KR20180136357A - Remote medical examination system - Google Patents

Abstract

The present invention relates to a telemedicine system, in which a cloud-based telemedicine mobile platform is constructed and utilized in order to enhance the usability of the mobile device, and personal bio-information of the service user transmitted through the sensor device in the telemedicine mobile platform The present invention provides a cloud-based telemedicine system that enables collection of life logs and personal monitoring, and provides remote video treatment and counseling services to medical staffs owned by domestic or overseas medical institutions via a medical institution terminal .
According to the present invention, it is possible to improve the usability of a mobile device, to use a remote video treatment and a medical consulting service through a mobile device, to improve accessibility of a video treatment using a mobile device, It is possible to attract overseas patients and secure domestic and overseas competitiveness.

Description

[0001] REMOTE MEDICAL EXAMINATION SYSTEM [0002]

The present invention relates to telemedicine systems, and more particularly, to a cloud-based telemedicine system utilizing an open mobile platform based on a cloud.

Currently, medical services in Korea are needed to reduce cost, improve accessibility and time.

In addition, the cost of medical expenditure per capita in Korea is continuously increasing, which is more than three times higher than the OECD average, and measures are needed to reduce medical costs. Regular screening and management are required. However, In addition, there are many cases in which the accessibility of medical services, such as the disadvantages of medical vulnerability or discomfort, such as the mountainous areas where the facilities are outdated, is difficult, and the simplified medical services for the chronic patients and the medical services, It is necessary to provide a convenient service considering the fact that it is difficult to visit a medical institution and receive medical treatment due to the living environment of busy modern people such as work life and social activities.

Therefore, there is a growing interest in telemedicine, and in some cases telemedicine is carried out by utilizing advanced electric and electronic technology and communication network, but it is not able to provide continuous service through organic linkage between medical actors and patients , Vulnerability to security problems, and the like.

Currently, government-led policies are underway to revitalize cloud technology in the medical services sector, but so far, it has not been commercialized on the cloud platform in the e-healthcare telemedicine market.

In addition, at domestic and overseas medical institutions, introduction of cloud computing such as IaaS (Infrastructure as a Service) and PaaS (Platform as a Service) is still low, besides SaaS (Software as a Service) and virtualization solution. And privacy protection, there are limits to the use of public cloud, and it is in a position to operate with a private cloud.

Therefore, the need for the development of a cloud-based telemedicine platform is emerging, and a global telemedicine technology and medical service to provide global medical service through the convergence of IT technology and medical technology, It is required to introduce technology to enable continuous management of the act and to attract foreign patients as well as domestic patients.

Korean Registered Patent No. 10-1659941

It is an object of the present invention to provide a cloud-based telemedicine system that can build a cloud-based open mobile platform and enhance the usability of mobile devices.

The object of the present invention is to provide a telemedicine system capable of securing not only domestic but also overseas competitiveness, such as enhancing accessibility of a video treatment utilizing a mobile device, improving convenience, and attracting overseas patients.

According to an aspect of the present invention, there is provided a telemedicine system, which is provided as a cloud-based mobile platform, provides an integrated mobile application for remote imaging and consultation services, A telemedicine mobile platform that hosts and mediates telemedicine video services and consultation services; A remote medical treatment integrated mobile application to be interfaced with the telemedicine mobile platform so as to be interlocked with the telemedicine mobile platform and a video camera interlocked when the patient is connected to the medical institution terminal side via the telemedicine mobile platform, One or more service user terminals; And a telemedicine camera is provided to allow a medical consultation and medical consultation with a service user through a service user terminal connected through the telemedicine mobile platform, and a service user measured by the sensor device from the telemedicine mobile platform At least one medical institution terminal for receiving biometrics information about the medical institution and utilizing the biometrics information for the image diagnosis; And transmitting the biometric information acquired through the service user terminal to the remote medical examination service provider terminal, wherein the biometric information acquisition unit transmits the biometric information acquired from the service user to the service user terminal, And a sensor device adapted to transmit data to the mobile platform side.

Herein, the telemedicine mobile platform includes a cloud service module constructed by a cloud platform and a cloud infrastructure to provide a cloud-based service when a connection is made using an app or a web; A security module that supports four authentication methods for enhancing system access and authentication security and an information authority setting unit for managing and setting user access rights to data and services of various stakeholders; A multi-platform environment support unit for applying web standards for accommodating various requirements of users, providing Web contents accessibility for user convenience, and supporting web compatibility for Internet users having various access environments, and a multilingual environment conversion engine A user support module provided with a multilingual support unit for supporting multiple languages; A service user analysis management unit for managing and analyzing personal information, medical history information, and medical information of the service user measured by the service device measured by the sensor device, a clinical decision support system (CDSS) System, an integrated monitoring system unit for server monitoring and telemedicine service monitoring for platform monitoring, an integrated operating system unit for platform performance and failure and backup management, An HDP / SPP interface unit for interfacing with the terminal, and a telemedicine integration management module having a medical image interface unit for interfacing the service user terminal and the medical institution terminal so as to enable remote imaging treatment.

Here, the sensor device may include: a blood pressure monitor for measuring a blood pressure of a service user holding the service user terminal; A blood glucose meter for measuring blood glucose of the service user; A body composition meter for measuring body composition, including body fat, body weight, skeletal muscle mass, basal metabolic rate, visceral fat level, and the like of the service user; An activity meter for measuring the activity amount including the heart rate, the walking number, the walking distance, the walking time, and the consumed calories of the service user; An HRV measurement system for measuring heart rate variability including electrocardiogram, pulse wave, and heart pulse of the service user; An EKG measurement system for measuring the electrocardiogram of the service user; An oxygen saturation measuring unit for measuring pulse and oxygen saturation of the service user; And a smart stethoscope for measuring the heart rate of the service user, wherein the sensor device can selectively use three or more types of biometric information of the service user among the service users, A personal communication network), or a BAN (Body Area Network), and transmits the measured biometric information.

Here, the communication module included in each of the sensor devices applies a HDP (Health Device Profile) communication profile to maintain security and reliability in data transmission, and uses a LTP (Local Transport Protocol) for communication connection and data exchange control Use; Wherein each of the sensor devices interfaces with the service user terminal and converts the biometric information measurement data to HDP data by the LTP command and transmits the converted HDP data to the service user terminal to implement the HDP based interface; It is possible to configure a wireless communication network using any one selected from Bluetooth, infrared communication (IrDA), ultra wideband communication (UWB), and Zigbee.

Here, the communication module of each of the sensor devices applies a SPP (Serial Port Profile) communication profile to establish a serial connection with the service user terminal, and transmits a modem control signal including the biometric information measurement data of the service user, To implement the SPP-based interface using the RFCOMM protocol; It is possible to configure a wireless communication network using any one selected from Bluetooth, infrared communication (IrDA), ultra wideband communication (UWB), and Zigbee.

Here, the medical institution terminal may include: a platform interworking server for performing a video consultation and consultation of a service user in cooperation with the telemedicine mobile platform; A PHR server for providing PHY (Personal Health Record) data between service requesting medical institutions and cooperative support medical institutions; And a PACS (Picture Archiving and Communication System) grid server for providing a medical image service between the collaboration request medical institution and the cooperative support medical institution.

Here, in the medical institution terminal, the collaboration request medical institution transmits a Simple Object Access Protocol (SOAP) message on the HTTP protocol through the platform interworking server to the telemedicine mobile platform, Can be configured to perform cooperative service calls.

Here, the telemedicine mobile platform may further include a medical image conversion interface for telemedicine with a domestic or overseas medical institution, so as to support seamless telemedicine based on a medical image with a foreign medical institution in Korea or abroad, And can be configured to apply standard protocols such as DICOM (Digital Imaging and Communications in Medicine), a video and communication standard.

Here, the security system unit applies a public authentication (Oauth) scheme to provide a flexible security authentication service according to a situation inside the telemedicine mobile platform, using a resource server and an Oauth server; An Authorization Code Grant authentication method for a trusted user calling a resource Web API (Application Programming Interface) of a telemedicine mobile platform; Implicit Grant authentication scheme using browser-based applications or mobile application authentication methods that are widely used by public users; Password Credentials Grant authentication method which allows user to access directly by using ID and password; Client Credentials Grant authentication method that allows authentication when an access application is a trusted user, with an ID and password; Can be configured.

Here, you can apply cell-based hybrid apps to easily extend and mount your mobile apps, and build mobile device APIs to support iOS and Andriod mobile platforms to connect to iOS and Andriod environments, Establish a compatible user environment; You can configure the web user environment through Window and MacOS to support multi-platform user environment that is linked to PC as well as mobile.

According to the present invention, it is possible to provide a cloud-based telemedicine system that can build a cloud-based open mobile platform and enhance the usability of the mobile device, improve the accessibility of the videotherapy using the mobile device, It can be useful to secure domestic and overseas competitiveness as well as to attract foreign patients.

The present invention is capable of connecting in various user environments, monitoring biometric information and life log of an individual, receiving a remote visual medical service through utilization of biometric information, and providing a remote visual medical service through cooperation of a medical staff It is possible to achieve the usefulness.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall configuration diagram of a telemedicine system according to an embodiment of the present invention; FIG.
2 is a conceptual diagram illustrating a telemedicine system according to an embodiment of the present invention.
3 is a schematic diagram illustrating a synchronization process of a telemedicine system according to an embodiment of the present invention.
4 is a block diagram of a telemedicine mobile platform in a telemedicine system according to an embodiment of the present invention.
5 is a block diagram illustrating a configuration of a telemedicine mobile platform in a telemedicine system according to an embodiment of the present invention.
6 is a conceptual diagram illustrating a security system of a security module in a telemedicine system according to an embodiment of the present invention.
Figure 7 is an illustration of an example of a cloud-based mobile app for telemedicine in a telemedicine system in accordance with an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.

The telemedicine system according to an embodiment of the present invention includes a telemedicine mobile platform 100, a service user terminal 200, a medical institution terminal 300, and a sensor device 400, as shown in FIGS. 1 to 7 .

The telemedicine mobile platform 100 is a cloud-based open mobile platform with open source utilizing cloud computing. The telemedicine mobile platform 100 is an integrated mobile application for remote image and counseling services. (App) or web (Web), and it functions to mediate and mediate telemedicine video service and counseling service.

Here, the cloud computing is a computing environment in which IT related services such as data storage, network, and content use can be used all at once through a server on the Internet. The cloud computing stores all information of a user on a server on the Internet, Is a computing service in which computing resources such as hardware and software existing in an intangible form are borrowed as much as they need and a usage fee is paid for them.

The telemedicine mobile platform 100 may have a configuration including a cloud service module 110, a security module 120, a user support module 130, and a telemedicine integration management module 140.

The cloud service module 110 includes a cloud platform 111 and a cloud infrastructure 112 for providing a cloud-based service when a user (service user, medical staff, etc.) accesses a connection using an app or a web, .

At this time, the cloud platform 111 can be built on a cloud-based basis in order to construct an open type through an open source. The cloud infrastructure 112 can be installed in an open stack (OpenStack ).

The cloud platform 111 includes a web server for providing PHS (Personal Health Record) -based web services, a framework for various language services, middleware for supporting smooth communication in a complicated heterogeneous environment, and various data And a API (Application Programming Interface) gateway for supporting the mobile environment, and is installed to support interworking with the cloud infrastructure 112 and cloud infrastructure.

The cloud infrastructure 112 includes a virtual server control unit for managing virtual servers such as metadata creation and deletion as well as virtual servers, a storage controller for storage control such as storage creation, deletion and modification, A network controller for network control such as creation and management of virtual switches, an orchestration for managing VM groups and templates, such as creation and deletion for each virtual machine (VM) group, by orchestration by controlling all resources including storage and network And a VM scheduling unit for managing the VM group, the memory, and the CPU-based scheduling.

The security module 120 includes a security system unit 121 that supports four authentication methods for enhancing system access and authentication security for a user (service user, medical staff, etc.) to the platform 100 side, And an information authority setting unit 122 for managing and setting user access rights to the star data and the service.

In this case, the security system unit 121 applies an open authentication (Oauth) scheme to provide a flexible security authentication service according to the situation inside the telemedicine mobile platform 100, Server, and Oauth server.

In other words, as a method of calling a resource Web API (Application Programming Interface) of a telemedicine mobile platform, there are an Authorization Code Grant authentication scheme for a reliable user and an authentication scheme for a browser based application or a mobile application , A Password Credentials Grant authentication method that allows a user to directly access by using an ID and a password, and a Client Credentials Grant that allows an access application to authenticate with an ID and a password when the user is a trusted user. Authentication method, and the like.

For example, the information authority setting unit 122 may allow a service user to access a medical image service, a personal health assessment service, a personal health record access, and the like, and allow the medical staff to access the medical image service, And allow the administrator or operator to set access rights for accessing and managing medical image data, accessing and managing personal health record data, and the like.

The user support module 130 applies web standards for accommodating various requirements of users (service users, medical staff, etc.) as well as users' access through apps, provides web contents accessibility for user convenience, A multi-platform environment support unit 131 for supporting web compatibility for Internet users having the multilingual language conversion engine, and a multilingual language support unit 132 for supporting multilingual languages through the multilingual conversion engine.

The multi-platform environment support unit 131 complies with the open Internet standard recommendation (W3C) used as a standard and obeys the Korean web content accessibility guidelines. By excluding the environment dependent on a specific platform and building it to be serviceable to all browsers, Standard, web accessibility and web compatibility.

The multilingual support unit 132 is provided to allow a service user to consult and consult with medical staff of an overseas medical institution at any time and anywhere, and is provided with support for multiple languages such as English, Chinese, Japanese, and Arabic, .

In addition to the biometric information of the service user measured and transmitted from the sensor device 400, the telemedicine integrated management module 140 includes a service user analysis and management unit 141 for managing and analyzing personal information, medical history information and medical information of the service user A medical consultation system unit 142 based on a clinical decision support system (CDSS) for diagnosis support of a medical staff having the medical institution terminal 300; An integrated monitoring system unit 143 for monitoring server monitoring and telemedicine services for monitoring, an integrated operating system unit 144 for performing performance and failure of the platform 100 and backup management, An HDP / SPP interface unit 145 for interfacing with the service user terminal 200 and the medical institution terminal 300; And a medical image interface unit 146 for interfacing with the medical image interface unit.

The service user analysis and management unit 141 can analyze and provide service and management of personal health record (PHR) data such as biometric information of a service user and image data according to a life log and a remote imaging service, Information and remote image data to generate big data and serve the service user.

The HDP / SPP interface unit 145 functions to receive data transmitted from each device of the sensor device 400 and utilize the received data on the telemedicine mobile platform 100 side.

The telemedicine mobile platform 100 has a main purpose for further enhancing the usability of the mobile device. The mobile telemedicine mobile platform 100 can apply a cell-based hybrid application for easily expanding and mounting the mobile application, It is desirable to build a mobile device API so that it can support both mobile platforms of iOS and Andriod so that a user environment having an application compatibility is established.

In addition, the telemedicine mobile platform 100 is configured to support a multi-platform user environment by establishing a web user environment through a window and a MacOS and interworking with a mobile as well as a PC.

The telemedicine mobile platform 100 may have a configuration including a medical image conversion interface for supporting telemedicine with a domestic or overseas medical institution, i.e., the medical institution terminal 300, and may include a medical digital image and communication standard DICOM (Digital Imaging and Communications in Medicine) standard protocol, it is desirable to configure the system so as to support smooth telemedicine based on medical images with domestic and overseas medical institutions.

The service user terminal 200 is a mobile device, and may be a smart phone possessed by a service user, and may include one or more.

The service user terminal 200 is equipped with a telemedicine integrated mobile app to be interfaced with the telemedicine mobile platform 100 and is connected to a medical institution terminal for remote video treatment through the telemedicine mobile platform 100 300 and the image camera 200A so that an image and medical consultation with a medical staff having the medical institution terminal 300 interlocked with the connection to the medical institution terminal 300 can be performed.

A video camera 200A is basically installed in a smart phone that is a mobile device that can be used as the service user terminal 200. [

FIG. 7 illustrates an example of a cloud-based telemedicine integrated mobile app for telemedicine installed in the service user terminal 200. As shown in FIG.

The service user terminal 200 is provided with a receiving module for securely receiving biometric information transmitted from each device of the sensor device 400. The service user terminal 200 is connected to the service user terminal 200 via Bluetooth, ), And Zigbee may be applied to the wireless communication system.

The service user terminal 200 is provided with a transmission module so that the biometrics information received from each device of the sensor device 400 can stably communicate with the telemedicine mobile platform 100 side. Evolution) or Wi-Fi (Wi-Fi).

Accordingly, a service user for receiving a remote medical service is connected to the medical institution terminal 300 via the telemedicine mobile platform 100 using the service user terminal 200, Provides videotaping and counseling services.

The medical institution terminal 300 is provided with a telemedicine imaging camera 300A so as to enable a medical consultation and medical consultation with a service user through a service user terminal 200 connected via the telemedicine mobile platform 100 And a remote video medical treatment system including the same is provided.

The medical institution terminal 300 may include one or more terminals that receive biometric information of a service user measured by the sensor device 400 from the telemedicine mobile platform 100 and utilize the biometric information for the image diagnosis, It can be divided into domestic medical terminal and one or more overseas medical terminal.

The medical institution terminal 300 can perform collaboration using an image among medical staffs via the telemedicine mobile platform 100 through a plurality of medical institution terminals and can be used as a collaboration request medical institution or a cooperative support medical institution have.

At this time, the collaboration among the medical staff can be made among leading medical staffs, can be performed among leading medical staffs, and can be made between leading domestic medical staff and overseas medical staff.

The medical institution terminal 300 includes a platform interworking server 310 for interfacing with the telemedicine mobile platform 100 to perform a video consultation and consultation with a service user, a service user PHR 310 between the collaboration requesting medical institution and the cooperative support medical institution, A PHR server 320 for providing personal health record data, and a PACS (Picture Archiving and Communication System) grid server for providing a medical image service between the collaboration request medical institution and the cooperative support medical institution 330).

At this time, in the medical institution terminal 300, the collaboration request medical institution transmits a Simple Object Access Protocol (SOAP) message on the HTTP protocol to the telemedicine mobile platform 100 through the interworking server, 100 to perform the cooperative service call to the cooperative support medical institution terminal.

The medical institution terminal 300 may include a medical consultation system based on a decision support system (CDSS).

The sensor device 400 is a device for acquiring biometric information for a service user holding the service user terminal 200. The sensor device 400 transmits biometric information acquired from the service user to the service user terminal 200, And transmits the biometric information collected through the service user terminal 200 to the telemedicine mobile platform 100 side.

At this time, the sensor device 400 is configured to transmit the biometric information acquired from the service user to the telemedicine mobile platform 100 side through communication with peripheral device drivers other than the service user terminal 200 And may be used in combination.

The sensor device 400 includes a blood pressure meter 141 for measuring blood pressure of a service user holding the service user terminal 200; A body composition meter 143 for measuring body composition including the body fat, body weight, skeletal muscle amount, basal metabolic rate, visceral fat level of the service user, blood glucose meter 142 for measuring blood sugar of the service user; An activity meter 144 for measuring an activity amount of the service user including a heart rate, a walking number, a walking distance, a walking time, a consumed calorie, and the like; An HRV measurement system 145 for measuring heart beat variability including electrocardiogram, pulse wave, and heart pulse of the service user; An EKG measurement system 146 for measuring the electrocardiogram of the service user; An oxygen saturation meter 147 for measuring pulse and oxygen saturation of the service user; And a smart stethoscope 148 for measuring the heart rate of the service user.

The sensor device 400 may select and use three or more types of biometric information of the service user from the listed sensor devices.

The sensor device 400 transmits the measured biometric information by connecting each sensor device to the service user terminal 200 through a PAN (Personal Area Network) or a BAN (Body Area Network) A communication module 400A is provided.

At this time, the communication module 400A of each of the sensor devices 400 applies a HDP (Health Device Profile) communication profile to maintain security and reliability in data transmission, and performs LTP (Local Transport Protocol) is preferably used.

Each of the sensor devices 400 is interfaced with the service user terminal 200 to convert the biometric information measurement data into HDP data by the LTP command and transmit the converted HDP data to the service user terminal 200, .

Here, each of the sensor devices 400 may use a wireless communication network of any one selected from Bluetooth, infrared communication (IrDA), ultra wide band communication (UWB), and Zigbee.

The communication module 400A of each of the sensor devices 400 applies a SPP (Serial Port Profile) communication profile to establish a serial connection with the service user terminal 200 and transmits the biometric information measurement data of the service user Based interface using the RFCOMM protocol to transmit a modem control signal and a setup command including the Bluetooth protocol, the Bluetooth protocol, the infrared communication protocol (IrDA), the UWB protocol, and the Zigbee protocol. A wireless communication network of any one kind can be used.

Hereinafter, a remote image diagnosis and consultation service by the remote diagnosis system according to the present invention will be described.

The service user and the medical institution (domestic and overseas) are connected to the telemedicine mobile platform 100 side through the service user terminal 200 and the medical institution terminal 300, respectively, and the personal information of the service user and the medical staff And the like are input and stored in the DB.

At this time, the service user and the medical staff apply the cell-based hybrid application in the telemedicine mobile platform 100 and establish the mobile device API to support the two mobile platforms of iOS and Andriod. Thus, in the iOS or Andriod environment, And can be connected to the platform 100 side. In the telemedicine mobile platform 100, a web user environment through a window and a MacOS is established, so that it can be accessed not only through a mobile terminal but also via a PC.

Here, when accessing the telemedicine mobile platform 100, a service user, a medical staff, and the like are restricted from accessing the system by security authentication and information rights setting through the security module 120.

In the telemedicine mobile platform 100, biometric information such as blood pressure, blood glucose and activity amount for the service user is received and stored in the DB through the interlocking with the service user terminal 200, and a personal health record (PHR) ) And collects and lifelogs the data.

At this time, the service user terminal 200 receives the biometric information about the service user from each of the sensor devices 400, transmits the biometric information to the telemedicine mobile platform 100, and transmits PHR (Personal Health Record) Based data collection and lifelog processing.

Here, each of the sensor devices 400, such as a blood pressure monitor, a blood sugar meter, and an activity meter, interfaces with the service user terminal 200 to implement a health device profile (HDP) Transport Protocol (HDP) data to the service user terminal 200.

Here, each of the sensor devices 400, such as a blood pressure monitor, a blood glucose meter, and an activity meter, is interfaced with the service user terminal 200 to implement a SPP (Serial Port Profile) To the service user terminal 200, and transmits the modem control signal and the setting command together.

The telemedicine mobile platform 100 transmits data such as biometric information and lifelog based on the PHR (Personal Health Record) of the service user stored in the DB to a remote image (not shown) via the medical institution terminal 300 (PHR) -based data to analyze and provide health services to the users of the service.

In a state in which the above process is performed or in real time, a service user interfaced with the telemedicine mobile platform 100 is provided to a domestic medical institution or an overseas medical institution or a medical staff The remote medical care mobile platform 100 mediates through the interface with the corresponding medical institution terminal 300. [

The service user terminal 200 and the medical institution terminal 300, which are interfaced with each other through intermediation of the telemedicine mobile platform 100, perform interlocking of the image camera by the medical image interface unit 146, .

At this time, the telemedicine mobile platform 100 supports the biometrics information and the life log data of the corresponding service user connected to the medical staff through the medical institution terminal 300 to help medical consultation and medical consultation, And stores and manages the medical image data according to the remote imaging treatment between the service user and the medical staff in the DB.

Here, in the teleservice mobile platform 100, when a service user selects an overseas medical institution and a medical staff, the multilingual support unit 132 supports the corresponding language.

On the other hand, when performing remote video treatment and medical consultation between the service user and the medical staff through the support on the telemedicine mobile platform 100, the medical staff provides a system for requesting cooperation and supporting cooperation among the medical staff of other medical institutions The PHS server 320 of the medical institution terminal 300 can transmit and receive personal user health record (PHR) data between the cooperative request medical institution and the cooperative support medical institution, and a PACS (Picture Archiving and Communication System) Transmission system) It is possible to transmit and receive a medical image between the cooperation request medical institution and the cooperative support medical institution through the grid server 330. [

At this time, the collaboration request medical institution transmits a Simple Object Access Protocol (SOAP) message to the telemedicine mobile platform 100 on the HTTP protocol through the platform interworking server 310 held by each of the medical institution terminals 300, The platform 100 can perform the cooperative service call through the medical institution terminal 300 of the cooperative support medical institution and supports the remote visual medical service and medical consultation for the service user in cooperation.

Here, the telemedicine mobile platform 100 supports telemedicine with domestic or overseas medical institutions through a medical image conversion interface, and supports smooth telemedicine based on a medical image base with domestic and overseas medical institutions .

Accordingly, the present invention can provide a cloud-based telemedicine system that can build a cloud-based open mobile platform and enhance the usability of the mobile device. The present invention can provide a cloud-based telemedicine system that improves the accessibility of the video- It is also possible to provide a cloud-based telemedicine system capable of securing domestic and foreign competitiveness, as well as attracting foreign patients.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. May be made, which will be within the technical scope of the present invention.

100: telemedicine mobile platform 110: cloud service module
120: Security module 130: User support module
140: telemedicine integrated management module 200: service user terminal
300: medical institution terminal 310: platform interlocking server
320: PHR server 330: PACS Grid Server
400: Sensor device

Claims (10)

Built on the cloud-based mobile platform, it is a telemedicine mobile platform that provides integrated mobile apps for remote video treatment and counseling services, has access via app or web, and hosts and mediates telemedicine video services and counseling services. ;
A remote medical treatment integrated mobile application to be interfaced with the telemedicine mobile platform so as to be interlocked with the telemedicine mobile platform and a video camera interlocked when the patient is connected to the medical institution terminal side via the telemedicine mobile platform, One or more service user terminals;
And a telemedicine camera is provided to allow a medical consultation and medical consultation with a service user through a service user terminal connected through the telemedicine mobile platform, and a service user measured by the sensor device from the telemedicine mobile platform At least one medical institution terminal for receiving biometrics information about the medical institution and utilizing the biometrics information for the image diagnosis;
And transmitting the biometric information acquired through the service user terminal to the remote medical examination service provider terminal, wherein the biometric information acquisition unit transmits the biometric information acquired from the service user to the service user terminal, A sensor device adapted to transmit data to the mobile platform; And a remote medical system. The method according to claim 1,
Wherein the telemedicine mobile platform comprises:
Cloud service module built with cloud platform and cloud infrastructure to provide cloud-based service for accessing through app or web connection;
A security module that supports four authentication methods for enhancing system access and authentication security and an information authority setting unit for managing and setting user access rights to data and services of various stakeholders;
A multi-platform environment support unit for applying web standards for accommodating various requirements of users, providing Web contents accessibility for user convenience, and supporting web compatibility for Internet users having various access environments, and a multilingual environment conversion engine A user support module provided with a multilingual support unit for supporting multiple languages;
A service user analysis management unit for managing and analyzing personal information, medical history information, and medical information of the service user measured by the service device measured by the sensor device, a clinical decision support system (CDSS) System, an integrated monitoring system unit for server monitoring and telemedicine service monitoring for platform monitoring, an integrated operating system unit for platform performance and failure and backup management, An HDP / SPP interface unit for interfacing with a terminal, a telemedicine integration management module having a medical image interface unit for interfacing with a service user terminal and a medical institution terminal so as to enable remote imaging treatment; And a remote medical system. The method according to claim 1,
Wherein the sensor device comprises:
A blood pressure meter for measuring a blood pressure of a service user holding the service user terminal;
A blood glucose meter for measuring blood glucose of the service user;
A body composition meter for measuring body composition, including body fat, body weight, skeletal muscle mass, basal metabolic rate, visceral fat level, and the like of the service user;
An activity meter for measuring the activity amount including the heart rate, the walking number, the walking distance, the walking time, and the consumed calories of the service user;
An HRV measurement system for measuring heart rate variability including electrocardiogram, pulse wave, and heart pulse of the service user;
An EKG measurement system for measuring the electrocardiogram of the service user;
An oxygen saturation measuring unit for measuring pulse and oxygen saturation of the service user;
A smart stethoscope for measuring a heart rate of the service user; Among them, the biometric information of the service user may be selected so as to acquire three or more kinds of biometric information,
Wherein each of the sensor devices comprises:
And a communication module for transmitting the measured biometric information by connecting the service user terminal through a PAN (Personal Area Network) or a BAN (Body Area Network). The method of claim 3,
The communication module of each of the sensor devices includes:
Apply a Health Device Profile (HDP) communication profile to maintain security and reliability of data transmission, use LTP (Local Transport Protocol) for communication connection and data exchange control;
Wherein each of the sensor devices comprises:
Interface with the service user terminal to convert the biometric information measurement data into HDP data by the LTP command and transmit the converted HDP data to the service user terminal;
Wherein a wireless communication network using any one selected from Bluetooth, infrared communication (IrDA), ultra wideband communication (UWB), and Zigbee is used. The method of claim 3,
The communication module of each of the sensor devices includes:
(SPP) communication profile to establish a serial connection with the service user terminal, and implements an SPP-based interface using an RFCOMM protocol to transmit a modem control signal and a configuration command including biometric information measurement data of a service user ;
Wherein a wireless communication network using any one selected from Bluetooth, infrared communication (IrDA), ultra wideband communication (UWB), and Zigbee is used. The method according to claim 1,
The medical institution terminal,
A platform interworking server for interfacing with the telemedicine mobile platform to perform video consultation and consultation with a service user;
A PHR server for providing PHY (Personal Health Record) data between service requesting medical institutions and cooperative support medical institutions;
A Picture Archiving and Communication System (PACS) grid server for providing a medical image service between the collaboration request medical institution and the collaborative support medical institution; And a remote medical system. The method according to claim 6,
In the medical institution terminal,
The collaboration requesting medical institution transmits a Simple Object Access Protocol (SOAP) message over the HTTP protocol to the telemedicine mobile platform through the platform interworking server, and configures the cooperative request medical institution to perform the coeducation service call in the telemedicine mobile platform A telemedicine system characterized by. 3. The method of claim 2,
Wherein the telemedicine mobile platform comprises:
Medical image conversion interface to support telemedicine with domestic or overseas medical institutions; (DICOM) standard protocol, which is a medical digital image and communication standard, is applied to provide a medical image-based seamless telemedicine with domestic and overseas medical institutions. system. 3. The method of claim 2,
The security system unit,
A public authentication (Oauth) method is applied so as to provide a flexible security authentication service according to a situation inside the telemedicine mobile platform, using a resource server and an Oauth server;
An Authorization Code Grant authentication method for a trusted user calling a resource Web API (Application Programming Interface) of a telemedicine mobile platform;
Implicit Grant authentication scheme using browser-based applications or mobile application authentication methods that are widely used by public users;
Password Credentials Grant authentication method which allows user to access directly by using ID and password;
Client Credentials Grant authentication method that allows authentication when an access application is a trusted user, with an ID and password; To the remote medical care system. 3. The method of claim 2,
Wherein the telemedicine mobile platform comprises:
It is possible to apply cell-based hybrid apps to facilitate expansion and mounting of mobile apps. By building mobile device APIs to support iOS and Andriod two mobile platforms, iOS and Andriod environments can be connected to each other. Build a user environment;
The system is configured to support a multi-platform user environment interlocked with a mobile as well as a mobile by constructing a web user environment through Window and MacOS.

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