KR101306659B1 - Health management system possible biomedical signal detection using aux - Google Patents

Abstract

PURPOSE: A health management system detecting a bio signal by using an AUX terminal is provided to measure a pulse wave and electrocardiogram by carrying a miniaturized bio signal detecting unit as an accessory of a smart phone. CONSTITUTION: A bio signal detecting unit (100) receives a bio signal of electrocardiography (ECG) or photo-plethysmography (PPG) and amplifies and filters bio signal data. The bio signal detecting unit includes a first AUX interface for directly providing the bio signal to a smart phone (200) and a second AUX interface for providing a revised bio signal to the smart phone. The smart phone measures ECG, a pulse wave, and blood flow based on the bio signal data. An external data management unit (300) determines and provides a health state through the bio signal data. [Reference numerals] (100) Bio signal detecting unit; (200) Smart phone; (300) External data management unit; (AA) Biometric data; (BB) Internal power supply; (CC) NFC; (DD) Storage data; (EE) Monitoring

Description

Health management system possible Biomedical Signal Detection using AUX.}

The present invention relates to a health care system capable of detecting a biosignal using an ox terminal, and more particularly, to an electrocardiogram (ECG) and a photo-plethysmography (PPG), which are the most basic biosignals. The biosignal detection means can be connected to the earphone terminal (auxiliary, hereinafter called AUX) of a smartphone, which is carried by many people, to measure and manage the biosignal more conveniently. The present invention relates to a health care system capable of detecting a biosignal using an ox terminal for storing and managing biosignal data.

A problem in the conventional biosignal measuring apparatus lies in the communication method between the cellular phone and the device.

Although a portable terminal including a biosignal measuring apparatus has been disclosed in the related art, most of the methods for transmitting biometric data include a local area network (WLAN), Bluetooth, Ultra Wide Band (UWB), and Infrared Data Association (IRDA). By using the Home Phoneline Networking Alliance (HPNA) and the Shared Wireless Access Protocol (SWAP), the device becomes bulky, and a bio-module equipped with a communication device may be subject to noise interference, making it difficult to implement the device.

In addition, it was inevitable to operate an operation that requires a setting operation for connecting a communication device and a mobile phone.

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The first object of the present invention for solving the above problems is, by providing a bio-signal detection means using the AUX interface of the smart phone, the noise inconvenience coming from the bio-measuring device using the communication module and the inconvenience of carrying according to the bloated device To solve this problem.

The second object of the present invention is to obtain the bio-signal data transmitted from the bio-signal detection means in the smart phone and to transmit to the external data management means using the communication method via Bluetooth or Wi-Fi of the smart phone to store and manage It is.

SUMMARY OF THE INVENTION [0006] The present invention provides a solution for achieving the above object.

The health care system capable of detecting a bio-signal using the ox terminal of the present invention,

Detection sensor unit 110 for receiving a bio signal of PPG or ECG,

Amplification filtering unit 120 for amplifying and filtering the signal received from the detection sensor unit,

A biosignal detection means (100) comprising a first AUX interface (130) for directly providing a biosignal of an amplification filtering unit to a smartphone;

A smart phone 200 for acquiring biosignal data transmitted by the biosignal detecting means and measuring electrocardiogram, pulse wave, and blood flow;

And external data management means 300 for acquiring and storing biosignal data measured by the smart phone, and identifying whether there is an abnormality and providing health abnormality information to the smart phone in case of a health abnormality.

The present invention has the following effects.

By carrying a miniaturized bio-signal detection means as a smart phone accessory, pulse waves, electrocardiograms can be measured in real time, and data can be accumulated and managed to provide an effect that can check the state of health at any time.

1 is an overall configuration diagram of a health care system capable of detecting a bio-signal using an ox terminal according to an embodiment of the present invention.
Figure 2 is a block diagram of a biosignal detection means of a health care system capable of detecting a biosignal using an ox terminal according to an embodiment of the present invention.
Figure 3 is an exemplary view showing a bio-signal detection means and a smart phone of the health care system capable of detecting a bio-signal using the Ox terminal according to an embodiment of the present invention.
Figure 4 is a perspective view of a bio-signal detection means of a health care system capable of detecting a bio-signal using the Ox terminal according to an embodiment of the present invention.
5 is a graph showing an ECG signal and a PPG signal of a health care system capable of detecting a biosignal using an ox terminal according to an embodiment of the present invention.
6 to 7 are views showing an example of measuring the PPG during the operation of the bio-signal detection means of the health care system capable of detecting a bio-signal using the ox terminal according to an embodiment of the present invention.
8 to 9 are views showing another configuration example of a biosignal detection means of a health care system capable of detecting a biosignal using an ox terminal according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

1 is an overall configuration diagram of a health care system capable of detecting a biosignal using an ox terminal according to an embodiment of the present invention.

As shown in FIG. 1, the system of the present invention is configured to manage health by interworking a biosignal detection unit 100 capable of measuring biosignals with a smartphone 200.

To this end, the biosignal detection means includes a detection sensor unit 110 for detecting a biosignal, and has an AUX interface 130 serving as a communication unit for solving the problems of the prior art. It is possible to operate the biosignal detection means by transmitting the biometric data to the phone or receiving the power of the smartphone.

In addition, the smart phone 200 receives the bio-signal has a built-in application for managing health, and can transmit data to the external data management means 300, which is an external device using a local area network such as Wi-Fi or Bluetooth. .

At this time, the external data management means built on the outside manages the biological data received at all times, and when a bad health pattern is observed according to the situation is configured to transmit the health abnormality information to the smart phone that the user is carrying .

The health abnormality information, for example, has normal ECG data, and when ECG data is obtained outside the normal ECG data range, it is determined that the current state of health is not good, and the measured ECG data and the stored normal ECG data are smart. Provided to the phone, the information including the measured ECG data and normal ECG data is defined as health abnormality information.

2 is a block diagram of a biosignal detection unit of a health care system capable of detecting a biosignal using an ox terminal according to an exemplary embodiment of the present invention.

As shown in FIG. 2, the biosignal detection means 100 according to an embodiment may include

Detection sensor unit 110 for receiving a bio signal of PPG or ECG,

Amplification filtering unit 120 for amplifying and filtering the signal received from the detection sensor unit,

It is configured to include a first AUX interface 130 for directly providing a biometric signal of the amplification filtering unit to the smartphone.

That is, the detection sensor unit 110 receives the PPG or ECG biosignal, and the amplification filtering unit 120 amplifies and filters the signal received from the detection sensor unit.

In this case, the first AUX interface 130 directly provides the biosignal of the amplification filtering unit to the smartphone.

The detection sensor unit detects PPG or ECG. Preferably, the PPG is configured to use a sensor using an optical sensor, and the ECG is configured as a preamplifier using a specific electrode and a differential amplifier.

The biometric data input from each sensor is amplified 10 times through the primary amplifier 122 through the band section of 0.1Hz to 150Hz through the primary filter 121.

The low frequency region may be extracted through the secondary filter 123 to detect the primary signal PPG signal.

In addition, the ECG signal that requires higher amplification than the pulse wave signal detects the ECG signal by measuring a signal 10 times further amplified by the secondary amplifier 124.

One of the two signals can be selected and used according to the input signal at the final output terminal.

The PPG and ECG signals have frequencies in the range of 0.1 Hz to 80 Hz, but since the voltage levels of the signals are different, the present invention can simplify the circuit by measuring similar regions in the same circuit that constitutes the filter or amplifier. .

On the other hand, the AUX interface of the present invention consists of two.

The first is to connect the final output biosignal directly to the first AUX interface 130, and the second is to correct and transmit the signal through the signal correction controller 140 for acquiring and correcting the biosignal of the amplification filtering unit.

The first is a simple configuration that does not use an external device by directly connecting AUX data in the detection sensor unit, and signal correction is performed in a smartphone.

Secondly, the biometric data is corrected through an external controller.

In the case of calibrating a signal in a smartphone, processing of data may incur a load on the operation, so that the signal may be calibrated externally.

In addition, an external power source for calculation is added.

The final processed signal is then connected to the smartphone via the second AUX interface.

3 is an exemplary view showing a biosignal detection means and a smart phone of a health care system capable of detecting a biosignal using an ox terminal according to an embodiment of the present invention.

4 is a perspective view of a biosignal detection means of a health care system capable of detecting a biosignal using an ox terminal according to an exemplary embodiment of the present invention.

As shown in Fig. 3, the biosignal detection means is mounted on the AUX terminal of the smartphone vertically.

The detection sensor unit 110 receiving the bio signals of the PPG or ECG of the present invention is equipped with the ECG sensor 110a through the side, and the light emitting unit and the light receiving unit of the PPG sensor 110b are mounted in the center.

In addition, by attaching a rubber material on the lower surface to prevent the scratch of the smartphone, the right side is equipped with a fixing pin (110c) to prevent the sliding phenomenon during operation.

5 is a graph showing an ECG signal and a PPG signal of a health care system capable of detecting a biosignal using an ox terminal according to an embodiment of the present invention.

As shown in FIG. 5, the biosignal is data measured through the present invention. The upper figure is an ECG signal and the lower figure is a PPG signal.

6 to 7 are views showing an example of measuring the PPG during the operation of the bio-signal detection means of the health care system capable of detecting a bio-signal using the ox terminal according to an embodiment of the present invention.

8 to 9 are diagrams showing another configuration example of the biosignal detection means of the health care system capable of detecting the biosignal using the ox terminal according to the embodiment of the present invention.

That is, the biosignal detection means configured to separate and detect only the PPG signal, and the upper part of the center is the light emitting part and the blue sensor at the bottom is the light receiving part.

In addition, it is possible to measure by inserting a finger by making a ring shape, it can be made of a plastic material that can increase the shape of the ring so as not to limit the measurement target.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: biosignal detection means
110: detection sensor
120: amplification filtering unit
130: the first AUX interface
140: signal compensation controller
150: second AUX interface
200: Smartphone
300: external data management means

Claims (13)

delete In the health care system capable of detecting a bio-signal,
Detection sensor unit 110 for receiving a bio signal of PPG or ECG,
A primary filter 121 for passing the biosignal data in a band section of 0.1 Hz to 150 Hz,
A primary amplifier 122 for amplifying the biosignal data passed through the primary filter 10 times;
A secondary filter 123 for extracting a low frequency region and detecting a PPG signal as a primary signal;
An amplification filtering unit 120 including a secondary amplifier 124 for detecting an ECG signal by amplifying the biosignal data passing through the secondary filter 10 times;
A first AUX interface 130 for directly providing a biometric signal of the amplification filtering unit to a smartphone;
A signal correction controller 140 for acquiring and correcting a biological signal of the amplification filtering unit;
A biosignal detection means (100) comprising a second AUX interface (150) for acquiring the corrected biosignal to the signal correction controller and providing it to the smart phone;
A smart phone 200 for acquiring biosignal data transmitted by the biosignal detecting means and measuring electrocardiogram, pulse wave, and blood flow;
And an external data management means 300 for acquiring and storing biosignal data measured by the smart phone, and identifying whether there is an abnormality and providing health abnormality information to the smart phone in case of a health abnormality.
The detection sensor unit,
PPG sensor module manufactured to measure blood flow by optical sensor type,
It is equipped with a terminal for detachable ECG sensor module that can measure the waveform of the heart, characterized in that the sensor module can be mounted on the outside,
And storing the PPG and ECG signals measured in the living body in a smartphone and synchronizing them with external data management means using a local area network such as Bluetooth, Wi-Fi, IrDA, etc.
The amplification filtering unit,
The signal is processed using the same amplifier as the frequency filter of the same 0.1Hz to 150Hz band,
Biological signal data stored in the smartphone,
It monitors the waveform and cycle state of PPG and ECG signals using the application inside the smartphone, and identifies the health status according to the heart rate per minute, the shape and pattern of the waveform, and determines the presence or absence of health,
The power source of the bio-signal detection means,
Health care system capable of detecting a bio-signal using an ox terminal, characterized in that the power is supplied by using the earphone sound terminal output through the first AUX interface or the second AUX interface, or the battery unit is supplied to one side. delete delete delete delete delete delete The method of claim 2,
The biological signal detection means,
Health care system capable of detecting bio-signals using the ox terminal, characterized in that the contact portion of the smartphone is treated with a rubber material to prevent damage to the smartphone.


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