KR20140022215A - Portable terminal for acquiring biometric informaion and u-healthcare system using the same - Google Patents

Abstract

A portable terminal for acquiring biometric information is disclosed. According to the present invention, the portable terminal for acquiring biometric information includes sensor input parts which are combined with a sensor for detecting the biometric signal of a human body as an electric signal, perform a local area network with the relay terminal of a manager managing the health of a user, and are correspond to sensors detecting the biometric signal; a control part acquiring the biometric signal of the body heat, blood pressure, blood sugar, oxygen saturation, pulse, electrocardiogram, and electromyogram of the human body; a display part displaying the biometric signal acquired by the control part to the user; and a network interface transmitting the biometric signal and a health status to the relay terminal of the manager. [Reference numerals] (101) First sensor input unit; (102) Second sensor input unit; (103) Third sensor input unit; (104) Fourth sensor input unit; (105) Fifth sensor input unit; (110) Control unit; (112) Biometric information generation unit; (114) Setting unit; (120) Display unit; (122) Input unit; (124) Memory; (130) Network interface; (201) First sensor; (202) Second sensor; (203) Third sensor; (204) Fourth sensor; (205) Fifth sensor

Description

Portable Terminal For Acquiring Biometric Informaion And U-HealthCare System Using The Same}

The present invention relates to a portable biometric information acquisition terminal and a U-healthcare system using the same. In particular, the present invention relates to a U-healthcare system that can easily obtain a user's biometric information and efficiently manage a user's health through a manager. It is about.

With the development of information and communication technology, high-speed communication networks are established, and with the development of medical equipment, medical services can be monitored by Ubiquitous-HealthCare; U-HealthCare, which can monitor the patient's condition with less time and space. The system is in the spotlight.

The U-healthcare system needs to check the health status at all times, such as general homes, nursing homes, senior welfare facilities, and postpartum care centers, but it can be visited by a visiting nurse or a caregiver away from a medical facility or where no medical professional resides. It is a medical treatment system that measures the patient's medical information and transmits it to the U-healthcare center, and allows the diagnosis or findings of the specialists who reside in the U-healthcare center to be confirmed by video or audio. Therefore, if the person who wants to check the health status sends the current health status to the U-healthcare center from a distance, without receiving a visit to the hospital, the simple medical information is received by wire or wireless. It can be done and can be responded quickly according to the disease state.

However, there was a problem in that accurate and rapid medical information transmission was prevented because the patient and the doctor did not obtain accurate health information before face to face 1: 1.

In addition, in the conventional U-healthcare system, the types of measuring devices capable of acquiring biometric information of a patient are also very limited, and each measuring device operates separately.

In addition, since the method of transmitting the biometric information directly measured by the patient is performed separately, it is very cumbersome at the patient's entrance and there is a case where accurate information is not delivered. In particular, since the means for transmitting the biological information is limited in the related art, the place for transmitting and receiving information for medical treatment is limited.

Accordingly, the present invention is to solve the above-mentioned problems, a portable biometric information acquisition terminal and U-healthcare using the same that can easily acquire the biometric information of the patient, and more conveniently transfer the acquired information to the hospital server The purpose is to provide a system.

In order to solve the above problems, it is coupled with a sensor for detecting a biological signal of the human body as an electrical signal, a portable biometric information acquisition terminal for performing short-range communication with the relay terminal of the manager managing the user's health, the biological signal detection A plurality of sensor input units respectively corresponding to the plurality of sensors; A controller which analyzes the biosignal and obtains biometric information of body temperature, blood pressure, blood sugar, oxygen saturation, pulse rate, electrocardiogram and electromyogram of the human body; A display unit which displays the obtained biometric information of the controller to the user; And a network interface for transmitting the biometric information and the health state to the relay terminal managed by the manager.

In addition, the ubiquitous-healthcare system according to the present invention comprises: a biometric information acquisition terminal for obtaining biometric signals of a human body and generating biometric information as physical data; A relay terminal receiving biometric information from the biometric information acquisition terminal and performing health management of a user of the biometric information acquisition terminal; A hospital server receiving biometric information from a relay terminal and extracting health state information and clinical data of a user using biometric information; And a manager server that receives the biometric information and the health status information from the hospital server and provides the biometric information and the health status information to the relay terminal managed by the manager of the user.

At this time, the biometric information acquisition terminal acquires biometric information of the body temperature, blood pressure, blood sugar, oxygen saturation, pulse, electrocardiogram and electromyogram of the human body.

In addition, the relay terminal may use a smartphone or a tablet PC on which an application program can be installed.

The biometric information acquisition terminal according to the present invention can acquire various biometric information using one terminal.

In addition, since the biological information acquisition terminal transmits the acquired patient's biological information to a relay terminal capable of remote communication, it is more convenient to carry.

In addition, the U-healthcare system according to the present invention can simplify the configuration of the biometric information acquisition terminal linked thereto by using a smartphone having a communication means and a display unit as a relay terminal.

1 is a block diagram showing the configuration of a biometric information acquisition terminal according to the present invention;
Figure 2 shows a U-healthcare system according to the present invention.

Hereinafter, embodiments of the present invention in which the above object can be specifically realized will be described with reference to the accompanying drawings. In the description of the embodiments, the same names and symbols are used for the same components, and further description thereof will be omitted.

1 is a block diagram showing the configuration of a portable biometric information acquisition terminal according to the present invention.

Referring to FIG. 1, the biometric information acquisition terminal according to the present invention includes a sensor input unit 101, 102, 103, 104, 105, a control unit 110, a display unit 120, an input unit 122, a memory 124, and a network interface 130.

The biometric information acquisition terminal 100 is connected to the sensors 201, 202, 203, 204, and 205 for detecting the biosignal of the user as an electrical signal to acquire biometric information of the user based on the biosignal.

In this case, the sensors 201, 202, 203, 204, and 205 detect a signal corresponding to biometric information, which is various physical phenomena of the body, as an electrical signal. The first to fifth sensors 201, 202, 203, 204, and 205 may be an electrocardiogram sensor, an electrocardiogram sensor, a blood pressure sensor, an oxygen saturation sensor, a body temperature sensor, or the like.

An ECG sensor attaches electrodes on the wrist, wrist, and left chest of the body to measure the potential difference between the electrodes. The ECG sensor detects the flow of electric current generated by the weak electricity generated as the contraction of the myocardium is repeated when the heart repeats contraction and expansion regularly. The biosignal by the ECG sensor is used as a data for identifying the diagnosis of atrial hypertrophy, enlargement, myocardial infarction and arrhythmia.

The EMG sensor attaches two electrodes to the muscle to be measured at intervals of 5-10 cm, and the biosignal between the two electrodes is used as a data for diagnosing neurological and neuromuscular diseases.

The blood pressure sensor measures blood pressure by repeating the process of compressing and contracting the wrist by the compression band attached to the wrist.

Oxygen saturation sensors measure the level of oxygen in the hemoglobin in the blood.

The body temperature sensor measures the user's body temperature.

In addition, the first to fifth sensor input units 101, 102, 103, 104, and 105 are terminals connected to the respective sensors 201, 202, 203, 204, and 205, and receive bio signals from the sensors 201, 202, 203, 204, and 205, and transmit them to the controller 110.

The controller 110 stores the biosignals received through the sensor inputs 101, 102, 103, 104, and 105 in the memory 124, analyzes the biosignals received in the form of electrical signals, converts the biosignals into physical data, and displays the biosignals on the display 120.

To this end, the controller 110 includes a biometric information generation unit 112 and a setting unit 114.

The biometric information generating unit 112 converts the biosignal 112 into physical data represented by the biosignal received in the form of an electrical signal. For example, the biometric information generation unit 112 converts an electrical signal received according to the type of the sensors 201, 202, 203, 204, and 205 into specific biosignals such as body temperature, blood pressure, blood sugar, oxygen saturation, pulse, electrocardiogram, and electromyogram.

The setting unit 114 selects the sensors 201, 202, 203, 204, and 205 used among the first to fifth sensors 201, 202, 203, 204, and 205, and accordingly, the biometric information generation unit 112 processes the electrical signals inputted to the respective sensors 201, 202, 203, 204, and 205. Generate corresponding specific biometric information.

The network interface 130 transmits the biometric information to the relay terminal of the manager. The network interface 130 may use a communication module such as Wi-Fi, zigbee, or Bluetooth.

The method and system for the user's health management using the biometric information transmitted to the manager's relay terminal are as follows.

2 is a view showing a universe healthcare system using the biometric information acquisition terminal 100 of the present invention.

Referring to FIG. 2, the biometric information of the user 150 is acquired through the biometric information acquisition terminal 100 and provided to the hospital server 400 via the relay terminal 300, and the hospital server 400 provides the biometric information. Acquire clinical data and health status information using. In addition, the health state information is provided to the manager server 500 together with the biometric information, and the manager 310 receives the biometric information and the health state information from the manager server 500 using the relay terminal 300. You can take care of your health.

The configuration of each of these systems is as follows.

As described above, the biometric information acquisition terminal 100 obtains biometric information, which is physical data, based on the biosignal of the user 150. The biometric information acquisition terminal 100 transmits the biometric information to the relay terminal 300.

The relay terminal 300 is carried by a manager corresponding to a nursing doctor or a nurse of the user 150, and a smart phone may be used. That is, the relay terminal 300 may use the software installed in the program language that can process a series of commands on the platform of the smartphone. At this time, the software installed in the relay terminal 300 is to display the biometric information provided from the biometric information acquisition terminal 100 to the display unit of the smart phone, and to process the command for transmitting the biometric information to the hospital server.

In addition, the relay terminal 300 stores and manages user information which is personal information of the users 150 managed by each manager 310, wherein the user information is accompanied by a unique identification code of the biometric information acquisition terminal 100. Correspondingly stored. That is, the relay terminal 300 provides the biometric information by providing the identification code of the biometric information acquisition terminal 100 that transmits the biometric information in the process of transmitting the biometric information to the hospital server 400. Classify by user and manage.

In addition, the relay terminal 300 receives the health status information of the user determined based on the biometric information from the manager server 500 to check and manage the health status of the user 150.

The hospital server 400 receives the user's biometric information through the relay terminal 300, and stores and manages clinical data and health state information extracted based on the biometric information. In addition, the hospital server 400 provides the user 150 biometric information and health state information to the manager server 500.

The manager server 500 receives and stores biometric information and health status information of the user 150 from the hospital server 400 and manages the health information. In addition, the manager server 500 provides the biometric information and the health state information to the relay terminal 300 managed by the manager 310 of the corresponding user 150.

As such, in the U-healthcare system according to the present invention, the manager 310 may efficiently manage the health state of the user 150 based on the biometric information acquired from the portable biometric information acquisition terminal 100 of the user 150. To help.

In addition, the present invention can suppress the exposure of clinical data derived based on the biometric information of the user 150 by managing the biometric information of the user 150 divided into the hospital server 400 and the manager server 500. have. That is, the biometric information and the health state information are provided to the manager 310 through the manager server 500 to be used for the health care of the user 150, but the clinical data is managed by the hospital server 400 and the manager server 500. Since it is not provided to the user privacy of the user 150 can be protected.

Further, the U-healthcare system according to the present invention uses the smart phone, which is the relay terminal 300, to communicate with the hospital server 400 and the manager server 500, and to process main data, thereby obtaining a biometric information. It can be made simple and portable.

It is to be understood by those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope of the invention, Accordingly, the above-described embodiments are to be considered illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents are intended to be included within the scope of the present invention.

Claims (4)

A portable biometric information acquisition terminal coupled with a sensor that detects a human body's biological signal as an electrical signal and performs near field communication with a relay terminal of a manager who manages a user's health,
A plurality of sensor input units respectively corresponding to the plurality of sensors detecting the bio-signals;
A controller which analyzes the biosignal and obtains biometric information of a human body temperature, blood pressure, blood sugar, oxygen saturation, pulse rate, electrocardiogram and electromyogram;
A display unit which displays the obtained biometric information of the controller to a user; And
And a network interface for transmitting the biometric information and health state to the relay terminal managed by a manager.
A biometric information acquisition terminal configured to acquire a biosignal of a human body and generate biometric information as physical data;
A relay terminal receiving the biometric information from the biometric information acquisition terminal and performing health management of a user of the biometric information acquisition terminal;
A hospital server receiving the biometric information from the relay terminal and extracting health state information and clinical data of the user using the biometric information; And
And a manager server receiving the biometric information and health state information from the hospital server and providing the biometric information and health state information to the relay terminal managed by the manager of the user.
3. The method of claim 2,
The biometric information acquisition terminal is a ubiquitous-healthcare system, characterized in that to obtain the biometric information of the body temperature, blood pressure, blood sugar, oxygen saturation, pulse, electrocardiogram and electromyogram.
3. The method of claim 2,
The relay terminal is a ubiquitous healthcare system, characterized in that using a smartphone (tablet PC) or a tablet computer (tablet PC) that can use the application program.

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