user terminal 100.

In this case, the first time is preferably set in weekly or monthly units.

In addition, the reward points or reward coupons can be converted into cash or in kind so that the user can be actively motivated and participate to promote the health of the user.

The acquaintance terminal 500 is connected to the management server 200 and receives the amount of exercise and exercise achievement state of each exercise item for the selected user terminal 100 from the management server 200 to monitor it by Allows third parties to manage and supervise the user's movements so that they can be motivated.

The acquaintance terminal 500 may be a mobile terminal such as a friend or family registered and stored in the user terminal, and may be provided only to acquaintances allowed to access through a user's prior approval process.

2 is a block diagram showing the configuration of the measuring means for daily exercise according to an embodiment of the present invention, Figure 3 is a schematic diagram showing the three-axis direction of the user terminal according to an embodiment of the present invention, Figure 4a 4B is a user interface screen for face recognition according to an embodiment of the present invention. And Figure 5 is a schematic diagram of the measurement of the exercise amount for a sit-up exercise item according to an embodiment of the present invention, Figure 6 is a schematic diagram of the exercise amount measurement for a sit-up exercise item according to an embodiment of the present invention, Figure 7 Is a schematic diagram of the amount of exercise measurement for push-ups exercise item according to an embodiment of the present invention.

As mentioned above, the platform system of the present invention can measure the exercise amount for the exercise item set by the user by providing the measuring means in the user terminal 100.

According to the present embodiment, the exercise item set in the user terminal 100 is 'squat', 'sit-up', and 'push-up' that the user can perform in daily life. push-up) 'or' stepping '.

In other words, the platform system of the present invention is configured to determine by using the user terminal 100 the exercise item that can be carried out in everyday life, it is configured to automatically count and measure the amount of exercise.

First, referring to FIG. 2, the measurement means according to an embodiment of the present invention includes an inertial sensor 110, a camera sensor 120, a proximity sensor 130, and a step counter sensor. sensor), an air pressure sensor 150, and an exercise amount calculation module 160-1.

Here, the user terminal 100 mentioned in the present invention may be any one of a smart phone or a smart watch possessed by the user, and the measuring means is pre-set in the user terminal 100. It may be an application to be loaded.

When the measurement means is executed in the user terminal 100, the inertial sensor 110, the camera sensor 120, the proximity sensor 130, the step counter sensor 140, the barometric pressure sensor 150, and the exercise amount calculation By instructing to selectively activate one or more of the modules 160-1 and receiving sensing information measured therefrom, the exercise item and the amount of exercise performed by the user may be measured.

Hereinafter, a detailed configuration of the measuring means of the present embodiment will be described.

The inertial sensor 110 may be provided in the user terminal 100 and configured to measure acceleration and rotational angular velocity according to the movement of the user terminal 100.

The inertial sensor 110 may be composed of an acceleration sensor and a gyro sensor. The acceleration sensor may measure acceleration related to translational motion, and the gyro sensor may be configured to measure rotational angular velocity based on the translational axis of motion. have.

As shown in FIG. 3, the axial direction of the user terminal 100 may be set to an X axis direction, an up direction to a Y axis direction, and an omnidirectional direction to a Z axis direction. In addition, a rotational motion may be defined based on each axis.

The rotational motion may be divided into three rotational motions of pitch, yaw and roll about each axis.

The three translational motion directions and the three rotational motion directions may be set using the user terminal 100, and the values measured by the inertial sensor 110 may be determined by the user's movement direction and movement motion and the amount of motion measurement. Can be used for

The camera sensor 120 may be provided in the user terminal 100 and configured to photograph a face of the user. The user may be configured to hold the user terminal 100 by hand and photograph his or her face during exercise.

For example, as illustrated in FIGS. 4A and 4B, the user may be configured to photograph a face at a position on the screen. The face shooting is intended to determine whether the user maintains the correct posture or posture of the motion during the operation such as 'push up' or 'sit and stand up'.

In addition, the camera sensor 120 may include an iris recognition sensor although not shown in the drawing, and is preferably configured to photograph one or more of the user's face or iris through the iris recognition sensor. Through such iris recognition, the user terminal 100 may determine that a user who is registered in advance along with a user's exercise measurement is actually exercising.

The proximity sensor 130 may be provided in the user terminal 100 and configured to detect the proximity of the user's body from the user terminal 100.

For example, the proximity sensor 130 may be configured to detect proximity between the face and the user terminal 100 by using infrared reflection time when the user's face is touched.

The proximity sensor 130 may be used to determine an operation such as 'push-up' of the user and measure the amount of exercise.

The step counter sensor 140 may be provided in the user terminal 100 to sense a step of a user. It is a sensor that functions like a pedometer.

However, it cannot detect whether it is walking or running, and it cannot directly detect whether it is climbing stairs or going down stairs.

The air pressure sensor 150 may be provided in the user terminal 100 and configured to measure air pressure in real time. Since the air pressure varies according to the altitude, it may be used to determine whether the user is going up the stairs or going down the stairs by measuring the air pressure in detail through the air pressure sensor 150.

Meanwhile, the exercise calculation module 160-1 may include push-up, sit-up, squat, stepping, walking, running, and the like. The exercise item of the exercise item may be comprehensively determined using the sensing values of the above-mentioned sensors, and may be configured to count and measure the exercise amount according to each exercise item.

Basically, the momentum calculation module 160-1 is lateral (X-axis direction), upward (Y-axis direction) and omni-directional (Z-axis direction) of the user terminal 100 by the inertial sensor 110. It can be configured to calculate the translational motion for each and the rotational motion relative to each of the X, Y, and Z axes. Here, the exercise amount calculating module 160-1 may be configured to identify the exercise item of the user by counting the calculated translational motion and the rotational exercise and count the corresponding exercise amount.

As an example, when the user moves while holding the user terminal 100 with his or her hand, the user may know whether the user moves forward or moves upward, and also know which direction the user rotates.

More specifically, the exercise amount calculating module 160-1 recognizes at least one of the face or iris captured by the camera sensor 120 in real time, and combines the recognition state of the face or iris with translational and rotational motion. It may be configured to identify the exercise item of the user and count the corresponding exercise amount.

Referring to FIG. 5, the user may be configured to shoot his or her face or iris with the camera sensor 120 with the user's arm stretched forward with the arm extended to the shoulder height, and the user may sit up and stand up in this posture. When the squat operation is performed, the squat operation may be determined by identifying the movement state of the user terminal 100 in the up and down direction, and the number of squat operations may be counted according to the movement in the up and down direction.

Here, the rotational motion of the X-axis, the Y-axis, and the Z-axis should not be detected, and the values for the translational motions of the X-axis and the Z-axis should not change. And every time the translational motion of the Y-axis is counted, the momentum is counted.

Specifically, in the case of a squat motion in which only the up and down motion is performed while the user terminal 100 is vertically held, only the acceleration value in the Y-axis direction changes, and the acceleration values for the other X and Z axes are almost changed. none. In other words, the acceleration increases in the direction of gravity when the user sits down, resulting in a larger sensor output based on the value of 9.8m / s², which is the acceleration of gravity, and 9.8m / It is less than s².

In addition, since the rotational motion does not occur in any axis in the user terminal 100, the gyro sensor of the inertial sensor 110 does not generate rotation values for the X, Y, and Z axes, thereby maintaining a value of “0”. Since the face or the iris must always be recognized through face or iris recognition, such as the camera sensor 120 during exercise, the user's face or iris is always detected during the exercise to determine the squat exercise and perform counting.

Referring to FIG. 6, as the user performs a sit-up operation while photographing his or her face or iris with the camera sensor 120 while the user is lying down, grasping a change in inertia of the user terminal 100 to determine whether to sit up. And count the number.

In the sit-up movement, the Y-axis and Z-axis rotational motions and the X-axis rotational motions are not detected, but the Y-axis rotational motion and Z-axis translational motion should be detected. The face photographing of the camera sensor 120 may be used to prevent the posture from being disturbed. In addition, the iris recognized by the iris sensor of the camera sensor 120 determines whether a registered user performs an actual exercise. Can be used.

That is, when the Y-axis direction is exercised while holding the user terminal 100 toward the center of the earth, the central axis is moved in the Z direction from the Y direction, which causes the greatest change in the Y-axis acceleration value, Next, the Z-axis acceleration value changes greatly. Since the X-axis direction does not change significantly, the value is close to “0” because it is not affected by gravity acceleration.

In the case of the gyro sensor in the inertial sensor 110, the pitch of rotation of the user terminal 100 rotates around the X axis, so that the gyro sensor has the largest pitch value of the X axis rotation. As the movement of the remaining roll and yaw rarely occurs, it is close to “0”. In addition, since the user's face is recognized using the camera sensor 120, the face must always be recognized during the exercise, so that the camera sensor 120 always detects an output signal to determine that the exercise is a sit-up.

On the other hand, the exercise amount calculation module 160-1 recognizes the face or iris photographed by the camera sensor 120 in real time, determines in real time whether the body detected by the proximity sensor 130 in real time, the recognition By combining the determined face or iris and the determined proximity of the body, the translational movement and the rotational movement can be configured to identify the exercise item of the user and count the amount of exercise.

For example, as shown in FIG. 7, the user places the user terminal 100 on the floor below the face in the push-up position and photographs the user's face or iris. After the user pushes up, the face approaches the user terminal 100, and when the user moves away from the original position again, the user pushes back to the correct position. Here, no translational or rotational motion should be done.

That is, the exercise is performed using the proximity sensor 130 while the user terminal 100 is horizontally placed on the floor near the face, that is, the user terminal 100 is horizontally stopped, that is, X and Y. The axis direction is not affected by gravity acceleration in the horizontal direction with the ground, and the Z axis is influenced by the gravity acceleration toward the center of the earth, so the output value is displayed only by the Z axis acceleration sensor.

In the case of the proximity sensor 130, the output value increases as the face approaches, and the output value decreases as the face moves away, thereby determining that the face has been recognized.

Here, when the user's face detection is required using the camera sensor 120 such as 'sit up' or 'push up', the exercise amount calculation module 160-1 is photographed by the camera sensor 120. By separating the user's face and background from the image and analyzing the change of the user's face and background, it is possible to determine the user's misconduct in counting the exercise amount of the exercise.

That is, the exercise amount calculation module 160-1 determines that the user has actual movement when the face and background of the user change together, and counts the exercise amount of the corresponding exercise item.

On the other hand, the exercise amount calculation module 160-1 is a translational motion calculated using the step detected by the step counter sensor 140 and the barometric pressure measured by the barometric pressure sensor 150 and the inertial sensor 110. And a combination of rotational movements to identify a user's exercise item and count the amount of exercise.

In this case, the translational motion and the rotational motion calculated by the inertial sensor 110 determine the progress direction of the user to determine whether the user is actually walking, running, or climbing the stairs.

The exercise amount calculating module 160-1 calculates the speed of the user's step detected by the step counter sensor 140, and calculates the speed of the calculated step and the stepped air pressure sensor detected by the step counter sensor 140. The barometric pressure measured by 150 may be combined to determine a user's exercise item and count the exercise amount.

The step counter sensor 140 may be used in a state where the user terminal 100 is held near the waist of the user.

First, the exercise amount calculation module 160-1 may determine the walking exercise of the user and count the exercise amount for the walking exercise.

In the case of 'walking motion', the user terminal 100 is shaken while the user terminal 100 is held, that is, the Y-axis direction is gripped in a moving direction in which a person walks, and the user terminal 100 is shaken. As a reference, the Y direction becomes a progress direction, and as the hand is shaken, the user terminal 100 is moved while drawing a large circle around the Z axis.

In this state, the accelerometer of the inertial sensor 110 has a value in the X direction close to 9.8 m / s², which is a gravitational acceleration. Since the value of is the largest and some motion is generated in the other direction, the output value of the sensor appears. As a result, when the acceleration X value and the value of Yaw motion are the largest, it is determined as the walking motion. Whenever the value increases and decreases, you can count the amount of exercise for the walking exercise.

In addition, the exercise amount calculation module 160-1 may determine the run exercise of the user and count the exercise amount for the run exercise.

In the case of the 'running exercise', the amount of exercise can be counted in the same way as the 'walking exercise' described above. The biggest difference between the running and the walking may be a difference between the movement trajectory and the speed of the user terminal 100 depending on whether the user is walking or running.

That is, the degree of sensor output signal may be determined according to the exercise, and counting may be performed by dividing into walking and running. In addition, in the case of the 'running motion', since the speed of moving the user terminal 100 moves faster than the walking motion motion, the output values of the acceleration sensor and the gyro sensor of the inertial sensor 110 are larger than the walking motion. You can distinguish between walking and running. For example, in the case of the running exercise, the acceleration sensor shows a fluctuation in the range of 30 to -40 m / s² relatively compared to the walking exercise, and in the case of the gyro sensor, a large change can be seen up to a level of 5 to -8 m / s². have.

Meanwhile, the momentum calculation module 160-1 may be configured to calculate an approximate pressure by applying an air pressure of the barometric pressure sensor 150 to Equation 1 below.

Where T ₀ is the standard temperature at sea level, L is the rate of temperature decrease, R is the universal gas constant, g is the gravitational acceleration, and M is the molar mass of air.

[Equation 1] allows the induction of the difference between the height between the floor and the step by the step motion. Since the air pressure changes over time, the air pressure may be configured to measure a change in air pressure occurring in a short time so as to measure the time while the user moves up and down the stairs.

In the case of the 'step exercise' is a movement to climb the stairs while holding the user terminal 100, basically the exercise amount is counted in a similar manner to the 'skip exercise'.

Specifically, the walking motion and the climbing motion of the stairs have almost similar shapes, so it is not easy to distinguish the two motions only by the acceleration and the output of the gyro sensor.

The biggest difference between walking and climbing stairs is walking, which generally refers to walking on flat land. In the case of stairs, the difference between these two movements is high. That is, when the final exercise is completed, the walking and stair climbing motions are distinguished depending on whether there is a difference in air pressure between the initial position and the final position.

For example, if the difference in air pressure after 0.2hPa is changed after the start of the exercise measurement, it is regarded as the step climbing, and the counting value can be performed and stored.

In addition, the exercise amount calculation module 160-1 may measure the amount of exercise by grasping not only the step movement but also walking and running, and detecting the step by the step counter sensor 140, but the change in the air pressure by the air pressure sensor 150. There is a distinction between stair motion and normal walking / running motion depending on whether or not there is. If there is no change in air pressure, it can be determined as a walking motion or a jumping motion.

Of course, walking or running, climbing stairs, and climbing stairs, as described above, basically, a comprehensive judgment should be made based on the detection of translational or rotational motion.

Since there is a difference in the degree of movement with time in the case of walking or running, it may be configured to distinguish between the walking operation and the running operation according to the change rate of the output per hour sensing value of the step counter sensor 140.

In particular, in the present embodiment, even when the user performs the step climbing operation, it is preferable to determine the user's misconduct and reflect it in the exercise amount coefficient.

To this end, the measuring means may further include a speaker sensor 170 provided in the user terminal 100 in addition to the above-mentioned camera sensor 120 and for inputting sound during the exercise of the user. The calculation module 160-1 recognizes a step shape from an image photographed by the camera sensor 120, recognizes a user's footstep sound from a sound input through the speaker sensor 170, and measures the step shape. By analyzing the change and the sound of the footsteps, the user's cheating behavior is to be judged in counting the amount of exercise of the sport.

Accordingly, the exercise amount calculation module 160-1 analyzes the image captured by the camera sensor 120 when the user performs the step climbing operation, and the actual user steps only when the footprint sound is recognized while the step shape is changed. It is determined that the climbing to count the amount of exercise to prevent cheating of the user during the exercise.

In addition, although not shown in the figure, as another example, the exercise amount calculating module 160-1 may determine a dumbbell operation and count the exercise amount. In the case of the 'dumbbell operation', the user terminal 100 is one side. It may be configured to attach to the wrist to determine. If only one of the values of the translational movement of the X-axis Y-axis and Z-axis about one axis is changed, it may be regarded as a dumbbell motion and configured to count the momentum.

As such, in the present embodiment, the user may determine various exercise items that can be performed in daily life through the user terminal 100 such as a smart phone owned by the user without having a separate wearable device and count the amount of exercise. Will be able to manage the amount of exercise.

On the other hand, the user terminal 100 searches for and analyzes the type of sensor included in the operating system environment and the measurement means, selects one or more exercise items based on the operating system environment and the type of sensor and guides and I can display it.

For example, the high-end smartphone has all the various sensors for measuring the movement, while the low-end smartphone is not equipped with some sensors in consideration of the fact that the user terminal 100 and the operating system environment and After grasping the type and number of sensors and presenting the exercise items that can be implemented and measured in the smart phone, the above-described exercise amount calculation module 160-1 may also be set to measure the exercise amount for only the exercise item that can be measured.

8 is a block diagram showing the configuration of the measuring means for the exercise device fitness center according to an embodiment of the present invention, Figure 9 is a view showing a method for measuring the total weight of the device exercise according to an embodiment of the present invention.

On the other hand, according to another embodiment of the present invention, the user terminal 100 is to present the recommended daily exercise amount for exercise in the fitness center as well as exercise of the user's daily life, and measures the exercise amount of the exercise of the corresponding device (10) can do.

In addition, the management server 200 collects exercise information on the exercise of the instrument 10 measured from the measuring means of the user terminal 100, thereby integrating exercise management including the exercise through the center as well as the daily life of the user. To provide.

That is, according to the present embodiment, the exercise item set in the user terminal 100 may be one selected by the user from among various kinds of exercise of the device 10 provided in the fitness center.

To this end, each of the apparatuses 10 provided in the fitness center should have a communication network connected to the measuring means of the user terminal 100, the fitness center for the apparatus held as a partner contracted with the service provider It is natural that information should be disclosed and information for each organization should be registered and stored in advance in the user terminal 100.

First, referring to FIG. 8, the apparatus 10 according to the present exemplary embodiment detects a first sensor 11-1 and the first sensor 11-1 mounted on each unit weight 11 to detect a detection signal. It may be configured to include a second sensor 12 for outputting the data transmission module 13 for collecting and transmitting the detection signal output from the second sensor 12.

In this case, the data transfer module 13 includes unique identification information, and the identification information is transmitted to the user terminal 100 together with the detection signal so that the user terminal 100 determines the movement of the apparatus 10. Do it.

In addition, the measuring means of the user terminal 100 receives the identification information and the detection signal transmitted from the data transfer module 13 and analyzes it to identify the movement of the instrument 10 and the weight of the movement of the instrument 10 ( It may be configured to include an exercise amount calculation module 160-2 for counting the total weight and the exercise amount of 11).

As shown in FIG. 9, the first sensor 11-1 is mounted on each unit weight 11, and is preferably manufactured in a magnet form so as to be easily attached or detached.

The second sensor 12 is mounted at a position facing the unit weight 11 and detects whether the first sensor 11-1 is in proximity. The second sensor 12 detects whether the first sensor 11-1 is moved and the number of movements, and outputs a detection signal accordingly.

Here, the second sensor 12 may be equipped with a communication module so as to perform short-range wireless communication including the data transfer module 13 and Bluetooth.

In addition, the second sensor 12 detects proximity to the first sensor 11-1, in order to prevent the detection error from occurring due to the proximity distance between the adjacent first sensors 11-1. It is arranged to be alternately distributed on both sides from the center of the unit weight (11).

As described above, the user terminal 100 may register and store information for each device of the center in advance, and at this time, the information for each device includes the weight information for each unit of the weight 11. In operation 160-2, the total weight of the exercise of the device 10 may be calculated and the amount of exercise may be counted through the detection signal transmitted from the device 10.

On the other hand, the present invention can be applied to a distance measuring device that is usually used for distance measurement as another embodiment of the method of measuring the motion of the mechanism.

The exercise device 10 operated in the general fitness center is stacked in the vertical direction side by side as shown in Figure 10 a plurality of unit weights 14, which is provided with a fastening hole 14-1, and a selected unit It may include a selection pin (14-2) is inserted into the fastening hole (14-1) of the weight 14, the user fastens the selection pin 14-2 to the selected unit weight (14) As a result, the weight of the mechanical motion can be selected.

In the present embodiment, in addition to the structure of the normal exercise device 10, the distance is installed on the upper portion of the plurality of unit weights 140, the distance to detect the distance to the selection pin 14-2 and output a detection signal The measurement unit 15 may further include a data transfer module 16 having unique identification information and collecting and transmitting the detection signal output from the distance measurement unit 15.

The distance measurer 15 may be any one of a distance measurer according to an air technology such as a laser range finder and an ultrasonic distance measurer.

For example, the distance measuring unit 15 may be a laser range finder. In this case, the distance measuring unit 15 may be selected by irradiating a selection pin 14-2 positioned at the bottom as shown in FIG. 10. The distance to the pin 14-2 may be measured and transferred to the data transfer module 16.

On the other hand, the measuring means according to the present embodiment, the exercise amount calculation module for receiving the identification information and the detection signal transmitted from the data transfer module 16 to analyze the machine movement to identify the instrument movement and count the total weight and the amount of exercise of the instrument movement 160-2.

That is, in the general apparatus, considering that the distance a between each unit weight 14 is 3 cm, the momentum calculation module 160-2 determines which unit the selection pin 14-2 is based on the measured distance. It is possible to determine whether it is fastened to the weight 14, and determine the total weight of the device 10 based on the distance measured at the start of the exercise, and then increase or decrease the measured distance according to the exercise behavior Changes allow you to count momentum.

In particular, according to the present embodiment, the momentum calculation module 160-2 estimates the flow range and counting speed of the unit weight 14 when the user implements the device 10 through the change in the measured distance. Based on this data, it is possible to suggest a guideline on whether the user is performing the exercise correctly.

The user terminal 100 guides an exercise method, etc. to each of the apparatuses 10 provided in the fitness center using an app, and as shown in FIG. 10) can choose the instrument movement.

In addition, the user terminal 100 may display the exercise amount and the total weight measured for the exercise of the selected one device 10 as shown in FIG. 11B, and measured for the exercise of the plurality of devices 10 performed daily. Both exercise and total weight can be displayed and guided.

In this way, the exercise information related to the exercise equipment measured by the user terminal 100 may be automatically transmitted to the management server 200 and stored in the management server 200 for each user.

Meanwhile, in the present embodiment, although not shown in the drawings, an information display monitor device may be provided in the fitness center. The information display monitor device may record exercise information about a device exercise performed by a user and store it for each user. In addition, the user may log in to the information display monitor device through a user terminal or a mobile phone number and request exercise information, and the information display monitor device may provide the response information and display the response information.

As described above, the coach terminal 300 may receive exercise information regarding at least one user selected in connection with the management server 200, and the user exercises a specific exercise item based on the received exercise information of the user. In addition to the amount of exercise and posture check and prescription information can be provided in various forms.

For example, as illustrated in FIGS. 12A and 12B, the coach terminal 300 may display an exercise achievement state by schedule and exercise item for a selected user.

In addition, the coach terminal 300 may provide coaching, check and prescription information regarding the exercise information and the achievement state of the user, and as shown in FIG. 12C, the coach, check and prescription information may be pushed. It can be transmitted to the selected user terminal 100, by requesting a chat to the selected user terminal 100 to share the exercise information through a direct dialogue between the user and the coach or to guide coaching, check and prescription information, etc. have.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims

Measuring means for measuring the amount of exercise for the exercise event that the user includes a plurality of sensors are provided, and the user information and daily life information about the user is input, based on this to determine the user's grade according to the grade At least one user terminal for setting and guiding the above-mentioned exercise item and the recommended daily exercise amount for each exercise item, and comparing and analyzing the exercise amount for each exercise item and the preset recommended exercise amount for each exercise item measured by the measuring means to display the exercise achievement state of the user; And

And a management server connected to the user terminal through a communication network and receiving input information, setting information, and measurement information of the user terminal, and an exercise achievement state of the user processed by the user terminal and storing the user's exercise achievement state for each user. Integrated workout management and recommended platform system using mobile devices.
The method of claim 1,

The exercise item set in the user terminal is any one of the exercise item that the user can perform in daily life,

The measuring means,

An inertial sensor provided in the user terminal and configured to measure acceleration and rotational angular velocity according to movement of the user terminal;

A camera sensor provided in the user terminal and configured to photograph one or more of the user's face or iris;

A proximity sensor provided at the user terminal and configured to detect whether the user is in proximity to the body; And

The inertial sensor refers to translational movements in the lateral direction (X axis direction), upward direction (Y axis direction) and omnidirectional direction (Z axis direction) of the user terminal, and the X, Y, and Z axes, respectively. Calculate a rotational motion, and recognize the face photographed by the camera sensor in real time, determine whether the body is detected by the proximity sensor in real time, determine whether the face or the iris is in proximity with the body, Integrated exercise management using a mobile device, comprising ;; an exercise amount calculation module for identifying the exercise item of one of the exercise item by combining the calculated translational and rotational exercise and counts the exercise amount of the exercise item; And recommended platform systems.
The method of claim 2,

The momentum calculation module,

A mobile device characterized by separating the user's face and background from the image taken by the camera sensor and analyzing the change of the user's face and background to determine the user's misconduct in counting the amount of exercise of the exercise item Integrated exercise management and recommended platform system.
The method of claim 1,

The exercise item set in the user terminal is any one of the exercise item that the user can perform in daily life,

The measuring means,

An inertial sensor provided in the user terminal and configured to measure acceleration and rotational angular velocity according to movement of the user terminal;

A step counter sensor provided in the user terminal for sensing a step of the user;

An air pressure sensor provided in the user terminal for measuring an air pressure in real time; And

The inertial sensor refers to translational movements in the lateral direction (X axis direction), upward direction (Y axis direction) and omnidirectional direction (Z axis direction) of the user terminal, and the X, Y, and Z axes, respectively. Calculate a rotational motion, and determine one of the sports events by combining the steps detected by the step counter sensor, the air pressure measured by the barometric pressure sensor, and the calculated translational and rotational motions. Integrated exercise management and recommended platform system using a mobile device, comprising; an exercise amount calculation module for counting an exercise amount of an exercise item.
The method of claim 4, wherein

The momentum calculation module,

The speed of the user's step detected by the step counter sensor is calculated, and the speed of the calculated step is combined with the step detected by the step counter sensor and the air pressure measured by the barometric pressure sensor. Integrated exercise management and recommended platform system using a mobile device, characterized by identifying the exercise and counting the amount of exercise of the exercise.
The method of claim 4, wherein

The measuring means,

A camera sensor provided in the user terminal and configured to photograph an image of the front of the user; And

And a speaker sensor provided in the user terminal and configured to input a sound during the exercise of the user.

The momentum calculation module,

Recognize the step shape from the image taken by the camera sensor, recognize the user's footstep sound from the sound input through the speaker sensor, and analyze the change of the step shape and the footstep sound to count the amount of exercise of the corresponding sport event Integrated exercise management and recommended platform system using a mobile device, characterized in that for judging the cheating of the user.
The method of claim 1,

The exercise item set in the user terminal may be one selected from a variety of equipment exercise items provided in the fitness center,

The apparatus,

A first sensor mounted on each unit weight, a second sensor mounted at a position opposite to the weight and detecting whether or not the first sensor is moved, and outputting a detection signal, and unique identification information; And a data transfer module for collecting and transmitting a detection signal output from the

The measuring means,

Receiving and analyzing the identification information and the detection signal transmitted from the data transfer module, the exercise amount calculation module for identifying the device movement and counting the weight weight and the amount of exercise of the corresponding device movement; using a mobile device comprising a Integrated workout management and recommended platform system.
The method of claim 1,

The exercise item set in the user terminal may be one selected from a variety of equipment exercise items provided in the fitness center,

The apparatus,

A plurality of weights stacked side by side in the vertical direction and provided with a fastening hole, a selection pin inserted into the fastening hole of the selected one weight, spaced apart from the top of the plurality of weights and the distance between the selection pin It includes a distance measuring unit for sensing and outputting a detection signal and a unique data and a data transfer module for collecting and transmitting the detection signal output from the distance measuring unit,

The measuring means,

Receiving and analyzing the identification information and the detection signal transmitted from the data transfer module, the exercise amount calculation module for identifying the device movement and counting the total weight and the amount of exercise of the device; integration using a mobile device comprising a Exercise management and recommended platform system.
The method of claim 1,

The user terminal,

Integrated exercise management and recommendation platform system using a mobile device, characterized in that to provide a sound effect at each counting point in measuring the amount of exercise in the measuring means.
The method of claim 1,

The user terminal,

Integrated exercise management and recommended platform system using a mobile device, characterized in that to provide a sound effect at a predetermined time interval in measuring the amount of exercise in the measuring means.
The method of claim 1,

The user terminal,

Set an alarm to select the time zone during which the user can exercise for one or more exercise events and the recommended daily exercise volume, and ring at a preset time interval if the exercise event and the recommended daily exercise volume are not achieved during the selected time zone. Or output a vibration signal, integrated exercise management and recommended platform system using a mobile device, characterized in that to guide the unachieved exercise amount.
The method of claim 1,

A compensation server connected to the management server and receiving a user's exercise achievement state from the management server, calculating a reward point or a reward coupon according to the exercise achievement rate during the first set time, and transmitting the reward point or reward coupon to the user terminal; Integrated exercise management and recommended platform system using a mobile device, characterized in that.
The method of claim 1,

Integration with the management server further comprises one or more acquaintance terminal for receiving and monitoring the user's exercise amount and exercise achievement state for each exercise item for the selected user terminal from the management server; Integration using a mobile device further comprises Exercise management and recommended platform system.
The method of claim 1,

The user terminal,

Integrated motion management using a mobile device, characterized in that the search and analysis of the type of operating system environment and the sensor included in the measurement means, and select and guide one or more exercise items according to the operating system environment and sensor type; Recommended platform system.