KR20200001748A - Monitoring device for guiding sitting posture of user - Google Patents

Abstract

A method for operating a monitoring device for guiding the sitting posture of a user comprises the steps of: acquiring first data obtained by measuring a distance from the back of a chair, on which a user sits, to the user; comparing the first data with pre-registered normal data corresponding to a normal seating posture of the user, and determining whether the first data is out of an error range set on the basis of the normal data; determining, as a bad sitting posture, a first sitting posture corresponding to the first data when the first data is out of the error range, and generating first guide information guiding the normal sitting posture of the user based on the first data; and transmitting the first guide information to a terminal or the chair of the user.

Description

MONITORING DEVICE FOR GUIDING SITTING POSTURE OF USER}

The present invention relates to a monitoring device for guiding a user's sitting posture and a method of operating the monitoring device.

People who sit long at their desks at home or at work are not easy to maintain their correct posture. If you keep the posture for a long time instead of the correct posture, it may be a symptom of turtle neck or back pain.

Therefore, there is a need for a technique for guiding the correct seating in the chair.

In order to detect a poor seating posture by monitoring the seating posture of the user seated in the chair in real time in the monitoring device.

When the poor sitting posture of the user is detected, the monitoring apparatus generates guide information for guiding the poor sitting posture to the normal sitting posture and provides the terminal to the user's terminal or chair.

It is intended to provide a guide system so that the user can maintain a correct sitting posture continuously.

According to one side, a method of operating a monitoring device for guiding a user's seating posture, the method comprising: obtaining first data measuring a distance from a back of a chair seated by a user to the user; Comparing the first data with normal data corresponding to a normal seating posture of the user registered in advance, and determining whether the first data is out of an error range set based on the normal data; When the first data is out of the error range, the first guide to determine the first sitting posture corresponding to the first data as a bad sitting posture, and to derive the normal sitting posture of the user based on the first data Generating information; And transmitting the first guide information to the terminal or the chair of the user.

According to another aspect, a monitoring device for guiding a user's seating posture, comprising: a communication device for communicating with a chair seated by the user and a terminal of the user; storage; A processor; And a memory configured to store instructions executable by the processor, wherein the processor is further configured to execute the instructions, wherein the processor is configured to transmit first data obtained by measuring a distance from the back of a chair seated by the user to the user. Acquires through and compares the first data with normal data corresponding to a normal seating posture of the user registered in advance, and determines whether the first data is out of an error range set based on the normal data; When the first data is out of the error range, the first guide information for determining the first sitting posture corresponding to the first data as the bad sitting posture and inducing the normal sitting posture of the user based on the first data. Generate the first guide to the terminal or the chair of the user through the communication device; Is, the monitoring device for transmitting the information is provided.

The monitoring device may monitor a user's seating posture in a chair in real time to detect a bad seating posture, and provide guide information for inducing the user's bad seating posture to a normal seating posture to the user's terminal or chair.

In addition, the user can be guided to correctly seat the chair.

The invention can be easily understood by the following detailed description and the accompanying drawings in which reference numerals refer to structural elements.
FIG. 1 is a conceptual diagram illustrating a method of monitoring a seating posture of a user seated in a chair and guiding the user's seating posture to a normal seating posture according to an embodiment.
2A is a flowchart illustrating a method of monitoring a seating posture of a user seated in a chair and guiding the user's seating posture to a normal seating posture according to an embodiment.
2B is a flowchart illustrating a method of registering normal data corresponding to a normal sitting posture of a user, according to an exemplary embodiment.
3 is a detailed block diagram of a monitoring apparatus according to an embodiment.
4 is a flowchart illustrating a method of operating a monitoring apparatus that guides a user's seating posture according to an exemplary embodiment.
5 is a diagram illustrating a detailed configuration of a chair according to an embodiment.
6 is a diagram for describing a process of registering normal data corresponding to a normal sitting posture of a user, according to an exemplary embodiment.
7 to 9 are diagrams for describing a process of providing, by a monitoring apparatus, guide information to a terminal of a user to monitor a user's seating posture and guide the user's seating posture to a normal seating posture according to an embodiment. to be.

Hereinafter, various embodiments will be described in detail with reference to the accompanying drawings. The embodiments described below may be embodied in various different forms. In order to more clearly describe the features of the embodiments, detailed descriptions of matters well known to those skilled in the art to which the following embodiments belong will be omitted.

On the other hand, when a certain configuration is "connected" with another configuration in the present specification, this includes not only 'directly connected', but also 'connected between the other configuration in the middle'. In addition, when one configuration "includes" another configuration, this means that, unless specifically stated otherwise, it may further include other configurations other than the other configuration.

In addition, terms including ordinal numbers such as 'first' or 'second' as used herein may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

1 is a conceptual diagram illustrating a method of guiding a user's seating posture to a normal seating posture by monitoring a seating posture of a user seated in a chair, according to an exemplary embodiment.

The chair 300 may detect a seating motion of the user. The chair 300 may acquire data obtained by measuring a distance between the chair 300 and the user. The chair 300 may transmit the measured data to the terminal 200 of the user. In addition, the user terminal 200 may transmit the measured data to the monitoring device 100. The monitoring device 100 may determine whether the user's sitting posture is a normal sitting posture based on the measured data. When the sitting posture is determined to be a poor sitting posture, the monitoring apparatus 100 may generate guide information for guiding the sitting posture to the normal sitting posture. The monitoring device 100 may transmit the guide information to the terminal 200 or the chair 300 of the user. The terminal 200 of the user may display analysis information analyzing the sitting posture of the user and operation information to be taken by the user. In addition, the chair 300 may output guide information provided as a voice file through a speaker in the chair 300.

2A is a flowchart illustrating a method of monitoring a seating posture of a user seated in a chair and guiding the user's seating posture to a normal seating posture according to an embodiment.

In operation S201, the chair 300 may detect a seating motion of the user. For example, the pressure sensor in the seat plate of the chair 300 may sense the user's seating motion by sensing the pressure applied to the seat plate. In operation S202, the chair 300 may acquire first data by measuring a distance from the backrest to the user through a sensor in the chair 300. For example, a distance measuring sensor measuring a distance at predetermined intervals may be disposed in the back of the chair 300. Each of the distance measuring sensors may obtain first data by measuring a distance from the backrest to the user in a direction parallel to the ground.

In operation S203, the terminal 200 of the user may execute an application that provides guide information of a seated posture. When the user is seated on the chair 300, an application for providing guide information of the seated posture in the user's terminal 200 may be automatically or manually executed. In operation S204, the terminal 200 of the user may receive first data from the chair 300. The user terminal 200 may record the first data in a space that manages data corresponding to the seated posture of the user in the application. In operation S205, the user terminal 200 may transmit the first data to the monitoring apparatus 100. Data stored through the application may be transmitted to the monitoring device 100.

In operation S206, the monitoring apparatus 100 may compare the first data with the normal data corresponding to the normal seating posture, and determine whether the first data is out of an error range set based on the normal data.

In operation S207, when the first data is out of the error range, the monitoring apparatus 100 may monitor whether the user's sitting posture does not correspond to the normal sitting posture continuously for a predetermined time.

In operation S208, the monitoring apparatus 100 may determine whether the user's sitting posture is a poor sitting posture based on the monitoring result. For example, when the measured data is out of the error range in all or half of a predetermined time, the monitoring apparatus 100 may determine the user's sitting posture as a poor sitting posture.

In operation S209, when the seating posture is determined to be a poor seating posture, the monitoring apparatus 100 may generate first guide information for inducing a normal seating posture. For example, the first guide information may include analysis information analyzing the sitting posture of the user, operation information to be taken by the user based on the analysis information, and the like.

In operation S210, the monitoring apparatus 100 may transmit first guide information to the terminal 200 of the user. In operation S211, the user terminal 200 may output first guide information.

In operation S212, the monitoring apparatus 100 may transmit first guide information to the chair 300. Here, the first guide information may be provided as a voice file. In operation S213, the chair 300 may output first guide information. For example, the chair 300 may output first guide information provided as a voice file through a speaker.

2B is a flowchart illustrating a method of registering normal data corresponding to a normal sitting posture of a user, according to an exemplary embodiment.

In operation S221, the terminal 200 of the user may execute an application that provides guide information of a seated posture.

In operation S222, the terminal 200 of the user may receive basic information of the user. Here, the basic information may be information about a gender, age, weight, height, etc. of the user, but is not limited thereto.

In operation S223, the terminal 200 of the user may transmit basic user information to the monitoring apparatus 100. In operation S224, the monitoring apparatus 100 may register basic user information.

In operation S225, the chair 300 may detect a seating motion of the chair 300 of the user. In operation S226, the chair 300 may acquire first reference data by measuring a distance from the backrest to the user while the user is seated on the chair 300 in a normal seating state. In operation S227, the chair 300 may transmit the first reference data to the terminal 200 of the user.

In operation S228, the terminal 200 of the user may store first reference data. In operation S229, the user terminal 200 may transmit the first reference data to the monitoring apparatus 100.

In operation S230, the monitoring apparatus 100 may register the first reference data as normal data corresponding to the sitting position.

3 is a detailed block diagram of a monitoring apparatus according to an embodiment.

Referring to FIG. 3, the monitoring device 100 may include a communication device 310, a storage 320, a processor 330, and a memory 340. Not all illustrated components are essential components. The monitoring device 100 may be implemented by more components than the illustrated components, and the monitoring device 100 may be implemented by fewer components. Hereinafter, the components will be described.

The communication device 310 may communicate with an external device. Here, the external device may be a user terminal 200 and a chair 300. The communication device 310 may include a communication module supporting one of various wired and wireless communication methods. For example, the communication module may be in the form of a chipset, or may be a sticker / barcode (e.g. a sticker including an NFC tag) including information necessary for communication. In addition, the communication module may be a short range communication module or a wired communication module.

The communication device 310 may be, for example, a wireless LAN, a wireless fidelity (Wi-Fi), a Wi-Fi Direct, a Bluetooth, a universal serial bus (USB), a wired lan, or an NFC (Near). Field communication).

The processor 330 may execute instructions stored in the memory 340. The processor 330 may perform overall control of the monitoring device 100 that guides a user's sitting posture. The processor 330 may obtain information and a request received through the communication device 310 and store the received information in the storage 320. In addition, the processor 330 may process the received information or data.

For example, the processor 330 may receive basic information of the user, data corresponding to a seating posture, and normal data corresponding to a normal seating posture through the communication device 310 from each terminal of the plurality of users. The processor 330 may store the basic information about each of the plurality of users, data corresponding to a seating posture, and normal data corresponding to a normal seating posture.

In addition, the storage 320 may store software, data, and information necessary for the monitoring apparatus 100 to provide information for guiding a user's seating posture. For example, the storage 320 may store a program, an application, and various data related to an operation of monitoring a seating posture of a user executed in the monitoring apparatus 100 and generating guide information based on the monitoring result.

The processor 330 may obtain first data obtained by measuring a distance from the back of the chair 300 where the user is seated to the user. Here, the first data may be data in which the distance from the backrest to the user is measured in the direction from the cervical spine to the lumbar spine through a plurality of sensors mounted on the backrest of the chair 300 at predetermined intervals.

The processor 330 may compare the first data with the normal data corresponding to the normal sitting posture of the registered user. The processor 330 may determine whether the first data is out of an error range set based on the normal data according to the comparison result. For example, the error range may range within 5% based on the value in the normal data.

When the first data is out of the error range, the processor 330 may determine the first seating posture corresponding to the first data as the bad seating posture. The processor 330 may generate first guide information for inducing a normal seating posture of the user based on the first data.

In detail, the processor 330 may detect first sub data out of an error range among the first data, and predict the first seating posture based on the first sub data. The processor 330 may generate analysis information analyzing the first sitting posture and operation information that the user should take to guide the first sitting posture to the normal sitting posture.

For example, the analysis information analyzing the first seating posture may include information comparing the first data corresponding to the first seating posture and the normal seating data corresponding to the normal seating posture, information indicating a problem of the first seating posture, And it may include at least one of the holding time information of the first sitting posture.

Also, for example, the motion information to be taken by the user may include at least one of neck motion, back motion, hip motion, leg motion, and arm motion of the user to change from the first seated posture to the normal seated posture. Can be.

When the first data is out of the error range, the processor 330 may monitor whether the user's sitting posture does not correspond to the normal sitting posture for a predetermined time.

In detail, the processor 330 may continuously acquire a plurality of data obtained by measuring a distance from the back of the chair 300 to the user for a predetermined time. The processor 330 may calculate an average sub data of each sub data matched in the plurality of data. The processor 330 may obtain average data representing a sitting posture of the monitored user for a predetermined time, based on the average sub data. The processor 330 may determine whether the average data is out of an error range set based on the normal data.

The processor 330 may determine whether the user's sitting posture is a poor sitting posture based on the monitoring result.

In addition, the processor 330 may acquire second data of detecting a position at which the user is seated on the seat plate through a plurality of sensors mounted on the seat plate of the chair 300 at predetermined intervals. The processor 330 may determine whether the first seated posture is a left / right balance posture based on the second data, and determine whether the first seated posture is a poor seated posture. If the first seated posture is a poor seated posture, the processor 330 may generate second guide information for inducing a normal seated posture of the user based on the second data.

In addition, the processor 330 determines whether each of the first data and the second data is data within an error range set based on the first normal data corresponding to the first data and the second normal data corresponding to the second data. The user may determine whether the user's sitting posture is a poor sitting posture. When the user's seating posture is determined as the bad seating posture, the processor 330 may generate guide information for inducing the user's normal seating posture based on the data out of the error range.

In addition, the processor 330 may accumulate and collect data on a seated posture of the user. The processor 330 may generate information about the sitting posture of the user analyzed based on the accumulated data, and health content information for guiding the user's sitting posture to the normal sitting posture. The processor 330 may transmit the user's sitting posture information and health content information to the user's terminal 200.

The processor 330 may acquire first reference data measuring a distance from the backrest to the user in a state where the user is seated on the chair 300 in a normal sitting posture. The processor 330 may register the first reference data as normal data corresponding to the normal seating posture.

The memory 340 may store a program, data, or file associated with the monitoring device 100. The processor 330 may execute a program stored in the memory 340, read data or a file stored in the memory 340, or store a new file in the memory 340. The memory 340 may store program instructions, data files, data structures, and the like, alone or in combination. The memory 340 may store instructions executable by the processor 330.

The monitoring apparatus 100 may have the same configuration as a conventional web server, a web application server, a web application server, or a WAP server. The monitoring device 100 may include a program module implemented in software such as C, C ++, Java, PHP, .Net, Python, Ruby, and the like to perform various functions.

In addition, the monitoring device 100 uses a server program that is variously provided according to operating systems such as DOS, Windows, Linux, UNIX, Macintosh, and the like for general server hardware. A typical example may be a website used in a Windows environment, a website used in a Windows environment, an Internet Information Server (IIS), and an Apache used in a UNIX environment, a Nginx, a Light HTTP, and the like.

Hereinafter, various operations or applications performed by the monitoring device 100 will be described. Specific configurations of the communication device 310, the storage 320, the processor 330, and the memory 340 of the monitoring device 100 may be described. Even if not, the contents which can be clearly understood and anticipated by those of ordinary skill in the art can be understood as a typical implementation, and the scope of the monitoring apparatus has a specific configuration name or physical / logical structure. It is not limited by.

4 is a flowchart illustrating a method of operating a monitoring apparatus that guides a user's seating posture according to an exemplary embodiment.

Referring to FIG. 4, in operation S410, the monitoring apparatus 100 may obtain first data measuring a distance from the backrest of the chair 300 to which the user is seated. Here, the first data may be data in which the distance from the backrest to the user is measured in the direction from the cervical spine to the lumbar spine through a plurality of sensors mounted on the backrest of the chair 300 at predetermined intervals.

In operation S420, the monitoring apparatus 100 may compare the first data with normal data corresponding to a normal sitting posture of a user registered in advance, and determine whether the first data is out of an error range set based on the normal data. .

Here, the normal data may be registered in advance in the monitoring device 100. The monitoring apparatus 100 may obtain first reference data measuring a distance from the backrest to the user in a state where the user is seated on the chair 300 in a normal sitting posture. The monitoring apparatus 100 may register the first reference data as normal data corresponding to the normal sitting posture.

In operation S430, when the first data is out of the error range, the monitoring apparatus 100 determines the first sitting posture corresponding to the first data as the poor sitting posture, and based on the first data, the normal sitting posture of the user. First guide information for deriving may be generated.

For example, the monitoring apparatus 100 may detect first sub data out of an error range among the first data, and predict the first seating posture based on the first sub data. The monitoring apparatus 100 may generate analysis information analyzing the first sitting posture and operation information that the user should take to guide the first sitting posture to the normal sitting posture.

For example, if the first data is out of the error range, the monitoring apparatus 100 may monitor whether the user's sitting posture does not correspond to the normal sitting posture continuously for a predetermined time. The monitoring apparatus 100 may continuously obtain a plurality of data obtained by measuring a distance from the back of the chair 300 to the user for a predetermined time. The monitoring apparatus 100 may calculate average sub data of each of the matched sub data in the plurality of data, and obtain average data indicating a sitting posture of the monitored user for a predetermined time, based on the average sub data. The monitoring apparatus 100 may determine whether the average data is out of an error range set based on the normal data. The monitoring device 100 may determine whether the user's sitting posture is a poor sitting posture based on the monitoring result.

As another example, the monitoring apparatus 100 may obtain second data that senses a position where the user is seated on the seat plate through a plurality of sensors mounted on the seat plate of the chair 300 at predetermined intervals. The monitoring apparatus 100 may determine whether the first seated posture is a left-right balance posture based on the second data, and determine whether the first seated posture is a poor seated posture. If the first seating posture is a poor seating posture, the monitoring apparatus 100 may generate second guide information for inducing a normal seating posture of the user based on the second data.

In operation S440, the monitoring apparatus 100 may transmit the first guide information to the terminal 200 or the chair 300 of the user.

On the other hand, the monitoring device 100 may accumulate and collect data on the seated posture of the user. The monitoring apparatus 100 may generate information about the sitting posture of the user analyzed based on the accumulated data, and health content information for guiding the user's sitting posture to the normal sitting posture. The monitoring apparatus 100 may transmit the user's sitting posture information and health content information to the user's terminal 200.

5 is a diagram illustrating a detailed configuration of a chair according to an embodiment.

Referring to FIG. 5, images 510 and 520 of FIG. 5 illustrate a chair 300 that is used to monitor a user's seating posture. Image 510 of FIG. 5 is a front view of chair 300, and image 520 is a side view of chair 300.

The chair 300 may include a plurality of sensors to obtain data related to a user's sitting posture. For example, the chair 300 may include a sensor capable of measuring a distance and a sensor capable of measuring an input, and may further include other types of sensors.

As shown in FIG. 5, the chair 300 may be configured as a leg supporting a neckrest, a backrest, a handle, a seat plate, and a seat plate so that a user may be seated. The chair 300 may be configured by more components than those shown. Meanwhile, the chair 300 further includes a pressure sensor 501, a distance measuring sensor 502, a communication device 503, a power supply 504, and a speaker 505 to detect data related to a seating posture of a user. can do.

The pressure sensor 501 may detect an operation in which the user is seated on the chair 300 by sensing a pressure applied to the chair 300 by the user. The pressure sensor 501 may be disposed below the seat plate as shown in FIG. 5. In addition, the pressure sensor 501 may be arranged in a plurality of dogs at a predetermined interval or a predetermined pattern in the lower portion of the seat plate. Here, the predetermined interval or the predetermined pattern may be determined based on the position of the lower portion of the seat plate corresponding to the position where the user's hips may contact the seat plate. For example, two pressure sensors 501 may be disposed on the left side and two on the right side of the lower portion of the seat plate. The pressure sensor 501 may acquire second data in which the user measures the pressure applied to the seat plate as the user sits on the chair 300. The pressure sensor 501 may transmit the second data to the terminal 200 of the user through the communication device 503. The user terminal 200 may transmit the second data to the monitoring apparatus 100. Here, the second data may be used to determine whether the seated posture of the user is a balanced posture.

As illustrated in FIG. 5, a plurality of distance measuring sensors 502 may be disposed on the backrest at predetermined intervals. Each of the distance measuring sensors 502 may obtain first data obtained by measuring a distance from the backrest to the user in a horizontal direction with the ground. The first data measured by each of the distance measuring sensors 502 may be data in which the distance from the backrest to the user is measured in the direction from the cervical spine to the lumbar spine of the user. The distance measuring sensor 502 may transmit the first data to the terminal 200 of the user through the communication device 503. The user terminal 200 may transmit the first data to the monitoring apparatus 100. Here, the first data may be used to determine whether the upper body is correct in the sitting posture of the user.

The communication device 503 may communicate with an external device. Here, the external device may be a monitoring device 100 for monitoring the user's terminal 200 or the user's seating posture and guiding the seating posture to the normal seating posture. The communication device 503 may include a communication module supporting one of various wired and wireless communication methods. For example, the communication module may be in the form of a chipset, or may be a sticker / barcode (e.g. a sticker including an NFC tag) including information necessary for communication. In addition, the communication module may be a short range communication module or a wired communication module.

The communication device 503 is, for example, a wireless LAN, a wireless fidelity (Wi-Fi), a Wi-Fi Direct, a Bluetooth, a universal serial bus (USB), a wired lan, or an NFC (Near). Field communication).

The power supply device 504 is a device for supplying power to the pressure sensor 501, the distance measuring sensor 502, the communication device 503, and the speaker 505 mounted in the chair 300. The power supply device 504 may supply power required for each component in the chair 300 to control each component to operate smoothly.

The chair 300 may receive guide information for inducing a normal seating posture of the user from the monitoring device 100. Here, the guide information may be provided as a voice file. The speaker 505 may output guide information provided as a voice file.

6 is a diagram for describing a process of registering normal data corresponding to a normal sitting posture of a user, according to an exemplary embodiment.

Since each of the plurality of users differs in gender, age, weight, and height, the normal data corresponding to the normal sitting posture for each of the plurality of users may be different. Patterns of normal data for each of the plurality of users may be similar, but specific values may be different. Therefore, the monitoring apparatus 100 may register the normal data corresponding to the normal sitting posture with respect to each of the plurality of users.

As shown in image 610 of FIG. 6, a user may be seated on chair 300 in a normal sitting posture. The sensor in the chair 300 may acquire data in a state of a normal sitting posture of the user. For example, the distance measuring sensor may obtain the first reference data 601 by measuring the distance from the backrest of the chair 300 to the user in a direction parallel to the ground. Specifically, the distance measuring sensors disposed at regular intervals in the direction of the cervical spine to the lumbar spine in the back of the chair 300 may measure the distance from the backrest to the user in a horizontal direction with the ground. As another example, the pressure sensor may measure the pressure applied by the user to the seat plate of the chair 300 to obtain second reference data. Specifically, the pressure sensors disposed in the lower portion of the seat plate of the chair 300 in a predetermined interval or a predetermined pattern may measure the pressure at the position where the pressure sensors are located. The chair 300 may transmit the first reference data 601 and the second reference data measured based on the normal seating posture to the terminal 200 of the user. In addition, the user terminal 200 may transmit the first reference data 601 and the second reference data to the monitoring apparatus 100. The monitoring apparatus 100 may register each of the first reference data 601 and the second reference data as the first normal data 601 and the second normal data corresponding to the normal sitting posture of the user.

The graph 620 of FIG. 6 illustrates first normal data corresponding to a normal sitting posture of a user. That is, the graph 620 represents the distance from the backrest to the user according to the position changed from the cervical spine to the lumbar spine based on the first normal data.

7 to 9 are diagrams for describing a process of providing, by a monitoring device, guide information to a user's terminal to monitor a user's seating posture and guide the user's seating posture to a normal seating posture according to an embodiment. to be.

7 is a diagram illustrating an example in which a monitoring apparatus 100 extends an upper body to detect a bad seating posture of a user who reads a book, and guides information to guide the bad seating posture into a normal seating posture of the user's terminal 200. Is a view for explaining the process provided by).

Referring to the image 710 of FIG. 7, the user is reading a book in a first sitting position in which the upper body is pushed forward from the chair 300. The sensor in the chair 300 may obtain first data 701 which measures the distance from the backrest of the chair 300 to the user. The monitoring device 100 may obtain the first data 701.

The graph 720 of FIG. 7 illustrates first data 701 corresponding to the first sitting posture of the user. That is, the graph 720 shows the distance from the backrest to the user based on the position of the cervical spine to the lumbar spine based on the first data 701.

The monitoring apparatus 100 may compare the first data 701 with the normal data corresponding to the normal sitting posture of the user. As a result of the comparison, the monitoring apparatus 100 may determine the first sitting posture corresponding to the first data 701 as the poor sitting posture.

The image 730 of FIG. 7 illustrates the terminal 200 of the user receiving and displaying guide information for guiding the first seated posture from the monitoring apparatus 100 to the normal seated posture. As shown in FIG. 7, the terminal 200 of the user may image and display a recent seating posture of the user. In addition, the terminal 200 of the user may display analysis information regarding the recent seating posture. The terminal 200 of the user may display information indicating the remaining time until the user's sitting time and rest time. In addition, the user terminal 200 may display information indicating the correct posture maintenance rate of the user.

8 is a diagram of a terminal for detecting a poor seating posture of a user reading a book in a state in which the monitoring device 100 leans forward and guides the guide information for inducing the poor seating posture to a normal seating posture according to an embodiment. 200 is a view for explaining a process provided.

Referring to the image 810 of FIG. 8, the user is reading a book in a second seated position in which the head is bowed forward from the chair 300. The sensor in the chair 300 may obtain first data 801 which measures the distance from the backrest to the user. The monitoring device 100 may obtain the first data 801.

The graph 820 of FIG. 8 illustrates the first data 801 corresponding to the second sitting posture of the user. That is, the graph 820 represents the distance from the backrest to the user according to the position changed from the cervical spine to the lumbar spine based on the first data 801.

The monitoring apparatus 100 may compare the first data 801 with the normal data corresponding to the normal sitting posture of the user. As a result of the comparison, the monitoring apparatus 100 may determine the second sitting posture corresponding to the first data 801 as the poor sitting posture.

The image 830 of FIG. 8 illustrates the terminal 200 of the user for receiving and displaying guide information for guiding the second sitting posture to the normal sitting posture from the monitoring apparatus 100. As shown in FIG. 8, the terminal 200 of the user may compare the normal seating posture with the current seating posture and display the compared data. For example, the terminal 200 of the user is changed from the cervical spine of the user to the lumbar spine for each of the normal data corresponding to the normal sitting posture and the first data 801 corresponding to the second sitting posture which is the current sitting posture. Depending on the location, a graph representing the distance from the backrest to the user may be shown. In addition, the user terminal 200 may display information indicating a problem of the second seated posture. In addition, the terminal 200 of the user may display the health content information for guiding the second sitting posture to the normal sitting posture. For example, the user terminal 200 may display a stretching video.

FIG. 9 illustrates that the monitoring apparatus 100 detects a poor seating posture of a user who reads a book by tilting the upper body without attaching the hip to the chair 300, and inducing the poor seating posture into a normal seating posture. A diagram for describing a process of providing guide information for a user terminal 200.

Referring to the image 910 of FIG. 9, the user is reading a book in a third sitting position in which the upper body is tilted backward without attaching the hips to the chair 300. The sensor in the chair 300 may acquire first data 901 which measures the distance from the backrest of the chair 300 to the user. The monitoring device 100 may obtain the first data 901.

The graph 920 of FIG. 9 illustrates first data 901 corresponding to the third sitting posture of the user. That is, the graph 920 represents the distance from the backrest to the user according to the position of the user's cervical spine to the lumbar spine based on the first data 901.

The monitoring apparatus 100 may compare the first data 901 with the normal data corresponding to the normal sitting posture of the user. As a result of the comparison, the monitoring apparatus 100 may determine the third sitting posture corresponding to the first data 901 as the poor sitting posture.

The image 930 of FIG. 9 illustrates the terminal 200 of the user for receiving and displaying guide information for guiding the third seating posture from the monitoring apparatus 100 to the normal seating posture. As illustrated in FIG. 9, the terminal 200 of the user may compare the normal seating posture with the third seating posture and display the compared data. In addition, the terminal 200 of the user may display a problem due to the third sitting posture and information for solving the problem.

Although the embodiments have been described by the limited embodiments and the drawings as described above, various modifications and variations are possible to those skilled in the art from the above description. For example, the described techniques may be performed in a different order than the described method, and / or components of the described systems, structures, devices, circuits, etc. may be combined or combined in a different form than the described method, or other components. Or even if replaced or substituted by equivalents, an appropriate result can be achieved.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

Claims (10)

In the operation method of the monitoring device to guide the user's seating posture,
Acquiring first data obtained by measuring a distance from the back of the chair seated by the user to the user;
Comparing the first data with normal data corresponding to a normal seating posture of the user registered in advance, and determining whether the first data is out of an error range set based on the normal data;
When the first data is out of the error range, the first guide to determine the first sitting posture corresponding to the first data as a bad sitting posture, and to derive the normal sitting posture of the user based on the first data Generating information; And
And transmitting the first guide information to the user's terminal or the chair. The method of claim 1,
The first data is,
And a distance from the backrest to the user in the direction from the cervical spine of the user to the lumbar vertebrae through a plurality of sensors mounted on the backrest of the chair at predetermined intervals. The method of claim 1,
Generating first guide information for inducing a normal seating posture of the user based on the first data,
Detecting first sub data out of the error range among the first data, and predicting the first seating posture based on the first sub data; And
Generating analysis information analyzing the first seating posture and operation information to be taken by the user to guide the first seating posture to the normal seating posture. The method of claim 1,
Acquiring first reference data measuring a distance from the backrest to the user in a state where the user is seated on the chair in the normal sitting posture, and the first reference data corresponds to the normal sitting posture. The method further comprises the step of registering with, the operation of the monitoring device. The method of claim 1,
If the first data is out of the error range, determining the first seating posture corresponding to the first data as the bad seating posture,
If the first data is out of the error range, monitoring whether the sitting posture of the user does not correspond to the normal sitting posture continuously for a predetermined time; And
And determining whether the user's seated posture is the bad seated posture based on a monitoring result. The method of claim 5,
Monitoring whether the user's sitting posture consistently with the normal sitting posture for a predetermined time,
Continuously acquiring a plurality of data obtained by measuring a distance from the back of the chair to the user during the predetermined time;
Calculating average sub data of each of the matched sub data in the plurality of data, and obtaining, based on the average sub data, average data representing a seating posture of the user monitored during the predetermined time; And
And determining whether the average data is out of the error range set based on the normal data. The method of claim 3,
The analysis information which analyzed the said 1st sitting posture,
Information comparing the first data corresponding to the first seating posture and the normal seating data corresponding to the normal seating posture, information indicating a problem of the first seating posture, and the time information of the first sitting posture At least one of
Action information to be taken by the user,
And information related to at least one of a neck motion, a back motion, a hip motion, a leg motion, and an arm motion of the user to change from the first seated posture to the normal seated posture. The method of claim 1,
Acquiring second data of a position at which the user is seated on the seat plate through a plurality of sensors mounted at predetermined intervals on the seat plate of the chair;
Determining whether the first seated posture is the poor seated posture by determining whether the first seated posture is a left-right balance posture based on the second data; And
If the first seated posture is the bad seated posture, generating second guide information for inducing a normal seated posture of the user, based on the second data. The method of claim 1,
Accumulating and collecting data on a seated posture of the user;
Generating information about the seated posture of the user analyzed based on the accumulated data, and health content information for guiding the seated posture of the user to the normal seated posture; And
And transmitting the information of the seated posture of the user and the health content information to the terminal of the user. In the monitoring device to guide the user's seating posture,
A communication device configured to communicate with a chair seated by the user and the terminal of the user;
storage;
A processor; And
A memory storing instructions executable by the processor,
The processor executes the instructions,
Acquiring, via the communication device, first data measuring a distance from the back of the chair seated by the user to the user,
Comparing the first data with normal data corresponding to a normal seating posture of the user registered in advance, and determining whether the first data is outside an error range set based on the normal data,
When the first data is out of the error range, the first guide to determine the first sitting posture corresponding to the first data as a bad sitting posture, and to derive the normal sitting posture of the user based on the first data Generate information,
And transmitting the first guide information to the terminal or chair of the user through the communication device.

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