KR20150026166A - Total medical test system using smart-phone - Google Patents

Abstract

The present invention provides a total medial test system using a smartphone for blood test, urine test, pregnancy test, DNA test, ultrasonic wave test, X-ray test, CT scanning test, and MRI scanning test. The present invention includes: a bio signal measuring unit having at least one electrode which measures the bio signal of a user; an ultrasonic wave test unit which generates an echo signal by using an electric signal; an X-ray photographing unit which converts an X-ray into an image; an MRI photographing unit which converts into the image by measuring magnetic property of the human body of the user; a health measuring module having a main control unit which processes the signal; and a user terminal which displays the health state information of the user.

Description

{TOTAL MEDICAL TEST SYSTEM USING SMART-PHONE} <br> <br> <br> Patents - stay tuned to the technology TOTAL MEDICAL TEST SYSTEM USING SMART-PHONE,

One embodiment of the present invention relates to a health examination system capable of performing a blood test, a urine test, a pregnancy test, a DNA test, an ultrasound test, an X-ray test, a CT scan test, and an MRI test using a smartphone, The present invention relates to a system that enables a user to check his / her health in real time using a health measurement module capable of wireless data communication.

Recently, as the level of living has become higher due to the improvement of economic power, the interest of the individual is increasing, and as a result, the number of people looking for a simple / quick inspection method for their health condition is increasing.

Normally, ordinary people visit specialized medical institutions to check their health condition. In this case, complicated procedures have to be carried out, and it also takes a lot of time and money.

As a solution to this problem, an unmanned health management system, which is installed in a public place and can be easily accessed and used by the general public, has been developed.

However, since the conventional unmanned health management system provides health information simply as numerical information, it is difficult for the general public to understand the meaning of the numerical value, which is inconvenient to use.

In addition, the conventional unmanned health management system has a problem that it can not continuously manage an individual's health record because a separate device for checking individual health information at any time is not provided.

Patent Publication No. 10-2012-0105992 'Medical Information Management Network Using Smartphone and Its Method' Korean Patent Registration No. 10-0591239 'Health status measuring apparatus for mobile communication terminal and information management method thereof'

In an embodiment of the present invention, a user can check his / her health in real time using a health measurement module capable of wireless data communication with a smart phone, thereby reducing unnecessary visits to a hospital, , Which can perform blood test, urine test, pregnancy test, DNA test, ultrasound test, x-ray test, CT test, MRI test using a smart phone that can perform a self-examination Inspection system.

A health check system using a smartphone according to an embodiment of the present invention includes a bio-signal measurement unit having at least one electrode for measuring a user's bio-signal, at least one micro-needle for collecting blood and body fluid of the user, An ultrasound examination unit for irradiating a user with an ultrasound wave to convert ultrasound waves reflected from a user's body into an electric signal and generating an echo signal using the electric signal; An X-ray photographing unit for converting the detected X-ray into an image, and an X-ray photographing unit for irradiating the X-ray to the user at a plurality of angles and transmitting the detected X-ray to the user, A CT photographing unit which measures the magnetic properties of the user's body, And a main controller for controlling operations of the bio-signal measuring unit, the body fluid examining unit, the ultrasound examining unit, the X-ray photographing unit, the CT photographing unit, and the MRI photographing unit, A health measurement module including the health measurement module; And a health checkup application, executing the health checkup application, and using the bio-signal information of the user measured by the health measurement module, the user's blood and body fluid information, the echo signal, the x-ray image, the CT image, and the MRI image And a user terminal for generating health state information of the user and displaying health state information of the generated user.

The bio-signal measuring unit and the body fluid testing unit may be mounted on the user terminal.

The bio-signal measuring unit and the body fluid testing unit may be provided in a patch shape so as to be detachably attachable to the user's skin.

Wherein the bio-signal measuring unit comprises at least one electrode for measuring a user's bio-signal; A first A / D converter for converting the measured bio-signal into a digital signal; And a first memory for storing the converted bio-signals, wherein the bio-signals of the user's pulse and body temperature can be measured.

Wherein the body fluid testing unit comprises at least one micro needle for collecting blood and body fluids of a user; A measurement unit for measuring an electric current by measuring the blood and body fluids taken by the enzyme reaction and emitting light into the collected blood and body fluids to measure a user's body fluid signal according to the intensity of refraction and reflection of light; A second A / D converter for converting the measured body fluid signal into a digital signal; And a second memory for storing the converted body fluid signal, wherein the body fluid of the user's red blood cells, white blood cells, blood glucose, cholesterol, DNA, and human chorionic gonadotrophin (HCG) is measured, and the body fluid may be urine.

Wherein the ultrasonic inspection unit comprises: a pulse generating unit for generating a pulse signal; A transducer for converting the pulse signal into an ultrasonic wave and transmitting the ultrasonic wave and converting the received ultrasonic wave into an electric signal; A signal processor for generating an echo signal using the converted electrical signal; A third A / D converter for converting the generated echo signal into a digital signal; A third memory for compressing and storing the converted echo signal; And a third communication unit for transmitting the stored echo signal to the outside.

The x-ray photographing unit includes a tube for irradiating a user with an x-ray generated by applying a high voltage; A detector outputting from the tube and detecting x-rays transmitted through the user; A fourth memory for converting the detected X-ray into an image and compressing and storing the image; And a fourth communication unit for transmitting the stored image to the outside.

Further comprising an external server connected to the user terminal through a wired / wireless communication network to provide a security authentication application and perform registration for security authentication, wherein the user terminal comprises a security authentication application provided from the external server, A storage unit for storing face pattern information of the user; A camera unit for capturing a face image of a user requesting security authentication; A control unit for executing the security authentication application to compare the registered face pattern information and the photographed face image of the user to generate a signal for authenticating a registered user when the registered face pattern information matches; And a first communication unit for transmitting a signal of the control unit to the health measurement module. The health measurement module may allow the health measurement of the user when receiving the authentication signal of the user.

The health measurement module includes a tag and a reader, and the user terminal can recognize the tag as it approaches the health measurement module and execute the security authentication application.

Wherein the storage unit stores an authentication token for the health measurement module and the control unit activates the authentication token stored in the storage unit when the user is authenticated as the registered user so that the authentication token is recognized through the reader The user can be authenticated.

A health examination system capable of performing a blood test, a urine test, a pregnancy test, a DNA test, an ultrasound test, an X-ray test, a CT scan test, and an MRI test using a smartphone according to an exemplary embodiment of the present invention, Since the user is checking his / her health in real time by using the health measurement module capable of communicating, it is possible to reduce the unnecessary visit of the hospital to the uncomfortable user, and to easily access the user It can measure the health condition such as pulse, body temperature, red blood cell, white blood cell, blood sugar, cholesterol, DNA, pregnancy diagnosis, and furthermore, it can perform its own health checkup by taking ultrasound image, x-ray image, CT image and MRI image can do.

1 is a schematic view of a health check system using a smartphone according to an embodiment of the present invention.
2 is a diagram showing another embodiment of the health measurement module of FIG.
3 is a block diagram schematically showing the bio-signal measuring unit of FIG.
FIG. 4 is a block diagram schematically showing the body fluid checking unit of FIG. 1. FIG.
5 is a block diagram schematically showing the ultrasonic inspection unit of FIG.
6 is a block diagram schematically showing the X-ray imaging unit of FIG.
FIG. 7 is a block diagram illustrating a user terminal and a health measurement module for explaining a security authentication process of the user terminal and the health measurement module of FIG. 1;

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in which those skilled in the art can readily implement the present invention.

The present invention relates to a health examination system capable of performing a blood test, a urine test, a pregnancy test, a DNA test, an ultrasound test, an X-ray test, a CT scan test, and an MRI test using a smartphone, It is called the health check system.

FIG. 1 is a view schematically showing a health check system using a smartphone according to an embodiment of the present invention, FIG. 2 is a view showing another embodiment of the health measurement module of FIG. 1, FIG. 5 is a block diagram schematically showing the ultrasonic inspection unit of FIG. 1, and FIG. 6 is a block diagram schematically showing a body fluid inspection unit of FIG. 1, FIG. 7 is a block diagram illustrating a user terminal and a health measurement module for explaining the security authentication process of the user terminal and the health measurement module of FIG. 1; FIG.

1 to 7, a health check system using a smartphone according to an embodiment of the present invention includes a health measurement module 10, a user terminal 20, and an external server 30.

The health measurement module 10 measures a user's bio-signal and a body fluid signal, and performs a function of detecting an ultrasound wave and an x-ray image irradiated to the user's body 1.

1, the health measurement module 10 includes a living body signal measuring unit 110, a body fluid examining unit 120, an ultrasonic examining unit 130, an X-ray photographing unit 140, An MRI photographing unit 156, and a main control unit 150. The MRI photographing unit 156 and the main control unit 150 shown in FIG.

The bio-signal measuring unit 110 includes at least one electrode 111 to measure a user's pulse signal and a body temperature signal using the user's bio-signal measured by the electrode 111, To the user terminal 20 under the control of the main control unit 150.

3, the bio-signal measuring unit 110 includes at least one electrode 111 for measuring a user's bio-signal, and a bio-signal measuring unit 110 for measuring the bio- A first A / D converter 112 for converting a signal into a digital signal, and a first memory 113 for storing a bio-signal converted by the first A / D converter 112.

In recent years, due to the development of semiconductor technology, the size and function of a sensing system operated by electrical and electronic signal processing have been progressively developed. As a technology used for developing a micro device having mechanical and electrical characteristics, sensor size and various functions MEMS (Micro-Electri-Mechanical System) technology, which is an appropriate technology for the implementation of a system that holds a magnetic field. Especially, the system which is used for medical use has a characteristic that it has to be developed in a size suitable for a human body, that is, a region having a limited size. Therefore, it is very important to develop a small-sized medical device to be attached or inserted into a human body. In addition, since the reaction of the human body is affected by external influences, accurate measurement of the physical condition of the user of the apparatus needs to be performed in real time. For this purpose, in the present invention, when blood and body fluids are required for the measurement of the physical condition of a user (red blood cells, white blood cells, blood glucose, cholesterol, DNA, HCG (Human Chorionic Gonadotropin) hormone, etc.) -needle) is integrated with the body fluid examining unit 120 and used. The microneedles have been developed to reduce the sense of rejection due to the pain given by conventional injection needles, thereby avoiding contact with nerve cells at a depth of about 500 μm or more from the outer skin, thereby preventing fear of pain generated by the needles By using MEMS technology, product process cost by batch process can be drastically reduced. Since the size of the micro needle can be designed differently according to the size of the human body, the size of the micro needle is not limited in the present invention.

The body fluid examining unit 120 includes at least one micro needle 121 to measure the blood and body fluid of the user collected by the micro needle 121 by using an optical measuring method to measure the red blood cells, And HCG (human chorionic gonadotropin), which can diagnose pregnancy. Although not shown, the body fluid checking unit 120 may include a means for discharging the micro needle 121 and pulling it again when collecting the user's blood and body fluid.

For example, the body fluid checking unit 120 may measure blood glucose by an electrochemical method on the blood and body fluid collected by the micro needle 121. That is, the body fluid testing unit 120 applies a blood sample obtained by collecting blood from a user to a specimen having a chemical reaction so that blood glucose in the blood is oxidized by the blood glucose oxidizing enzyme, and the blood glucose oxidizing enzyme is reduced. In addition, the electron acceptor oxidizes the glucose oxidase and itself is reduced. At this time, the reduced electron acceptor loses electrons at the surface of the electrode 111 to which a constant voltage is applied, and is electrochemically re-oxidized. Accordingly, since the glucose concentration in the blood sample is proportional to the amount of current generated in the process of oxidizing the electron acceptor, the blood glucose concentration can be measured by measuring the amount of current.

In addition, cholesterol is immobilized on the electrode 111 by cytochrome P450, which is an enzyme involved in the biosynthesis of steroid hormone produced from cholesterol, and electrons are exchanged between molecules. Accordingly, the body fluid examining unit 120 can measure the amount of cholesterol by measuring the amount of the current.

In addition, hemoglobin is a component of hemoglobin as hemoglobin, which is a component of hemoglobin as red blood cell hemoglobin. Hemoglobin in the blood reacts with potassium ferricyanide to convert it into methemoglobin, which in turn reacts with potassium cyanide to convert into cyanogenated hemoglobin do. Add the reaction solution to a spectrophotometer and measure the absorbance at a wavelength of 540 nm to obtain the amount of hemoglobin. By determining the amount of hemoglobin, it can be confirmed that iron deficiency anemia is present.

4, the body fluid inspection unit 120 includes at least one micro needle 121 for collecting blood and body fluids of the user, and at least one micro- A measurement unit 122 for measuring an electric current by enzyme reaction of blood and body fluid, emitting light into blood and body fluid collected by the micro needle 121, and measuring a user's body fluid signal according to the intensity of refraction and reflection of light; A second A / D converter 123 for converting the body fluid signal measured by the measuring unit 122 into a digital signal, a second memory 123 for storing the body fluid signal converted by the second A / D converter 123, (Not shown). Here, the blood of the user may be blood, and the body fluid may be urine. For example, in the measurement unit 122 requiring the user to collect blood and urine fluid, electrons are transferred between molecules through a reaction with a specific enzyme and a reagent test in a separate micro needle 121 The resulting chemical, electrical and optical changes are measured. At this time, light rays are emitted to urine body fluid collected at the time of the reagent test, and erythrocytes, leukocytes, blood sugar and the like can be measured according to the intensity of refraction and reflection of light. Electrical and optical changes measured by the measuring unit 122 are amplified by an amplifier (not shown) and then converted into a digital signal through the second A / D converter 123, Or transmitted to the main control unit 150. [

The bio-signal measuring unit 110 and the body fluid examining unit 120 may include communication units 114 and 125 for transmitting the measured bio-signals and the body fluid signals to the main controller 150 through a wireless communication network. The communication units 114 and 125 may include a zigbee, a bluetooth, a wifi, and the like as personal short distance communication means.

The bio-signal measuring unit 110 and the body fluid examining unit 120 may be configured to transmit the bio-signals and the body fluid signals stored in the first memory 113 and the second memory 124 to the main controller 150, The memory card may be removed and inserted into the main control unit 150 and then loaded.

The bio-signal measuring unit 110 and the body fluid examining unit 120 are installed to be spaced apart from the user terminal 20 to perform short-range wireless communication with the user terminal 20. However, the present invention is not limited thereto, It may be mounted on the user terminal 20 as shown below, or may be implemented in a patch form so as to be attached to the user's skin.

More specifically, the bio-signal measuring unit 110 and the body fluid checking unit 120 may be mounted on the user terminal 20. [ That is, the bio-signal measuring unit 110 and the body fluid examining unit 120 are installed on one side of the user terminal 20 with the electrodes 111 and the micro needles 121, respectively, D converter 112 and the first memory 113 and the measuring unit 122, the second A / D converter 123, and the second memory 124 to measure the user's body and fluid signals . The first A / D converter 112 and the first memory 113, the measuring unit 122, the second A / D converter 123, and the second A / D converter 123 are connected to the electrodes 111 and the micro needles 121, respectively. The second memory 124 may be implemented as a PCB substrate on which at least one electronic element performing each function is printed on one or a separate substrate.

Alternatively, as shown in FIG. 2, the bio-signal measuring unit 110 and the body fluid examining unit 120 may be provided in the form of a patch 11 so as to be detachably attachable to the user's skin. In this case, the bio-signal measuring unit 110 and the body fluid checking unit 120 may include a sticky pad body 15 that can be attached to the user's skin, a first A / D converter 112 and a first memory 113, A card type chip 12 into which a measurement unit 122, a second A / D converter 123 and a second memory 124 are detachably inserted through slots, a sticky pad body 15, And a patch 11 including an electrode 111 provided on a pad 14 interposed between the electrodes 12 and a sensing unit 13 including a micro needle 121. Here, the lower surface of the viscous pad body 15 serves as a body attachment surface to be attached to the skin, and a pair of electrodes 111 (not shown) for detecting a biological signal are provided on the body attachment surface. That is, when the patch 11 is attached to the skin, the pair of electrodes 111 come into contact with the skin, and biological signals such as a pulse and a body temperature are received therefrom as electrical signals. The distance between the pair of electrodes 111 is preferably at least 30 mm or more. The pair of electrodes 111 may be physically coupled to pins (not shown) of the card-shaped chip through connecting means (not shown) provided on the pad 14. 2 shows a case where the pad 14 is attached to the wrist of a user. However, it is possible to attach the pad 14 to a user's chest or head, if necessary. The type of the biological signal to be detected can also be an electrocardiographic waveform, Body temperature and so on. Meanwhile, it is preferable that the adhesive pad body 15 is made of a waterproof material so as to avoid hard materials as much as possible for the patient to be free from motion while the measurement is continued, and to prevent the daily life from being hindered.

The ultrasonic inspection unit 130 irradiates ultrasonic waves to a user and converts ultrasonic waves reflected from the user's body into electrical signals. The ultrasonic inspection unit 130 generates an echo signal using the electrical signal and transmits the generated echo signal to the main control unit 150 To the user terminal (20).

5, the ultrasonic inspection unit 130 includes a pulse generating unit 131 for generating a pulse signal, a pulse generating unit 132 for converting the pulse signal into an ultrasonic wave and transmitting the ultrasonic wave, A signal processing unit 133 for generating an echo signal by using the electric signal converted by the transducer 132 and an echo signal generated by the signal processing unit 133 as a digital signal, A third memory 135 for compressing and storing the echo signal converted by the third A / D converter 134, and a third memory 135 for storing the echo signal converted by the third A / And a third communication unit 136 for transmitting the stored echo signal to the outside. In addition to these components, a battery, a high voltage multiplexer (HVMUX), an LNA (Low Noise Amplifier), and a T / R switch for separating the transmission and reception may be further included and will be apparent to those skilled in the art without further explanation.

The pulse generating unit 131 includes a pulser that generates a high-voltage electric pulse signal.

The transducer 132 includes a plurality of conversion elements for converting a pulse signal generated in the pulse generator 131 into an ultrasonic wave and transmitting the ultrasonic wave and converting the reflected ultrasonic wave into an analog echo signal, that is, an electric signal. The conversion elements may be, for example, made of a piezoelectric material and have a one-dimensional array or a two-dimensional array structure. The transducer 132 receives the high-voltage electric pulse of the pulse generator 131 and generates ultrasonic waves. The transducer 132 converts the ultrasonic waves reflected from the user's body into an analog electric signal (analog echo signal).

The signal processor 133 generates a digital echo signal (echo data) using the analog echo signal converted by the transducer 132.

The third A / D converter 134 amplifies the converted analogue echo signal from the signal processor 133 and converts the analog echo signal into a digital format.

The third communication unit 136 may be connected to the main control unit 150 or the user terminal 20 through a wired / wireless communication network.

The ultrasonic inspection unit 130 includes a pulse generating unit 131, a transducer 132, a signal processing unit 133, a third A / D converter 134, a third memory 135 and a third communication unit 136 The first processor unit 137 may be configured to control the operation of the first processor unit 137

The X-ray photographing unit 140 irradiates the X-rays to the user and transmits the X-rays to the main control unit 150 or transmits the converted X-rays to the user terminal 20.

6, the X-ray photographing unit 140 includes a tube 141 for irradiating a user with an X-ray generated by applying a high voltage, A fourth memory 143 for converting the X-ray detected by the detector 142 into an image and compressing and storing the X-ray, and a second memory 143 for storing the image stored in the fourth memory 143, And a fourth communication unit 144 for transmitting the data to the second communication unit. That is, the X-ray photographing unit 140 generates an X-ray and transmits the X-ray to a predetermined part of the user's body, and converts the transmitted X-ray into an image to be displayed through a display unit Or compressed and then transmitted to an external device. The X-ray photographing unit 140 may further include X-ray adjusting means (not shown) for adjusting the output angle of the X-ray outputted from the tube 141, focusing the X-ray, and adjusting the dose of the X- .

The detector 142 may be an image sensor that detects an X-ray transmitted through the user's body. The X-ray photographing unit 140 controls the driving of each component, supplies a high-voltage power to the detector 142 and the tube 141, converts the X-rays detected through the detector 142 into an image The second processor unit 145 may perform the storage, compression, transmission, and the like.

The third communication unit 136 and the fourth communication unit 144 of the ultrasound examination unit 130 and the X-ray imaging unit 140 may be connected to the main control unit 150 or the user terminal 20 And may be connected to a wired / wireless communication network for mutual control and data transmission / reception.

The CT photographing unit 155 irradiates the X-rays to the user at a plurality of angles and transmits the X-rays to the user, converts the detected X-rays into absorption images of the user's cross section, converts them into images and transmits them to the main control unit 150 Or to the user terminal 20 through it. The transformed image may be a computed tomography image.

The MRI photographing unit 156 measures the magnetic property of the user's body, converts the measured magnetic property into an image, and transmits the image to the main control unit 150 or transmits the image to the user terminal 20. The transformed image may be a magnetic resonance image.

Although not shown, the CT photographing unit 155 and the MRI photographing unit 156 are respectively provided with communication interfaces for data transmission and reception, and these communication interfaces are connected to the main control unit May be installed at a position spaced apart from the user terminal (150) or the user terminal (20), and may be connected to a wired / wireless communication network for mutual control and data transmission / reception.

The wired / wireless communication network may be a wireless network for a wireless LAN including a mobile communication network such as 2G, 3G or 4G, a wireless Internet access module, a wireless LAN proposed by the Institute of Electrical and Electronics Engineers (IEEE) A wireless MAN (Metropolitan) system including 802.15, a standard for a wireless personal area network (PAN) including a standard 802.11, Bluetooth, UWB, Zigbee, etc., and a fixed wireless access (FWA) (Mobile Broadband Wireless Access) (MBWA) including 802.16, which is a standard specification for a Broadband Wireless Access (BWA), and WiBro, WiMAX, 802.20. &Lt; / RTI &gt;

The main controller 150 controls the operations of the bio-signal measuring unit 110, the body fluid examining unit 120, the ultrasound examining unit 130, the X-ray photographing unit 140, the CT photographing unit 155 and the MRI photographing unit 156 And each of the measured information may be received, signal processed and displayed or transmitted to the user terminal 20.

The user terminal 20 mounts a health checkup application, executes a health checkup application, and displays the bio-signal information of the user measured by the health measurement module 10, the blood and body fluid information of the user, the echo signal, the x- The health state information of the user can be generated using the image and the MRI image, and the generated health state information of the user can be displayed. The health examination application can image the user's bio-signal information measured by the health measurement module 10, user's blood and body fluid information, echo signal, x-ray image, CT image and MRI image to the outside have. To this end, the user terminal 20 may include a display unit 210 capable of displaying an ultrasound image, an x-ray image, a CT image, or an MRI image. For example, the display unit 210 may display a mode (for example, an ultrasound image, an ultrasound image, an ultrasound image, an x-ray image, a CT image, and an MRI image) A B mode, a D mode, a C mode, an M mode, an elastic mode, and the like). The display unit may be a liquid crystal display, a thin film transistor liquid crystal display, an organic light emitting diode, a flexible display, a transparent display, And a 3D display. The user terminal 20 of the present invention can be used not only in a mobile communication terminal including a smart phone but also in a desktop computer, a notebook computer, a workstation, a palmtop computer, a personal digital assistant (PDA) Any digital device equipped with a memory means and equipped with a microprocessor and capable of computing and executing an application can be employed as the user terminal 20 according to the present invention.

Meanwhile, the user terminal 20 removes the risk of hacking the user's health information in using the health measurement module 10 and removes the health measurement module 10 corresponding to relatively expensive equipment (i.e., An authorized authentication application can be installed which can restrict the use rights of the authentication server 130, the X-ray imaging unit 140, the CT imaging unit 155, and the MRI imaging unit 156).

To this end, the user terminal 20 of the present invention stores the security authentication application provided from the external server 30 and the face pattern information of the user registered with the external server 30 as shown in FIG. 7 A storage unit 230, a camera unit 240 for capturing a face image of a user requesting security authentication, and a security authentication application for comparing the registered face pattern information and the captured face image of the user, A control unit 220 for generating a signal for authenticating that the user is a registered user, and a first communication unit 250 for transmitting a signal of the control unit to the health measurement module 10. That is, the user terminal 20 accesses the external server 30 to proceed with user registration, and receives a security authentication application for security authentication. In addition, the user terminal 20 executes a security authentication application, captures a face of a user, and stores a recognition pattern. If the face is photographed by the user after performing the authentication procedure, the user terminal 20 determines whether the user is an authenticated user by comparing with a previously stored recognition pattern, and determines whether or not the IC card By activating the function, access can be made possible. Meanwhile, the external server 30 stores a security authentication application for executing security authentication. Also, when the user performs registration through the user terminal 20, the external server 30 stores the registration information of the user and stores the security authentication application in the user terminal 20. [

More specifically, the control unit 220 first executes the security authentication application stored in the storage unit 230 of the user terminal 20 at the time of initial user registration, and causes the storage unit 230 to photograph the user's face A control signal is applied to store the face recognition pattern from the image of the camera unit 240. [ Also, when the user tries to perform the authentication, the control unit 220 causes the camera unit 240 to photograph the user's face, and compares the captured image with the stored image to authenticate the user. At this time, the photographed image is stored in the storage unit 230 and is not transmitted to the external server 30 or the like. Therefore, the bio information of the user can be easily protected, and the stability of the system can be improved. Also, when the user is authenticated as a registered user, the control unit 220 may execute the authentication token so that the health measurement module 10 can be opened to the user.

The storage unit 230 stores the security authentication application transmitted from the external server 30. The security authentication application of the storage unit 230 may be executed according to a control signal of the control unit 220. [ The storage unit 230 stores the facial pattern of the user recognized by the camera unit 240, and the control unit 220 can later authenticate the user using the facial pattern. Also, when the user is authenticated by the control unit 220, the authentication token stored in the storage unit 220 is activated, and the health measurement module 10 can perform opening for the user.

The camera unit 240 is exposed to the outside of the user terminal 20 so that the user can photograph his or her face. The face photographed by the camera unit 240 at the time of user registration is stored in the storage unit 230. After the user executes the security authentication application and the face is photographed for security authentication, the photographed image is compared with the stored face pattern You can see the user.

The first communication unit 250 is provided in the user terminal 20 and provides the user terminal 20 with communication with the external server 30 or the health measurement module 10. The first communication unit 250 transmits the user registration information to the external server 30 when communicating with the external server 30 and receives the security authentication application from the external server 30. [ The first communication unit 250 communicates with the health measurement module 10 according to a control signal received from the control unit 220 and recognizes the tag 160 of the health measurement module 10, Let the authentication application be activated. At this time, the communication method used may be typically Near Field Communication (NFC). However, according to the selection of a person skilled in the art, the communication method may be a method such as bluetooth. Also, the first communication unit 250 communicates with the health measurement module 10 through the activated authentication token when the user is authenticated, so that the health measurement module 10 can be opened to the user. That is, the health measurement module 10 may be opened and closed according to the authentication of the user terminal 20. The health measurement module 10 includes a reader 170 for recognizing an authentication token of a user terminal 20 authenticated by the user, a tag provided to the user terminal 20 to execute a security authentication application.

The tag 160 is provided for communicating data with the user terminal 20 in a short distance. The tag 160 may be used in the form of an NFC (Near Field Communication) tag. The tag 160 communicates with the user terminal 20 to allow the control unit 220 of the user terminal 20 to execute the security authentication application stored in the storage unit 230. [

The reader 170 recognizes the activation token activated at the user terminal 20 after the security authentication application of the user terminal 20 is executed and the authentication of the user is completed. The reader 170 identifies the user by an authentication token, and thus the health measurement module 10 may be open to the user

According to the health check system using the smartphone according to the embodiment of the present invention, since the user checks his / her health in real time using the health measurement module capable of wireless data communication with the smart phone, This inconvenient user can reduce unnecessary visits to the hospital and can easily measure the health condition such as pulse, body temperature, red blood cell, white blood cell, blood sugar, cholesterol, DNA, pregnancy diagnosis, Further, it is possible to perform an ultrasonic image, an x-ray image, a CT image, and an MRI image in order to perform a health checkup in real time.

As described above, the present invention is not limited to the above-described embodiment, but may be applied to a system for testing a health check system using a smartphone according to the present invention, It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

10: Health measurement module 11: Patch
12: card type chip 13: sensing part
14: pad 15: sticky pad body
20: user terminal 30: external server
110: biological signal measurement unit 111: electrode
112: first A / D converter 113: first memory
114, 125: communication unit 120: body fluid inspection unit
121: Micro needle 122: Measuring part
123: second A / D converter 124: second memory
130: ultrasonic inspection unit 131: pulse generating unit
132: transducer 133: signal processor
134: third A / D converter 135: third memory
136: third communication unit 137: first processor unit
140: X-ray radiographing section 141: tube
142: Detector 143: Fourth memory
144: fourth communication unit 145: second processor unit
150: main control unit 155: CT photographing unit
156: MRI photographing unit 160: tag
170: reader 210: display unit
220: control unit 230:
240: camera unit 250: first communication unit

Claims (10)

A bio-signal measuring unit having at least one electrode for measuring a bio-signal of a user; a body fluid checking unit having at least one micro needle for collecting blood and body fluid of a user; An ultrasound inspection unit for converting the ultrasound waves reflected from the ultrasound waves into electrical signals and generating an echo signal using the electrical signals, an X-ray photographing unit for irradiating and transmitting the X-rays to the user and converting the detected X- A CT photographing unit for irradiating the X-rays to the user at a plurality of angles to transmit the X-rays, and for converting the detected X-rays into an image reconstructed by absorbing the cross-section of the user's body; An MRI photographing unit for converting an image signal into an image, a bio-signal measuring unit, a body fluid examining unit, Unit, an x-ray imaging units, CT and MRI imaging unit, but the imaging control the operation portion, provided to receive each of the measured information from each of a main control part for processing signals health measuring device; And
A health checkup application is executed and the health checkup application is executed to execute a health checkup application so that the user can check the health status of the user using the user's bio signal information measured by the health measurement module, the user's blood and body fluid information, echo signal, And a user terminal for generating health status information of the user and displaying the generated health status information of the user. The smart phone can be used for a blood test, a urine test, a pregnancy test, a DNA test, an ultrasonic examination, A health check system that performs x-ray inspection, CT imaging examination, and MRI imaging examination.
The method according to claim 1,
Wherein the bio-signal measuring unit and the body fluid testing unit can be mounted on the user terminal. The method of claim 1, wherein the bio-signal measuring unit and the body fluid testing unit are mounted on the user terminal. A health check system that performs a shot test.
The method according to claim 1,
The bio-signal measuring unit and the body fluid inspecting unit may be provided in a patch form so as to be detachably attachable to the user's skin. The smart phone may be used for a blood test, a urine test, a pregnancy test, a DNA test, , CT imaging examination, and MRI imaging examination.
The method according to claim 1,
Wherein the bio-signal measuring unit comprises at least one electrode for measuring a user's bio-signal; A first A / D converter for converting the measured bio-signal into a digital signal; And a first memory for storing the converted bio-signal, wherein the bio-signal of the user's pulse and body temperature is measured. The method of claim 1, A health check system that performs tests, x-rays, CT scans, and MRI scans.
The method according to claim 1,
The body fluid testing unit includes:
The at least one microneedle for collecting blood and body fluids of a user;
A measurement unit for measuring an electric current by measuring the blood and body fluids taken by the enzyme reaction and emitting light into the collected blood and body fluids to measure a user's body fluid signal according to the intensity of refraction and reflection of light;
A second A / D converter for converting the measured body fluid signal into a digital signal; And
And a second memory for storing the converted body fluid signal,
Wherein the body fluid of urine, leukocyte, blood glucose, cholesterol, DNA, and human chorionic gonadotrophin (HCG) is measured, and the body fluid may be urine. , DNA testing, ultrasound testing, x-ray testing, CT imaging, and MRI imaging.
The method according to claim 1,
Wherein the ultrasonic inspection unit comprises:
A pulse generator for generating a pulse signal;
A transducer for converting the pulse signal into an ultrasonic wave and transmitting the ultrasonic wave and converting the received ultrasonic wave into an electric signal;
A signal processor for generating an echo signal using the converted electrical signal;
A third A / D converter for converting the generated echo signal into a digital signal;
A third memory for compressing and storing the converted echo signal; And
And a third communication unit for transmitting the stored echo signal to the outside. The method of claim 1, wherein the first communication unit transmits the stored echo signal to the outside. A health check system that performs tests.
The method according to claim 1,
The x-
A tube for irradiating a user with an X-ray generated by applying a high voltage;
A detector outputting from the tube and detecting x-rays transmitted through the user;
A fourth memory for converting the detected X-ray into an image and compressing and storing the image; And
And a fourth communication unit for transmitting the stored image to the outside. The method according to claim 1, wherein the smart phone is used for a blood test, a urine test, a pregnancy test, a DNA test, an ultrasonic test, To perform a health check system.
The method according to claim 1,
Further comprising an external server connected to the user terminal through a wired / wireless communication network to provide a security authentication application and perform registration for security authentication,
The user terminal comprising:
A storage unit for storing the security authentication application provided from the external server and the face pattern information of the user registered with the external server;
A camera unit for capturing a face image of a user requesting security authentication;
A control unit for executing the security authentication application to compare the registered face pattern information and the photographed face image of the user to generate a signal for authenticating a registered user when the registered face pattern information matches; And
And a first communication unit for transmitting a signal of the control unit to the health measurement module,
Wherein the health measurement module permits the user's health measurement when the user's authentication signal is applied. The method according to claim 1, , A health check system that performs an MRI imaging test.
The method according to claim 1,
Wherein the health measurement module includes a tag and a reader,
Wherein the user terminal recognizes the tag as it approaches the health measurement module and executes the security authentication application. The method of claim 1, wherein the user terminal uses the smart phone to perform a blood test, a urine test, a pregnancy test, a DNA test, A health check system that performs a test, a CT scan test, and an MRI test.
The method of claim 9,
Wherein the storage unit stores an authentication token for the health measurement module and the control unit activates the authentication token stored in the storage unit when the user is authenticated as the registered user so that the authentication token is recognized through the reader A health inspection system that performs a blood test, a urine test, a pregnancy test, a DNA test, an ultrasound test, an x-ray test, a CT test, and an MRI test using a smartphone.

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