KR20170017574A - A method of providing a personalized data by the object motion information calculated by the pre-test - Google Patents

Abstract

The present invention relates to a method for providing customized exercise information through individual data calculated by a pre-test, and more particularly, to a method for providing customized exercise information through individual data calculated by a pre-test, including exercise amount, activity amount, food intake amount, calorie consumption, sex, weight, height, A preliminary information collection step of collecting one or more pieces of entity information; A storing step of storing a calculated reference value of the information collected in the pre-information collecting step in a server; And an informing step of informing the information to which the reference value stored in the storing step is applied. According to an aspect of the present invention, there is provided a method for measuring a basic metabolic rate, a momentum, and a food intake amount for a predetermined period using a wearable computer , And recommended exercise, recommendation food, nutrients, etc., and suggest the necessary exercise amount and food intake amount according to the individual basal metabolism, Is effective in providing information for efficient exercise and health management.
In addition, individual health-related services can prevent diseases such as obesity and adult diseases as well as healthy eating habits and regular exercise management.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and system for providing customized exercise information through object-

The present invention relates to a method and system for providing customized exercise information through individual data calculated by a pre-test. More specifically, the present invention relates to a method and system for providing customized exercise information by using a wearable computer, The amount of exercise required, the amount of exercise required, and the amount of exercise required according to the individual basal metabolism. And more particularly to a method and system for providing customized exercise information through individual data generated by a pre-test that provides information to enable a user to perform effective exercise and health care.

Generally, various types of electronic devices are being developed and distributed in the modern society due to the development of electronic technology. In particular, various types of display devices such as a television, a mobile phone, a tablet PC, and a laptop PC are widely used. Accordingly, the number of users who want to receive various services using the display device has increased.

In particular, modern people who are interested in health are increasingly interested in electronic devices related to diet, exercise, etc., leading to the launch of health promotion programs and health related products.

For example, there are wearable computers that attach to a part of a user's body to check the movement amount of the user and provide the user's walking distance and the amount of heat consumed on that day.

However, most wearable computers can not transmit health information according to individual exercise effects and calorie consumption due to statistical data values rather than individualized data values, as well as accurate management and analysis according to information transmission There is a problem that it can not be provided.

In addition, because of the information due to erroneous data values, the user's exercise effect is lowered and the reliability of the users is lowered, so that the wearable computer can not be used consistently, and the wearer can not use the wearable computer indirectly Users have problems that the disease does not heal quickly.

Therefore, it is difficult for the users to use the device which is not necessarily used for increasing the health of the user such as the exercise assisting device, the diet related device, the health care device and the like because of low reliability of the wearable computer. , It is recognized as a portable device, which also affects the development of a wearable computer.

Related prior art is disclosed in Korean Patent Laid-Open Publication No. 10-2003-0090358 (entitled " Method, apparatus and system for providing calorie consumption, published on Aug. 28, 2003) 0099539 (entitled " Behavior Tracking and Correction System, public date: Aug. 12, 2014).

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method and system for pre-testing individual objects for measuring basic metabolism, test). Using this information, we provide information on recommended exercise for each individual, recommended food, nutrient requirements, etc., and suggest the necessary exercise amount and food intake according to individual basal metabolism. And to provide a method and a system for providing customized exercise information through individual data calculated by a pre-test that provides information so that exercise can be performed.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

In order to achieve the above object, the present invention has the following technical features.

The method for providing the customized exercise information through the individual data calculated by the pre-test according to the present invention may include one of exercise amount, activity amount, food intake amount, consumed calorie, sex, weight, height, age, breed, A preliminary information collection step of collecting the above object information; A storing step of storing a calculated reference value of the information collected in the pre-information collecting step in a server; And an informing step of informing information to which the stored reference value is applied in the storing step.

A method for providing customized exercise information through individual data calculated by a pre-test according to the present invention, the method comprising: a determination step of determining a target value of the individual through a reference value stored in the storing step; A measurement step of measuring an achievement value according to a target value of the determination step; And a calculating step of comparing data measured in the measuring step with the target value to calculate data.

In the method of providing customized exercise information through individual data calculated by the pre-test according to the present invention, the pre-information collection step may include inputting information through an app (APP) or a web (WEB) Interworking.

In the method for providing customized exercise information through individual data calculated by a pre-test according to the present invention, the pre-information collection step measures data of the individual through a measuring device.

A method for providing customized exercise information through individual data calculated by a pre-test according to the present invention, the measurement device including an acceleration sensor.

A method for providing customized exercise information through individual data calculated according to a pre-test according to the present invention, the measuring device having a wireless communication channel function, the apparatus comprising: an APP installed in the portable terminal through the wireless communication channel; Or transmits data to the web (WEB).

In the method of providing customized exercise information through individual data calculated by the pre-test according to the present invention, the determining step may set the degree of difficulty of the target value according to the purpose.

In the method of providing customized exercise information through individual data calculated by a pre-test according to the present invention, the measurement step may be set to a time and a duration to be measured.

In the method for providing customized exercise information through individual data calculated by the pre-test according to the present invention, the calculating step represents the target value achievement rate through the informing step and is expressed in color according to the achievement rate.

In the method of providing customized exercise information through individual data calculated by a pre-test according to the present invention, the informing step informs data by at least one of a pop-up window, a notification sound, and a vibration.

A system for providing customized exercise information through individual data calculated by a pre-test according to the present invention includes: a measurement unit for collecting advance information and measuring movement; A management unit for calculating and storing information of the measurement unit; And a display unit for displaying information of the management unit.

In a system for providing customized exercise information through individual data calculated by a pre-test according to the present invention, the measurement unit includes an acceleration sensor.

In a system for providing customized exercise information through individual data calculated by a pre-test according to the present invention, the measurement unit has a wireless communication channel function and transmits data to the management unit through the wireless communication channel.

In the system for providing customized exercise information through individual data calculated by the pre-test according to the present invention, the management unit calculates a reference value for each individual using information of the measuring unit, and sets a target value according to the reference value .

In the system for providing the customized exercise information through the individual data calculated by the pre-test according to the present invention, the dictionary information can be inputted and modified through the display unit.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a method and apparatus for measuring a basic metabolism amount, a momentum amount, and a food intake amount for a certain period of time using a wearable computer Data are obtained through individual pre-test. Using this information, we provide information on recommendation exercise, recommendation food, nutrients, etc., and propose the necessary amount of exercise and food intake according to individual basal metabolism. Information can be provided for efficient exercise and health care.

In addition, individual health-related services can prevent diseases such as obesity and adult diseases as well as healthy eating habits and regular exercise management.

Other advantages of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings. BRIEF DESCRIPTION OF THE DRAWINGS

1 is a flow chart of one embodiment of a method for providing customized exercise information through individualized data generated by a pre-test according to the present invention;
2 is a diagram showing a decision step for determining a target value according to Fig. 1,
FIG. 3 is a diagram showing a notification step showing a target value achievement rate according to FIG. 1 as a graph with a percentage (%); FIG.
FIG. 4 is a diagram illustrating a notification step of displaying a target value achievement rate according to FIG. 1 as a color;
Fig. 5 is a perspective view showing the measuring instrument according to Fig. 1,
6 is a block diagram of an embodiment of a system for providing customized exercise information through individualized data generated by a pre-test according to the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It should also be understood that the position or arrangement of individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the present invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

FIG. 1 is a flowchart of an embodiment of a method for providing customized exercise information through individual data calculated by a pre-test according to the present invention, FIG. 2 is a diagram illustrating a determination step for determining a target value according to FIG. 1 , FIG. 3 is a diagram showing a notification step showing a target value achievement rate in percentage with a graph in FIG. 1, FIG. 4 is a diagram showing a notification step showing a target value achievement rate according to FIG. 1 in color, Is a perspective view showing the measuring instrument according to Fig.

The method S100 of providing customized exercise information through individual data calculated by the pre-test according to the present invention includes a pre-information collection step S110, a storage step S120, A determining step S130, a measuring step S140, a calculating step S150, and an informing step S160.

The preliminary information collection step S110 is a step of inputting food intake amount, sex, weight, height, age, breed, neutering, and obesity through an APP or a web installed on a portable terminal And the data such as the amount of exercise, the amount of calories consumed, and the like measured by the measuring device are measured.

The dictionary information collection step (S110) inputs information through an app (APP) or a web (WEB) installed in the portable terminal.

You can enter information in your apps and on the web so you can view and edit or enter information wherever you are.

In the preliminary information collection step (S110), when a person is a person, the user inputs information such as sex, weight, height, age, and degree of obesity, and receives food intake amount per predetermined period to receive daily calorie consumption and nutrient requirements.

The information collection period of the dictionary information collection step (S110) is set to 7 days or 14 days.

It is difficult to measure irregular life pattern and momentum if the information collection period of the preliminary information collection step (S110) is too short because the life pattern of all people is not always regular.

In addition, when measuring over a long period of time, a data error may occur due to a special schedule, and inconvenience is required to spend a lot of time collecting information.

The 7-day or 14-day period includes both weekends and weekdays, so you can collect information on weekdays with a lot of activity or weekends with less activity.

The pre-information collection step (S110) can not collect accurate information unless a specific schedule such as travel, hospital admission, etc. is performed.

The pre-information collection step (S110) measures data through a measuring instrument.

Measuring devices are easy to detach and attach to the body of a person or an animal, and are not inconvenient when acting as a small and easy one.

For example, the measuring device may be used in the form of a clock, a necklace, a ring, a pet necklace or the like, which can be used as an accessory for both exercise and daily life.

The measuring instrument used in the preliminary information collection step S110 is coupled with the acceleration sensor.

The acceleration sensor processes the output signal to measure dynamic forces such as acceleration, vibration, and shock of the object.

Acceleration sensors are essential sensors for various transportation systems such as automobiles, trains, ships, airplanes, control systems for factory automation and robots, and can detect the motion state of objects in detail. .

There are various types of acceleration sensors. There are inertia type, gyro type, and silicon semiconductor type, and the magnitude and tilt system can be regarded as one type of acceleration sensor.

The inertial acceleration sensor is a type that measures the inertia acceleration based on the stop system, and uses the reaction force due to the acceleration acting on the mass, that is, the inertial force.

Types of gyro sensors include vibration, mechanical, fluid, optical and ring lasers.

The vibrating gyro sensor vibrates the mass in the case by magnetic force to detect the occurrence of vibration in the other direction of the Coriolis effect occurring when the case rotates, and converts it into angular velocity information.

The vibrating gyro sensor is sensitive to external shocks and vibrations, but it is compact and has a long life span.

The mechanical gyro sensor is a type in which the top is rotating. When the frame is tilted with the hand, the force is applied in the orthogonal direction to detect the angular displacement. Since the mechanical gyro sensor is a precision machine, maintenance is important.

The fluid type gyro sensor is a method of spraying gas into the hot wire inside the case, detecting the bending of the spray while the case is rotating, as the hot wire temperature. Fluid-type gyro sensors require very specific changes in the amount of spray applied to the hot wire, and are not commonly used because of the stability of the spray pump.

The optical gyro sensor is a gyro sensor that uses the fact that the timing of light reception changes from the light emission of the laser while the case rotates inside when the direction changes.

Optical gyro sensors require a maintenance due to the longevity of the laser and optical fiber.

Ring laser gyro sensor is a type of optical gyro sensor.

The silicon semiconductor acceleration sensor consists of a silicon micromechanical structure that receives acceleration, a force, a conversion element that converts the force into an electrical signal, and a signal processor that produces a rated output.

The measuring device has a wireless communication channel function and transmits data to the APP or the WEB via the wireless communication channel to the server.

A wireless communication channel refers to a communication technology that transmits information to a remote location without using a line by using radio waves.

In general, the information transmitted by the wireless communication channel is data such as video, voice, and text, and is transmitted as a signal for transmission.

Types of wireless communication channels include Bluetooth, Wi-Fi, and infrared communication.

The preliminary information collection step (S110) uses the following equation to calculate a reference value for an animal of an individual.

The equation for calculating the metabolic energy is calculated by Equation (1).

Equation 1

NRC74 (kcal / kg) = [protein x4 + fat x9 + (100-protein-fat-whey protein-crude fiber-calcium-phosphorus) x4] x10

NRC85 (kcal / kg) = [protein x8.5 + fat x8.5 + (100-protein-fat-whey protein-crude fiber-calcium-phosphorus) x3.5] x10

ME (kcal / kg) = (NRC74 + NRC85) / 2

Here, the reference value is calculated by Equation (2).

Equation 2

RER = 70 (Kcal) x body weight (kg) ^ 0.75

Neutralization (Y)

Normal weight: DER = 1.8xRER

Overweight: DER = 1.4xRER

Obesity: DER = 1xRER

Neutralization (N)

Normal weight: DER = 2xRER

Overweight: DER = 1.6xRER

Obesity: DER = 1.2xRER

(M / s ^ 2) / DER (Kcal) of daily change of daily acceleration value

Reference value = Sum of changes of weekly acceleration (m / s ^ 2) / DER (Kcal) * 7

In addition, the daily feed amount (animal feed amount) is calculated by Equation (3).

Equation 3

Daily amount of feed (g) = Calorie amount of feed (Kcal) / DERx1000

In Equation (1), ME stands for metabolizable energy and represents metabolic energy. In Equation (2), RER stands for Resting energy Requirement, and DER stands for Daily Energy Requirement. .

The preliminary information collection step (S110) uses the following equation to calculate a reference value for a person among individuals.

The equation for calculating the basal metabolic rate (B) is calculated by equation (4).

Equation 4

Adult male = 1kcal x body weight x 24 hours - (0.1x body weight x sleep time)

Adult female = 0.9kcal x body weight x 24 - (0.1 x body weight x sleep time)

Or, if you can apply the key and age, apply the Harris-Benedikt formula.

Adult male = 66.47 + (13.75 x body weight) + (5 x height) - (6.76 x age)

Adult female = 665.1 + (9.56 x body weight) + (1.85 x height) - (4.68 x age)

The equation for calculating the daily energy requirement (A) is calculated by equation (5).

Equation 5

A: Energy requirement per day

B: Basal metabolic rate per day

Bx: Energy consumption for daily activities

X: Life activity index

Light work - 0.35 (eg general office worker)

Normal labor - 0.5 (eg doctor, teacher, housewife)

Severe Labor - 0.75 (eg farmer, fisherman, nurse)

Severe labor - 1.00 (eg athletes, gaggles)

The storing step (S120) stores the calculated reference value in the server in the pre-information collecting step (S110).

The baseline values include basal metabolic rate and average activity.

The user can collect the information of the user from the server by using the same, and form big data. In addition, the health information required for individual health information And health care.

The determination step S130 determines the target value of the object through the stored reference value in the storage step S120.

Provide individual target values through reference values and make health management possible.

Target values include food intake, exercise, and activity. Diet, weight management, and muscle mass gain can be set, and target values such as food intake, exercise, and activity are determined.

The measuring step S140 measures the achievement value according to the target value of the determining step S130.

The measuring step S140 can set the time and the duration of the measurement.

For example, it is difficult to control exercise, food, etc., such as holidays or trips, and the measurement can be paused because it is difficult to achieve the target value during the period when the activity is different from usual.

Also, when health is managed with the target period, the period is set and the achievement value during that period is measured.

You can also check the achievement value by setting a certain period.

The calculating step S150 compares the measured value with the target value in the measuring step S140 and calculates data.

The data calculated by comparing the measured value with the target value in the measuring step S140 is calculated not only by numerals but also by a percentage (%), a graph indicating the degree of achievement of the target value.

The informing step S160 informs the information applying the reference value stored in the storing step S120.

The measured daily calorie consumption, exercise amount, activity amount, etc. are indicated by numerical value as well as percent (%) and graph, so that it is easy to compare with the previously calculated values and it is easy to know the achievement of the target value.

The notification step S160 represents the target value achievement rate value (%), and is represented by the color according to the achievement rate value (%).

For example, the color expression according to achievement rate is green when it achieves more than 100% of the target value, and becomes red when the achievement value is far from the target value and becomes red when 0% of the target value is achieved.

The next exercise proposed in the notification step S160 is recommended exercise type and method, recommended food type, food intake amount, daily activity amount, and the like.

For example, if you achieve only 50% of your target today, and you consume food with high-calorie meats, the next morning a jogging and a lot of vitamins and alerts suggesting a meal of salads will be run to alert you to exercise and food intake Helps to balance.

In the case of animals, if there is less activity due to lack of walking today, the next day walking time will be increased over the average time, and massage information for the animals or a notification window suggesting low-calorie snacks will be executed.

In the notification step (S160), a notification is issued to deliver information to the user each time the application or the web is executed.

However, in some cases, it is possible to set the silent mode so as not to execute the notification for a certain period of time.

In the informing step (S160), as the achievement value according to the target value is smaller, the notification pop-up window is frequently turned on in order to recognize the warning and achievement of the target value.

As the achievement value according to the target value is smaller, the size of the notification sound is increased, the period is frequent, and the magnitude and intensity of the vibration are also increased in order to recognize the warning and the achievement of the target value.

You can select various sounds and voices, and you can select the notification period.

Hereinafter, a system for providing customized exercise information through individual data calculated by the pre-test according to the present invention will be described below.

6 is a block diagram of a system for providing customized exercise information through individual data generated by a pre-test according to the present invention.

6, a system 100 for providing customized exercise information through individual data calculated by a pre-test according to the present invention includes a measurement unit 110, a management unit 120, a display unit 130, .

The measurement unit 110 collects the advance information and measures the movement of the object.

The measurement unit 110 is easy to detach and attach to the human body or the body of the animal, and does not inconvenience when it is small and simple.

For example, the measuring device may be used in the form of a clock, a necklace, a ring, a pet necklace or the like, which can be used as an accessory for both exercise and daily life.

The measurement unit 110 inputs data such as food intake amount, sex, weight, height, age, breed, neutering, and obesity, and measures data such as exercise amount and calorie consumption calories.

The information collection period through the measurement unit 110 is set to 7 days or 14 days.

Because everyone's life pattern is not always regular, it is difficult to measure irregular life pattern and momentum if pre-information collection period is too short.

In addition, when measuring over a long period of time, a data error may occur due to a special schedule, and inconvenience is required to spend a lot of time collecting information.

The 7-day or 14-day period includes both weekends and weekdays, so you can collect information on weekdays with a lot of activity or weekends with less activity.

The measuring unit 110 includes an acceleration sensor.

There are various types of acceleration sensors. There are inertia type, gyro type, and silicon semiconductor type, and the magnitude and tilt system can be regarded as one type of acceleration sensor.

The measurement unit 110 has a wireless communication channel function and transmits data to the management unit 120 through a wireless communication channel.

The types of wireless communication channels include Bluetooth, Wi-Fi, infrared communication, and the like, and transmit information of the measurement unit 110 to the management unit 120 through a wireless communication channel.

The management unit 120 is connected to the measurement unit 110 to calculate and store information of the measurement unit 110, and manages the stored information.

The management unit 120 calculates a reference value for each object using the information of the measuring unit 110 and sets a target value according to the reference value.

The formula is used to calculate the reference value for an animal or person among individuals.

The metabolic energy, the reference value, the amount of animal feed, and the daily energy requirement can be calculated through the equation.

The management unit 120 stores the reference value and compares and analyzes the health state and the calorie consumption according to the period. In addition, the management unit 120 collects information of users from the server using the same to form Big Data, Can provide individual health information and health care.

In addition, the target value is determined through the reference value, and the health management is performed through the individual target value.

Target values include food intake, exercise, and activity. Diet, weight management, and muscle mass gain can be set, and target values such as food intake, exercise, and activity are determined.

The display unit 130 displays information of the management unit 120.

It is possible to input and modify dictionary information through the display unit 130. [

In addition, the value calculated in the calculation step S150 with the notification function is displayed, and a proposal for the next execution is presented.

Measured daily calorie consumption, amount of exercise, activity, etc., not only numeric, but also percent (%), such as graphs. Percentage (%), graph, etc., it is easy to compare with the previously calculated values and the achievement of the target value is easy to see.

The display unit 130 indicates a target value achievement rate value (%) and a color according to the achievement rate value (%).

For example, the color expression according to achievement rate is green when it achieves more than 100% of the target value, and becomes red when the achievement value is far from the target value and becomes red when 0% of the target value is achieved.

The next exercise proposed by the display unit 130 is recommended exercise type and method, recommended food type, food intake amount, daily activity amount, and the like.

For example, if you achieve only 50% of your target today, and you consume food with high-calorie meats, the next morning a jogging and a lot of vitamins and alerts suggesting a meal of salads will be run to alert you to exercise and food intake Helps to balance.

In the case of animals, if there is less activity due to lack of walking today, the next day walking time will be increased over the average time, and massage information for the animals or a notification window suggesting low-calorie snacks will be executed.

The display unit 130 is turned on to notify the user of the information each time it is executed.

However, in some cases, it is possible to set the silent mode so as not to execute the notification for a certain period of time.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And such variations and modifications are intended to fall within the scope of the appended claims.

S100: a method of providing customized exercise information through object-specific data calculated by a pre-test
S110: preliminary information collection step
S120:
S130:
S140: Measurement step
S150: calculation step
S160: Notification step
100: a system for providing customized exercise information through object-specific data calculated by a pre-test
110:
120:
130:

Claims (15)

A preliminary information collection step of collecting individual information of at least one of exercise amount, activity amount, food intake amount, consumed calorie, sex, weight, height, age, breed, neutering, and obesity;
A storing step of storing a calculated reference value of the information collected in the pre-information collecting step in a server; And
And a notifying step of informing information to which the reference value stored in the storing step is applied. The method of claim 1, wherein the step of providing customized exercise information comprises: The method according to claim 1,
A determining step of determining a target value of the object through the reference value stored in the storing step;
A measurement step of measuring an achievement value according to a target value of the determination step; And
Further comprising: a calculating step of comparing data measured in the measuring step with the target value to calculate data; and providing the customized exercise information through individual data calculated by the pre-test. The method according to claim 1,
The pre-information collection step may include inputting information through an application (APP) or a web (WEB) installed in the portable terminal, and linking the information, and providing customized exercise information through object- . The method according to claim 1,
Wherein the pre-information collecting step measures data of the object through a measuring device. 5. The method of claim 4,
Wherein the measuring device comprises an acceleration sensor. The method of claim 1, wherein the measuring device comprises an acceleration sensor. 5. The method of claim 4,
Wherein the measuring device has a wireless communication channel function and transmits data to an application (APP) or a web (WEB) installed in the portable terminal through the wireless communication channel. A method for providing customized exercise information. 3. The method of claim 2,
Wherein the determination step is capable of setting a degree of difficulty of a target value according to an object, wherein the degree of difficulty of the target value can be set according to an object. 3. The method of claim 2,
Wherein the measuring step is capable of setting a time and a duration of measurement, and providing the customized exercise information through the individual data calculated by the pre-test. 3. The method of claim 2,
Wherein the calculating step indicates a target value attainment rate through the informing step and is represented by a color according to the attainment rate, wherein the customized exercise information is provided through the individual-item data calculated by the pre-test. The method according to claim 1,
Wherein the notifying step informs the data by at least one of a pop-up window, a notification sound, and a vibration, wherein the personalized exercise information is provided through individual data calculated by a pre-test. A measurement unit for collecting advance information and measuring movement of the object;
A management unit connected to the measurement unit to calculate and store information of the measurement unit and manage the stored information; And
And a display unit for displaying information of the management unit. The system of claim 1, wherein the personalized exercise information is provided through individual data calculated by a pre-test. 12. The method of claim 11,
Wherein the measuring unit includes an acceleration sensor, and provides customized exercise information through individual data calculated by a pre-test. 12. The method of claim 11,
Wherein the measurement unit has a wireless communication channel function and transmits data to the management unit through the wireless communication channel, wherein the system provides customized exercise information through individual data calculated by a pre-test. 12. The method of claim 11,
Wherein the management unit calculates a reference value for each object using the information of the measurement unit and sets a target value according to the reference value, wherein the system provides the customized exercise information through the individual data calculated by the dictionary test. 12. The method of claim 11,
Wherein the pre-information is input and modified through the display unit, and the personalized exercise information is provided through individual data calculated by the pre-test.

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