KR20160098566A - Information providing system for changing features for a body parts by using wearable device and the method thereof - Google Patents

Abstract

The present invention relates to a physical change information providing system using a wearable device, comprising: a wearable device attached to the body of a user to measure a physical change of the user; a mobile device displaying physical change information of the user, which is transmitted from the wearable device, and generating an alarm; and a short distance communication network as a network with the wearable device and the mobile device. The wearable device is worn on the ear of the user to measure a grade of the neck of the user in real time and transmits a measured data value to the mobile device. The mobile device displays a posture of the user as an image to the user in real time to allow the user to easily recognize information on the physical change of the user and generates an alarm as sound, vibration or light when the grade of the neck of the user exceeds a preset angle.

Description

TECHNICAL FIELD [0001] The present invention relates to a body change information providing system using a wearable device and a method of providing information on the body change information using the wearable device,

More particularly, the present invention relates to a system and method for providing body change information using a wearable device, and more particularly, to a system and method for providing body change information using a wearable device, The present invention relates to a system and method for providing physical change information using a wearable device that can be provided in real time.

Recently, as the amount of information devices such as a computer and a smart phone is increased, time for keeping the head and neck forward is increasing for users to use such information devices. Such a user's body posture causes a disease called turtle neck, and the incidence is increasing every year.

These turtle neck diseases can lead to chronic pain and harmful consequences, such as lowering the user's focus on work or study. Prevention is also important, since it is difficult to treat once it develops.

In order to prevent such turtle neck disease, it is effective to allow the user to perceive his / her posture by allowing the user to perceive the posture of the user in real time in real time.

Meanwhile, various programs for managing the user's body using mobile devices have been provided with the development of mobile devices and communication technologies such as smart phones. In order to prevent the above-mentioned turtle neck disease, A user body management apparatus and a program using such a mobile device can be used.

Particularly, a user body management device and a program using a mobile device are widely used in medical and sports fields. Korean Prior Patent Publication No. 2014-0096302 (published on Apr. 2014, 08) discloses a related art.

A method and system for analyzing sports motions using motion sensors of a mobile device such as a smart phone is disclosed in the prior art in a mobile communication system, Device Motion sensor output is used. The motion sensor's motion sensor signature is analyzed for characteristics, especially for sports motion types. Methods and systems for computing impact points with virtual objects such as golf balls, baseballs, tennis balls, etc., using multiple sensor outputs in a mobile device are disclosed. Also disclosed is a method in which virtual sports motions interact with moving virtual sport objects and corresponding outputs are displayed on a mobile device and / or a web-enabled display device.

In the present invention, a wearable device is attached to a wearer's body in advance in order to prevent turtle neck syndrome in advance through an attitude of an operator, and the wearer can feel feedback on his / The present invention provides a system and method for providing physical change information using a wearable device capable of receiving real-time provisioning to a mobile device such as a mobile phone.

The technical objects to be achieved by the present invention are not limited to the above-mentioned technical problems.

According to another aspect of the present invention, there is provided a body change information providing system using a wearable device, comprising: a wearable device attached to a user's body to measure a change in a user's body; Wherein the wearable device comprises: a mobile device that generates an alarm and a local area network that is a communication network between the wearable device and the mobile device, the wearable device comprising: Value to the mobile device. The mobile device displays an image of the user in real time so that the user can easily recognize the information on the body change, and when the slope of the user's neck exceeds the preset angle Sound alarm with sound, vibration or light Using a wearable device, characterized in that the body may include a change in the information providing system.

Specifically, the wearable device includes: a sensor unit that senses a user's body change; an MCU unit that is a microcontroller unit that controls the wearable device and functions as an interface for communication with the mobile device; And a battery unit for communicating with the mobile device and transmitting information on a user's body change to the mobile device.

Specifically, the sensor unit may be a gyro sensor, the MCU unit may be an AIDO unit, and the local communication unit may be a Bluetooth communication method.

Specifically, the mobile device includes a control unit for controlling the components of the mobile device, a display unit for displaying information on the body change and information about the wearable device on a screen in real time, A speaker for making a sound when a warning is generated, a vibration unit for generating a vibration when a warning occurs, and a communication unit for communicating data so that the wearable device and the mobile device can exchange data with each other And a short range communication module.

Specifically, a body change information providing method using a wearable device attached to a user's body to measure a user's body change comprises: measuring a slope of a sensor attachment neck; transmitting measurement data to the mobile device; Evaluating the measurement data, judging whether the measured data exceeds a threshold value, generating the warning by the warning generating section, and displaying the body change information on the display section.

As described above, according to the present invention, a wearable device is worn on a body part capable of causing a turtle neck syndrome, and the wearable device transmits information on a user's body posture change in real time to a user's mobile device such as a smart phone The user is able to prevent turtle neck syndrome in advance through posture correction in advance.

In addition, since it provides information on changes in the posture of the body in real time by using a wearable device specialized for turtle neck syndrome and a mobile phone program such as a smart phone, it is easier to operate than the expensive medical equipment, Can be prevented in advance.

1 is a schematic view for explaining a body change information providing system using a wearable device according to an embodiment of the present invention.
Fig. 2 is a block diagram showing the configuration of the wearable device shown in Fig. 1. Fig.
3 is a block diagram showing the configuration of the mobile device shown in FIG.
4 is a view showing an embodiment of the display unit shown in FIG.
5 is a flowchart illustrating a body change information providing method using a wearable device according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same components are denoted by the same reference symbols whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

FIG. 1 is a schematic view for explaining a body change information providing system using a wearable device according to an embodiment of the present invention. The body change information providing system includes a body change information providing system for attaching to a body of a user, A mobile device 200 that displays a user's body change information transmitted from the wearable device 100 and generates an alarm and a local area network 300 that is a communication network between the wearable device 100 and the mobile device 200 ).

First, the local area network 300 may be a wired or wireless communication network as a communication network for the wearable device 100 and the mobile device 200 to communicate with each other, but a wireless communication network is preferable for the convenience of the user.

The wearable device 100 should be worn at a position where it can best detect a user's body change causing turtle neck syndrome. At the same time, there should be no inconvenience to the daily life such as the user standing in work or traveling for a while. The position where the wearable device 100 can be attached to the user's body is determined through experiments.

First, the wearable device 100 worn on the waist was not inconvenient when standing or traveling, but it was inconvenient because of direct interference to the waist in a sitting or lying position.

Subsequently, the wearable device 100 worn on the thoracic region was squeezed when the thoracic portion was squeezed when the patient sat or breathed, and when sitting or lying down, it was discomfort due to direct interference to the thoracic region. This is not the part that is interfered with when standing and sitting rather than the method of wearing it at the waist, but it gives a sense of heterogeneity to the user because it is awkward to wear it as shoulder and armpit part.

The result of this experiment is that although it is possible to measure the change of the worker 's body when worn on the waist and shoulder side, it is not a suitable position because it is heterogeneous in daily life and there is a situation in which the device and the device are interfered with each other. As a result, it is desirable to measure the change of the body by wearing it on the neck or head rather than wearing it on the user's upper body.

Therefore, in order to prevent turtle neck syndrome, the wearable apparatus 100 is worn on the ear as a region where the user's neck inclination can be measured most accurately in order to measure the inclination of the neck in real time and receive feedback.

FIG. 2 is a block diagram showing the configuration of the wearable device 100 shown in FIG. 1. The wearable device 100 includes a sensor unit 110 for sensing a user's body change, a wearable device 100, An MCU unit 130 which is a micro control unit for processing measurement data values suitable for communication with the device 200 and a microcontroller unit 130 which communicates with the MCU unit 130 and transmits information on a user's body change to the mobile device 200 A short range communication unit 150, and a battery unit 170.

The sensor unit 110 uses a gyro sensor as a sensor mounted on a wearable device 100 worn on a user's neck, the sensor being mounted with a sensor that tilts together and tilts when the user tilts his neck . A gyro sensor is a sensor that utilizes dynamic motion of a rotating object, and is used as a pitch axis, a yaw axis, and a roll axis, respectively, to measure the attitude, thereby forming an attitude sensor that detects a variation with respect to these axes.

The sensor unit 110 is mounted on the wearable device 100 so that the sensor unit 110 can transmit the signal sensed by the gyro sensor to the MCU unit 130 by calculating the angular value with respect to the inclination of the user's neck.

The MCU unit 130 is a dedicated processor used for various products such as an automobile, a rice cooker, a refrigerator, or a washing machine to control the above products, and a microcontrol unit (MCU) Is mounted.

On the other hand, as the MCU unit 130, Arduino can be used. Arduino is a device control board with a built-in microcontroller. It can connect various devices such as sensors and components.

That is, the MCU unit 130 mounted on the wearable device 100 controls various components mounted on the wearable device 100. In particular, each of the gyro sensors of the sensor unit 110 and the short- Lt; RTI ID = 0.0 > 150 < / RTI >

The controller 110 receives the signal transmitted from the sensor unit 110 and receives the signal from the mobile device 200 to be recognized by the user's mobile device 200. The sensor unit 110 and the local communication unit 150 are controlled by the MCU unit 130, And transmits the converted data to the short range communication unit 150 so that the short range communication unit 150 can transmit the corresponding data to the mobile device 200 according to a predetermined communication method.

The local communication unit 150 is a communication module that is mounted on the wearable device 100 and transmits and receives data received from the MCU unit 130 to the mobile device 200. [ At this time, the communication method may be wired or wireless, and a wireless communication method is preferable for convenience of the user. The communication method used in the short distance communication unit 150 may be Bluetooth, Radio Frequency Identification (RFID), infrared data association, UltraWideband (UWB), or ZigBee.

The short-range communication unit 150 forms a communication protocol between the wearable device 100 and the mobile device 200, and can perform data communication between the wearable device 100 and the mobile device 200 without a separate server.

The battery unit 170 serves to supply power to the sensor unit 110, the MCU unit 130, and the local communication unit 150 mounted in the wearable device 100. The battery used in the battery unit 170 is preferably a lightweight and compact type so that it can be mounted on the wearable device 100, and a lithium ion battery can be used.

The mobile device 200 receives information on a body change transmitted from the wearable device 100 worn on the user's body by a specific program such as an application used in a smart phone, Is displayed on the display device so as to be easily recognized, and when the change of the user's body exceeds a certain standard, an alarm such as sound or vibration is generated.

The mobile device 200 may be a portable computer device such as a smart phone, a tablet PC, a small notebook, various types of PDA, an e-book reader, a portable game terminal, It is preferable to use a smart phone which is easy to mount a program for the wearable device 100 and is easy to establish communication with the wearable device 100. [

FIG. 3 is a block diagram illustrating the configuration of the mobile device shown in FIG. 1. The mobile device 200 includes a control unit 210 that controls components of the mobile device 200 related to the wearable device 100, A warning unit 230 for generating a warning by sound or vibration when the body change exceeds a predetermined standard, A speaker 231 that makes a sound sound, a vibration unit 235 that generates vibration when a warning is generated, and a short range communication module 240 that performs communication so that the wearable device 100 and the mobile device 200 can exchange data with each other .

The control unit 210 controls the wearable device 100 in the mobile device 200 so that the user can control the wearable device 100 in order to process the data on the user's body change transmitted from the wearable device 100, . In particular, in the case of a smart phone, an application program is transmitted to the control unit 210 in order to implement a series of processes of receiving data values measured in real time in the wearable device 100, .

The display unit 220 processes the data values received from the wearable device 100 by the control unit 210 and displays a real time image and displays a setting screen for controlling the wearable device 100, (100) and body changes, but uses a user-intuitive and easy-to-use layout (see FIG. 4). Particularly, this is the display device in various portable mobile devices.

The alarm generating unit 230 receives the corresponding data value from the wearable device 100 when the body change of the user is inclined more than a predetermined angle, 200, and the alarm generating unit 230 corresponds to the alarm generating apparatus. The manner in which the alert is generated may vary depending on the type of mobile device 200, and may be alerted by sound, vibration, or light.

When a warning is generated by the warning unit 230 as a sound, the sound is emitted through the speaker 231. When the warning is emitted by the vibration of the mobile device 200, a small motor mounted on the vibration unit 235 Vibration is generated.

The short-range communication module 240 is a part that communicates with the wearable device 100 so that the mobile device 200 can exchange communication with the wearable device 100. The short-range communication module 240 transmits a measurement data value, The local communication module 240 receives the radio signal and transmits the radio signal to the controller 210 of the mobile device 200. Also, when the user controls the wearable device 100 through the mobile device 200, the control unit 210 processes the signal and transmits the processed signal to the wearable device 200 through the local communication module 240.

In general, a portable information device supports various types of short distance communication, such as Bluetooth, Radio Frequency Identification (RFID), infrared data association, UltraWideband (UWB), or ZigBee ). Particularly, in consideration of the fact that the wearable device 100 is worn near the neck of a user, it is preferable to use a low-energy Bluetooth communication method with a communication range of about 0 to 1 m.

4 is a diagram illustrating an embodiment of the display unit 220 of the mobile device 200. The smart phone application is used to allow the user to easily recognize the user's body change using the smart phone.

Each screen includes an initial screen of a smartphone application, a screen showing a communication state with the wearable device 100, a screen showing whether the wearable device 100 is worn by a user, a screen showing a slope of the current neck of the user, A screen showing a slope of the present neck in a graph, a screen showing a time when the user wears the wearable device and a time in which a specific posture has been maintained, and a setting screen of a smartphone application.

The screen of such a smartphone application sets color so that the color of the wearable device matches the color of the whole application. The color of the wearable device is set to be intuitive and highly usable so that the user can immediately check the body change information on the inclination of the neck, Respectively.

FIG. 5 is a flowchart illustrating a method of providing body change information using a wearable device according to an embodiment of the present invention. The method of providing body change information includes a step of measuring a slope of a sensor attachment part (S110) A step S140 of judging whether the measured data exceeds a threshold value, a step of generating a warning of an alarm generating part S150, and a step of changing a body part And displaying the information (S160).

The step S110 of measuring the slope of the neck of the sensor unit 110 is performed when the wearer wears the wearable apparatus 100 on the ear near the neck so that the user can operate the mobile device 200 or automatically move the wearable apparatus 100 100) is initialized. Then, when the user tilts the neck while the user is working, the gyro sensor of the sensor unit 110 senses the tilt, and the angle of the neck tilt is numerically expressed and transmitted to the MCU unit 130.

The step S120 of transmitting the measurement data to the mobile device 200 includes the steps of transmitting the real time measurement data of the inclination of the neck received from the sensor unit 110 to the MCU unit 130 to the short range communication unit 150, The communication unit 150 processes the measurement data in accordance with the communication method with the mobile device 200 and transmits the measured data to the mobile device 200.

The step S130 of evaluating the measurement data by the control unit 210 may be performed by the control unit 210 when the control unit 210 transmits the body change measurement data value of the user transmitted from the wearable device 100 and the information on the wearable device 100 to the mobile device 200 ) To be usable in the step. In particular, the control unit 210 converts and evaluates data for controlling the display unit 220 and the alarm generating unit 230.

Step S140 of determining whether the measurement data exceeds the threshold value includes determining whether the body change measurement data value of the user transmitted from the wearable device 110 in the control unit 210 is a measurement data value out of a preset constant angle to be.

If the measurement data value deviates from the predetermined measurement data value, a warning is issued to the next step to issue a warning to the user. Otherwise, if the measurement data value is within the predetermined measurement data value, the process proceeds to step S160, Body change information and information on the wearable device 100 are displayed.

If the control unit 210 determines that the measurement data value is a measurement data value out of a predetermined angle in the previous step (S150), the warning generating unit 230 generates a warning And transmitting a control signal to generate a warning by sound, vibration or light.

The step S160 of displaying the body change information on the display unit 230 is a step of displaying information on the wearable device 100 and information on the body change of the user on the mobile device 200, In the case of information on the change, it is possible to display the change information in real time so that the user can easily recognize the change. In addition, the past information on the user's body change can be stored as a record so that the user can refer to it.

The system and method for providing body change information using the wearable device are not limited to the configuration and operation of the embodiments described above. The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

100: Wearable device 110: Sensor unit
130: MCU unit 150: Local communication unit
170: battery unit 200: mobile device
210: control unit 220: display unit
230: Warning generating unit 231: Speaker
235: Vibrating part 240: Local communication module
300: Local Area Network

Claims (5)

A wearable device attached to a user's body to measure a user's body change;
A mobile device for displaying body change information of a user transmitted from the wearable device and generating an alarm; And
And a local area network that is a communication network between the wearable device and the mobile device,
The wearable device,
Transmitting data values measured and worn on a user's ear to the mobile device so that the slope of the user's neck can be measured in real time,
The mobile device comprising:
The user's posture is displayed in an image in real time so that the user can easily recognize information on the body change, and when the inclination of the user's neck exceeds the preset angle, an alarm is generated by sound, vibration or light Body change information providing system using wearable device.
The method according to claim 1,
The wearable device,
A microcontroller unit for controlling the wearable device and processing measurement data values to be suitable for communication with the mobile device; and a control unit for communicating with the MCU unit, A local communication unit for transmitting information on body changes of the body to the mobile device; And a battery unit. The body change information providing system using the wearable device.
3. The method of claim 2,
Wherein the sensor unit comprises a gyro sensor, the MCU unit comprises an Arduino, and the short range communication unit uses a Bluetooth communication method.
The method according to claim 1,
The mobile device comprising:
A display unit for displaying information on body changes and information about the wearable apparatus on a screen in real time; and a display unit for displaying a warning when the body change exceeds a predetermined standard, A speaker for making a sound when a warning is generated, a vibration unit for generating a vibration when a warning is generated, And a short range communication module for communicating with the wearable device and the mobile device so that data can be exchanged with each other.
A method of providing information on a body change using a wearable device attached to a user's body and measuring a user's body change,
Measuring a slope of the sensor unit neck;
Transmitting measurement data to a mobile device;
Evaluating the measurement data by the control unit;
Determining whether the measurement data exceeds a threshold value;
Generating a warning by the warning generator; And
And displaying the body change information on the display unit.

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