KR100914633B1 - System and Method for Patient-oriented Healthcare - Google Patents

Abstract

The present invention reduces the load on the network by collecting, filtering, and temporarily storing a large amount of biometric data (raw data) generated from a user terminal, and as necessary, the user's emergency situation is related to a medical institution and '119'. A surrogate system having a function of informing the organization; A remote treatment center computer system for providing substantial medical care in association with the surrogate system; And a BAN (Body Area Network) including a mobile terminal capable of expressing a service provided by the remote medical center computer system and having a computing power and connected to a biosensor unit. Provide a health care system.

Description

Patient-specific healthcare system and method {System and Method for Patient-oriented Healthcare}

The present invention relates to a patient-specific healthcare system, and more particularly, to a patient-specific healthcare system and method that can provide services suitable for the health status of each patient through the components of a remote care center.

In the prior art, a health care method using a wireless network and a mobile communication terminal has been presented. In this method, the mobile communication terminal receives a measurement value of the personal health meter and transmits a message about the measurement to the health care center and the message received by the patient management system of the health care center database of the patient management system And a response message according to a result of analyzing the message and transmitting the selected message to the mobile communication terminal.

Initially, disease management of patients using the Internet provides general health information on the signs and course of the disease through a web browser. Recently, the management of diabetes and blood pressure patients through the Internet, obesity management through behavioral therapy, and asthma It provides health information by category, such as patient management, deep transition management, and smoking cessation management, and various medical services are being implemented through the Internet. Therefore, disease management through the Internet should consider patient management and patient education. From a health care provider's perspective, there is a need to develop an active health care system that allows for closer development of patient interactions, and from a patient's perspective, more voluntarily manage their personal health information and lead health education. .

The present invention is a method for providing a customized healthcare system integration interface using a mobile healthcare system, using a virtual reality-based intelligent integration interface to induce the direct participation of the user, which is based on the assistant component of the web service It works. In addition, the purpose of the present invention is to provide a personalized healthcare system and method using a mobile healthcare system equipped with an inference engine in order to provide the most appropriate healthcare services for the medical consumer's situation in the ubiquitous environment.

To this end, the present invention, the biological sensor unit that the user carries on the body; An assistant program for collecting biometric data from the biometric sensor unit and providing a user's health care service, and having a location based service (LBS) function; A surrogate system for receiving and transmitting the biometric data from the mobile terminal; A remote medical center that receives biometric data from the surrogate system, finds a history of the user, infers a user's health status, selects a medical subject, and selects a working doctor; Receiving the patient information of the user including the biometric data and history from the remote medical center, and receives the prescription data including the diagnosis and prescription results for the user from the doctor and transmits to the user's portable terminal through the surrogate system The remote medical center includes a portable device of a doctor, and includes a firewall server, an authentication server, a user's history, diagnosis and prescription information, a database server storing a disease case, a situation recognition engine, and the user's history. Inference server to retrieve from the server, parse the biometric data using the situation-aware engine and compare and analyze the history with the history to select a medical subject, find a similar case from the database server, doctor information on the job Maintain the request of the inference server And a mobile server for transmitting the doctor information of the medical subject on duty and transmitting the patient information of the user including the biometric data, history, and similar cases to a doctor's portable device, wherein the reasoning server is connected to the mobile server. Request the working doctor information of the selected medical subject and select the received working doctor and transmit it to the mobile server, the mobile server transmits the patient information of the user to the received doctor, the assistant program, Equipped with the solution according to the disease case, receives the food intake from the user to manage the nutrition status of the user, using the location-based service (LBS) function to measure the amount of activity and calculate the calories consumed by the user's movement trajectory information Recommend food or exercise and collect the biometric data to Send patient to the treatment center and receive prescription data to present the user to manage the administration of the prescribed medicine, and visualize the user's health status in the form of an expression including the avatar's behavior, facial expression, and color In another aspect, the present invention provides a personal care system, wherein the biometric sensor unit comprises a respiratory sensor, a blood pressure sensor, a body temperature sensor, a blood sugar sensor. In the patient-specific healthcare system, the assistant program may be visualized as an avatar action of cheer, praise, disappointment, or sadness, or visualized as an avatar expression of laughter, expressionless or crying, or a green light, a yellow light, or a red light, depending on the health state of the user. It is characterized by visualizing the avatar color.

In addition, the present invention is a bio-sensor unit which the user carries on the body, an assistant program that is connected to the bio-sensor unit and provides a user's health care service is installed and the user's portable terminal equipped with a location-based service (LBS) function, A patient personalized health management method by a system including a surrogate system connected to the portable terminal and a wireless network, a portable device of a doctor carried by a doctor, and a remote medical care center, wherein the remote medical care center is connected to the surrogate system. A firewall server, an authentication server, an inference server equipped with a situation awareness engine, a database server for storing data, and a mobile server connected to the doctor's portable device and a wireless network, the method includes: (a) a respiratory sensor, a blood pressure Collecting biological data by a biosensor unit including a sensor, a body temperature sensor, and a blood sugar sensor; (b) transmitting the biometric data to the portable terminal of the user; (c) parsing and encapsulating the biometric data in the mobile terminal; (d) transmitting the encapsulated biodata to the surrogate system; (e) parsing the biometric data transmitted from the surrogate system and transmitting the biometric data to the remote medical center; (f) the remote medical center inferring the user's health state from the transmitted biological data and selecting a doctor on duty to transmit patient information to the doctor's portable device; (g) The portable device of the doctor receives the patient information of the user and receives prescription data including the diagnosis and the prescription result of the user from the doctor to the portable terminal of the user, the surrogate system, and the remote medical center. Transmitting; (h) backing up the prescription data in the surrogate system, and backing up the prescription data at the remote medical center, wherein step (f) includes (f1) maintaining doctor information on the mobile server; Making; (f2) the firewall server receiving biometric data of a user from the surrogate system; (f3) the firewall server requesting authentication to the authentication server and verifying the authentication by the authentication server; (f4) the firewall server transmitting the biometric data to the inference server, and the inference server parsing the data; (f5) the reasoning server requesting a user's history from a database server; (f6) the database server transmitting a history to the reasoning server, and the reasoning server infers a situation and determines a medical subject; (f7) the reasoning server requests a doctor working on a mobile server and selects a doctor on the mobile server; (f8) the reasoning server requests a reference from a database server, the database server acknowledges the reference to the reasoning server, and integrates the user's history and biometric data; (f9) transmitting the user information (hereinafter patient information) integrated in the reasoning server to a mobile server, and transmitting the patient information to a portable device of a doctor in the mobile server, wherein step (g) includes: (g1) receiving prescription data including a diagnosis and a prescription result for a user from a doctor in a portable device of the doctor and notifying the mobile server; (g2) the mobile server notifying the prescription data of the database server, and the database server backs up the prescription data; And (g3) transmitting the prescription data from the doctor's portable device to the portable terminal of the user through the surrogate system.

According to the present invention, by providing health care services most appropriate to the situation of medical consumers and providers in the ubiquitous environment, more effective disease management is possible from the perspective of medical consumers and more efficient and active patient management from the perspective of healthcare providers. You can see the effect of losing.

Also, by using web service based assistant program, it guarantees interoperability between different types and promotes the development of personal medical service by linking with medical information system required by U_Health business, and also supports various medical facility operation and medical information resources. Can increase efficiency.

Although the present invention has been described with reference to one embodiment, the present invention is not limited thereto, and various modifications and variations can be made by those skilled in the art without departing from the spirit and scope of the following claims. .

1 is a schematic diagram of a patient-specific healthcare system according to an embodiment of the present invention

2 is a functional structural diagram of a remote treatment center computer system that is a component of a patient-specific healthcare system of the present invention.

3 is a flowchart illustrating a system operation for providing a patient-specific healthcare system of the present invention;

4 is a flowchart illustrating the inside of a remote treatment center computer system for providing a patient-specific healthcare system of the present invention,

5 is an activity diagram showing the overall interaction relationship between the BAN and the telemedicine center computer system, which are components for implementing the patient-specific healthcare system of the present invention,

 FIG. 6 shows an activity diagram for the relationship between a remote treatment center computer system and an assistant component that is a component for implementing the patient-specific healthcare system of the present invention.

* Description of the symbols for the main parts of the drawings *

10: surrogate system 20: telemedicine center computer system

21: firewall server 22: authentication server

23: Inference Server 24: Database Server

25: mobile server 30: BAN

31: sensor 32: mobile terminal

40: doctor portable device 60: emergency center

Hereinafter, a patient-specific healthcare system and a method of the healthcare system of the present invention will be described with reference to the drawings.

1 is a schematic diagram of a patient-specific healthcare system according to an embodiment of the present invention, a surrogate system 10, a remote treatment center computer system (hereinafter simply referred to as a “remote treatment center” 20), And a body area network (BAN) 30.

2 is a functional structural diagram of a remote treatment center that is a component of a patient-specific healthcare system of the present invention, which includes a firewall server 21, an authentication server 22, an inference server 23, a database server 24, and a mobile server. It consists of 25.

As shown in Figs. 1 and 2, the surrogate system 10 may collect and temporarily store the biometric data of the user and may notify the medical institution and related organizations such as '119' of the user's emergency as needed. It is a subunit domain with functions.

The computer system of the remote medical center 20 includes a firewall server 21, an authentication server 22, an inference server 23, a database server 24, and a mobile server 25, and the surrogate system 10. In connection with practical medical care.

The BAN 30 collects sensor information with sensors 31 such as a respiratory sensor, a blood pressure sensor, a body temperature sensor, and a blood glucose sensor that a service subject (hereinafter referred to as a user) carries in a body, It is a smallest domain composed of a portable terminal 32 that can exhibit services provided and has computing power.

The remote medical center 20 is a tertiary medical institution where the medical informatization project is completed as a substantial medical provider.

The firewall server 21 provides a role of blocking access for malicious purpose by monitoring data from outside in real time.

In communication with the firewall server, the authentication server 22 provides a service for authentication of users who attempt to access the remote treatment center area.

In addition, the inference server 23 communicates with the firewall server 21, and is equipped with a situation-aware engine to parse the data received from the BAN 30 area to compare and analyze the current state with the history of the patient. We select the recommended medical courses, access the DB, find similar cases in the past, and provide them together as a reference.

The database server 24 communicates with the inference server 23 and the firewall server 21, and stores user personal information, biometric information, medical history (history), and the like.

The mobile server 25 communicates with the database server 24 and the inference server 23 and provides an infrastructure to provide medical services to the portable device 40 possessed by a doctor.

In addition, the portable terminal includes an avatar that visually indicates its own health state, and the telemedicine center 20 has several avatar-based assistant programs. The service provided by this system is based on avatars, which is based on the cognitive psychological view that users input data according to their behavioral patterns, and feel the homogeneity by viewing the organically changing avatars. As a service, there are the following services.

The first is the Nutrition Assistant program, which acts as an assistant for managing the nutritional status of chronic patients through avatars that are shaped based on the various contextual information. This is a program unit that calculates calories burned using volume distance and provides tips on situations that exceed the proper criteria. The user can enter the information about foods he or she consumes directly or automatically to develop awareness of his or her eating habits. In addition, it provides a customized program considering the characteristics of the disease of chronic patients. In other words, chronic patients can be classified into several cases according to the characteristics of the disease, and the most suitable solution for each case can be provided to provide accurate and optimized services in any situation.

In addition, the nutritional assistant provides a variety of services, such as recommending a diet after checking the nutritional status of the target population.

That is, a web service for a corresponding function is provided for a restaurant search service or a menu recommendation service based on a location based service (LBS), and a user is searched for a current location using a GPS and a nearby restaurant search using a web service. It provides a recommendation service function for the most suitable menu in the current physical situation, and has a function to recommend a menu that the target person prefers by analyzing and remembering the menu selection pattern of the target person with the learning function. In addition, the nutritional assistant can provide a variety of services through the web service maintained in the remote treatment center, calculate the calories consumed by measuring the daily activity of the target population through the three-dimensional distance calculation using LBS-based movement trajectory information In the calculation of the moving distance, based on the moving speed information, the moving distance using the walking and the canter is recognized, and the exception processing is performed when calories are calculated. In addition, when excessive calorie intake has a function to maintain a proper weight by managing the excess intake calories through linkage with the athletic assistant.

The second is an athletic assistant, mounted on sports equipment that is everywhere. It has a built-in load intensity value for a specific body part of each exercise device and has an interface for communicating with a portable device of a target person. When the target person is diagnosed with excess calorie intake by the nutritional assistant by linking with the nutritional assistant, the patient is prescribed the exercise in consideration of the disease and physical characteristics of the target person, and the physical condition of the target person is not good Carry out recommendations for the behavior to be avoided.

Thirdly, the health assistant collects various data generated inside the BAN 30, performs data retention function collected from sensors belonging to the BAN 30, and collects the sensor values inside the BAN 30 when an event occurs. Perform the function. In addition, as a function related to taking prescription drugs, if the target person is taking prescription medicines in the hospital, the medicine taking alarm sounds at an appropriate time depending on the intake method, and maximizes the function of the taking medicine by using the medicine taking alarm.

Lastly, the main assistant is a decision module for events occurring in each of the other assistants. The main assistant is a decision module for processing the contents to be judged by each of the assistants. Performs propagation and maintenance functions for

3 is a flowchart illustrating a system operation for providing a patient-specific healthcare system of the present invention.

In S1, the biometric data of the patient is extracted from the sensor 31 of the BAN 30 to perform a health check. The extracted value is transmitted to the portable terminal 32 of the BAN, which is a user device (S2), and this value is parsed by the portable terminal 32 at S3, the data value is encapsulated (S4), and the encapsulated data is surrogate system. (S5), parse the data in the surrogate system 10 (S6), and transmit this data to the telemedicine center (RMC) 20 (S7), to the surrogate system 10 Back up (S8), perform remote situational awareness services according to the patient's situation according to the transmitted data (S9), and the patient's history (history) and reference data of similar cases in the past of the doctor The portable device 40 is notified (S10), the doctor's portable device 40 performs a medical action (S11), the prescription is notified to the portable terminal 32 of the BAN (S12), and the surrogate system ( 10) also notify the prescription data (S13), and informs the prescription data to the remote treatment center (20) By doing so (S14), the surrogate system 10 backs up the prescription data (S15), and furthermore, the remote data center 20 backs up the prescription data (S16).

If the primary analysis of the patient's biometric data above deviates from normal, the BAN 30 immediately notifies the emergency center 60, the telemedicine center 20 and the surrogate system 10 to take appropriate action. To receive.

4 is a diagram illustrating a flow chart inside a remote medical center for providing a patient-specific healthcare system of the present invention.

In S'1, the mobile server 25 continuously manages the doctor's name in actual work. In S'2, when the surrogate system 10 transmits data to the firewall server 21, in S'3, the firewall server 21 requests authentication to the authentication server 22, the authentication server 22 confirms the authentication at S'4, and the firewall server 21 transmits data to the inference server 23 at S'5. The reasoning server 23 parses the data (S'6), requests the database server 24 to develop a history (history) (S'7), and the database server 24 determines the reasoning server 23. The history is sent (S'8), the inference server 23 infers the situation (S'9), determines the subject of treatment (S'10), the inference server 23 to the mobile server 25 The current working doctor is requested (S'11), the mobile server 25 selects the attending doctor (S'12), the reasoning server 24 requests the database server 24 for a reference (S'13). , Having Site database server (24) make reference to the reasoning server (13) and (S'14). Inference server 13 integrates previous information and current information (S'15), and inference server 13 transmits the integrated information to mobile server 25 (S'16), and mobile server 25 This information is transmitted to the doctor's portable device 40 (S'17), the mobile server 25 maintains the actual doctor's name in operation (S18), and performs a medical act on the doctor's portable device 40 ( S'19), the prescription data is notified to the mobile server 25 (S'20), and the mobile server 25 notifies the database server 24 of the prescription data (S'21), and the database server 24 Backups the prescription data (S'22), maintains the actual doctor's name in the mobile server 25 (S'23), and the doctor's portable device 40 stores the prescription data in the surrogate system 10. Notify (S'24).

Briefly, the surrogate system 10 transmits the patient's biometric data, and the firewall server 21 extracts a key value necessary for user authentication from the received data and requests authentication to the authentication server 22. Done. After the user authentication is completed, the firewall server 21 transmits the data to the inference server 23, and the inference server 23 obtains the patient's history from the database server 24, and the patient's history and the firewall server ( 21) Analyze the patient's biometric data and determine the subject and doctor.

FIG. 5 is an activity diagram illustrating the overall interaction relationship between a BAN and a telemedicine center, which are components for implementing a patient-specific healthcare system of the present invention.

First, the processing performed in the BAN 30 will be described.

In S10, the diet data is sensed, and in S20, the exercise data is sensed. In operation S30, the sensor is sensed by the biometric sensor of the patient. In S40, the primary reading is performed, and in the case of an emergency as a result of the reading (S50), the patient's information and status are transmitted (S60), and in general, the data sensed in the steps S10 and S20 is encapsulated in a predetermined format. (S70, 80). Subsequently, a suitable service is searched for by reading data (S90), and the encapsulated data is transmitted to the surrogate system 10 (S100). In the case of diabetic patients (S110), hypertensive patients (S120), and obese patients (S130) with reference to each assistant structure to perform the appropriate treatment.

Next, the processing performed in the remote medical center 20 will be described.

The remote medical center 20 receives data transmitted from the surrogate system 10 (S160), authenticates whether the remote medical center 20 is a user (S170), and terminates when authentication fails (S180), Upon successful authentication, the patient's history data is taken from the hospital database (S190), and the patient data is retrieved. Parsing in the situation engine (S200), collecting the patient history and parsed data (S210), and searching for a web service with the situation engine parsing result (S220). Then, the hospital web service is started (S290), and the website update is checked (S300). If an update is necessary (S310), the web service is maintained with the latest information (S320), and in a normal situation (S330), the hospital returns to the start of service again.

Meanwhile, after parsing the patient data in the situation engine (S200), the patient history and the parsed data are collected (S210), the transmitted data is accurately read (S230), and the treatment part is selected (S240). Subsequently, an appropriate doctor is selected in the corresponding part (S260), and patient information is transmitted to the selected doctor (S280). On the other hand, the data precisely read in step S230 is integrated with the web service data from the hospital web service of step S290 (S250), to provide a web service suitable for the requirements (S270).

Subsequently, the patient information is transmitted to the doctor selected in step S280, the patient's information is received by the doctor's portable device 40 (S340), and appropriate prescription and diagnosis is performed based on the received data (S350). The result of the prescription is stored in the database (S360), and the appropriate prescription and diagnosis of the patient in step S350 is performed, and when it is not a daily problem (S370), the collected information is transmitted to the related institution (S380), and the doctor Prescription results are transmitted (S400), and when a routine problem (S390) immediately the doctor's prescription results are transmitted (S400). The BAN 30 receives the doctor's prescription result (S410), outputs the reception information (S140), feeds back the user information (S150), and returns to the prescription result database for the patient (S360).

FIG. 6 shows an activity diagram for a relationship between a telemedicine center and an assistant component, which is a component for implementing the patient-specific healthcare system of the present invention.

First, the processing performed in the assistant component will be described.

First, a location based service (LBS) location tracking module operates in step S410. Then, the distance traveled in step S420 is calculated, and the surrounding restaurant search word in S430, which is added to the hospital web service of step S710 of the remote treatment center 20. Following the calculation of the distance traveled, calories burned are calculated in step S440, and restaurant information is provided based on the Geographical Information System (GIS) in step S450 following the search for nearby restaurants. Subsequently, following the calorie calculation, the recommended menu search service is started in step S460, and then the preference is stored in step S480. Meanwhile, the calories to be consumed are guided after providing GIS-based restaurant information in step S450 (S470). Then, the recommended exercise is announced (S490). Accordingly, in step S540, the exercise program ends when the recommended calories are met in association with the exercise device (S560).

Meanwhile, the diet data is sensed in step S500, the exercise data is sensed in S510, and the sensing data is sensed by the biometric sensor of the patient (S520). Subsequently, the assistant data is received in step S530, the medication intake time and quantitative notice are given in step S550, and interaction with the patient through the agent is performed (S570).

Next, the operation in the remote medical center 20 will be described.

First, data reception is made in the remote medical center 20 in step S580, and the remote medical center 20 authenticates whether the remote medical center 20 is a user (S590), and terminates when authentication fails (S600). If the authentication is successful, the patient's history data is taken from the hospital database (S610), the patient data is parsed by the inference engine (S620), the patient history and the parsed data are collected (S630), and the inference engine parsing result is a web service. Search is searched (S640). Then, the hospital web service is started (S710), and the website update is checked (S720). If an update is required (S730), the web service is maintained with the latest information (S740), and in a general situation (S750), the hospital returns to the start of the service (S710). On the other hand, after collecting the patient history and parsed data in step S630, the transmitted data is accurately read (S650), and the treatment part is selected (S660). Subsequently, an appropriate doctor is selected in the corresponding part (S680), and patient information is transmitted to the selected doctor (S700). On the other hand, the data precisely read in step S650 is collected with the data of the hospital web service rotor of step S710 (S670), to provide a web service suitable for the requirements (S690).

In this way, the assistant component and the remote medical center 20 are connected to each other to perform a remote operation.

Meanwhile, referring back to FIG. 1, the portable terminal 32 carried by the patient of the BAN 30 has an avatar function as follows.

The need for avatars is that patients need a friend who can be with them in their daily lives and advise them at the right moment, rather than a vast amount of knowledge about medical and illness. The avatar acts as a family or friend that motivates health care, informs you of your current health, and delivers new health knowledge.

Avatar is a friendly and easy-to-use input interface that allows the general public, who is not easy to access complicated and difficult medical data, to easily check his / her health condition through the familiar avatar. Creation and visualization of integrated and custom data is instantly displayed to the patient via the avatar.

This avatar has an objective cognitive function of the state of health by visualizing the action, the expression, the color, and the like.

Avatars are objects that visually represent their state of health and objectify their appearance through overall data on their biometric data and lifestyle. Avatar serves as a primary care physician who provides health care guidelines and guidelines, and increases the need for specific activities for health and calls attention to health through instantaneous trends and predictive simulations of their biometric data. It also acts as a delegate to make comprehensive decisions, present appropriate solutions to the patient's current health status, and collect and filter numerous health-related information on the Web. Also, the avatar can grasp the health status of a specific person from a remote location, and can exchange information and compare with other avatars.

The data input to the avatar includes bio signal data using various bio devices, a patient's exercise amount, the type and amount of food ingested, and current time weather and temperature.

The data output through the avatar includes the actions and sounds of the avatar's actions, facial expressions, and sentences, such as cheers (when there are many improvements in health), praise (when they are constantly managing well), There is disappointment (when not improved as expected) and sadness (when poor health results in poor health). In addition, as a facial expression and color, the green signal for health (laugh), yellow signal (no expression) and red signal (crying) may be indicated.

The avatar reports the personal health record through various visualizations (tables, graphs) via the mobile terminal 32 or a PC (not shown). Manages information for professionals who allow individuals to maintain and manage information about their health and others who have access, and also support decision-making based on complete and accurate data and multiple medical knowledge It allows you to.

Claims (6)

A biological sensor unit which the user carries on the body; An assistant program for collecting biometric data from the biometric sensor unit and providing a user's health care service, and having a location based service (LBS) function; A surrogate system for receiving and transmitting the biometric data from the mobile terminal; A remote medical center that receives biometric data from the surrogate system, finds a history of the user, infers a user's health status, selects a medical subject, and selects a working doctor; Receiving the patient information of the user including the biometric data and history from the remote medical center, and receives the prescription data including the diagnosis and prescription results for the user from the doctor and transmits to the user's portable terminal through the surrogate system Include a doctor's handheld device, The remote medical center, Firewall server and authentication server, A database server that stores user history, diagnostic and prescription information, and disease cases; Equipped with a situation awareness engine, retrieves the user's history from the database server, parses the biometric data using the situation awareness engine, compares and analyzes the biometric data, and selects a medical subject from the database server. Inference server to find and bring similar cases, Maintaining the doctor information on the job, transmitting the doctor information of the medical subject on demand by the request of the reasoning server, and transmits the patient information of the user including the biometric data, history, and similar cases to the portable device of the doctor Includes a mobile server, The reasoning server requests the working doctor information of the selected medical subject to the mobile server, selects the working doctor received and transmits it to the mobile server, and the mobile server transmits the patient information of the user to the received doctor. , The assistant program, Equipped with a solution according to the user's disease case and receives the food information from the user to manage the nutritional status of the user, By using the location-based service (LBS) function to measure the amount of activity based on the user's movement trajectory, calculate the calories consumed to recommend food or exercise, Collect the biological data and transmit it to the remote medical center and receive the prescription data to present the user to manage the administration of the prescribed medicine, Patient-specific health care system, characterized in that the user's health status by visualizing and showing in the form of expression including the behavior, facial expression, color of the avatar. The method of claim 1, The bio-sensing unit includes a breathing sensor, a blood pressure sensor, a body temperature sensor, a blood sugar sensor. delete The method of claim 1, wherein the assistant program, According to the user's health, the patient's personalized health, characterized by the avatar behavior of cheering, praise, disappointment, sadness, visualizing with the avatar expression of laughter, expressionless, crying, or by the avatar color of green, yellow and red signals Management system. Biometric sensor unit that the user carries on the body, an assistant program that is connected to the biometric sensor unit and provides a user's health care service is installed, the user's portable terminal equipped with a location-based service (LBS) function, the portable terminal and wireless As a patient-specific healthcare method by a system including a surrogate system connected by a network, a doctor's portable device, and a remote medical center, The remote medical center includes a firewall server and an authentication server connected to the surrogate system, an inference server equipped with a situation awareness engine, a database server storing data, and a mobile server connected to the doctor's portable device and a wireless network. The method, (a) collecting biological data by a biosensor unit including a respiration sensor, a blood pressure sensor, a body temperature sensor, and a blood sugar sensor; (b) transmitting the biometric data to the portable terminal of the user; (c) parsing and encapsulating the biometric data in the mobile terminal; (d) transmitting the encapsulated biodata to the surrogate system; (e) parsing the biometric data transmitted from the surrogate system and transmitting the biometric data to the remote medical center; (f) the remote medical center inferring the user's health state from the transmitted biological data and selecting a doctor on duty to transmit patient information to the doctor's portable device; (g) The portable device of the doctor receives the patient information of the user and receives prescription data including the diagnosis and the prescription result of the user from the doctor to the portable terminal of the user, the surrogate system, and the remote medical center. Transmitting; (h) backing up the prescription data in the surrogate system, and backing up the prescription data at the remote medical center; Step (f), (f1) maintaining pseudo information on the mobile server; (f2) the firewall server receiving biometric data of a user from the surrogate system; (f3) the firewall server requesting authentication to the authentication server and verifying the authentication by the authentication server; (f4) the firewall server transmitting the biometric data to the inference server, and the inference server parsing the data; (f5) the reasoning server requesting a user's history from a database server; (f6) the database server transmitting a history to the reasoning server, and the reasoning server infers a situation and determines a medical subject; (f7) the reasoning server requests a doctor working on a mobile server and selects a doctor on the mobile server; (f8) the reasoning server requests a reference from a database server, the database server acknowledges the reference to the reasoning server, and integrates the user's history and biometric data; (f9) transmitting the user information (hereinafter patient information) integrated in the reasoning server to a mobile server, and transmitting the patient information to a portable device of a doctor in the mobile server, In step (g), (g1) receiving prescription data including a diagnosis and a prescription result for a user from a doctor in a portable device of the doctor and notifying the mobile server; (g2) the mobile server notifying the prescription data of the database server, and the database server backs up the prescription data; And (g3) transmitting the prescription data from the portable device of the doctor to the portable terminal of the user through the surrogate system. delete