KR101665774B1 - System for sleep posture tracking - Google Patents

Abstract

The present invention relates to a sleeping posture detection system that enables detection and simulation of a sleeping posture of a user without image capturing and analysis, and enables diagnosis of a sleeping disorder through the detection and simulation.

Description

[0001] SYSTEM FOR SLEEP POSTURE TRACKING [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sleeping posture detecting system, and more particularly, to a sleeping posture detecting system capable of detecting and simulating a sleeping posture of a user without imaging and analyzing images, .

As interest in health has increased recently, interest in sleep disorders has also increased. Sleep disturbance is a very broad concept with a variety of symptoms, including not being able to take a healthy sleep, being unable to maintain an awakening during the day despite having adequate sleep, or having difficulty sleeping or awake when the sleep rhythm is disturbed have.

According to a study published in the European Journal of Cardiology at the University of Warwick, Daily Mail reported that long-term sleep deprivation increases the risk of stroke or heart disease. According to Professor Capelichio, who led the study, The researchers found that if they do not sleep for more than an hour, they die of heart disease, have a 48 percent higher risk of heart disease, and 15 percent more likely to die from stroke or stroke. have.

In order to accurately diagnose such a sleep disorder, specialist physician's questionnaire is essential. Especially, nighttime sleeping polygraphy is used as the most basic and important test item. For this purpose, the user is required to sleep in a sleeping room And a comprehensive review of the

In this case, since there is no choice but to visit a medical institution equipped with equipment for taking a sleep image, not only the hassle of moving but also a sensitive user can not reproduce the sleeping situation in the bedroom in the usual way due to the change of the sleeping environment. There was a problem that was difficult to get.

In addition, since the sleeping image is generally taken to detect and track the user's sleeping posture, it is troublesome to analyze the sleeping image taken for a relatively long time through direct confirmation, and there is a burden such as personal privacy and body exposure .

Accordingly, it is possible to provide posture information by measuring the sleeping posture in real time for users who need to be diagnosed without visiting an institution for examination in general homes and various nursing homes, and if necessary, diagnoses and prescriptions in connection with medical institutions such as hospitals A system was required to receive.

Korean Patent No. 10-0738510 (2007.07.11 Announcement)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a sleeping posture detection system capable of detecting and analyzing a sleeping posture in the same environment as usual without separately capturing images and moving a place .

Another object of the present invention is to provide a sleeping position detection system capable of checking the sleeping position and updating the algorithm for calculating the attitude information through a remote control server having a specialist and being able to receive information on the correct sleeping attitude and sleeping environment The purpose.

In order to achieve the above object, according to the present invention, there is provided a sleeping position detection system comprising: a plurality of pressure sensors having a user's sleeping surface on an upper side and horizontally disposed on an inner side; a plurality of temperature sensors horizontally disposed on the inner side; And a first communication unit for receiving and transmitting control signals of the pressure sensor and the temperature sensor and transmitting measured values of the pressure sensor and the temperature sensor; A second communication unit for transmitting and receiving data and control signals to and from the first communication unit; a third communication unit for connecting and receiving data to and from the broadband communication network; a first interface unit for receiving body information and control signals from a user, A distribution information generating unit for generating distribution information through the measurement value received through the second communication unit, a simulation unit for generating attitude information according to a time flow through the body information and distribution information, A controller for selectively outputting posture information through the first interface unit or transmitting the posture information through the third communication unit; .

A second interface for receiving prescription information and a control signal from an administrator and outputting a processing signal, and a controller for storing corresponding posture information corresponding to various body information and distribution information A second database in which distribution information and attitude information received through the fourth communication unit are cumulatively stored for each user, and a second database in which distribution information and attitude information retrieved via the second database are analyzed And transmits the corresponding posture information retrieved from the first database and the prescription information and analysis information to the controller through the fourth communication unit with respect to the body information and distribution information received through the fourth communication unit A control server having a second control unit for controlling the first control unit; And the simulation unit is configured to reflect the corresponding attitude information received through the third communication unit in the generated attitude information.

The controller may further include a reference setting unit for generating the reference information through the distribution information and the setting signal input through the first interface unit, wherein the simulation unit reflects the reference information on the basis of the attitude information generation criterion, 1 control unit is configured to transmit the reference information to the third communication unit and the second control unit is configured to combine the reference information received through the fourth communication unit with the attitude information stored in the first database Do.

In addition, the mat may further include a plurality of light emitting units arranged in a pattern set in an inner side and configured to emit light upward, and the first control unit may include a control signal for selectively lighting the light emitting unit To the second communication unit.

The mat preferably comprises a cushion layer of a fibrous material and a wire layer having a lattice structure having a plurality of through holes inside the cushion layer, wherein the pressure sensor has one end fixed to the wire layer in the through- And is preferably provided at the other end of the elastic body.

According to the present invention, it is possible to detect the sleeping posture comfortably in the bedroom of the self without visiting the facility equipped with the sleeping test equipment, and accurate attitude detection and analysis can be performed in a relaxed state while reducing the trouble.

Especially, it is possible to reduce burden on privacy and body exposure due to not being photographed, and it is possible to easily update the information generation algorithm and receive diagnostic results and prescriptions from experts through a remote control server.

1 is a conceptual diagram according to a preferred embodiment of the present invention;
2 is an exploded perspective view showing an internal structure of a mat according to a preferred embodiment of the present invention,
3 is a block diagram illustrating a configuration and a connection relationship according to a preferred embodiment of the present invention.
4 is a block diagram illustrating a configuration and a connection relationship according to another embodiment of the present invention.
5 is a perspective view illustrating an operation state of a light emitting unit according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the configuration of a sleeping position detection system of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a conceptual diagram according to a preferred embodiment of the present invention. FIG. 3 is a block diagram illustrating a configuration and connection relationship according to a preferred embodiment of the present invention. The present invention basically comprises a mat 110 and a controller 120 And the control server 130 is added, so that integrated data management and updating and expert support are provided.

In the present invention, the mat 110 can be easily installed in a user's bedroom in the same form as a normal rug, and can set reference information as described later. Therefore, the mat 110 is not only a hard floor such as a floor heating floor Bed, etc., so that the user can more accurately detect the sleeping posture in the same sleeping environment as usual.

In addition, the mat 110 has only a relatively simple structure inside of the same material as that of a normal rug, that is, a plurality of pressure sensors 115, a temperature sensor 116, and a first communication unit 118.

The plurality of pressure sensors 115 are small-sized pressure sensors arranged horizontally inside the mat 110 to measure a load applied from a user located above the mat 110, It is possible to detect a precise attitude according to the complexity and manufacturing cost of the measurement data measured by each pressure sensor 115 and the specifications of the width and length of the mat 110, The sensors are installed at appropriate intervals. At this time, since the present invention detects motion during the user's sleeping, it is preferable to dispose the pressure sensors 115 at regular intervals in a lattice form.

Like the plurality of pressure sensors 115, the temperature sensor 116 is horizontally disposed inside the mat 110 and measures a body temperature applied by a user located above the mat 110. The temperature sensor 116 measures the temperature of the pressure sensor 115, A space or an error due to the limitation of the installation interval is integrated with the posture of the user detected through the temperature and the posture is more accurately detected.

The first communication unit 118 receives control signals of the pressure sensor 115 and the temperature sensor 116 from the controller 120 and outputs the measured values of the pressure sensor 115 and the temperature sensor 116 Controller 120, and may be composed of a wired cable and a connector, or may be a short-range wireless communication module such as Bluetooth.

When the wire system is used, power required for the operation of the pressure sensor 115 and the temperature sensor 116 can be supplied from the controller 120 through the cable constituting the first communication unit 118, The mat 110 is provided with a separate power source. FIG. 1 illustrates transmission and reception of data and signals between the mat 110 and the controller 120 through a wireless communication scheme. An appropriate method can be selectively used according to a user's request.

FIG. 2 is an exploded perspective view showing an internal structure of a mat according to a preferred embodiment of the present invention. The mat 110 preferably includes a cushion layer 111 and a wire layer 112.

The cushion layer 111 is a layer of a fiber material constituting the entire body of the mat 110, and has the same structure as a normal mat. In general, since the mat 110 is made of a soft fiber material, a fine movement of height and position occurs when the pressure sensor 115 is disposed in the fiber. As a result, Lt; / RTI >

To this end, the wire layer 112 is positioned between the inner side upper cushion layer and the lower cushion layer of the mat 110 to function for positioning and installing the plurality of pressure sensors 115. The wire layer 112 preferably has a lattice structure and a through hole 113 is formed in a portion where the pressure sensor 115 is to be positioned, and is preferably made of a material having a low elastic strain.

A spring-shaped elastic body 114 is provided in the through hole 113 and the pressure sensor 115 is installed in the middle of the other end of the elastic body 114 fixed in the through hole 113 .

The pressure sensor 115 is prevented from moving in the left and right direction through the above-described structure, so that the pressure distribution can be always measured under the same conditions. When a load is applied to the upper side due to the action of the elastic body 114, So that even if the pressure sensor has a small size, it is possible to minimize the inconvenience or foreign object due to the pressure sensor 115 when the user lies on the mat 110.

Unlike the pressure sensor 115, the temperature sensor 116 is installed at a proper position of the wire layer 112 rather than the through-hole 113 because the variation of the measurement value is small due to a small change in the vertical height. The wires connecting the pressure sensor 115 and the temperature sensor 116 to the first communication unit 118 are installed below the lattice portion of the wire layer 112 so that the user can feel Discomfort can be eliminated.

The controller 120 is configured to detect and output an attitude of the user by using the measured data from the mat 110, that is, the plurality of pressure sensors 115 and the temperature sensor 116, and the second communication unit 121 The third communication unit 122, the first interface unit 123, the distribution information generation unit 124, the simulation unit 125, and the first control unit 127, as shown in FIG.

At this time, the controller 120 may be manufactured in a customized form together with the mat 110, but may be implemented through a commercial terminal and an application having a communication function, a data processing function, and an input / output function. In particular, when a smart phone or a smart pad having recently been widely used including a computer is used, the user will be able to use the present invention at a relatively low cost by using the mat 110 and the application substantially.

The second communication unit 121 is configured to transmit and receive data and control signals to and from the first communication unit 118. As mentioned above, when the wired communication system is used, the second communication unit 121 is connected to the mat 110, When the wireless communication method is used, the wireless communication module is composed of the same wireless communication module as the first communication unit 118, and data and signals are transmitted / received through the pairing method. At this time, it is possible to use various short-range wireless communication modules such as Bluetooth or Wi-fi, which are widely used recently, and preferably a Bluetooth module which is a short-range wireless communication module supported by a general smart phone or a smart pad.

The third communication unit 122 is a communication module that connects to a broadband communication network such as an Internet network or a cellular phone communication network such as 3G / 4G to transmit and receive data, and a unique ID for identifying the controller during data transmission and reception is given .

The first interface unit 123 is input / output means for receiving body information and a control signal from a user and outputting a processing signal. When the controller 120 is in the form of a computer, the first interface unit 123 may include a keyboard, a mouse, and a monitor , It is possible to integrate the input means and the output means integrally through the touch screen which is actively spreading recently. The body information is basic information necessary for the attitude detection such as the body height or the weight of the user and is different from the load distribution applied to the plurality of pressure sensors 115 according to the physical condition of the user lying on the mat 110 Body information such as the user's height, weight, chest circumference, hip circumference, and disability type is input in advance through the first interface unit 123. FIG.

The distribution information generating unit 124 is configured to generate distribution information on the pressure and the temperature through the pressure and temperature values measured through the plurality of pressure sensors 115 and the temperature sensor 116, 115 and the temperature sensor 116, and generates a distribution diagram indicating a load and a temperature distribution applied to the entire mat 110 according to a time sequence.

The simulation unit 125 is configured to generate posture information according to a time flow through the body information input through the first interface unit 123 and the distribution information generated through the distribution information generation unit 124, Specifically, the shape of the user's body contour is reproduced based on the body information and has a ratio appropriate to the specification of the first interface unit 123. The change of the body contour shape according to the time is visualized as continuous operation information .

For this, the simulation unit 125 includes an algorithm for forming a body contour image according to the first inputted body information, a load and a temperature distribution, and a body contour image change according to a change in load and temperature distribution.

The first control unit 127 corresponds to the MCU of the controller 120 and receives power to generate the distribution information from the second communication unit 121, the third communication unit 122, the first interface unit 123, The first interface unit 123 selectively controls the distribution unit 124 and the simulation unit 125 and distributes the distribution information generated by the distribution information generation unit 124 and the posture information generated by the simulation unit 125, Or transmits it to the control server 130 through the third communication unit 122.

In addition, the first control unit 127 controls the operation of the basic controller through the control signal input through the first interface unit 123, and the user controls the operation of the simulation unit 125 The control unit 120 can input the control signal to the first interface unit 123 to selectively confirm the operation information according to the time flow.

FIG. 4 is a block diagram illustrating a configuration and a connection relationship according to another embodiment of the present invention, including a control server 130 for receiving support from an expert including integrated management of measurement results and updating of algorithms, A configuration for generating reference information is added. In the following description, the same components as those in the preferred embodiment of the present invention will not be described in detail.

First, the control server 130 is installed in a remote place where a manager such as a medical institution and a specialist are located and supports a user remotely. The control server 130 includes a fourth communication unit 131, a second interface unit 132, 133, a second database 134, an analysis unit 135, and a second control unit 136.

The fourth communication unit 131 is the same communication module as the third communication unit 122 and is configured to transmit and receive data to and from the third communication unit 122.

The second interface unit 132 is an input / output unit of the control server 130. The second interface unit 132 receives the prescription information and the control signal from the administrator and outputs a processing signal. The second interface unit 132 can be implemented as a normal keyboard, a mouse, and a monitor. The prescription information is information about a user who is an expert who is knowledgeable about a sleeping disorder, etc., after confirming the distribution information and attitude information transmitted from the controller 120 of the user through the second interface unit 132, A control signal is a control signal for control of various functions of the control server 130. The control signal is a control signal for controlling various functions of the control server 130. [

The first database 133 is configured to store corresponding posture information corresponding to various body information and distribution information. The first database 133 stores posture information on body information and distribution information on a standard body size, that is, Since the information is stored in advance, continuous updating can be performed through processing of information transmitted from various users and information collected by experiments.

The second database 134 is configured such that distribution information and attitude information received through the fourth communication unit 131 are accumulated for each user and stored. And accumulates and stores the distribution information and the attitude information of the first embodiment.

The analysis unit 135 generates analytic information for each user based on the distribution information and the attitude information loaded through the second database 134. The analyzing unit 135 analyzes the distribution information and attitude information according to time, It includes summarized information that can be easily identified by the administrator, such as the ratio of how much time is maintained in what attitude.

The second control unit 136 corresponds to the MCU of the control server 130 and basically includes the fourth communication unit 131, the second interface unit 132, the first database 133, 134 and the analysis unit 135 and controls the corresponding posture information retrieved from the first database 133 and the prescription information and analysis information for the body information and distribution information received through the fourth communication unit 131 To the controller (120) through the fourth communication unit (131).

At this time, the simulation unit 125 of the controller 120 reflects the corresponding attitude information received through the third communication unit 122 in the generated attitude information, As shown in FIG.

In addition, in another embodiment of the present invention, the controller 120 further includes a reference setting unit 126 that generates reference information through the distribution information and the setting signal input through the first interface unit 123 do.

That is, when the simulation unit 125 generates the posture information through the body information input through the first interface unit 123 and the distribution information generated through the distribution information generation unit 124, The posture information generated by the user during the sleep will also be inaccurate. Therefore, when the user is lying on the mat 110 in a correct posture, a setting signal is transmitted through the first interface unit 123 And the posture information is continuously generated on the basis of the posture information generated based on the reference. In addition, according to the place where the mat 110 is installed, such as a situation where the floor condition such as the floor of the ondol is different through the mood setting unit 126, the change of distribution information about the warping of the mat The reference information is generated so that accurate attitude information is generated.

Then, the simulation unit 125 reflects the reference information on the basis of the attitude information generation criterion, and the first control unit 127 transmits the reference information to the control server 130 through the third communication unit 122 The second control unit 136 stores the reference information received through the fourth communication unit 131 in association with the attitude information stored in the first database 133 and stores the combined information.

In order to assist the above, the mat 110 has a plurality of light emitting portions 117 (light emitting portions) arranged in a pattern set on the inner side, specifically, on the wire layer 112 and configured to emit light to the outside of the upper side of the mat 110 ).

FIG. 5 is a perspective view illustrating an operation state of the light emitting unit according to another embodiment of the present invention, wherein the light emitting unit 117 can display a straight line or a curved line when continuously lighting the adjacent light emitting unit, And the like. At this time, it is possible to display a person shape different in size step by step according to the height of a person, so that it can be laid on a display position roughly aligned with the kidney from a child to an adult, 112 through the through holes 113. The LEDs 112 are arranged to emit light toward the upper side and emit relatively bright light with less power.

To this end, the first control unit 127 transmits a control signal to the mat 110 through the second communication unit 121 to selectively illuminate the light emitting unit 117 to display the position to the user.

It is to be understood that the invention is not limited to the disclosed embodiment, but is capable of many modifications and variations within the scope of the appended claims. It is self-evident.

110: Mat 111: Cushion layer
112: wire layer 113: through hole
114: elastic body 115: pressure sensor
116: Temperature sensor 117:
118: first communication unit 120: controller
121: second communication unit 122: third communication unit
123: first interface unit 124: distribution information generating unit
125: Simulation unit 126: Reference setting unit
127: first control unit 130: control server
131: fourth communication unit 132: second interface unit
133: first database 134: second database
135: Analysis unit 136: Second control unit

Claims (5)

In a sleeping position detection system,
A plurality of temperature sensors 116 disposed horizontally on the inner side, a plurality of pressure sensors 115 arranged horizontally on the inner side of the upper surface, a plurality of temperature sensors 116 disposed horizontally on the inner side, A plurality of light emitting units 117 configured to emit light and a control signal of the pressure sensor 115 and the temperature sensor 116 to transmit and receive measurement values of the pressure sensor 115 and the temperature sensor 116 A mat 110 having a first communication unit 118;
A second communication unit 121 for transmitting and receiving data and control signals to and from the first communication unit 118, a third communication unit 122 for transmitting and receiving data by being connected to a broadband communication network, A distribution information generating unit 124 for generating distribution information based on the measurement value received through the second communication unit 121, A simulation unit 125 for generating attitude information according to a time flow through the first interface unit 123, a simulation unit 125 for selectively outputting the distribution information and attitude information via the first interface unit 123, A controller (120) having a first control part (127) configured to transmit a control signal to the second communication part (121), which can selectively light the light emitting part (117) Wherein the sleeping position detecting system comprises:
The method according to claim 1,
A second interface unit 132 for receiving prescription information and a control signal from an administrator and outputting a processing signal, a second interface unit 132 for receiving the prescription information and the control signal from the manager, A second database 134 in which distribution information and attitude information received through the fourth communication unit 131 are accumulated for each user and stored, 2 analyzer 135 for generating analysis information for each user on the basis of distribution information and attitude information retrieved via the second communication network 134, and an analyzer 135 for analyzing the body information and distribution information received through the fourth communication unit 131, A control server 130 having a second controller 136 for transmitting the corresponding attitude information retrieved from the first database 133 and the prescription information and analysis information to the controller 120 through the fourth communication unit 131, ; Further comprising:
Wherein the simulation unit (125) is configured to reflect the corresponding attitude information received through the third communication unit (122) to generated attitude information.
3. The method of claim 2,
The controller 120 may further include a reference setting unit 126 for generating reference information through the distribution information and the setting signal input through the first interface unit 123,
The simulation unit 125 reflects the reference information on the basis of an attitude information generation criterion and the first control unit 127 is configured to transmit the reference information to the third communication unit 122,
Wherein the second controller (136) is configured to combine the reference information received through the fourth communication unit (131) with the attitude information stored in the first database (133).
delete The method according to claim 1,
The mat 110 includes a cushion layer 111 of a fiber material and a wire layer 112 having a lattice structure having a plurality of through holes inside the cushion layer 111,
Wherein the pressure sensor (115) is installed at the other end of the elastic body (114) whose one end is fixed to the wire layer (112) in the through hole (113).

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