KR101700515B1 - Method and Networking System for Assistant of Internet of Things-Based Health Prescription - Google Patents

Abstract

IoT-based health prescription support methods and systems are presented. The IoT-based health prescription support method proposed in the present invention is a method for providing a health prescription support system having an interface for health prescription providers, a program for using the health prescription support system in a terminal of the health prescription providers, Installing a program for using the support system in each of the terminals of the patient; agreeing to use the health prescription support system for both the terminals of the health prescription providers and the terminals of the patients; and activating the health prescription support system Providing a prescription to the health prescription support system based on the state of the patient using the information stored in the database, the terminal of the health prescription provider, the terminal of the health prescription provider, and the terminal of the patient, By approving Wherein the prescribed health support system starts to operate, the health and the prescriptions support system includes a step of performing prescribed health support to the terminal of the patient.

Description

METHOD AND SYSTEM FOR SUPPORTING HEALTH PRESENTATION BASED ON IOT AND METHOD AND NETWORKING SYSTEM

The present invention relates to a method and system for supporting health prescription based on Internet of Things (IoT).

The use of telemedicine is being strengthened by the addition of other technology facilities. In this regard, we suggest setting up the characteristics of telemedicine. We suggest the idea of an IoT-based health prescription assistant (HPA) to help the patient follow the doctor's recommendations as appropriate.

Korean Patent Publication No. 10-2014-7005366

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method and system for setting the characteristics of a telemedicine as the use of telemedicine is increasingly enhanced by adding other technical facilities. We suggest the idea of an IoT-based health prescription assistant (HPA) to help the patient follow the doctor's recommendations as appropriate.

In one aspect, the IoT-based health prescription support method proposed by the present invention includes installing a program for using the health prescription support system having an interface for health prescription providers in a terminal of the health prescription providers, The method comprising the steps of: installing a program for using the health prescription support system in the patient's terminal, the terminal of the health prescription provider and the terminal of the patient agreeing to use the health prescription support system, The method comprising the steps of: activating a prescription support system, providing a prescription to the health prescription support system, the prescription being digitized according to the patient's condition, using information stored in a database of the terminal of the health prescription providers, Terminals Wherein the prescribed health support system starts the operation by authorized whether, and wherein the prescribed health support system includes a step of performing prescribed health support to the terminal of the patient.

Wherein the step of providing the digitized prescription to the health prescription support system using the information stored in the database of the terminal of the health prescription providers includes recognizing the status of the patients through the biosensor, The patient's terminal transmits the recognized information to the health prescription support system so that the digitized prescription is possible.

The terminal of the health prescription providers and the terminals of the patients all agree to use the health prescription support system and the activation of the health prescription support system according to the consent is performed by the gateway And monitors and controls the terminals of the health prescription providers and the terminals of the patients.

The gateway receives an instruction from the health prescription support system in an emergency, and terminates the specific connection of the terminal of the health prescription provider and the terminal of the patients.

Wherein the terminal of the health prescription providers and the terminal of the patients approve the mutual permission to start the operation of the health prescription support system and the health prescription support system performs the health prescription support to the terminals of the patients, The terminals of the providers and the terminals of the patients authorize mutual authorization via NFC, and in the case of remote consultation, the terminals of the health prescription providers and the terminals of the patients use a message-passing protocol to approve mutual authorizations. And codes.

In another aspect, the IoT-based health prescription support system proposed by the present invention activates the health prescription support system according to the consent when both the terminals of the health prescription providers and the terminals of the patients agree to use the health prescription support system A database in which terminals of the health prescription providers store digitized prescription information according to the status of the patients, a digital prescription which the terminal of the health prescription providers prescribes using the information stored in the database, Wherein the health prescription support system allows the health prescription support system to start operating by approving the mutual permission of the terminal of the health prescription providers and the terminals of the patients, The health of the patient And a gateway for performing prescription support.

The communication unit recognizes the status of the patients through the biosensor, transmits the recognized information to the terminals of the patients, and transmits the recognized information to the health prescription support system by the terminals of the patients. A digitized prescription of the terminal is possible.

The gateway monitors and controls the terminals of the health prescription providers and the terminals of the patients who are authenticated to interact with the health prescription support system, and receives commands from the health prescription support system in an emergency, And terminates the specific connection of the terminals of the patients.

The terminals of the health prescription providers and the terminals of the patients approve the mutual permission through the NFC, and in the case of the remote consultation, the terminals of the health prescription providers and the terminals of the patients exchange message- passing protocol and codes.

According to embodiments of the present invention, the HPA may remind the patient not to forget to take the medicine. And HPA can detect adverse drug reactions (ADRs) through the use of an array of sensors, and can report issues to doctors and caregivers. In addition, HPA can mutually understand the medical box to protect patients from accidental drug misuse. The HPA is based on the help of relevant databases and physician advice and can detect disease and recommend food recipes for the health of the patient, for example, within the available ingredients in the refrigerator. The HPA can also interact with the smart home system in which the patient resides, thus allowing the patient to set the ideal temperature and humidity environment necessary. The system can respond strongly to unauthorized access by virtue of the gateway. The gateway can be set up to grant the appropriate rights so that the HPA can be securely integrated with databases, health cloud computing servers, and health clinics.

1 is a flowchart illustrating an IoT-based health prescription support method according to an embodiment of the present invention.
2 is a diagram illustrating a configuration of a health prescription support system based on IoT according to an embodiment of the present invention.
3 is a conceptual diagram for explaining a health prescription support process according to an embodiment of the present invention.
4 is a view showing an embodiment of health prescription support using IoT according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a flowchart illustrating an IoT-based Health Prescription Assistant (HPA) method according to an embodiment of the present invention.

The IoT-based health prescription support method includes the steps of: (110) agreeing to use the health prescription support system and activating the health prescription support system according to the consent of the terminals of the health prescription providers and the terminals of the patients, (120) of providing a digitized prescription to the health prescription support system based on the status of the patients using the information stored in the database, the terminal of the health prescription providers and the terminals of the patients agreeing with the health (130) the prescription support system starts operation, and the health prescription support system performs health prescription support to the terminals of the patients.

Prior to step 110, a program for using the health prescription support system having an interface for health prescription providers may be installed in the terminals of the health prescription providers. A program for using the health prescription support system having an interface for patients can be installed in the terminal of the patient.

In step 110, both the terminal of the health prescription providers and the terminals of the patients agree to use the health prescription support system and activate the health prescription support system according to the consent. At this time, it is possible to monitor and control the terminals of the health prescription providers and the terminals of patients who are authenticated to interact with the health prescription support system through a gateway. The gateway may receive an instruction from the health prescription support system in an emergency and terminate the specific connection of the terminals of the health prescription providers and the terminals of the patients.

In other words, the gateway plays an important role in delivering the services of interest provided by the HPA. It monitors and controls individuals who are authorized to interact with the HPA. This identifies the health professional and the patient through smart terminals.

For example, based on physician ' s prescriptions, suspected illnesses, and hospital access capabilities, the gateway ensures delivery and database access reports to a health computing server for service provisioning.

In addition, the gateway records each and every activity for the patient's waiting time after a new session opens an opening new session, a prescription drug, a proposed food, a request for a personal health related specific service with respective timestamps.

The gateway then performs an array of on-demand tasks, such as termination of a particular connection in the event of an emergency receiving an appropriate command from the HPA.

In step 120, the terminal of the health prescription providers may provide the prescription to the health prescription support system, which is digitized according to the patient's state, using the information stored in the database.

The digitized prescription is possible by recognizing the status of the patients through the biosensor, transmitting the perceived information to the terminals of the patients, and transmitting the perceived information to the health prescription support system.

For example, the patient attaches a body-patch comprising other biosensors with appropriate electrodes. The body-patch communicates with medical packs to which the sensor is attached, and the medicine packs include sensor-coated pills that come with the medicine packs, . Here, the sensors of the packs are merely radio-frequency identification (RFID) chips, and the sensors of the pellets are a special kind of coating material that can be sensed.

The medical pack is included in a specially designed medical box. The central sensor in the box maintains a record of packs and pills by each. For example, if the patient tears each part in a medical pack to take a particular medicine, it is sensed by the medical pack and reported to the medical box for further processing and reference. The medical box communicates with both the patient ' s body-patch and the Internet, and therefore becomes an important part of the IoT-based HPA. The HPA can eventually solve each and every drug individually according to the patient's requirements.

The proposed HPA has access to several databases, the Health Databases, in several ways to help patients. For example, there are some representative databases that include food and nutrition databases, and disease-specific tips.

The food and nutrition databases provide an extensive list of foods with their nutrition facts so that the HPA can automatically process the data and decide what to do. Such a database can provide a system for informing how a particular food affects a patient's health and making it easier to select a healthy diet.

In addition, a database of disease-specific tips provides advice on information about experiences, medications, and other experiences from other patients.

These databases may be provided by any third party providing business to business (B2B) services. In this case, the database service provider and the HPA must follow a standard protocol to communicate with each other in the system-compatibility perspective. The type and number of databases are integrated with the HPA, which depends on each institution in the hospital providing the medical service.

In step 130, the terminal of the health prescription providers and the terminals of the patients approve the mutual permission, the health prescription support system starts operating, and the health prescription support system performs health prescription support to the terminals of the patients can do. At this time, the terminals of the health prescription providers and the terminals of the patients approve the mutual permission through NFC, and in the case of the remote counseling, the terminal of the health prescription providers and the terminal of the patients transmit the message- message-passing protocol and codes.

FIG. 2 is a diagram illustrating a configuration of an IoT-based health prescription support system 200 according to an embodiment of the present invention.

The IoT-based health prescription support system 200 according to the present embodiment may include a processor 210, a bus 220, a network interface 230, a memory 240, and a database 250. The memory 240 may include an operating system 241 and an intergrown prescription assistance routine 242. The processor 210 may include an activation unit 211, a database 212, a communication unit 213, and a gateway 214. In other embodiments, the IoT-based health prescription support system 200 may include more components than the components of FIG. However, there is no need to clearly illustrate most prior art components. For example, the IoT-based health prescription support system 200 may include other components such as a display or a transceiver.

The memory 240 may be a computer-readable recording medium and may include a permanent mass storage device such as a random access memory (RAM), a read only memory (ROM), and a disk drive. Also, the memory 240 may store program codes for the operating system 241 and the health prescription support routine 242. [ These software components may be loaded from a computer readable recording medium separate from the memory 240 using a drive mechanism (not shown). Such a computer-readable recording medium may include a computer-readable recording medium (not shown) such as a floppy drive, a disk, a tape, a DVD / CD-ROM drive, or a memory card. In other embodiments, the software components may be loaded into the memory 240 via the network interface 230 rather than from a computer readable recording medium.

The bus 220 may enable communication and data transfer between the components of the IoT-based health prescription support system 200. The bus 220 may be configured using a high-speed serial bus, a parallel bus, a Storage Area Network (SAN), and / or other suitable communication technology.

The network interface 230 may be a computer hardware component for connecting the IoT-based health prescription support system 200 to a computer network. The network interface 230 may connect the IoT-based health prescription support system 200 to the computer network via a wireless or wired connection.

The processor 210 may be configured to process instructions of a computer program by performing basic arithmetic, logic, and I / O operations of the IoT-based health prescription support system 200. The instructions may be provided by the memory 240 or the network interface 230 and to the processor 210 via the bus 220. The processor 210 may be configured to execute program code for the activation unit 211, the database 212, the communication unit 213, and the gateway 214. Such program code may be stored in a recording device such as memory 240. [

The activation unit 211, the database 212, the communication unit 213, and the gateway 214 may be configured to perform the steps 110 to 130 of FIG.

The IoT-based health prescription support system 200 may include an activation unit 211, a database 212, a communication unit 213, and a gateway 214.

The activation unit 211 may activate the health prescription support system according to the agreement if both the terminal of the health prescription providers and the terminals of the patients agree to use the health prescription support system.

A program for using the health prescription support system having an interface for health prescription providers may be installed in the terminals of the health prescription providers before activating the health prescription support system. A program for using the health prescription support system having an interface for patients can be installed in the terminal of the patient.

The database 212 stores information for the terminal of the health prescription providers to make the prescription digitized according to the state of the patients.

The database 212 may serve to store and maintain all the information necessary for health prescription support. Although FIG. 2 shows that the database 212 is constructed and included in the IoT-based health prescription support system 200, the present invention is not limited thereto and may be omitted depending on the system implementation method or environment, It is also possible that the database exists as an external database built on a separate, separate system.

The communication unit 213 receives the digitized prescription prescribed by the terminal of the health prescription providers using the information stored in the database, and provides the received prescription to the terminals of the patients.

The communication unit 213 recognizes the status of the patients through the biosensor and transmits the recognized information to the terminals of the patients. Then, the terminal of the patients transmits the perceived information to the health prescription support system, so that the digitized prescription of the terminal of the health prescription providers is possible.

The gateway 214 allows the terminal of the health prescription providers and the terminal of the patients to approve mutual permits to start the operation of the health prescription support system, and the health prescription support system performs health prescription support do. The gateway 214 monitors and controls the terminals of the health prescription providers and the terminals of the patients who are authorized to interact with the health prescription support system. Upon receiving an instruction from the health prescription support system in an emergency, the terminal of the health prescription provider and the terminal of patients are terminated. Hereinafter, the IoT-based health prescription support system 200 proposed in reference to FIGS. 3 and 4 will be described in more detail.

3 is a conceptual diagram for explaining a health prescription support process according to an embodiment of the present invention.

There are required interactions between smart homes, for example, patient homes, medicines and medical equipments, and biosensors attached to patients. This may be considered a subnetwork of the network sent by the HPA (health prescription assistant). In addition, the healthcare practitioner and the hospital logistics of each clinic that form another sub-network for Internet communications may also be considered.

The HPA organizes these subnetworks and various databases.

Elements of the IoT network include a doctor's office, physician's recommendations, various related databases, patient's personal telephone, medicine box, home-booked food items food items, refrigerators, air conditioners, and any associated smart home elements that form an IOT network.

4 is a view showing an embodiment of health prescription support using IoT according to an embodiment of the present invention.

The Gateway plays an important role in delivering the services of interest provided by the HPA. It monitors and controls individuals who are authorized to interact with the HPA.

The gateway identifies the health care professional and the patient through smart terminals, i.e., terminals of health prescription providers and terminals of patients. Based on physician ' s prescriptions, suspected illnesses, and access functions of the hospital, the gateway ensures delivery and database access reports to a health computing server for service provisioning.

In addition, the gateway may also record all activity, for example, on the patient's waiting time after a new session has been opened (opening new session), prescription drug, suggested food, a request for a personal health related specific service with respective timestamps, do.

In addition, the gateway performs an array of on-demand tasks, such as termination of a particular connection in the event of an emergency when it receives an appropriate command from the HPA.

In The patient and the Medicine, for example, the patient may attach a body-patch comprising other biosensors with appropriate electrodes. The body-patch communicates with medical packs to which the sensor is attached, and the medicine packs include sensor-coated pills that come with the medicine packs, . Here, the sensors of the packs are merely radio-frequency identification (RFID) chips, and the sensors of the pellets are a special kind of coating material that can be sensed.

The medical pack is included in a specially designed medicine box. The central sensor in the box maintains a record of each medical pack and pill. For example, if the patient tears each part in a medical pack to take a particular medicine, it is sensed by the medical pack and reported to the medical box for further processing and reference.

The medical box communicates with both the patient ' s body-patch and the Internet, and therefore becomes an important part of the IoT-based HPA. The HPA can eventually solve each and every drug individually according to the patient's requirements.

The HPA has access to several databases, namely The Health Databases, in a number of ways to aid the patient. Figure 4 shows a stack of some representative databases, including a food and nutrition database, and disease-specific tips.

The food and nutrition databases provide an extensive list of foods with their nutrition facts so that the HPA can automatically process the data and decide what to do. Such a database can provide a system for informing how a particular food affects a patient's health and making it easier to select a healthy diet.

The disease-specific tips database provides advice on stored experiences, medications from other patients.

These databases may be provided by any third party providing business to business (B2B) services. In this case, the database service provider and the HPA must follow a standard protocol to communicate with each other in the system-compatibility perspective. The type and number of databases are integrated with the HPA, which depends on each institution in the hospital providing the medical service.

In a computing and control server, a health computing server is basically responsible for core computing and decision making that is often requested by the HPA. do.

The control server is the central hub of the HPA. It monitors and controls clients installed at various ends, including clients at physician terminals and patient terminals. It also aggregates events reported by various edges, i. E., Sensors of HPA, patients, health professionals, and databases, and prepares structured instructions to send to the computing server.

The computing server analyzes the commands received from the control server and sends the results of each of the edges.

Unlike the control server, which should be provided in each hospital, the computing server can be provided by a third party.

In the proposed invention, the HPA communicates with a Smart Home system to provide residential conditions including room temperature and humidity that are more suitable for the patient.

In some cases, the HPA requires specific designs of smart home elements. For example, you need a refrigerator specifically designed to keep track of reserved food items.

The refrigerator may be comprised of several chambers, and each chamber may include several cells. The chambers and the cells are equipped with sensors. These sensors can communicate with the main RFID chip of the refrigerator communicating with the smart home server and can connect to the Internet. In addition, when the control server approves, the smart home and the patient's system may each communicate directly with a particular session.

In summary, the proposed HPA can be installed in the smart terminals of physicians with the appropriate interface for physicians. Here, the physicians are only one embodiment and may include all health prescription providers other than physicians. And the HPA with an appropriate interface for patients can be installed in the smart terminals of patients.

Both physicians and patients agree to use for the intended purpose of HPA and enable HPA accordingly. The doctors provide a digitized prescription as a system. The doctors and patients touch their smart terminals for mutual authorization via NFC (near field communication), and the HPA then starts operating. In the case of remote consultation, the physicians and the patients may use message-passing protocols and codes to complete mutual clearance.

The proposed IoT based health prescription support method and device can remind the HPA not to forget the patient taking the medicine. In addition, HPA can detect adverse drug reactions (ADRs) through the use of an array of sensors, and can report issues to physicians and caregivers. And, HPA can mutually understand the medical box to protect the patient from accidental misuse of medication. In addition, based on the help of relevant databases and the advice of the physician and sensing the disease, the HPA can recommend food recipes for the health of the patient within the available ingredients in the refrigerator.

The HPA can also interact with the smart home system in which the patient resides, thus allowing the patient to set the ideal temperature and humidity environment necessary. The system can respond strongly to unauthorized access by virtue of the gateway. The gateway can be set up to grant the appropriate rights so that the HPA can be securely integrated with databases, health cloud computing servers, and health clinics.

The apparatus described above may be implemented as a hardware component, a software component, and / or a combination of hardware components and software components. For example, the apparatus and components described in the embodiments may be implemented within a computer system, such as, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable array (FPA) A programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the processing apparatus may be described as being used singly, but those skilled in the art will recognize that the processing apparatus may have a plurality of processing elements and / As shown in FIG. For example, the processing unit may comprise a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of the foregoing, and may be configured to configure the processing device to operate as desired or to process it collectively or collectively Device can be commanded. The software and / or data may be in the form of any type of machine, component, physical device, virtual equipment, computer storage media, or device , Or may be permanently or temporarily embodied in a transmitted signal wave. The software may be distributed over a networked computer system and stored or executed in a distributed manner. The software and data may be stored on one or more computer readable recording media.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (10)

In the IoT-based health prescription support method,
Allowing the terminal of the health prescription providers and the terminals of the patients to agree to use the health prescription support system and activate the health prescription support system according to the consent;
Providing a prescribed prescription to the health prescription support system in accordance with the patient's condition using the information stored in the database of the terminal of the health prescription providers; And
The terminal of the health prescription providers and the terminals of the patients approve the mutual permission to start the operation of the health prescription support system and the health prescription support system performs the health prescription support to the terminals of the patients, Comprises securely integrating the terminals of the health prescription providers and the terminals of the patients with a health prescription support system comprising a database, a health cloud computing server, and a server of health clinics, and responding to unauthorized access The terminals of the health prescription providers and the terminals of the patients are granted authorization through the NFC to the terminals of the health prescription providers and terminals of the patients through the gateway, Prescription provider's terminal Terminal of the patient's message to confirm the mutual authorization - also using the passing protocol (message-passing protocol), and code-
Lt; / RTI >
Wherein the step of providing a digitized prescription to the health prescription support system based on the status of the patients using the information stored in the database,
A system and method for recognizing a patient's condition through a body-patch including biosensors attached to patients, transmitting the perceived information to the terminals of the patients, To the health prescription support system to enable the digitized prescription,
Wherein the body-patch communicates with medical-equipped medical packs, the medical packs are contained within a medical box, the sensors of the medical packs are radio-frequency identification chips, Communicating with pills,
Wherein the sensors coated on the tablets are comprised of a coating material capable of being sensed and a central sensor included in the medical box maintains a record of each of the sensors of the medical packs and a record of the tablets,
The health prescription support system can detect the adverse drug reaction of the patient through the arrangement of each of the sensors of the medical packs communicating with the pill and report the detection result to the terminals of the health prescription providers and the terminals of the patients
IoT based health prescription support method. The method according to claim 1,
A program for using the health prescription support system having an interface for health prescription providers is installed in a terminal of the health prescription providers and a program for using the health prescription support system having an interface for patients is stored in a terminal Respectively.
Wherein the IoT-based health prescription support method further comprises: delete The method according to claim 1,
Wherein the terminal of the health prescription provider and the terminal of the patient both agree to use the health prescription support system and activate the health prescription support system according to the consent,
Monitoring and controlling the terminals of the health prescription providers and the terminals of the patients who are authorized to interact with the health prescription support system through a gateway
A method for supporting health prescription based on IoT. 5. The method of claim 4,
The gateway receives an instruction from the health prescription support system in an emergency and terminates the specific connection between the terminals of the health prescription providers and the terminals of the patients
A method for supporting health prescription based on IoT. delete In an IoT-based health prescription support system,
An activation unit activating a health prescription support system according to the consent if both the terminal of the health prescription provider and the terminal of the patient agree to use the health prescription support system;
A database in which the terminals of the health prescription providers store information for making prescriptions digitized according to the status of patients;
A communication unit for receiving a digitized prescription prescribed by the terminal of the health prescription provider using information stored in the database and providing the received prescription to the terminals of the patients; And
Wherein the terminal of the health prescription providers and the terminals of the patients allow the health prescription support system to start operating by approving mutual permits and the health prescription support system performs a health prescription support to the terminals of the patients. , Securely integrate the terminals of the health prescription providers and the terminal of the patients with a health prescription support system including a database, a health cloud computing server, and a server of health clinics, and respond to unauthorized accesses And the terminals of the health prescription providers and the terminals of the patients are granted approval through the NFC, and in case of remote consultation, the terminal of the health prescription providers And The terminals of the patients use a message-passing protocol and codes to grant mutual authorization.
Lt; / RTI >
Wherein,
The method of claim 1, further comprising the steps of: transmitting information about the status of the patients recognized through the body-patch including biosensors attached to the patients to the terminals of the patients; Information is transmitted to the health prescription support system so as to enable the digitized prescription,
Wherein the body-patch communicates with medical-equipped medical packs, the medical packs are contained within a medical box, the sensors of the medical packs are radio-frequency identification chips, Communicating with pills,
Wherein the sensors coated on the tablets are comprised of a coating material capable of being sensed and a central sensor included in the medical box maintains a record of each of the sensors of the medical packs and a record of the tablets,
The health prescription support system can detect the adverse drug reaction of the patient through the arrangement of each of the sensors of the medical packs communicating with the pill and report the detection result to the terminals of the health prescription providers and the terminals of the patients
IoT based health prescription support system. delete 8. The method of claim 7,
The gateway comprises:
Monitor and control the terminals of the health prescription providers and the terminals of the patients who are authorized to interact with the health prescription support system,
Upon receiving an order from the health prescription support system in an emergency, terminating a specific connection between the terminals of the health prescription providers and the terminal of patients
IoT based health prescription support system. delete

Images