KR101694606B1 - Wearable device and system for monitoring user - Google Patents

Abstract

A wearable device for user monitoring includes: an environmental sensor for sensing an atmospheric component of a user location; A biosensor for sensing the user's exhalation component; A momentum sensor for sensing movement of the user; And a user information providing module for generating user environment information, user state information, and user's momentum information from the information sensed by the environment sensor, the biosensor, and the momentum sensor, and providing the user environment information and the user's momentum information to the user.

Description

[0001] WEARABLE DEVICE AND SYSTEM FOR MONITORING USER [0002]

The present invention relates to a wearable device and a user monitoring system for user monitoring. More specifically, the present invention relates to a wearable device and a user monitoring system for providing information related to an environment of a user's position, Devices and systems.

An existing wearable device is worn on the user's body and provides the user with exercise amount information according to the user's movement based on state information such as the user's pulse or blood pressure. Here, environmental pollution such as fine dust or noxious gas at a position where a user's motion occurs may adversely affect the user's health.

However, the conventional wearable device has a disadvantage in that it does not consider environmental pollution such as fine dust or noxious gas at the user position, and provides the user's momentum information based solely on the status information of the user.

In addition, when the user's motion occurs, the exercise effect according to the user's motion should be analyzed in consideration of the fat burning amount of the user. For example, since the user's fat is burned to effect the diet and the fat burning time is different for each user, the fat burning amount of the user should be considered in the process of providing the user's exercise amount according to the user's movement .

However, in the existing wearable device, the user's state information is displayed as pulses or blood pressure, and there is a problem that the fat burning amount of the user is not taken into consideration at all.

Accordingly, the present invention proposes a wearable device and system that provides the user with information on the amount of exercise and quality of motion based on the user state information including the user's fat burning amount and the environmental information of the user's location .

Embodiments of the present invention propose a wearable device and system for user monitoring that provides user state information, user environment information, and user momentum information.

In particular, embodiments of the present invention propose a wearable device and system for user monitoring that considers the fat burning amount of a user based on the user's breath component in the process of generating the user state information.

A wearable device for user monitoring according to an embodiment of the present invention includes an environmental sensor for sensing an atmospheric component at a user location; A biosensor for sensing the user's exhalation component; A momentum sensor for sensing movement of the user; And a user information providing module for generating user environment information, user state information, and user's momentum information from the information sensed by the environment sensor, the biosensor, and the momentum sensor, and providing the user environment information and the user's momentum information to the user.

The user information providing module may calculate the fat burning amount of the user based on the user's breath component sensed by the biosensor to generate the user state information.

The biosensor may further sense at least one of the blood pressure or the pulse of the user.

The user information providing module may calculate an environmental pollution degree of the user location based on an atmospheric component of the user location sensed by the environmental sensor to generate the user environment information.

The user information providing module may calculate the environmental pollution degree of the user location based on the additional information related to the user location received from the external server different from the always wearable device.

The environment sensor may selectively operate in response to at least one of the biosensor or the momentum sensor being operated.

The environmental sensor may further sense at least one of ultraviolet rays, temperature, humidity, and altitude of the user location.

The user information providing module may calculate at least one of the consumed calories, the number of steps, and the movement distance based on the movement of the user sensed by the momentum sensor, in order to generate the user's momentum information.

Wherein the user information providing module transmits the user environment information, the user state information, and the user momentum amount, through at least one of a display device included in the wearable device or a display device of a user terminal wirelessly connected to the wearable device, Information to the user.

The user information providing module may further provide guide information related to the user environment information, the user status information, and the user's exercise amount information.

The user information providing module may further provide an alarm related to at least one of the user environment information, the user state information, and the user's momentum information.

Wherein the wearable device for user monitoring further comprises a proximity sensor for sensing that the wearable device is worn on the wearer's body, and wherein at least one of the environmental sensor, the biosensor, And can selectively operate based on the sensed information.

The wearable device for user monitoring may further include a battery module that is charged according to at least one of a wireless charging mode and a solar charging mode and supplies power to the wearable device.

A user monitoring system according to an embodiment of the present invention includes a wearable device worn on a user's body; And a user terminal wirelessly connected to the wearable device, the wearable device comprising: an environmental sensor for sensing an atmospheric constituent at a user location; A biosensor for sensing the user's exhalation component; A momentum sensor for sensing movement of the user; And a user information providing module for generating user environment information, user state information, and user's momentum information from the information sensed by the environment sensor, the biosensor, and the momentum sensor, respectively, and providing the user environment information and the user's momentum information to the user terminal.

Embodiments of the present invention may suggest a wearable device and system for user monitoring that provides user state information, user environment information, and user momentum information.

In particular, embodiments of the present invention may propose a wearable device and system for user monitoring that considers the fat burning amount of a user based on the user's breath component in the process of generating user state information.

1 is a diagram illustrating a user monitoring system according to an embodiment of the present invention.
2 shows a wearable device according to an embodiment of the invention.
FIG. 3 is a diagram illustrating user environment information, user state information, and user's momentum information provided according to an embodiment of the present invention.
4 is a block diagram illustrating a wearable device in accordance with an embodiment of the present invention.
5 is a block diagram illustrating a user monitoring system in accordance with an embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. In addition, the same reference numerals shown in the drawings denote the same members.

Also, terminologies used herein are terms used to properly represent preferred embodiments of the present invention, which may vary depending on the user, intent of the operator, or custom in the field to which the present invention belongs. Therefore, the definitions of these terms should be based on the contents throughout this specification.

1 is a diagram illustrating a user monitoring system according to an embodiment of the present invention.

1, a user monitoring system according to an exemplary embodiment of the present invention includes a wearable device 110 worn on the user's body and a user terminal 120 connected wirelessly with the wearable device 110 .

The wearable device 110 includes an environmental sensor that senses an atmospheric component at a user's location, a biosensor that senses a user's exhalation component, a momentum sensor that senses a user's movement, and a user information providing module. In addition, the wearable device 110 may further include a communication module for wirelessly connecting with the user terminal 120.

Here, the user information providing module generates user environment information, user state information, and user's momentum information from the information sensed by each of the environmental sensor, the biosensor, and the momentum sensor, and stores user environment information, user state information, And provides it to the user terminal 120 through the communication module included in the device 110. At this time, the user environment information, the user state information, and the user's momentum information may be provided through an application installed in the user terminal 120 in advance.

Hereinafter, the user environment information may include environmental pollution degree (for example, atmospheric NO / NO2, VOCs, CO, SO / NO2) calculated based on the atmospheric component of the user location sensed from the environmental sensor included in the wearable device 110, SO2, O3, or the concentration of fine dust). In addition, the user environment information may further include at least one of ultraviolet ray, temperature, humidity, and altitude of the user position sensed by the environmental sensor.

In addition, the user state information includes the amount of fat burned by the user, which is calculated on the basis of the user's exhalation component sensed from the biosensor included in the wearable device 110. At this time, since the breath component of the user (for example, the concentration of acetone contained in the breath) sensed by the user is different for each user and the breath component of the user changes in accordance with the state of the user even in the same user, Can be calculated based on the difference between the measured reference and the component of the exhalation measured during the exercise (for example, the concentration of acetone contained in the exhalation) before performing the exercise. In addition, since the user's blood acidity or health state may be calculated based on the user's breath component sensed by the user, the user state information may include blood acidity or health state of the user. In addition, the user state information may further include at least one of a blood pressure or a pulse of the user sensed by the biosensor.

In addition, the user's momentum information includes at least one of the consumed calories, the number of steps, and the movement distance calculated based on the movement of the user sensed by the momentum sensor included in the wearable device 110.

Accordingly, the user monitoring system can use the user information providing module included in the wearable device 110 to obtain user state information including user's fat burning amount (calculated based on the user's breath component), user environment information, And may provide the momentum information to the user terminal 120.

In addition, the user monitoring system may further provide guide information related to user environment information, user state information, and user's momentum information by using the user information providing module included in the wearable device 110. [ A detailed description thereof will be described with reference to Fig.

The user information providing module included in the wearable device 110 not only provides the user environment information, the user status information, and the user's exercise amount information to the user terminal 120, The user environment information, the user state information, and the user's momentum information.

2 shows a wearable device according to an embodiment of the invention.

Referring to FIG. 2, a wearable device according to an embodiment of the present invention includes an environment sensor 210, a biosensor 220, a momentum sensor 230, and a user information providing module 240.

The environmental sensor 210 senses an atmospheric component of the user's position to generate user environment information. Accordingly, the user information providing module 240 can generate the user environment information by calculating the environmental pollution degree of the user location based on the atmospheric component of the user location sensed from the environmental sensor 210. [

At this time, the user information providing module 240 receives not only the atmospheric component of the user's position sensed by the environment sensor 210 but also the atmospheric component of the user's location received from the external server distinguished from the wearable device (for example, (E.g., fine dust information at the user location predicted by the weather-related server) related to the user's location.

In addition, the environmental sensor 210 may sense at least one of ultraviolet rays, temperature, humidity, and altitude of the user's location as well as sensing the atmospheric component of the user's location. In this case, the user environment information generated by the user information providing module 240 may include at least any one of ultraviolet rays, temperature, humidity, and height of the user's location as well as environmental pollution of the user's location.

Here, the environmental sensor 210 can selectively operate in response to at least one of the biosensor 220 or the momentum sensor 230 being operated. For example, when the environment sensor 210 is not operated normally and the biosensor 220 or the momentum sensor 230 is operated, the environmental sensor 210 may operate in response thereto.

The biosensor 220 senses the user's exhalation component to generate user state information. Therefore, the user information providing module 240 can generate the user state information by calculating the fat burning amount of the user based on the user's exhalation component sensed from the biosensor 220. For example, the user information providing module 240 generates a reference by sensing the user's exhalation component when there is no user movement through the biosensor 220, and when the user moves, The fat burning amount of the user can be calculated.

In addition, the user information providing module 240 may calculate the user's blood acidity or health state based on the user's exhalation component sensed through the biosensor 220. In this case, the user state information generated by the user information providing module 240 may include at least one of the user's blood acidity or health state as well as the fat burning amount of the user. For example, not only the fat burning of the user but also the in-vivo gas can be calculated from the user's breath component sensed from the biosensor 220. Accordingly, the user state information generated by the user information providing module 240 may include the health state of the user based on the gas released from the body. More specifically, the pH of a human body which is likely to be acidified should be kept constant at about 7.35 to 7.45. At this time, if the blood pH of the human body is acidic, there may be health problems such as aging of the cells due to acidosis, breakage of the cells, and vomiting due to alkalosis. In addition, if the pH in the blood is out of the normal range, the nervous system or cardiovascular system may be damaged, resulting in a dangerous situation. These changes appear as gas in the stomach, and Nash can be measured by exhalation (the same way as measuring blood alcohol). Exhalation may vary according to the condition of a person, but it is not a single change but a periodic measurement (for example, whether it is measured during exercise or in the morning in the case of the elderly) So that the user can be encouraged to have a medical examination. If normal expiration, the PH was between 7.35 and 7.45, and after one day, if the PH is 8 continuously over a month, the user can be notified of the health checkup or condition check.

In addition, the biosensor 220 may sense at least one of a blood pressure or a pulse of the user as well as sensing the user's exhalation component. In this case, the user state information generated by the user information providing module 240 may include not only the amount of fat burned by the user but also at least one of blood pressure or pulse of the user.

The momentum sensor 230 senses the motion of the user to generate user momentum information. Accordingly, the user information providing module 240 can generate the user's momentum information by calculating at least one of the consumed calories, the number of steps, or the moving distance based on the movement of the user sensed by the momentum sensor 230 . For example, by using the acceleration sensor as the momentum sensor 230, the user's momentum information including at least one of the consumed calories, the number of steps or the movement distance is generated based on the motion of the user sensed by the acceleration sensor .

Although not shown in the drawings, the wearable device may further include a proximity sensor that senses wear of the wearer's body. For example, the proximity sensor is disposed on a surface of the wearable device that is in contact with the user's body, thereby sensing that the wearable device is worn on the user's body. In this case, at least one of the environmental sensor 210, the biosensor 220, and the momentum sensor 230 may selectively operate based on the information sensed by the proximity sensor.

For example, when the environment sensor 210, the biosensor 220, and the momentum sensor 230 are not operated normally and the proximity sensor senses that the wearable device is worn by the user's body, The sensor 210, the biosensor 220, and the momentum sensor 230 may be operated.

For example, if the environment sensor 210, the biosensor 220, and the momentum sensor 230 are not operated normally and the proximity sensor senses that the wearable device is worn by the user's body, At least one of the biosensor 220 or the momentum sensor 230 is activated and the environmental sensor 210 can operate subsequently in response to at least one of the biosensor 220 or the momentum sensor 230 being operated. have.

The user information providing module 240 may receive information sensed in each of the environment sensor 210, the biosensor 220 and the momentum sensor 230 (for example, the environmental pollution degree at the user location, the fat burning amount of the user, User state information, and user's momentum information from the calorie consumption / number of steps / movement distance of the user environment information, user state information, and user's momentum information to the user.

Specifically, the user information providing module 240 transmits user environment information, user status information, and user status information through at least one of the display device 250 included in the wearable device or the display device of the user terminal wirelessly connected to the wearable device And user momentum information to the user. In this case, when the user information providing module 240 provides the user environment information, the user state information, and the user's momentum information to the user terminal, the wearable device further includes a communication module (not shown in the figure) And wirelessly.

At this time, if the user terminal is not carried, the user information providing module 240 stores user environment information, user state information, and user's momentum information in the internal memory and then maintains the user environment information, It is possible to move the data and provide the data to the user.

Here, the user information providing module 240 may further provide an alarm related to at least one of the user environment information, the user status information, and the user's momentum information. In addition, the user information providing module 240 may further provide guide information related to user environment information, user state information, and user's momentum information. A detailed description thereof will be given below.

Although not shown in the drawings, the wearable device may further include a battery module for supplying electric power. At this time, the battery module may be charged according to at least one of a wireless charging method and a solar charging method as well as being charged with a wired charging method.

FIG. 3 is a diagram illustrating user environment information, user state information, and user's momentum information provided according to an embodiment of the present invention.

Referring to FIG. 3, the user information providing module included in the wearable device according to an embodiment of the present invention includes user environment information, user state information, and user environment information generated from information sensed by each of the environmental sensor, the biosensor, It is possible to provide the user with the momentum information. At this time, the user information providing module may transmit the user environment information 320, the user status information 320, and the user status information 320 through at least one of the display devices included in the wearable device or the display device of the user terminal wirelessly connected to the wearable device (330) and user momentum information (340) to the user.

At least one of the display devices included in the wearable device or the display device of the user terminal wirelessly connected to the wearable device includes the user environment information 320, the user status information 330, 340 may be further provided.

At least one of the display devices included in the wearable device or the display device of the user terminal wirelessly connected to the wearable device includes the user environment information 320, the user status information 330, and the user's momentum information 340 may be further provided. Here, the guide information 360 may include user's environment information 320 or user state information 320, which is set in advance or automatically set by the user, such as the target exercise amount information (e.g., including the target consumed calorie, the target step number, May be adaptively modified in accordance with information 330. < RTI ID = 0.0 >

For example, when it is determined that the current user is in motion based on the user environment information 320 and the user status information 330 and the environmental pollution degree at the current user position is a dangerous situation unsuitable for exercise, At least one of the display devices of the user terminal connected wirelessly with the display device or the wearable device may be provided with the alarm 350 based on the user environment information 320 and the user status information 330. In addition, since the environmental pollution degree is a dangerous situation unsuitable for the exercise, the guide information 360 in which the target momentum is modified can be provided.

As another example, at least one of the display devices included in the wearable device or the display device of the user terminal wirelessly connected to the wearable device may be configured to display not only the status of the user during exercise, You can show the statistics to the user whether the exercise is good exercise or bad exercise. Specifically, for example, a 10-km exercise was performed. During this exercise, the concentration of the noxious gas inhaled can be integrated (for example, NO / NO2, VOCs, CO, SO / SO2, O3, ).

As described above, the wearable device according to an exemplary embodiment of the present invention can display the user environment information 320, the user status information 330, and the user's momentum information 340 with a display device or a wearable device included in the wearable device, To the user through at least one of the display devices of the user terminal connected to the terminal.

Here, the user environment information 320, the user state information 330, and the user's momentum information 340 provided to the user are not limited to those shown in the drawings, but may be provided through functional charting, Month, and year, respectively. The user environment information 320, the user status information 330, and the user's momentum information 340 may include at least one of a speaker device included in the wearable device or a speaker device connected to the wearable device wirelessly And reproduced as a sound to the user.

4 is a block diagram illustrating a wearable device in accordance with an embodiment of the present invention.

Referring to FIG. 4, a wearable device according to an embodiment of the present invention includes an environment sensor 410, a biosensor 420, a momentum sensor 430, and a user information providing module 440.

The environmental sensor 410 senses the atmospheric component of the user's location to generate user environment information. At this time, the environmental sensor 410 can sense at least one of ultraviolet ray, temperature, humidity, and altitude of the user's position.

Here, the environmental sensor 410 may selectively operate in response to at least one of the biosensor 420 or the momentum sensor 430 being operated.

The biosensor 420 senses the user's exhalation component to generate user state information. At this time, the biosensor 420 can sense at least one of the blood pressure or the pulse of the user.

The momentum sensor 430 senses the motion of the user to generate user momentum information.

At this time, although not shown in the drawings, the wearable device may further include a proximity sensor that senses that the wearable device is worn by the wearer's body. In this case, at least one of the environment sensor 410, the biosensor 420, and the momentum sensor 430 may selectively operate based on the information sensed by the proximity sensor.

The user information providing module 440 generates user environment information, user state information, and user's momentum information from the sensed information in the environment sensor 410, the biosensor 420, and the momentum sensor 430, respectively, and provides the generated information to the user.

For example, the user information providing module 440 may transmit user environment information, user status information, and user information through at least one of a display device included in the wearable device or a display device of a user terminal wirelessly connected to the wearable device, It is possible to provide the user with the momentum information.

In addition, the user information providing module 440 may further provide guide information related to user environment information, user state information, and user's momentum information.

The user information providing module 440 may further provide an alarm related to at least one of the user environment information, the user status information, and the user's momentum information.

Here, the user information providing module 440 may calculate the fat burning amount of the user based on the user's breath component sensed by the biosensor 420, to generate user state information. At this time, the user information providing module 440 may calculate the user's blood acidity or health state based on the user's breath component sensed by the biosensor 420, to generate user state information.

In addition, the user information providing module 440 may calculate the environmental pollution degree of the user location based on the atmospheric component of the user's location sensed by the environmental sensor 410, in order to generate the user environment information. At this time, the user information providing module 440 may calculate the environmental pollution degree of the user location based on the additional information related to the user location received from the external server different from the wearable device.

In addition, the user information providing module 440 may calculate at least one of the consumed calories, the number of steps, or the movement distance based on the movement of the user sensed by the momentum sensor 430 in order to generate the user's momentum information .

Further, although not shown in the drawings, the wearable device may further include a battery module that supplies power to the wearable device. At this time, the battery module may be charged according to at least one of a wireless charging method and a solar charging method.

5 is a block diagram illustrating a user monitoring system in accordance with an embodiment of the present invention.

5, a user monitoring system according to an embodiment of the present invention includes a wearable device 510 worn on the user's body and a user terminal 520 connected wirelessly with the wearable device 510 . However, the user terminal 520 may not always be carried by the user. For example, if the user terminal is not carried by the user, the wearable device 510 stores the data in an internal memory, a cloud, or the like, and then stores the data in the internal memory, the cloud, When connected to the network, the data can be moved and provided to the user.

Here, the wearable device 510 includes an environment sensor 511, a biosensor 512, a momentum sensor 513, and a user information providing module 514.

The environmental sensor 511 senses an atmospheric component of the user's position in order to generate user environment information. At this time, the environmental sensor 511 can sense at least one of ultraviolet ray, temperature, humidity, and altitude of the user position.

Here, the environmental sensor 511 can selectively operate in response to at least one of the biosensor 512 or the momentum sensor 513 being operated.

The biosensor 512 senses the user's exhalation component to generate user state information. At this time, the biosensor 512 can sense at least one of the blood pressure or the pulse of the user.

The momentum sensor 513 senses the motion of the user to generate user momentum information.

At this time, although not shown in the drawings, the wearable device 510 may further include a proximity sensor that senses that the wearable device 510 is worn on the user's body. In this case, at least one of the environmental sensor 511, the biosensor 512, and the momentum sensor 513 can selectively operate based on the information sensed by the proximity sensor.

The user information providing module 514 generates user environment information, user state information, and user's momentum information from the sensed information in the environmental sensor 511, the biosensor 512 and the momentum sensor 513, .

For example, the user information providing module 514 is a display device of the user terminal 520 wirelessly connected through a communication module (not shown in the figure) included in the wearable device 510, User state information, and user momentum information.

In addition, the user information providing module 514 may further provide guide information related to user environment information, user state information, and user's momentum information.

In addition, the user information providing module 514 may further provide an alarm related to at least one of the user environment information, the user status information, and the user's momentum information.

Here, the user information providing module 514 may calculate the fat burning amount of the user based on the user's breath component sensed from the biosensor 512, to generate user state information. At this time, the user information providing module 514 can calculate the user's blood acidity or health state based on the user's breath component sensed by the biosensor 512, to generate user state information.

In addition, the user information providing module 514 may calculate the environmental pollution degree of the user location based on the atmospheric component of the user location sensed from the environmental sensor 511, to generate the user environment information. At this time, the user information providing module 514 can calculate the environmental pollution degree of the user location based on the additional information related to the user location received from the external server, which is distinguished from the wearable device 510. [

In addition, the user information providing module 514 may calculate at least one of the consumed calories, the number of steps or the moving distance based on the movement of the user sensed by the momentum sensor 513, in order to generate the user's momentum information .

In addition, although not shown in the drawings, the wearable device 510 may further include a battery module that supplies power to the wearable device 510. [ At this time, the battery module may be charged according to at least one of a wireless charging method and a solar charging method.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (14)

A wearable apparatus for user monitoring,
An environmental sensor for sensing an atmospheric component of the user location;
A biosensor for sensing the user's exhalation component;
A momentum sensor for sensing movement of the user; And
A user information providing module for generating user environment information, user state information, and user's momentum information from the information sensed by the environment sensor, the biosensor, and the momentum sensor,
/ RTI >
The user information providing module
Calculating an amount of fat burned by the user based on a difference between an exhalation component sensed before the user's movement and an exhalation component sensed after the user's exercise to generate the user state information,
Calculating a user's body gas based on the breath information sensed by the biosensor, determining a health state of the user based on the calculated body gas,
Generating the user state information including the calculated fat burning amount and the determined health state,
The environmental sensor
In response to activation of at least one of the biosensor or the momentum sensor.
delete The method according to claim 1,
The biosensor
And further senses at least one of the blood pressure or pulse of the user.
The method according to claim 1,
The user information providing module
Wherein the environmental pollution degree of the user location is calculated based on an atmospheric component of the user location sensed by the environmental sensor to generate the user environment information.
5. The method of claim 4,
The user information providing module
And calculates additional information related to the user location received from an external server different from the normally wearable device to calculate an environmental pollution degree of the user location.
delete The method according to claim 1,
The environmental sensor
And further senses at least one of ultraviolet rays, temperature, humidity or altitude of the user position.
The method according to claim 1,
The user information providing module
And calculates at least one of the consumed calories, the number of steps, or the moving distance of the user based on the movement of the user sensed by the momentum sensor, to generate the user's momentum information.
The method according to claim 1,
The user information providing module
The user environment information, the user state information, and the user's momentum information to the user through at least one of a display device included in the wearable device or a display device of a user terminal wirelessly connected to the wearable device .
The method according to claim 1,
The user information providing module
And further provides guide information related to the user environment information, the user state information, and the user's momentum information.
The method according to claim 1,
The user information providing module
And further provides an alarm related to at least one of the user environment information, the user state information, and the user's momentum information.
The method according to claim 1,
A proximity sensor for sensing that the wearable device is worn on the user '
Further comprising:
Wherein at least one of the environmental sensor, the biosensor,
And selectively operates based on the information sensed by the proximity sensor.
The method according to claim 1,
A battery module that is charged according to at least one of a wireless charging method and a solar charging method,
Further comprising:
In a user monitoring system,
A wearable device worn on the wearer's body; And
A user terminal connected wirelessly with the wearable device,
/ RTI >
The wearable device
An environmental sensor for sensing an atmospheric component of the user location;
A biosensor for sensing the user's exhalation component;
A momentum sensor for sensing movement of the user; And
A user information providing module for generating user environment information, user state information, and user's momentum information from the information sensed by the environment sensor, the biosensor, and the momentum sensor,
/ RTI >
The user information providing module
Calculating an amount of fat burned by the user based on a difference between an exhalation component sensed before the user's movement and an exhalation component sensed after the user's exercise to generate the user state information,
Calculating a user's body gas based on the breath information sensed by the biosensor, determining a health state of the user based on the calculated body gas,
Generating the user state information including the calculated fat burning amount and the determined health state,
The environmental sensor
In response to activation of at least one of the biosensor or the momentum sensor.

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