KR20090065869A - Bio-signal detection based health management service system and its monitering method - Google Patents

Abstract

A bio signal detection based health management service system and a monitoring method thereof are provided to supply an effective health management service through risk analysis of a detected bio signal during a health management service according to monitoring information about a health management service. A portable health management device(200) writes a monitoring plan corresponding to transmitted monitoring information. The portable health management device requests transmission of a bio signal according to a monitoring time corresponding to the monitoring plan. The portable health management device receives and stores the bio signal according to monitoring duration. The portable health management device selects and rewrites the monitoring plan through risk analysis of the bio signal to perform a health management service. A bio signal measurement device(100) measures the bio signal according to the transmission request of the bio signal during monitoring duration time. The bio signal measurement device transmits the bio signal to the portable health management device through a local area wireless communication module.

Description

Health care service system based on biosignal detection and its monitoring method {BIO-SIGNAL DETECTION BASED HEALTH MANAGEMENT SERVICE SYSTEM AND ITS MONITERING METHOD}

The present invention relates to a health care service system based on biosignal detection, and more particularly, to a health care service system based on biosignal detection and monitoring thereof suitable for monitoring a health care service provided by detecting a biosignal. It is about a method.

The present invention is derived from the research conducted as part of the IT growth engine technology development project of the Ministry of Information and Communication and the Ministry of Information and Communication Research and Development. [Task management number: 2005-S-069-03, Title: Biological information processing based wearable system technology] Development].

As is well known, with the advent of the aging age, U-health (Ubiquitous Healthcare) related fields are recognized as future growth engines. Most elderly people over 60 years have one or two chronic diseases such as hypertension, diabetes, bronchial asthma, and dementia. In addition, the elderly and middle-aged people are also rapidly increasing chronic diseases due to Western-style eating habits and lack of exercise, but most of them are difficult to move to a medical institution due to inconvenient behavior or work life. Accordingly, technologies and industries related to telemedicine or remote health monitoring have been actively researched recently.

In particular, technology for providing health information by wirelessly connecting a biosignal collection sensor such as blood pressure, pulse rate, and body temperature to a mobile terminal has been developed around major communication companies and medical information companies.

In the early stages of health monitoring technology using mobile terminals and biosignal collection sensors, many researches have been conducted on the method of transmitting biosignal information measured by a user offline or online to a health care server using a portable communication device such as a mobile phone or a PDA. . However, as the demand for emergency patient identification and unconscious and continuous health monitoring for chronically ill patients is increasing, research on health monitoring technology using body-worn sensors is gradually increasing.

The main services provided through the health monitoring technology include self-diagnosis service, remote monitoring service, and emergency notification service. The self-diagnosis service uses a user interface of a portable health care system at a point in time desired by the user, and the blood pressure and pulse rate. By measuring and analyzing biological signals such as body temperature, and checking health status, the service can store the result in a server.

In addition, the remote monitoring service registers a time or period to be monitored in advance through a user interface of a portal server connected to the Internet remotely, runs a monitoring service at that time, measures and analyzes a biosignal, and monitors the result. It is a service that doctors or patients can check by transmitting to the management server, and emergency notification service measures and analyzes bio signals in real time from sensors attached to the body and determines that an emergency has occurred. It is a service that drives.

In particular, real-time continuous monitoring such as emergency notification service is a very useful service for high-risk patients such as elderly people or chronic diseases, but there is a problem that the battery must be frequently replaced due to excessive power consumption of the sensor and portable health care system. Therefore, in the existing biosignal monitoring system, the operation mode is divided into a real time mode and a normal mode. If the user wants to receive self-diagnostic service or remote monitoring service only, the user sets the normal mode and the real-time mode to receive emergency notification service. Must be set to use. Here, the real time mode is a mode for continuously measuring the bio-signal from the attached sensor, the normal mode is a mode that accepts the bio-signal only when the attached sensor is activated.

However, in the conventional biosignal monitoring technology, a service is provided by setting a monitoring mode, a time, a cycle, etc. according to a service desired by a doctor or a patient and a patient's health condition, and the patient or a doctor changes the health status of the patient. Should be able to reset the monitoring mode, time, and cycle manually, but in general, the number of patients managed by one doctor can be hundreds to thousands, so monitoring and resetting the health status of each patient from time to time There is an almost impossible problem, and the patient also has a problem that it is cumbersome to recognize the change in his or her health condition and change the monitoring time or cycle each time.

Accordingly, the present invention provides a health care system based on biosignal detection and monitoring thereof, which can provide an effective health care service by analyzing the risk of the biosignals detected during the health care service according to the monitoring information on the health care service. To provide a method.

In one aspect, the present invention is a health management system based on the detection of a bio-signal, a health management server for setting and registering the monitoring information for the health care service and transmitting it through a wireless communication network, and corresponding to the transmitted monitoring information Prepare a monitoring plan, request the transmission of the biosignal according to the corresponding monitoring time, receive and store the biosignal according to the monitoring duration, and select the monitoring plan through the risk analysis of the biosignal. A portable health care device for creating and performing a health care service, and a biosignal measurement for measuring the biosignal for the monitoring duration according to a request for transmitting the biosignal and transmitting the biosignal to the portable health care device through a short range wireless communication module A biosignal detection including a device It provides health care system as.

In another aspect, the present invention is a method for providing a health care service based on the detection of a bio-signal, comprising the steps of setting and registering the monitoring information for the health care service, the wireless communication network to the portable health care device Transmitting and storing the data, and requesting transmission of the biosignal to a biosignal measuring apparatus when the monitoring time corresponding to the monitoring plan created according to the monitoring information is reached; Transmitting to the management device through a short range wireless communication module, storing the transmitted biosignal, performing a risk analysis on the transmitted biosignal, and selectively rewriting the monitoring plan according to a result of the risk analysis Performing the health care service A method for monitoring a health care system based on biosignal detection is provided.

Unlike the conventional method of directly resetting the monitoring mode, time, period, etc. after providing a service by setting a monitoring mode, time, period, and the like according to a service desired by a doctor or a patient and the health state of the patient, After setting and registering the monitoring information for the health care service, it is transmitted and stored to the portable health care device through a wireless communication network, and when the monitoring time corresponding to the monitoring plan prepared according to the monitoring information is reached, the biosignal measuring apparatus Request the transmission of the biomedical signal, measure the biosignal, transmit the biosignal to the portable healthcare device through the short-range wireless communication module, store the transmitted biosignal, perform a risk analysis on the biomedical signal, and perform a monitoring plan accordingly. By selectively rewriting to perform health care services, Setting a gettering information, it is possible to automatically monitor the health care services through the bio-signal detection can improve the user's ease of use.

In particular, the present invention can provide an effective health care service by shortening the monitoring cycle or resetting the monitoring duration as the risk becomes higher through the risk analysis as in the automatic monitoring information setting using the health care system.

Summary of the Invention The technical gist of the present invention is to set up and register monitoring information about a health care service for a specific subject, and accordingly perform a risk analysis of the detected biosignal while detecting a biosignal and providing a corresponding health care service. By rewriting the monitoring plan, the health care service is provided according to the rewritten monitoring plan, and the technical means can solve the problems in the prior art.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a health care service system suitable for providing a health care service through the risk analysis of the detected biometric information according to the present invention. The biosignal measuring apparatus 100, the portable health care apparatus 200, and health The management server 300 is included. Here, the biosignal measuring apparatus 100 includes a first control unit 102, a sensing unit 104, and a first short range wireless communication unit 106, and the portable health care device 200 includes the second control unit 202. , An interface unit 204, a first wireless communication unit 206, a storage unit 208, a second short range wireless communication unit 210, and an analysis unit 212, and the health care server 300 includes a third control unit ( 302, a second wireless communication unit 304, and a health information database 306.

Referring to FIG. 1, the biosignal measuring apparatus 100 has an accessory form such as a watch, a ring, a necklace, and the like, and includes a biosignal detection sensor that detects a biosignal such as a blood pressure, a pulse, and a body temperature. When it is turned on, it operates in a sleep mode, and when a biosignal transmission is requested from the portable health care device 200, it operates in an active mode, and then measures a biosignal through a biosignal detection sensor for short range. The biosignal measured using the wireless communication module is transmitted to the portable health care device 200.

Meanwhile, the first control unit 102 of the biosignal measuring apparatus 100 controls overall sensing of the biosignal measuring apparatus 100 to control sensing through the biosignal detection sensor, and performs data communication through a short range wireless communication module. In this case, when the power is turned on, the biosignal measuring apparatus 100 operates in the standby mode, and when the biometric information transmission request is received through the first near-field wireless communication unit 106, accordingly, A sensing control signal through the biosignal detection sensor is provided to the sensing unit 102, and sensing information (for example, biometric information such as pulse, blood pressure, body temperature, etc.) transmitted from the sensing unit 104 is transmitted to the first short range wireless communication unit. Control to transmit to the portable healthcare device 200 via 106.

The sensing unit 104 of the biosignal measuring apparatus 100 includes a biosignal detection sensor that detects a biosignal such as a blood pressure, a pulse, a body temperature, and the like, and is provided from the first control unit 102. The biosignal is measured using the biosignal detection sensor according to the sensing control signal, and the biosignal information corresponding thereto is transmitted to the first controller 102.

Next, the first short range wireless communication unit 106 of the biosignal measuring apparatus 100 may include a short range wireless communication module, for example, Bluetooth, Infrared Data Association (IRDA), Zigbee, Wireless LAN, or the like. Including, the wireless data communication between the biometric signal measuring device 100 and the portable healthcare device 200 using a short-range wireless communication module (for example, receiving a biometric information transmission request, biometric information transmission, biometric information transmission interruption) Request receipt).

On the other hand, the portable health care device 200 includes a portable mobile communication terminal, PDA, etc., if monitoring profile information indicating that there is monitoring information is transmitted from the health care server 300 through a wireless communication network, monitoring corresponding thereto Request to transmit the information, and when the monitoring information (for example, device identification number, monitoring time, monitoring duration, monitoring condition, etc.) is transmitted from the health care server 300, the corresponding monitoring information is stored, and then After the monitoring plan is created, when the corresponding monitoring time comes, the biosignal measurement apparatus 100 requests the biosignal information transmission through the short range wireless communication module.

In addition, when the biomedical information (for example, pulse, blood pressure, body temperature, etc.) is transmitted from the biosignal measuring apparatus 100, the portable health care apparatus 200 stores the biometric information and then continues to respond to the monitoring information. After requesting the transmission of the biometric information for a time, receiving and storing it, and when the duration elapses, the risk is analyzed according to the monitoring information using the biometric information, and the health plan is selectively rewritten according to the analysis result. The management service is continuously performed according to the monitoring information. At this time, the portable health care device 200 receives and stores the biometric information transmitted from the biosignal measuring apparatus 100 or after performing the risk analysis, and provides the health care information including the biometric information and the risk analysis result. The wireless communication network may transmit the health care server 300 in real time. Here, the monitoring plan means all information for controlling the request and interruption of the biometric information transmission.

On the other hand, the second control unit 202 of the portable health care device 200 controls the voice call, data communication, health care services, etc. by performing the overall operation control of the portable health care device 200, the health care server ( When the monitoring profile information is transmitted from 300, the transmission of the monitoring information corresponding thereto is requested through the first wireless communication unit 206, and the monitoring information received through the first wireless communication unit 206 is stored in the storage unit 208. After storing, create a monitoring plan corresponding to the corresponding monitoring information, and when the monitoring time is reached according to the created monitoring plan, request transmission of the biometric information to the biosignal measuring apparatus 100 through the second short range wireless communication unit 210. do. Here, the monitoring profile information includes a document describing the contents of the monitoring information set by the user, and performs a function of notifying that the monitoring information for the corresponding device exists.

In addition, the second control unit 202 stores the biometric information transmitted through the second short range wireless communication unit 210 in the storage unit 208, checks the duration according to the monitoring information, and when the duration elapses, Requests to stop the biosignal transmission through the short-range wireless communication unit 210 to the biosignal measuring apparatus 100, analyzes the risk according to the monitoring information using the stored biometric information through the analysis unit 212, the bio-signal The information and risk analysis results are transmitted to the health care server 300 through the first wireless communication unit 206, the interface unit 204 is controlled to display the risk analysis results, and the monitoring plan is adjusted according to the risk analysis results. Optionally rewritten and controlled to continue performing health care services according to the rewritten monitoring plan.

In addition, the interface unit 204 of the portable health care device 200 refers to a user interface in the form of a graphical user interface (GUI), and various types of information may be displayed through various menu screens under the control of the second control unit 202. The display information may include the monitoring information, the biometric information, the risk analysis result, and the like, which are provided from the second control unit 202.

In addition, the first wireless communication unit 206 of the portable health care device 200 connects the portable health care device 200 through a wireless communication network such as a mobile communication network to perform wireless data communication with an external server. Through the module, wireless data communication (eg, monitoring profile information reception, monitoring information transmission request, monitoring information reception, health care information transmission, etc.) between the portable health care apparatus 200 and the health care server 300 is performed.

Next, the storage unit 208 of the portable healthcare device 200 stores various application programs of the portable healthcare device 200, including a memory, and the like, and the monitoring information transmitted from the second controller 202. , Monitoring plans, biometric information, and the like are stored, and these are extracted as necessary and provided to the second control unit 202.

The second short range wireless communication unit 210 of the portable health care device 200 uses a short range wireless communication module, such as Bluetooth, an Infrared Data Association (IRDA), Zigbee, or a wireless LAN. Including, the wireless data communication between the bio-signal measurement apparatus 100 and the portable health care device 200 using a short-range wireless communication module (for example, biometric information transmission request, biometric information reception, biometric information transmission stop request, etc.) ).

On the other hand, the analysis unit 212 of the portable health care device 200 extracts the monitoring information from the storage unit 208, and accordingly analyzes the risk by using the biometric information transmitted from the second control unit 202 The result of the analysis is stored in the storage unit 208, and the risk analysis result is transferred to the second control unit 202.

Next, the health care server 300 is a server for setting and registering monitoring information for user-specific health care services, and monitoring information (for example, device identification number, monitoring condition, and monitoring time) through a user interface such as a web page. , Monitoring duration, etc.) is registered, the monitoring profile information is stored and the monitoring profile information for the device is generated and transmitted to the portable health care device 200 through a wireless communication network, and the portable health care device 200 When the monitoring information corresponding to the monitoring profile information is requested, the monitoring information is extracted and then transmitted to the portable healthcare device 200 through the wireless communication network.

In addition, the health care server 300 receives health care information including various biometric information and risk analysis results transmitted from the portable health care device 200 through the wireless communication network during the health care service, and corresponds to the health corresponding to the device. Storage management is performed as management information.

Meanwhile, the third controller 302 of the health care server 300 performs overall operation control of the health care server 300, and provides a user interface for setting monitoring information for each user, and the monitoring information set through this. Stores the health profile database 306 and generates monitoring profile information for each device and transmits the monitoring profile information to the portable health care apparatus 200 through the second wireless communication unit 304. Meanwhile, the present invention has been described as requesting and receiving transmission of monitoring information corresponding to the portable health care apparatus 200 after transmitting the monitoring profile information from the health care server 300, but including a profile including the monitoring information. Of course, the monitoring information may be transmitted from the health management server 300 to the portable health care apparatus 200 in a manner of transmitting the information.

As an example, FIGS. 3A to 3C are diagrams illustrating setting monitoring information for a health care service according to the present invention. As shown in FIG. 3A, real time monitoring is turned on or off. It can be seen that it can be set, and as shown in Figure 3b it can be seen that it is possible to set the monitoring information according to a specific time or to set the periodic monitoring information, as shown in Figure 3c according to the risk of biometric information It can be seen that the five-stage risk monitoring cycle and duration can be selected and set as normal, caution, danger, warning, and emergency.

In addition, the third control unit 302 receives various health care information including biometric information and risk analysis results from the portable health care device 200 through the second wireless communication unit 304, and transmits the health care information to the health information database 306. Manage storage.

The second wireless communication unit 302 of the health care server 300 performs wireless communication with the portable health care apparatus 200 through a wireless communication network such as a mobile communication network, and the portable health care apparatus 200 through a wireless communication network. ) And wireless data communication between the health care server 300 (eg, monitoring profile information transmission, monitoring information transmission request reception, monitoring information transmission, health care information reception, etc.).

Meanwhile, the health information database 306 of the health care server 300 stores device-specific health care information. The health information database 306 stores monitoring information and health care information transmitted from the third control unit 302, and these are stored as necessary. It is extracted and provided to the third control unit 302.

As an example, FIG. 2 is a diagram illustrating an environment of a health care system based on biosignal detection according to the present invention, and includes a biosignal measuring device including a watch, a ring, sneakers, and the like, and a mobile communication terminal or a PDA. It can be seen that by establishing a health care system including a portable health care device and a health care server, the health care service can be provided through short-range communication or wireless communication.

Next, after setting and registering the monitoring information in the health care system having the above-described configuration, the monitoring information is transmitted to the portable health care device, the monitoring plan is prepared according to the monitoring information through the portable health care device, and then the monitoring time is correspondingly monitored. A process of receiving a biometric information from a biosignal measurement apparatus, performing a risk analysis, and selectively rewriting a monitoring plan according to the risk analysis result to provide a health care service will be described.

4 is a flowchart illustrating a process of providing a health care service through risk analysis of detected biometric information according to the present invention.

Referring to FIG. 4, when the user inputs a key for setting monitoring information about the health care service through a user interface such as a web page, the third control unit 302 of the health care server 300 monitors the monitoring information accordingly. If a setting web page is provided and monitoring information is set through this, the monitoring information is registered and stored in the health information database 306 (step 402).

For example, as shown in FIG. 3A, real time monitoring may be set to ON or OFF, and monitoring information including a monitoring time and a duration according to a specific time as shown in FIG. 3B. You can set the monitoring information, and periodically monitoring information including monitoring time, period and duration can be set, as shown in Figure 3c cycles in five stages of normal, caution, danger, warning, emergency, etc. according to the degree of risk And automatic monitoring information including a duration. In this case, the monitoring information may be set together with a device identification number, for example, a terminal number of the portable health care device 200.

In addition, the third control unit 302 of the health care server 300 generates monitoring profile information corresponding to the monitoring information to notify that the monitoring information exists (step 404), and the monitoring profile information is transferred to the second wireless communication unit. Transfer to portable health care device 200 via 304 (step 406).

Next, when the monitoring profile information is received through the first wireless communication unit 206, the second control unit 202 of the portable health care device 200 transmits the monitoring information corresponding to the first wireless communication unit 206. Request to health care server 300 through (step 408). At this time, when the second control unit 202 requests the transmission of the monitoring information, the device identification number of the portable health care device 200 may be transmitted.

On the other hand, when the third control unit 302 of the health care server 300 is requested to transmit the monitoring information from the portable health care device 200 via the second wireless communication unit 304, the corresponding device in the health information database 306 After extracting the monitoring information corresponding to (step 410), and transmits the monitoring information to the portable health care device 200 via the second wireless communication unit 304 (step 412). Meanwhile, the present invention has been described as requesting and receiving transmission of monitoring information corresponding to the portable health care apparatus 200 after transmitting the monitoring profile information from the health care server 300, but including the monitoring information. Of course, the monitoring information may be transmitted from the health care server 300 to the portable health care device 200 by transmitting the profile information.

Next, the second control unit 202 of the portable health care device 200 stores the monitoring information received through the first wireless communication unit 206 in the storage unit 208, and then monitors the monitoring plan according to the monitoring information. (Steps 414 and 416). Here, the monitoring plan means all information for controlling the request and interruption of the transmission of the biometric information.

In addition, when the monitoring time is reached according to the monitoring information and the monitoring plan, the second controller 202 requests biometric information transmission to the biosignal measuring apparatus 100 through the second short range wireless communication unit 210 (step 418).

Meanwhile, when the biometric information transmission request is received through the first short range wireless communication unit 106, the first control unit 102 of the biosignal measuring apparatus 100 operates in a sleep mode and an active mode. After the biosignal is detected, the biosignal is detected through the sensing unit 104 including a biosignal detection sensor that detects a biosignal such as blood pressure, pulse, body temperature, etc. In step 422, the portable healthcare device 200 transmits to the portable health care device 200 through the short range wireless communication unit 106.

In addition, the second controller 202 of the portable health care device 200 stores the biometric information transmitted through the second short range wireless communication unit 210 in the storage unit 208 (step 424), and the duration of the monitoring information. If the duration elapses after continuously performing the steps 418 to 424 of receiving and storing biometric information from the biosignal measuring apparatus 100, the second controller 202 uses the received and stored biometric information. For each biometric information, the risk analysis is performed in preparation for the normal range (step 426).

In addition, the second controller 202 requests the biosignal information transmission device 100 to be suspended through the second short range wireless communication unit 210 (step 428). Thereafter, when the first control unit 102 of the biosignal measuring apparatus 100 receives a request for stopping biometric information transmission through the first short range wireless communication unit 106, the sensing unit 104 stops detecting the biosignal accordingly. In operation 430, the controller 110 controls to operate in a sleep mode.

Meanwhile, the second control unit 202 transmits the health care information including the received and stored biometric information according to the monitoring information and the risk analysis result using the same to the health care server 300 through the first wireless communication unit 206 (step) 432). Thereafter, the third controller 302 of the health care server 300 stores and manages the health care information transmitted through the second wireless communication unit 304 in the health information database 306 for each device (step 434).

In addition, the second control unit 202 of the portable health care device 200 selectively selects a monitoring plan according to the risk, such as setting automatic monitoring information as shown in FIG. 3C, according to the result of the risk analysis analyzed for the normal range. Rewrite (step 436).

Subsequently, the second control unit 202 continuously performs the health care service according to the rewritten monitoring plan (step 438).

Therefore, after receiving the biometric information while providing the health care service according to the monitoring information set and registered in the health care system, it is possible to selectively rewrite the monitoring plan through risk analysis and selectively provide the health care service corresponding thereto. Can be.

In the foregoing description, the present invention has been described with reference to preferred embodiments, but the present invention is not necessarily limited thereto. Those skilled in the art will appreciate that the present invention may be modified without departing from the spirit of the present invention. It will be readily appreciated that branch substitutions, modifications and variations are possible.

1 is a block diagram of a health care service system suitable for providing health care services through risk analysis of detected biometric information according to the present invention;

2 is a diagram illustrating an environment of a health care system based on biosignal detection according to the present invention;

3A to 3C are diagrams illustrating setting monitoring information for a health care service according to the present invention;

4 is a flowchart illustrating a process of providing a health care service through risk analysis of detected biometric information according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: biosignal measuring apparatus 102: first control unit

104: sensing unit 106: first short-range wireless communication unit

200: portable health care device 202: second control unit

204: interface unit 206: first wireless communication unit

208: storage unit 210: second short-range wireless communication unit

212: analysis unit 300: health care server

302: third control unit 304: second wireless communication unit

306: Health Information Database

Claims (11)

A health care system based on detection of a biosignal, A health care server that sets and registers monitoring information for a health care service and transmits the same through a wireless communication network; Prepare a monitoring plan corresponding to the transmitted monitoring information, request the transmission of the biosignal according to the monitoring time corresponding thereto, receive and store the biosignal according to the monitoring duration, and then analyze the risk of the biosignal. A portable healthcare device for selectively rewriting the monitoring plan to perform healthcare services; The biosignal measuring apparatus for measuring the biosignal for the monitoring duration according to the request for transmitting the biosignal and transmitting the biosignal to the portable healthcare device through a short range wireless communication module. Health care system based on the detection of biological signals comprising a. The method of claim 1, The health care server, A third control unit controlling setting registration of the monitoring information and transmission thereof; A second wireless communication unit for performing wireless data communication through the portable health care device and a wireless communication network; Health information database for storing and managing the monitoring information Health care system based on the detection of the biological signal comprising a. The method according to claim 1 or 2, The portable health care device, A second control unit which prepares the monitoring plan corresponding to the monitoring information and controls transmission and reception of the biosignal, analysis of the risk thereof, and selection and rewriting of the monitoring plan; A first wireless communication unit for performing the wireless data communication with the health care server; A second short range wireless communication unit performing short range wireless communication with the biosignal measuring apparatus; An analysis unit for performing the risk analysis on the bio-signal Health care system based on the detection of the biological signal comprising a. The method of claim 3, wherein The portable health care device, A storage unit for storing and managing the monitoring information, the monitoring plan, and the results of the risk analysis Health care system based on the detection of the biological signal further comprising. The method of claim 4, wherein And the second controller transmits the biometric information received according to the monitoring information and a result of the risk analysis to the health care server. The method of claim 5, wherein The biological signal measuring device, A first controller which controls the measurement of the biosignal requested to be transmitted according to the monitoring information and its transmission; A first short range wireless communication unit configured to perform the short range wireless communication with the portable health care device; Sensing unit for measuring the biological signal Health care system based on the detection of the biological signal comprising a. The method according to any one of claims 1 to 6, And the monitoring information comprises a device identification number, the monitoring time, and the monitoring duration. A method of providing a health care service based on detection of a biosignal, Setting and registering monitoring information on the health care service; Transmitting and storing the monitoring information to a portable healthcare device through a wireless communication network; Requesting transmission of the biosignal to a biosignal measuring apparatus when a monitoring time corresponding to a monitoring plan prepared according to the monitoring information arrives; Measuring the biological signal and transmitting the measured biosignal to the portable healthcare device through a short range wireless communication module; Storing the transmitted biological signal and performing a risk analysis thereof; Selectively rewriting the monitoring plan according to a result of the risk analysis to perform the health care service Monitoring method of a health care system based on the detection of a biological signal comprising a. The method of claim 8, The monitoring method monitors a health care system based on detection of a biosignal, wherein the biosignal and the result of the risk analysis are transmitted to the health care server through the wireless communication network according to the monitoring information. Way. The method according to claim 8 or 9, The risk analysis, the monitoring method of the health care system based on the detection of the bio-signal, characterized in that the bio-signal received in accordance with the monitoring information is performed in comparison with each normal range. The method of claim 10, The monitoring plan, the monitoring method of the health care system based on the detection of the bio-signal, characterized in that for rewriting by changing the monitoring period and the monitoring time according to the results of the risk analysis.

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