KR20170098032A

KR20170098032A - System and Method for playing music according to the movement pattern of a health care system

Info

Publication number: KR20170098032A
Application number: KR1020160019899A
Authority: KR
Inventors: 장시웅; 권영우
Original assignee: 동의대학교 산학협력단
Priority date: 2016-02-19
Filing date: 2016-02-19
Publication date: 2017-08-29

Abstract

The present invention relates to an apparatus and a method for reproducing a music according to a motion pattern in a healthcare system that detects a user's movement using smart shoes and reproduces music corresponding to a user's exercise pattern based on the sensed exercise data, Smart shoes that sense the movement and transmit it to the smartphone After analyzing the movement pattern using the information sent from the smart shoe, the user can change the playback speed, genre and music type according to the exercise pattern, And a smartphone that provides the service.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a music playing apparatus and a method for playing music according to a movement pattern in a healthcare system,

The present invention relates to a healthcare system, and more particularly, to a healthcare system that detects movement of a user using smart shoes and reproduces music corresponding to a user's exercise pattern based on the sensed exercise data, Apparatus and method.

Recently, a lot of wearable device products have been released as interest in exercise has increased.

One of the factors that led to the growth of wearable devices is that the wearable devices for healthcare and therapeutic purposes are receiving much attention from consumers.

Smart shoes are a kind of wearable device.

As the interest in health increases, a variety of devices are being developed to help individuals exercise. That is, devices are being developed to enable people to achieve their target momentum without getting bored.

In addition, exercise aids are being developed that include portable music players (e.g., MP3 players, etc.) that can listen to music while exercising.

In particular, any kind of music may be more helpful in increasing the athletic activity of an individual than others.

For example, music at a fast tempo can make an athlete jump faster or farther. The use of music helps the athlete move away from what can be considered bored or repetitive physical activity.

In this way, music helps the movement to work effectively as reported in academia.

That's why many people enjoy listening to music.

In the prior art, the user pre-selected music and exercised accordingly.

However, there is a tendency that fatigue is increased due to the lack of correspondence between the exercise pattern and the music.

Therefore, it is required to develop a new technique that maximizes the exercise effect by increasing the correspondence of the user's movement pattern and music.

Korea Patent No. 10-0912123 Korean Patent Publication No. 10-2012-0040143

The present invention solves the problem of the prior art health care system. The present invention provides a health care system that senses a user's movement using smart shoes and reproduces music corresponding to a user's exercise pattern based on the sensed exercise data The present invention provides a music reproducing apparatus and method according to a motion pattern.

The present invention relates to an exercise assist system which senses a user's exercise using a smart shoe worn by a user and provides the sensed exercise to a smartphone, The purpose is to provide.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, according to the present invention, there is provided a music reproducing apparatus according to a motion pattern, comprising: a smart shoe for sensing movement of a user and transmitting the sensed motion to a smart phone; And a smart phone for changing a reproduction speed, a genre, and a music kind of the music according to a movement pattern to provide a music reproduction service to the user.

Here, the smart shoe includes a short-range communication module, and the short-range communication module can be changed to any position of the smart shoe and is removable.

The short-range communication module includes a sensor unit for sensing the user's walking, a communication unit for transmitting the sensed data to the smartphone, and a battery for supplying operating power to the communication unit and the sensor unit.

The sensor unit of the local communication module senses the user's motion using a piezoelectric element.

The short-range communication module reads the analog waveform of the piezoelectric sensor, measures a maximum value in a predetermined section, and calculates the maximum number of times of measurement for each section by the number of steps.

The communication unit transmits data sensed by a sensor unit to a smart phone through a wireless local area network (WLAN) of a Wi-Fi or Bluetooth.

The smartphone includes a communication unit that receives data transmitted from the smart shoe and converts the received data into data that can be processed by the application, a motion pattern analyzing unit that analyzes the motion pattern using the converted data, And an application executing section having a music reproducing section for changing the reproduction speed, genre and music kind of the music on the basis of the data and reproducing the music.

The smartphone is characterized by displaying an operation control of an application and an output value of an application on a screen by a user interface including a touch screen and a speaker and outputting music to a speaker.

According to another aspect of the present invention, there is provided a method of playing music according to a motion pattern in a healthcare system, comprising: obtaining analog pressure data from a piezoelectric sensor of a smart shoe; filtering data based on a preset threshold; Calculating a maximum number of times of measuring the maximum value in each section, calculating the maximum number of times of measurement in each section as a number of steps, transmitting the number of steps measured by the smart phone using the local communication module, receiving the number of steps in the smartphone, The method comprising the steps of: measuring a time at the same time; obtaining a time difference by comparing the measured time with previous data; repeating the step of obtaining the time difference by comparing with the time measurement and the previous data by a predetermined number of times; Sets the genre of the speed or music on the basis of the sum of the set values, The method comprising the steps of:

In the health care system according to the present invention, a music reproducing apparatus and method according to a motion pattern have the following effects.

First, users can use smart shoes and smart phone to analyze the user 's movement pattern and to reproduce the music according to the movement pattern to increase the exercise effect.

Second, the speed or genre of the music reproduced according to the exercise pattern is automatically changed, so that the exercise can be vigorously promoted and the better exercise effect can be obtained.

Third, there is an effect that the user can concentrate on the exercise by automatically selecting and reproducing music of the appropriate beat according to the strength and kind of the exercise.

Fourth, it provides an exercise assisting system which can maximize the exercise effect by increasing the correspondence of the user's exercise pattern and music.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a music playback apparatus according to a first embodiment of the present invention; FIG.
FIG. 2 is a diagram for explaining the position of the communication module in the smart shoe.
3 is a detailed configuration diagram of a communication module of a smart shoe according to the present invention
FIG. 4 is a graph illustrating a method of filtering data input by analog in a piezoelectric sensor according to an embodiment of the present invention
FIG. 5 is a detailed block diagram of a music reproducing apparatus according to a motion pattern in the healthcare system according to the present invention.
6 is a flowchart showing an operation process in the communication module according to the present invention;
FIG. 7 is a flowchart illustrating a method of reproducing music according to a movement pattern in the healthcare system according to the present invention.

Hereinafter, a preferred embodiment of a music reproducing apparatus and method according to a motion pattern in a healthcare system according to the present invention will be described in detail.

The features and advantages of the music reproducing apparatus and method according to the motion pattern in the healthcare system according to the present invention will be apparent from the following detailed description of each embodiment.

FIG. 1 is a diagram illustrating the overall structure of a music reproducing apparatus according to a motion pattern in a healthcare system according to the present invention, and FIG. 2 is a diagram illustrating a location of a communication module in a smart shoe.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a smart shoe for sensing a user's movement using a sensor and an application for reproducing music corresponding to a user's movement pattern based on processed data.

In order to solve the problem of deteriorating the exercise capacity due to the music reproduction without considering the user's exercise pattern, the present invention designs a smart shoe having a motion detection function, and based on the processed data, An application to be reproduced is designed to reproduce music suitable for a user's motion pattern.

The present invention includes shoes having a sensor system.

The smart shoe includes one sensor for sensing the motion of the user.

The sensor can be and is not limited to a piezoelectric sensor.

In the following description, motion includes a state of a user's walking, running, running, and the like.

As shown in FIG. 1, the smart shoe 100 senses the movement of a user and transmits the sensed movement to the smartphone 101 through a local area wireless communication network. In the case of the smart shoe 100, all the shoe objects can be used, but the embodiment is limited to running shoe.

FIG. 2 shows the location of the communication module 200.

The communication module 200 is located in the heel area of the insole 201 of the smart shoe, and senses the user's motion and reads data. The position of the communication module 200 can be changed to any position of the shoe, and the insole 201 can be detachably attached.

Such a smart shoe transmits sensed information to a smartphone terminal using a short distance communication module. The smart phone analyzes the exercise pattern using information received from the smart shoe, and then, according to the exercise pattern, Lt; / RTI >

The local communication module can be changed to any position of the smart shoe and is removable.

The communication module includes a sensor unit for sensing the user's walking, a communication unit for transmitting the sensed data to the smartphone, a communication unit, and a battery for supplying operating power to the sensor unit.

The sensor unit of the communication module senses the motion of the user using the piezoelectric element.

The communication unit transmits the data to a smart phone through a wireless local area network (WLAN) such as Wi-Fi or Bluetooth.

3 is a diagram for explaining the detailed configuration of the communication module 300. As shown in FIG. The communication module 300 includes a sensor unit 301, a communication unit 302, and a battery 303.

The sensor unit 301 senses the user's motion and reads data. The communication unit 302 transmits data processed by the sensor unit 301 to the smartphone 304. [

The battery 303 serves to supply power to the sensor unit 301 and the communication unit 302.

In addition, the battery 303 is not fixed but is detachable.

FIG. 4 illustrates a method of filtering data input in an analog manner in a piezoelectric sensor according to an embodiment of the present invention.

If the data exceeding the threshold value 401 is filtered first in the analog data 400, a section 402 is generated in each data value. If the maximum value 403 is measured for each section, the number of steps 404 is provided .

5 is a detailed block diagram of a music playback apparatus according to a motion pattern in the healthcare system according to the present invention configured in the smartphone 500. [

In the health care system according to the present invention configured in the smart phone 500, a music playback apparatus according to a movement pattern is largely composed of an application 502 and a user interface 506.

The application 502 includes a communication unit 503, a motion pattern analysis unit 504, and a music playback unit 505.

The user interface 506 consists of a speaker 507 and a screen 508. The communication unit 503 of the application 502 receives the data of the smart shoe 501.

The received data is converted into data that can be processed by the application through the communication unit 503 of the application 502. The motion pattern analysis unit 504 analyzes the motion pattern using the converted data.

The music reproduction unit 505 controls the speed of the music based on the data processed by the motion pattern analysis unit.

The user interface 506 aids in manipulating the application 502.

Here, the operation includes application execution and termination, application setting, music storage, music reproduction, and the like.

The music reproduction unit 505 in the application of the smartphone 500 reproduces corresponding music based on the motion class processed by the motion pattern analysis unit 504. [

Music is reproduced by changing the speed, such as 1x, 1.5x, and 2x, or changing genres such as trot, hip hop, and ballads.

The user interface 506 of the smartphone 500 includes a touch screen, a speaker, and the like, displays operation control of an application and an output value of an application on a screen, and outputs music to a speaker.

6 is a flowchart illustrating an operation procedure of the communication module according to the present invention.

First, analog pressure data is obtained from the piezoelectric sensor (S600)

Then, the threshold value of the acquired data is designated to filter the data (S601)

Then, the number of intervals of the filtered data is measured (S602)

The number of intervals means the number of steps.

Then, the number of steps measured by the smart phone is transmitted using the short distance communication module (S603)

FIG. 7 is a flowchart illustrating a method of playing music according to a movement pattern in the healthcare system according to the present invention.

In order to facilitate understanding of the present invention, the time interval of the input when the user is walking is set to 1 second, 0.7 seconds to fast, 0.5 seconds to jump, and the actual measured value may be different.

First, the number of steps is received from the communication unit. (S700)

The application measures the time at the same time as reception (S701)

Then, the measured time is compared with the previous data to obtain the time difference (S703)

This process is repeated a predetermined number of times (S700 to S705)

In the embodiment of the present invention, the set number of times is repeated five times.

Based on the sum of the time differences obtained by repeating the above five times, the speed or music genre is set, and the music is reproduced in accordance with the set value (S706 to S711)

Here, the ballad, trot, and hip-hop of the genre change are standards for the understanding of the patent, so it is not for the limitation.

In the health care system according to the present invention described above, a music reproducing apparatus and method according to a motion pattern detects a user's movement using smart shoes and reproduces music corresponding to a user's exercise pattern based on the sensed exercise data , And the speed or genre of the music reproduced according to the exercise pattern is automatically changed so that the exercise can be vigorously promoted and the better exercise effect can be obtained.

It is also intended to provide an exercise assisting system that can maximize the exercise effect by increasing the correspondence of the user's exercise pattern and music.

As described above, it will be understood that the present invention is implemented in a modified form without departing from the essential characteristics of the present invention.

It is therefore to be understood that the specified embodiments are to be considered in an illustrative rather than a restrictive sense and that the scope of the invention is indicated by the appended claims rather than by the foregoing description and that all such differences falling within the scope of equivalents thereof are intended to be embraced therein It should be interpreted.

500. Smartphone 501. Smart Shoes
502. Application 503. Communication
504. A motion pattern analyzing unit 505. A music reproducing unit
506. User interface 507. Speaker
508. Screen

Claims

A smart shoe that senses the user's movement and transmits it to a smartphone;
And a smartphone for analyzing a movement pattern using information received from the smart shoe and changing a reproduction speed, a genre, and a music kind of the music according to a movement pattern to provide a music reproduction service to the user A music playback device according to a movement pattern in a health care system.

The smart shoe according to claim 1,
Wherein the local communication module includes a local communication module and the local communication module can be changed to an arbitrary position of the smart shoe and is detachable.

3. The communication system according to claim 2,
A sensor unit for detecting a user's walking,
A communication unit for transmitting sensed data from the sensor unit to a smart phone,
And a battery for supplying operating power to the communication unit and the sensor unit.

The apparatus according to claim 3, wherein the sensor unit of the short range communication module senses a user's motion using a piezoelectric element.

The method of claim 4, wherein the short-
Wherein the analog waveform of the piezoelectric sensor is read and a maximum value is measured in a designated section and the maximum number of times of measurement is calculated for each section by the number of steps.

The communication device according to claim 3,
Wherein the data transmitted from the sensor unit is transmitted to a smartphone through a wireless local area network (WLAN) of a mobile communication terminal, a wifi, and a Bluetooth.

The smartphone of claim 1,
A communication unit for receiving the data transmitted from the smart shoe and converting the received data into data that can be processed by the application;
A motion pattern analyzer for analyzing the motion pattern using the converted data,
And an application executing section that has a music reproducing section for changing a reproduction speed, a genre, and a music type of the music based on the data processed by the motion pattern analysis and reproducing the music.

The smartphone of claim 1,
Wherein the operation control of the application and the output value of the application are displayed on the screen by the user interface including the touch screen and the speaker and the music is output to the speaker.

Obtaining analog pressure data from a piezoelectric sensor of a smart shoe and filtering data based on a set threshold value;
Measuring a maximum value in a section specified by filtering and calculating a maximum number of times of measurement for each section as a number of steps;
Transmitting a measured number of steps to a smartphone using a short distance communication module;
Receiving a step number from the smartphone and measuring time simultaneously with reception;
Comparing the measured time to previous data to obtain a time difference;
Repeating the step of obtaining the time difference by a set number of times compared with the time measurement and the previous data;
Setting a speed or a genre of music on the basis of the sum of the time differences obtained repeatedly, and reproducing the music according to the set value; and reproducing the music according to the motion pattern in the healthcare system.