KR20160004432A - Body information smart chart based on iot and health care method using the same - Google Patents

Abstract

According to an aspect of the present invention, a human body information smart chart system using Internet of Things comprises: an Internet of Things sensor which transmits data and measures a status of a human body; a human body anatomical character which displays an internal human body in a graphic image; a chart communication unit which receives sensing data transmitted from the Internet of Things sensor; a data storage unit which records the sensing data on the human body anatomical character; and a smart character chart including a chart control unit which leaves a shining mark around a human organ with an abnormality on the human body anatomical character.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an Internet-based smart chart and a healthcare method using the same,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a body intelligence smart chart system and a healthcare method using the same. More particularly, the present invention relates to a smart information chart system using the Internet of objects and a healthcare method using the same.

With the development of medical technology and the improvement of people's standard of living, the demand for welfare is increasing rapidly. Therefore, the needs of the people who want to improve the quality of life based on the medical service utilizing the advanced IT technology are increasing. This means that the existing therapeutic-oriented provider-centered service is provided to the consumer centered on preventive health care and wellness And the paradigm of health care services is changing.

However, to date, healthcare services have been restricted to past simple treatments, and the limitation of accessibility to rural areas and the management of disease management center have been limited.

Therefore, in recent years, there have been proposed ways to expand the healthcare service based on IT technology in order to overcome the limit of the movement of such paradigm. Among them, in particular, based on smart devices that are rapidly spreading now, , A smart-healthcare service that can manage their own medical care, welfare, and safety in a complex manner is emerging

Smart-Healthcare can provide a variety of services such as basic physical activity index, calorie intake, and heartbeat check according to the function of the smartphone. Recently, research on telemedicine services has been actively conducted Is in progress.

However, in general, the charts used in hospitals are written in the convenience of the physician, which makes it difficult for the patient to accurately recognize his / her condition. In addition, since the physician can only confirm the patient's previous medical records through interviews, it is difficult to accurately grasp the patient's current physical condition and past medical history. On the other hand, although a medical chart can be generated using a smart device, a physician must directly draw or input an image, and the patient has a problem that it is difficult to understand a commission chart inputted by a doctor.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to easily recognize the state of the body by recording the body state of the user in the body dissection character.

According to one aspect of the present invention, there is provided a healthcare method using a smart chart, comprising: sensing a state of a body using a thing Internet sensor; transmitting data sensed to a smart mobile device; And a halo region forming step of forming a halo region formed by coloring around the body organ where the abnormality occurs in the body dissection character.

The backlight region forming step may include forming a backlight region so as to surround the periphery of the body organ where the abnormality occurs, except for a portion where the body organ abuts the neighboring body organ, so that the backlight region surrounds the body organ have.

In addition, the health care method is performed after the halo region formation step, and enlarges the halo region when the state of the body organ where the abnormality occurs is worsened. When the state of the body organ is improved, And may further include an area adjustment step.

Further, the health care method may further include a layer selection step of selecting a desired body organ layer from among a plurality of layers constituting the body dissection character, and the layer selection step may include a layer selection step of, when the touch of the layer is continued for a preset time, Can be selected and displayed.

According to still another aspect of the present invention, there is provided a smart chart comprising: a body dissection character graphically representing a human body; a chart communication unit for receiving sensed data transmitted from an object internet sensor; data for recording sensing data in the body dissection character; And a chart control unit for forming a halo region formed in the periphery of the body organ where the abnormality occurs in the body dissection character.

The chart control unit includes a halo region formation module, wherein the halo region formation module forms a halo region to surround the periphery of the body organ where the abnormality occurs, and the halo region formation module has a structure in which the body region contacts the neighboring bodily organ The backlight region can be formed so as to surround the periphery of the body organ.

The chart control unit may include a halo region adjustment module for enlarging a halo region when the state of the body organ in which an abnormality has occurred is deteriorated and reducing or eliminating the halo regions when the state of the body organ is improved.

The chart control unit includes an abnormality determination module for comparing the data transmitted from the object Internet sensor with the normal range data and a sensing data display module for displaying the numerical data measured by the body organ in which the abnormality occurs in the body dissection character can do.

In addition, the body dissection character has a plurality of body layers representing body organs, at least two body layers of the body layers are superposed, the smart character chart is linked to the body layer, And a plurality of data layers made up of data.

As described above, according to the present invention, the state of the user can be more easily grasped by recording the body state of the user in the body dissection character.

Further, it is possible to more easily grasp the physical condition by forming a halo region around the body organ where the abnormality occurs.

1 is a block diagram illustrating apparatuses for implementing a smart chart system according to an embodiment of the present invention.
2 is a block diagram illustrating a smart chart system according to an embodiment of the present invention.
3 is a flowchart illustrating a healthcare method according to an embodiment of the present invention.
4 is a diagram showing a smart character chart according to an embodiment of the present invention.
5 is a diagram illustrating a layer structure of a smart character chart according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention can be variously modified and may have various embodiments, and specific embodiments will be described in detail with reference to the drawings. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Terms including ordinals, such as first, second, etc., may be used to describe various elements, but the elements are not limited to these terms. The terms are used only for the purpose of distinguishing one component from another.

For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

FIG. 1 is a diagram showing a smart chart system according to an embodiment of the present invention, and FIG. 2 is a diagram showing a smart chart system according to an embodiment of the present invention.

1 and 2, the smart chart system 100 according to the present embodiment includes an object Internet sensor 20 for measuring a state of a body and transmitting data, And a smart character chart 10 for displaying the sensing data on the body dissection character 11.

The object Internet sensor 20 is attached to an object attached to or in contact with a human body. For example, the object Internet sensor may be installed in a device worn on the wrist like a clock as shown in FIG. In addition, the object Internet sensor can be installed in a furniture such as a sofa, a bed, a chair, a toilet, etc. In this case, the state of the body can be measured while a person lives.

The object Internet sensor 20 includes a measurement unit 21 for measuring the state of the body and a sensor communication unit 23 for transmitting the measured sensing data. The measuring unit 21 can measure a person's body temperature, pulse, blood pressure, blood sugar, and the like. The sensor communication unit 23 transmits the sensing data measured by the measuring unit 21 to the server or the smart mobile device 30. The sensor communication unit 23 is configured to transmit sensing data by a communication method such as NFC, WiFi, IR, Bluetooth, WIBRO, LTE, W-CDMA, Lt; / RTI >

The object Internet sensor 20 is attached to an object attached to or in contact with a human body. The object Internet sensor 20 includes a wearable sensor that can be worn on a person's body and a fixed sensor made of furniture or fixtures housed in the home. The wearable sensor and the fixed sensor each have a measurement unit 21 and a sensor communication unit 23.

The wearable sensor may be a device worn on the wrist, such as a watch, or a device worn on the body, such as a necklace or a hair band. On the other hand, the fixed sensors can be installed on furniture such as beds, sofas, chairs, and fixtures such as toilet seats, windows, and the like.

The fixed sensor is composed of a structural sensor which is arranged in a plane so that a plurality of sensors have linearity and performs a combined role, a building sensor in which a plurality of sensors are arranged in a three- And a background sensor. The structural sensor is mounted on a flat surface and a plurality of sensors are simultaneously measured. For example, when a sensor is installed on a bed, a plurality of structural sensors can be installed on the upper surface of the mattress of the bed, and the structural sensor can measure the temperature of each part of the body, or measure the heart rate or the state of the vertebrae.

Construction sensors can be installed on three-dimensional objects such as playground equipment, toilet, and chair, and multiple sensors simultaneously measure the state of the body. The background sensor is installed on the wall, and it is composed of an infrared camera or a temperature sensor to measure the temperature and the like.

The smart chart system 100 according to the present embodiment may further include a server 40 for storing and transmitting data. The server 40 includes a storage unit 41 and a server communication unit 42. The storage unit 41 stores sensing data transmitted from the smart character chart 10 or the object internet sensor 20. [ In addition, the storage unit 41 stores the medical care information inputted by the doctor. The server communication unit 42 receives information from the smart character chart 10 or the object internet sensor 20 and delivers the information to the smart character chart 10.

The smart character chart 10 includes a body dissection character 11 that graphically represents the inside of a human body, a chart communication unit 12 that receives sensing data from the object Internet sensor 20, And a chart control unit 14 forming a halo region formed by coloring around the body organ. The smart character chart 10 may be stored in a smart mobile device 30, a PC, or the like.

The chart communication unit 12 can receive the sensing data from the object Internet sensor 20 and receive the information stored in the server 40. [ The chart communication unit 12 may transmit information stored in the smart character chart 10 to the server 40 and may transmit a signal for controlling the object internet sensor 20. For example, when the user desires to reapply the pulse, the chart communication unit 12 can transmit a control signal to the object Internet sensor when the command is input to the smart mobile device 30. [

As shown in FIG. 4, the body dissection character 11 is formed of a three-dimensional graphic and displays a structure of the body such as a skeletal structure, a muscle structure, a digestive system, a vascular system, a respiratory system, and a nervous system. The body dissection character 11 can be displayed on a screen of a smart mobile device 30, a PC, a smart TV, and the like, and is configured to be capable of enlarging, reducing, and rotating. The body dissection character 11 may be configured similar to the Google body browser, but the body dissection character 11 of the present embodiment has a plurality of body layers 72 unlike the Google body browser.

As shown in Fig. 5, the body layers 72 constituting the body dissection character 11 include a layer for displaying skin, a layer for displaying each muscle tissue, a layer for displaying each bone, ≪ / RTI > The body layer 72 is disposed on a base 71 made up of a frame or a page.

Each body organization that constitutes the body may be represented by one body layer 72, and some of these body layers 72 may be superposed and some of them may be arranged in parallel. The body layer 72 is coupled to a data layer that displays a singularity of the body.

The data storage unit (13) records sensing data in the body dissection character (11). The data storage unit 13 not only stores sensing data when an anomaly occurs in the body, but also stores information on the doctor's medical record and the specific state of the body. The data storage unit 13 combines and stores the data layer of the body organ by link, and when the body organ is selected, the data layer is called so that the user can check the status of the body organ.

For example, body temperature can be combined and stored in a skin-indicating layer when body temperature has risen to a dangerous level due to pneumonia or otitis media. In addition, when the blood pressure is ideally high, the blood pressure value can be stored in a combination of a layer representing the heart or vascular system. Further, the data storage unit 13 may combine the record of the doctor's examination with the body organ of the patient to be stored.

The data storage unit 13 stores the sensing data or the medical care data in the form of a data layer, and the data layer is stored in association with the body layer 72 displaying the body organs. Thus, when the body layer 72 is selected, the data layer associated with that body layer can be called and displayed on the screen.

The chart control unit 14 includes an abnormality determination module 14a, a sensing data display module 14b, a backlight area formation module 14c, a backlight area adjustment module 14d, and a layer selection module 14e.

The abnormality determination module 14a compares the sensing data transmitted from the object Internet sensor 20 with the normal range data to determine whether an abnormality has occurred in the body. The normal range data is predetermined body information data indicating that the body signal is in a normal range.

The sensing data display module 14b displays the numerical data measured by the body organs in which the abnormality is detected in the body dissection character determined to be abnormal in the abnormality determination module 14a.

The backlight zone formation module 14c forms a halo region formed by coloring the body cavity where the abnormality occurs in the body dissection character 11, and the halo region is formed so as to surround the circumference of the body organ where the abnormality occurs. The halo region is formed in a light-like shape and is formed into a shape that extends radially from the rim of the body organs. The backlight zone formation module 14c forms a halo region around the body organs, except for the portion where the body organism abuts the neighboring body organs.

The backlight adjustment module 14d expands the backlight region when the state of the body organs in which the abnormality is deteriorated is enlarged and reduces or removes the backlight region when the state of the body organ is improved. The backlight adjustment module 14d controls the thickness of the backlight area, and the backlight area can be controlled according to the improvement or deterioration of the state, so that the patient can more easily grasp his / her state.

For example, if the body temperature measured by the object internet sensor is lowered after a high temperature has occurred, a halo region may be formed on the face to reduce the thickness. In addition, if pneumonia is confirmed to have occurred and the pneumonia symptoms become more severe, a halo region is formed in the lung, and the thickness of the halo region is increased.

The layer selection module 14e selects at least one of the overlapped body layers 72, and can select the body layer 72 by touching or manipulating a mouse or a keyboard. As shown in FIG. 5, a plurality of body layers 72 are arranged in a superposed manner. When one point is touched, the body layer 72 disposed at the top of the body layer 72 must be selected.

In addition, the layer selection module 14e displays the hidden detail layers when the touch to the layer lasts for a preset time. The upper layer can consist of one body organ, and the detail layers can be each layer representing the body organ. The detail layers are not displayed on the screen, but are displayed on the screen when the touch persists.

The layer selection module 14e may enlarge and display the touched organs when the touch for the layer representing the preset small-sized organ lasts for a preset time. Small-sized organs are difficult to display accurately, and relatively small-sized organs are preset with small organs. When the small-sized organ touched by the layer selection module 14e is enlarged, the body organs can be more easily identified, and detailed layers of the enlarged body organs can be displayed and displayed in more detail.

3 is a flowchart illustrating a healthcare method according to an embodiment of the present invention.

3, the healthcare method according to the present embodiment includes a sensing step S101, a data transmission step S102, a determination step S103, a halo region formation step S104, a halo region adjustment step S105 ), And a layer selection step S106.

The sensing step S101 measures the state of the body using the object Internet sensor, and the sensing step S101 measures the body temperature, pulse, blood pressure, blood sugar, etc. of the user using the object internet sensor.

The data transmission step (S102) transmits the sensed data to the smart mobile device. The smart mobile device may be a smart phone, a tablet PC, or the like. Data transmission is performed by the sensor communication unit 23 and is performed by a communication method such as NFC, WiFi, IR, Bluetooth, WIBRO, LTE, Data can be transmitted.

The determination step S103 compares the sensing data transmitted from the object Internet sensor 20 with the normal range data to determine whether an abnormality has occurred in the body. The normal range data is predetermined body information data indicating that the body signal is in a normal range. The determination of the abnormality is made by the abnormality determination module 14a and the display of the abnormality occurrence is performed by the sensing data display module 14b.

The backlight region forming step S104 forms a backlight region formed by coloring around the body organ where an anomaly occurs in the body dissection character 11, and the backlight region is formed so as to surround the circumference of the body organ where the anomaly occurs. The halo region is formed in a light-like shape and is formed into a shape that extends radially from the rim of the body organs. The backlight zone formation module 14c forms a halo region around the body organs, except for the portion where the body organism abuts the neighboring body organs.

The halo region adjustment step S105 enlarges the halo region when the state of the body organ where the abnormality is deteriorated and reduces or removes the halo region when the state of the body organ is improved. The backlight adjustment module 14d controls the thickness of the backlight area, and the backlight area can be controlled according to the improvement or deterioration of the state, so that the patient can more easily grasp his / her state.

The layer selection step S106 selects at least one of the overlapped body layers 72, and the body layer 72 can be selected by touching or manipulating a mouse or a keyboard. In addition, the layer selection step (S106) displays the hidden detail layers when the touch to the layer (72) lasts for a predetermined time. The upper layer can consist of one body organ, and the detail layers can be each layer representing the body organ.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100: Smart Chart System
10: Smart Character Chart
11: Body dissection character
12: Chart communication section
13: Data storage unit
14:
14a: abnormality judgment module
14b: Data display module
14c: a backlight zone formation module
14d: Halo area adjustment module
14e: Layer Selection Module
20: Things Internet sensor
21:
23:
30: Smart mobile devices
40: Server
41:
42: Server communication section
71: Base
72: Layer

Claims (9)

A sensing step of measuring a state of the body using an object internet sensor;
A data transmission step of transmitting sensed data to a smart mobile device;
Comparing the data transmitted from the object Internet sensor with normal range data to determine whether the abnormality is abnormal; And
A halo region forming step of forming a halo region formed by coloring around a body organ where an abnormality occurs in a body dissection character;
The method of claim 1, further comprising the steps of:
The method according to claim 1,
The backlight region forming step forms a backlight region so as to surround the periphery of the body organ where the abnormality occurs, except for the portion where the body organ abuts the neighboring body organ, so that the backlight region surrounds the body organ A method of healthcare using internet based smart charts.
3. The method of claim 2,
The health care method is performed after the halo region formation step, and enlarges the halo region when the state of the body organ where the abnormality occurs is worsened. When the state of the body organ is improved, the halo region adjustment The method of claim 1, further comprising the steps of:
3. The method of claim 2,
The healthcare method further includes a layer selection step of selecting a desired body organ layer from among a plurality of layers constituting the body dissection character, and the layer selection step may include selecting the detailed layers when the touch of the layer is continued for a preset time Wherein the smart chart is based on the Internet.
A body dissection character graphically depicting the human body;
A chart communication unit for receiving sensing data transmitted from the object Internet sensor;
A data storage unit for storing sensing data in the body dissection character; And
A chart control unit forming a halo region formed by coloring around the body organ in which the abnormality occurs in the body dissection character;
A smart Internet based on the object Internet.
6. The method of claim 5,
The chart control unit includes a halo region formation module, wherein the halo region formation module forms a halo region to surround the periphery of the body organ where the abnormality occurs,
Wherein the backlight zone forming module forms a backlight region so as to surround the circumference of the body organ, excluding a portion where the body organ contacts the neighboring body organ.
The method according to claim 6,
Wherein the chart control unit includes a halo area adjustment module for enlarging a halo region when the state of the body organ in which an abnormality has occurred is deteriorated and reducing or eliminating the halo region when the state of the body organ is improved, Smart chart based ..
6. The method of claim 5,
Wherein the chart control unit includes an abnormality determination module that compares data transmitted from the object Internet sensor with normal range data and a sensing data display module that displays numerical data measured by the body organ in which the abnormality occurs in the body dissection character Features Internet-based smart charts with features.
6. The method of claim 5,
Wherein the body dissection character has a plurality of body layers representing body organs, at least two body layers of the body layers are superposed, the smart character chart is linked to the body layer, And a plurality of data layers formed on the basis of the plurality of data layers.

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