KR20060030634A - Mobile terminal for medical examination - Google Patents

Abstract

The present invention relates to a mobile terminal for diagnosing health by measuring physical information of a user. The neural network (NN) or genetic algorithm (GA) can be used to comprehensively diagnose the health of the user. The medical examination portable terminal may include a first measuring unit which sends a predetermined brain wave and frequency to a user and measures a response signal thereto, and a second measuring unit which measures body information of the user other than the brain wave, the first measuring unit and the second measuring unit. A processing unit processing the measured data through a neural network or a genetic algorithm; And a display unit displaying the result processed by the processing unit as data that can be recognized by the user.

Neural Networks, Genetic Algorithms, Mobile Devices, Health

Description

Medical examination mobile terminal {MOBILE TERMINAL FOR MEDICAL EXAMINATION}             

1 is a block diagram showing the configuration of a mobile terminal for diagnosing health in the related art;

2 is a block diagram showing the configuration of a medical examination portable terminal according to an embodiment of the present invention;

3 is an exemplary view of the body temperature measuring unit of FIG. 2 according to an embodiment of the present invention;

4 is an exemplary diagram showing a voice of a user measured by the voice measuring unit of FIG. 2 according to an embodiment of the present invention;

5 is an exemplary view of the pressure measuring unit of FIG. 2 according to an embodiment of the present invention;

6 is an exemplary view of the pulse measuring unit of FIG. 2 according to an embodiment of the present invention;

7 is an exemplary view of the EEG measuring unit of FIG. 2 according to an embodiment of the present invention;

8 is an exemplary view showing a connection between a medical examination portable terminal and a computer according to an embodiment of the present invention;

9 is a block diagram showing the configuration of the computer of FIG. 8 according to an embodiment of the invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile diagnostic terminal, and more particularly, to a mobile terminal for comprehensively diagnosing a user's health using a neural network or a genetic algorithm.

The combination of fields such as gene array discovery and cloning technology with the ever-growing field of information technology creates a new technology field called the era of bio information technology (BIT) or bio technology + IT: information technology (BT). Was done.

It is not an exaggeration to say that it is a part of modern people, but a research that can diagnose the health of a user using a mobile terminal belongs to the BIT or IBT field. However, the mobile terminal for diagnosing the health of a user in the related art simply uses body information measured through contact with the mobile terminal of the user.

1 is a block diagram showing the configuration of a portable terminal for diagnosing health in the related art.

The body temperature measuring unit 100, the voice measuring unit 110, and the pulse measuring unit 120 measure body information of the user through the respective sensors. When the linear processing unit 130 performs simple calculation on the user's body information measured through the body temperature measuring unit 100, the voice measuring unit 110, and the pulse measuring unit 120, the display unit 140 is the linear processing unit 130. The operation result of, i.e., the result of the medical examination of the user is displayed.

For example, if the body temperature of the user measured in the body temperature measuring unit 100 is higher than the standard body temperature of the human, the linear processing unit 130 performs a simple operation informing of danger. Therefore, the linear processor 130 may not perform comprehensive and analytical processing such as evaluation of the amount of change of the body and the appropriate exercise amount before and after the exercise of the user who exercises. In addition, the sensor was passively measured by the user's physical information, and thus could not actively collect the data needed to know the user's health.

Accordingly, the present invention is to provide a mobile terminal for comprehensively diagnosing the health of a user using a neural network or a genetic algorithm.

In addition, the present invention is to provide a mobile terminal for transmitting a predetermined brain wave and frequency to the user and measuring the response signal thereto.

The medical examination portable terminal according to the present invention transmits a predetermined brain wave and frequency to a user and measures a response signal thereto, a second measuring unit measuring a body information of the user other than the brain wave, the first measuring unit and the first measuring unit. A processing unit processing the data measured from the two measuring units through a neural network or a genetic algorithm; And a display unit displaying the result processed by the processing unit as data that can be recognized by the user.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

2 is a block diagram showing the configuration of a medical examination portable terminal according to an embodiment of the present invention.

EEG measuring unit 250 which is a first measuring unit for transmitting a predetermined brain wave and frequency to a user and measuring a response signal thereto, a second measuring unit 200 for measuring the body information of the user other than EEG, EEG measuring unit 250 And a processing unit 260 for processing data measured by the second measuring unit 200 through a neural network or a genetic algorithm, a display unit 270 for displaying the results processed by the processing unit 260 as data that can be recognized by a user. And a memory 280 in which data measured from the EEG measurement unit 250 and the second measurement unit 200 are stored. The second measuring unit 200 includes a body temperature measuring unit 210, a voice measuring unit 220, a pressure measuring unit 230, and a pulse measuring unit 240.

Figure 3 is an exemplary view of the body temperature measurement unit of Figure 2 according to an embodiment of the present invention.

The body temperature measuring unit 210 includes a temperature measuring sensor A 211 and a temperature measuring sensor B 212 installed on both keypads of the portable terminal, which are frequently in contact with a user's hand. When the user starts a call or selects a preset health diagnosis menu on the mobile terminal, the temperature measuring sensor A 211 is operated to measure the user's body temperature.

Then, when the user presses the keypad for more than a predetermined time, the temperature measuring sensor B 212 operates to measure the user's body temperature. If the user presses the keypad for less than a predetermined time, an error may occur in the body temperature measurement, in which case it is used as data during comprehensive processing through the computer of FIG. 9 to be described later. Therefore, the temperature measuring sensor B 212 measures the user's body temperature even in this case, but stores the measured data in the memory 280 of 2 without inputting the measurement data to the processor 260 of FIG. 2. On the other hand, the body temperature measuring unit 200 may correct the measurement error that may occur due to the heat of the battery of the portable terminal.

FIG. 4 is an exemplary diagram showing a voice of a user measured by the voice measuring unit of FIG. 2 according to an exemplary embodiment of the present invention.

The voice measuring unit 220 is installed in the microphone of the mobile terminal used during the call to measure the user's voice. In general, when a person's body changes, the voice also changes. 4 shows a user's voice as a graph, and a sharply changed part is shown. The voice measuring unit 220 measures a displacement point having a voice change according to the user's body change.

5 is an exemplary view of the pressure measuring unit of FIG. 2 according to an embodiment of the present invention.

The pressure measuring unit 230 is provided with a pressure measuring sensor 231 installed on the keypad of the portable terminal to measure the strength of the pressure input when the user presses the keypad. In the above measurement, the user presses the keypad strongly and the health is good, and pressing the keypad weakly does not deteriorate the health.

The pressure measuring unit 230 measures the time when the keypad is pressed and the speed change of the key input at the same time as the strength of the pressure. The strength of the pressure measured by the pressure measuring unit 230, the time when the keypad is pressed, and the speed change of the key input are input to the processing unit 260 of FIG. 2. Meanwhile, the processor 260 recognizes the user's keypad usage habit through the strength of the existing pressure stored in the memory 280, the time when the keypad is pressed, and the speed of the key input. Therefore, the processor 260 calculates a difference by comparing the intensity of the newly input pressure, the time when the keypad is pressed, and the speed change of the key input with the existing measured values. The difference means that the user is using the keypad in a different pattern than usual, which means that the user has a physical change.

6 is an exemplary view of the pulse measuring unit of FIG. 2 according to an embodiment of the present invention.

The pulse measuring unit 240 is equipped with a pulse measuring sensor 241 widely installed on both sides of the portable terminal frequently in contact with the user's hand to measure the user's pulse when the user makes a call or holds the portable terminal in his hand. .

7 is an exemplary view of the EEG measuring unit of FIG. 2 according to an embodiment of the present invention.

EEG measurement unit 250 is a brain wave generation sensor 251 that transmits a predetermined brain wave and frequency to the user when the user is busy and the response signal thereto, as well as the brain wave generated between the user talking to the mobile terminal ear It includes an EEG feedback sensor 252 for measuring.

The EEG and the frequency generated by the EEG sensor 251 is not harmless to the human body and the frequency is an audible frequency that can be heard by the human or an inaudible frequency.

In addition, by providing the braille on the keypad of the mobile terminal, the brain wave feedback sensor 252 measures the brain wave generated when the user presses the braille. The EEG feedback sensor 252 inputs the amount of change in the EEG generated from the user through the measured EEG to the processor 260 of FIG. 2.

Meanwhile, the body information of the user measured by the body temperature measuring unit 210, the voice measuring unit 220, the pressure measuring unit 230, the pulse measuring unit 240, and the EEG measuring unit 250 is stored in the memory 280. It is stored.

The processor 260 of FIG. 2 may measure the user's body information measured by the body temperature measuring unit 210, the voice measuring unit 220, the pressure measuring unit 230, the pulse measuring unit 240, and the EEG measuring unit 250. Through neural network or genetic algorithm. However, when processing the response signal measured by the EEG measurement unit 250, the mobile terminal according to an embodiment of the present invention must process a larger amount of calculation than the conventional medical examination portable terminal. When the body information of the user measured by the EEG measurement unit 250 and the second measurement unit 200 is processed through the linear processing unit 130 of FIG. 1 like a conventional medical examination portable terminal, a rapid processing result may be obtained. However, since the natural system is not linear, the person is also not linear, so the processor 260 according to the exemplary embodiment of the present invention uses the neural network or the genetic algorithm of the nonlinear process, using the EEG measuring unit 250 and the second measuring unit ( In step 200, the user's body information measured is processed.

When the processor 260 processes the user's body information through a neural network or a genetic algorithm, the display unit 270 displays the results processed by the processor 270 as data that can be recognized by the user.

On the other hand, when the user's body information stored in the memory 280 of FIG. 2 is connected to the computer, such as a portable terminal connected to a computer having a higher processing capability than the portable terminal, the computer using a neural network or genetic algorithm To process the body information.

8 is an exemplary diagram illustrating a connection between a medical examination portable terminal and a computer according to an exemplary embodiment of the present invention.                     

The memory 280 of the portable terminal of FIG. 2 includes a user's temperature measured by the temperature measuring unit 210, the voice measuring unit 220, the pressure measuring unit 230, the pulse measuring unit 240, and the EEG measuring unit 250. Physical information is stored. When a user connects a predetermined connection device, for example, a data cable to an interface connector of the portable terminal, and inputs the user's body information to the computer, the computer is connected to the input user through a neural network or a genetic algorithm, such as the processor 260 of the portable terminal. Process body information

Computers have better processing power than handheld devices, so they can provide users with comprehensive processing results that are close to actual health checks.

9 is a block diagram showing the configuration of the computer of FIG. 8 according to an embodiment of the present invention.

The body information of the user measured by the body temperature measuring unit 210, the voice measuring unit 220, the pressure measuring unit 230, the pulse measuring unit 240 and the EEG measuring unit 250 of FIG. It is stored in the memory B (300). The processor B 310 processes the user's body information stored in the memory B 300 by using a neural network or a genetic algorithm, such as the processor 260 of the portable terminal of FIG. 2.

Since the processing power of the computer is better than that of the portable terminal, the number of nodes of the processing unit B 310 of the computer is larger than the number of nodes of the processing unit 260 of the portable terminal of FIG. 2 as shown. In addition, the number of nodes that output the processing result in the last output step is two. One node outputs the result processed by the display unit B 320 of the computer in the same manner as the portable terminal. The display unit B 320 of the computer also displays the result processed by the processing unit B 310 as data that can be recognized by the user, similarly to the portable terminal.

On the other hand, another node in the last output step re-inputs the processing section B 310 of the processed result that needs to be reprocessed. The re-inputted data may be processed together with the user's body information continuously input from the memory B 300 to provide the user with an accurate medical examination result having a low error rate.

In the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be defined by the described embodiments, but should be determined not only by the claims but also by the equivalents of the claims.

According to the present invention as described above, by processing the measured body information of the user using a non-linear algorithm, such as a neural network or genetic algorithm, there is an effect that can be a periodic and intelligent medical examination without being disturbed by the temporary body changes of the user.

In addition, by sending a predetermined brain wave and frequency harmless to the user and measuring a response signal therein, there is an effect that can actively collect the user's body information without passively measuring the user's body information as conventionally.

In addition, the user can carry out a medical examination by simply carrying a mobile terminal with her mobile terminal without having to spend a certain time for the medical examination.

In addition, there is an effect that can provide the user with a comprehensive treatment result close to the actual health examination using a computer.

In addition, the user can flexibly cope with the disease by receiving a health examination from a mobile terminal or a computer.

In addition, the use of brain waves generated in humans has the effect of helping the development of EEG research.

Claims (17)

In a mobile terminal, A first measuring unit which sends a predetermined brain wave and frequency to a user and measures a response signal thereto; A second measuring unit measuring body information of the user other than the EEG; A processing unit processing the data measured by the first measuring unit and the second measuring unit through a neural network (NN) or a genetic algorithm (GA); And And a display unit for displaying the result processed by the processing unit as data that can be recognized by the user. The method of claim 1, The predetermined EEG and frequency is a health diagnostic portable terminal, characterized in that harmless to the human body. The method of claim 2, And wherein said frequency is one of an audible frequency that can be heard by a person and an unaudible frequency that can respond. The method of claim 1, wherein the first measuring unit, And the predetermined brain wave and frequency to the user when the user is busy. The method of claim 1, And the first measurement unit measures an EEG generated from a user as well as a response signal to the predetermined EEG and frequency. The method of claim 5, wherein the first measuring unit, The medical examination mobile terminal, characterized in that for measuring the brain waves generated when the user presses the braille provided on the keypad of the mobile terminal. The method of claim 1, wherein the second measuring unit, Body temperature measuring unit for measuring the body temperature of the user; A voice measuring unit measuring a user's voice; A pressure measuring unit measuring a pressure input when a user presses a keypad; And Medical diagnostic handheld terminal comprising a pulse measuring unit for measuring the user's pulse. The method of claim 7, wherein the body temperature measuring unit, The medical examination mobile terminal, characterized in that for measuring the user's body temperature when the user initiates a call or selects a preset medical diagnostic menu on the mobile terminal. The method of claim 7, wherein the body temperature measuring unit, If the user presses the keypad of the portable terminal for more than a predetermined time period, the key diagnostic mobile terminal, characterized in that for measuring the user's body temperature through a sensor installed in the keypad. The method of claim 9, wherein the body temperature measuring unit, And when the user presses the keypad of the portable terminal for less than a predetermined time, the user's body temperature is measured through the keypad and stored in a memory of the portable terminal without being input to the processor. The method of claim 7, wherein the body temperature measuring unit, A medical examination mobile terminal, characterized in that for correcting measurement errors that may be caused by the heat of the battery of the mobile terminal. The method of claim 7, wherein the voice measuring unit, A medical examination mobile terminal, characterized in that for measuring the displacement point of the voice change according to the user's body changes in the voice input through the microphone of the mobile terminal used when the user calls. The method of claim 7, wherein the pressure measuring unit, The key diagnostic mobile terminal, characterized in that for measuring the strength of the input pressure when the user presses the keypad of the portable terminal, the time the keypad is pressed, and the speed change of the key input. The method of claim 1, And a memory for storing data measured by the first and second measurement units. The method of claim 14, And the data stored in the memory is input to an external device through a predetermined connection device. The method of claim 15, And the external device is a computer. The method of claim 15, The predetermined connection device is a medical examination portable terminal, characterized in that the data cable that can be connected to the interface connector of the mobile terminal.

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