KR101674618B1 - system for providing the remote medical image treatment based virtualization - Google Patents
system for providing the remote medical image treatment based virtualization Download PDFInfo
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- KR101674618B1 KR101674618B1 KR1020160033294A KR20160033294A KR101674618B1 KR 101674618 B1 KR101674618 B1 KR 101674618B1 KR 1020160033294 A KR1020160033294 A KR 1020160033294A KR 20160033294 A KR20160033294 A KR 20160033294A KR 101674618 B1 KR101674618 B1 KR 101674618B1
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Abstract
Description
The present invention relates to a virtualization-based remote imaging system, and more particularly to a virtualization-based remote imaging system for providing a virtual camera based on a virtual camera and a plurality of medical devices connected to client terminals used by a client, The virtualization server connects to the client terminal and takes the video camera and various medical device resources to be executed through the virtual machine so that the video camera between the client terminals and the virtualization server And a virtual-image-based remote-visual-medical-service provision system capable of sharing a medical device resource and providing a video-based service in a QoS-guaranteed state.
Recently, a remote video conversation system that can face or face a face to face at a remote place has been rapidly supplied to public institutions, financial institutions, education, communication companies, hospitals and corporations. Recently, / With the development of conference technology, diversification of solutions, and high-speed Internet, the domestic video conferencing system market is rapidly growing.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing a configuration of a conventional general multi-vision imaging or conference system. FIG. The conventional general multi-lingual image consultation or conference system may be implemented by a plurality of video chat terminal units 100-1, 100-2, 100-3, ..., 100-n and a multi- .
The multi-user video
The video chat terminal units 100-1, 100-2, 100-3, ..., 100-n include a display device, a
The video chat terminal units 100-1, 100-2, 100-3, ...., 100-n access the multi-party video
In addition, the video chatting terminal units 100-1, 100-2, 100-3, ...., 100-n can transmit the size information of the multi-party video chatting image displayed on the display device itself to the multi- (200).
The multi-party video
The multi-party video
Then, the multi-party video
According to such a conventional general video chatting (conference or conference) system, a video of a conversation participant participating in a video consultation or a conference is synthesized by the multiparty video chatting server unit and transmitted to each video chatting terminal unit.
Therefore, the traffic generated in the multi-party video communication system is considerable, which may cause a problem of speed reduction, and consequently, the quality of the multi-party video service or conference service can not be guaranteed. Particularly, as the number of talkers participating in a video clinic or a conference increases, the amount of traffic increases exponentially and a real teleconference service can not be provided.
Furthermore, in a remote imaging system, various medical devices can be connected to the video chat terminal, in which case the traffic increases dramatically, creating a problem that remote video care services are virtually impossible.
The virtualization service, which can be applied to the video conferencing or medical care provision system, has a great importance in security of internal business secrets and customer information in hospitals, companies and research institutes recently, and it takes a lot of time and manpower for distributed PC management And the need for efficient use and management through a centralized computer environment is growing.
On the other hand, as cloud system construction becomes more active, device redirection related technologies for sharing end-user devices (for example, video cameras, etc.) other than sharing server resources are increasingly being developed. In a cloud environment that provides virtualization technology, virtualization servers organically connect many devices, exchange data with each other, and provide services.
However, the conventional device redirection technology has a problem that the speed is lowered because a device such as a video camera is executed through the client terminal.
For example, the USB driver may not be able to be executed or the version may be low depending on the USB driver, which may cause a connection speed problem. In addition, in the existing system, even if the USB is the upper version, since it is executed through the client terminal and remotely shared, the program has to be executed at the lowest version speed, and as a result, the execution speed is lowered.
Conventionally, not only device resources such as a video camera are shared between a client terminal and a virtualization server, but device resources executed through the client terminal are shared between client terminals, thereby increasing unnecessary consumption of network resources due to increased traffic.
Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a remote visualization system, a video camera connected to client terminals used by a client, The virtualization server is connected to the client terminal and takes the image camera and various medical device resources to be executed through the virtual machine so that the client terminal and the virtualization server The present invention provides a virtual-based remote visual-medical-service provision system capable of sharing an interim camera and medical device resources and providing a video-based service in a QoS-guaranteed state.
In addition, the present invention can be applied not only to a video camera and various medical device resources executed through a client terminal, but also to share a video camera and various medical device resources between a client terminal and a virtualization server, It is an object of the present invention to provide a virtualization-based remote imaging service system capable of providing a virtualization-based remote imaging service without increasing network traffic even if the number of client terminals and medical devices significantly increases by configuring the medical device resources to be executed .
According to an aspect of the present invention, there is provided a system for providing virtualized-based remote visual medical care, comprising: a plurality of client computers to be treated managed by a client who wants to receive a video- Which authenticates the connection of the client terminals including the client terminals to be treated and the client terminals to be managed by the client, And a virtualization server for providing a virtualized imaging service to the connected client terminals, wherein when the connection of the imaging camera is detected in a state where the client to be treated is connected to the virtualization server, The virtualization server Further comprising: a physician client agent that verifies the sharing of the imaging camera and further confirms the sharing of the medical device to the virtualization server when a connection of the medical device is detected, wherein the medical care client terminal is connected to the virtualization server And a virtual client client for confirming the sharing of the image camera to the virtualization server when a connection of the image camera is detected in the virtual client terminal, And a server agent for controlling the virtual camera to execute the virtual camera, wherein the virtual camera acquires resources from the image camera and the medical device connected to the client terminals selected as the terminal.
The medical device according to
The client client agent may further include a first connection detection / sharing confirmation module for detecting whether the image camera is connected to the client client to be examined and for confirming whether the image camera is shared with the server agent when a connection is detected, A first device information providing module for transmitting the image camera information to the server agent when sharing is selected by the agent, and a first resource conversion / transmission module for converting the resource of the image camera and transmitting the converted image to the server agent Sharing confirmation module detects whether the medical device is connected after the connection of the image camera is detected, and further confirms whether the medical device is shared with the server agent when a connection is detected, 1 device information providing module is managed by the server agent When the device sharing is selected, further transmits the medical device information to the server agent, and the first resource conversion / transmission module converts the resource of the medical device and transmits the converted resource to the server agent.
In addition, the care client agent may include a second connection detection / sharing confirmation module for detecting whether the image camera is connected to the care client terminal and checking whether the image camera is shared with the server agent when a connection is detected, A second device information providing module for transmitting the image camera information to the server agent when the sharing is selected, and a second resource conversion / transmission module for converting resources of the image camera and transmitting the converted image to the server agent .
The server agent may select a connection mode based on the virtual camera designation module designating a virtual machine and the image camera information transmitted from the image camera information provision module and may be connected to client terminals selected as the image treatment grouping terminal And a connection control module for executing a video camera connected to the client terminals selected as the video-care grouping terminal in the virtual machine by using the video camera resources transmitted by requesting resource sharing to the video camera , The connection control module requests resource sharing for the medical device connected to the client terminals to be treated included in the client terminals selected as the videotherapy grouping terminal, and uses the transmitted medical device resource, The medical di And controlled so that the device is running, the call client terminal is characterized by using the medical data of the camera image and the image of the medical device that is running on the virtual server performs image treatment for blood treatment chair.
According to the virtualization-based remote imaging service providing system having the above-described technical problem and the solution, when constructing the remote imaging medical service system, the image camera connected to the client terminals used by the client, To be executed through a virtual machine rather than running on a client terminal, but a virtualization server connects to a client terminal and takes a video camera and various medical device resources to execute through a virtual machine. The present invention aims to provide a virtual-image-based remote-visual-medical-service provision system capable of sharing a video camera and a medical device resource between client terminals and a virtualization server, and thereby providing a videotherapy service with QoS guaranteed.
In addition, the present invention can be applied not only to a video camera and various medical device resources executed through a client terminal, but also to share a video camera and various medical device resources between a client terminal and a virtualization server, It is a further object of the present invention to provide a virtualization-based remote imaging service provision system capable of providing a virtualization-based remote imaging service without the increase of network traffic even if the number of client terminals and medical devices is greatly increased. do.
Fig. 1 is a configuration diagram of a conventional general video dialogue system.
2 is a configuration block diagram of a virtual-based remote visual medical service provision system according to an embodiment of the present invention.
3 is a detailed block diagram of a virtualization-based remote imaging system according to an embodiment of the present invention.
4 is a diagram illustrating an exemplary configuration of a terminal registration storage module applied to a virtualization-based remote imaging service provision system according to an exemplary embodiment of the present invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a virtual-based remote visual medical treatment system according to the present invention having the above-described problems, solutions, and effects will be described in detail with reference to the accompanying drawings.
The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator.
Virtualization service refers to a service that enables a virtual PC environment on the Internet to realize a business environment anytime and anywhere without restriction of time and space through various terminals.
FIG. 2 is a block diagram of a system for providing a virtualization-based remote visual medical service according to an embodiment of the present invention, and FIG. 3 is a detailed block diagram of FIG.
2 and 3, the virtualization-based remote imaging service provision system according to the present invention basically comprises a plurality of
In other words, the virtualization-based remote imaging service provision system according to the present invention comprises a plurality of
The plurality of clients to be treated
The plurality of
The
On the other hand, the plurality of medical
The plurality of
A person to be treated using the client to be treated client can be consulted with a single medical person operating the specific treatment client terminal at the virtualization server to perform a medical examination or receive a medical examination by meeting with a plurality of medical persons. Also, a single medical person may meet a plurality of patients at the virtualization server to perform medical care.
The
More specifically, the
The
The
The
The
The
When the plurality of
That is, the
The
Specifically, the plurality of
As a result, the
After detecting that the
In other words, when the connection of the
Meanwhile, when the plurality of
That is, when the
The
Specifically, a plurality of care client terminals (15) are formed with a care client agent (16) for converting a connected camera camera resource into a form capable of transmitting image camera resources, and a server agent (31) installed in the virtualization server When the
As a result, the
The
As a result, the
Meanwhile, the virtualization-based remote imaging service provision system according to the present invention is a system for providing virtualization-based remote imaging services, in which the medical data generated by various medical devices executed in the
The
Specifically, the virtualization-based remote imaging service provision system according to the present invention further comprises a management server (40) connectable to the virtualization server, wherein the medical data related to the medical device (3) executed in the virtual machine Matches the unique information (ID) of the
Hereinafter, the components constituting the virtual-based remote visual medical treatment system according to the present invention will be described in more detail.
When the
3, the
The first connection detection /
When the connection of the
Even if the image camera is connected to the client to be treated, the client to be treated is operated in the virtualization server to receive the remote imaging service, GD), the first connection detection /
As a result of the confirmation, when the sharing selection is generated by the
Thereafter, the
Here, the
The resources, information and data of the
However, when only the image camera is executed, it is possible to perform diagnosis through only the query and the color of the face. Therefore, various
The medical device connected to the
Therefore, after the connection of the
When the medical device sharing is selected by the
That is, the
The
The medical
3, the
The second connection detection / sharing confirmation module 16a determines whether or not the
When the connection of the
Even if the image camera is connected to the client terminal, the client terminal is operated in the virtualization server to select a client terminal (GD in Fig. 4) selected as a videotherapy grouping terminal capable of providing a remote videotherapy service, The second connection detection / sharing confirmation module 16a confirms whether the video camera is shared with the
As a result of the confirmation, when the sharing selection is generated by the
Thereafter, the
Here, the
The
Specifically, the
The
The connection control module 31b selects a connection mode by using the camera information once to enable smooth resource transmission and transmits the video signal to the
For example, if there are five
The virtual
Then, the image camera is executed in the
When the image camera information is transmitted from the first and / or second image camera
As described above, the
Therefore, the connection control module 31b can share resources, information, data, and the like with the
As a result, in the
Specifically, the medical
Here, the connection control module 31b controls connection by selecting one of a protocol type and a socket type. In general, the protocol method is selected when the image camera interface version is low and low according to the image camera information, and the socket method can be selected when the image camera interface version is high and high according to the image camera information.
The protocol method is a method of confirming the acknowledgment (ACK) information which confirms whether the data sent to the receiving side arrives sequentially from the beginning to the end and whether the transmitted data has arrived properly to the other party. It has high accuracy and stability, There is a problem that the speed is lowered or a delay occurs.
On the other hand, since there is no process of confirming whether the transmitted data has arrived normally, the socket method has an advantage that it can be transmitted at a high transmission rate, but data loss may occur. However, if the version of the camera is high, it needs to cope with the high speed, so it is reasonable to select the socket type with a high transmission speed.
Therefore, since the virtual machine of the virtualization server can take and use the image camera resources transmitted from the
Since the conventional device sharing mechanism is a method of controlling execution in a virtual machine to which a hypervisor of a virtualization server is connected when a client terminal is connected to a device, access control according to the state of the device is not possible. There is a problem that the speed is set to a lower version.
In addition, since the client terminal connects to the virtualization server and the device is executed in the virtual machine, there is a problem that the execution speed of the client terminal is low as well as execution error when the specification of the client terminal is low.
However, the virtualization-based remote imaging service according to the present invention does not require the
Meanwhile, as described above, the connection control module 31b selects a connection mode based on the image camera information and is connected to the
The access control module may be configured such that the
The client terminals selected as the vocation care grouping terminal may correspond to some or all of the client terminal lists stored and managed in the terminal
The client terminals GD selected as the vide grouping terminal are grouped in advance and are client terminals stored in the server agent 31 (refer to FIG. 4A) The client terminal groups G1, G2, ... stored in the
Specifically, FIG. 4A illustrates storing and managing the client terminals GD previously selected as the video-care grouping terminal in the terminal
4A illustrates that the
FIG. 4B illustrates that a plurality of client terminals are listed and stored in the terminal
FIG. 4B illustrates that the
In this case, the connection control module 31b may perform resource sharing only when the client terminal performing the sharing confirmation is included in the client terminals GD selected by the video-care grouping terminal selected by the specific client terminal The requested resource is used in the corresponding virtual machine so that the corresponding image camera can be executed. Here, the specific client terminal is also included in the client terminals GD selected as the videotherapy grouping terminal.
(C) of FIG. 4 illustrates that a plurality of client group terminals G1, G2, ..., Gn are listed and stored in the terminal
FIG. 4C illustrates that the first client group terminal G1 grouped by the
In this case, the connection control module 31b may perform resource sharing only when the client terminal performing the sharing confirmation is included in the client terminals GD selected by the video-care grouping terminal selected by the specific client terminal The requested resource is used in the corresponding virtual machine so that the corresponding image camera can be executed. Here, the specific client terminal is also included in the client terminals GD selected as the videotherapy grouping terminal.
The virtualization-based remote video treatment system is utilized in a medical institution. Generally, it is common that the video treatment is conducted by the same patient group, a group of a specific patient-responsible medical staff, a department or a team, 4 (c) is most preferable from the viewpoint that it can be easily handled.
Meanwhile, the
If it is determined that there is not the same information as the image camera information in the resource information held by the
Upon receiving the request to share the image camera resource, the client terminal converts (or codes) the resource of the image camera through the resource conversion / transmission module and transmits the resource. Then, the connection control module controls the resource of the image camera to be decoded and executed in the
Meanwhile, image information and medical care information transmitted from the client terminal to the virtualization server may be stored in a local storage of the virtualization server itself or in a cloud storage to which security is applied. Specifically, the image information is stored in a virtual machine of the virtualization server using an encoding / decoding technique, and can be stored in a security-enabled cloud storage or in its local storage. The security-enabled cloud storage can be shared by authenticated users (medical personnel, etc.).
The shared image information can be continuously utilized and reviewed by the medical person, and further, the diagnostic data roll can be utilized by a specialized medical person in the field to increase the efficiency of the medical treatment.
On the other hand, the image information storage involves a rise in the CPU occupation rate, and a decoding technique with good performance is required when the image information is shared at a time through decoding. To this end, the virtualization server may include a hardware-based encoding or decoding card or device, thereby preventing occupancy of the CPU from rising during the image treatment. Specifically, the virtualization server recognizes the encoding and decoding card (device) so that information optimized for hardware performance can be displayed.
In particular, when image information is required to be displayed through a multi-channel, the virtualization server recognizes the encoding / decoding card so that image information can be smoothly displayed. In displaying multi-channel images, In a maximum of 4 screens (the maximum screen number is automatically determined in consideration of hardware performance), the image information is displayed by decoding with a higher performance so that the image quality is higher than that of HD.
A procedure of providing a remote imaging service by the virtualization-based remote imaging service provision system described above will be described in brief as follows.
The
Subsequently, when the plurality of
Specifically, when a user (patient and a medical person) requests a virtualization service connection through a login procedure through the
When the connection of the image camera is detected or detected by the first and / or second connection detection /
The first and / or second
One of the protocol type and the socket type is alternatively selected as the connection mode, and the selection can be continuously changed according to the network status and the transmission rate. A driver that enables transmission by the protocol type and socket type connection is installed in the virtual machine.
Accordingly, the connection control module selectively operates the protocol connection driver or the socket connection driver installed in the virtual machine, so that the resources of the image camera are transmitted in an appropriate communication method appropriate for the communication environment so that the image camera can be executed in the virtual machine .
The connection control module of the server agent accesses the client terminal by a protocol or a socket method to bring the image camera resource through the network and controls the image camera to be executed in the allocated virtual machine.
Here, when the first image camera is connected, the connection control module connects to the client terminal through the protocol method to share the image camera resources. When the communication speed is low or the communication is not smooth, the connection control module switches to the socket method It is preferable to control the connection.
Further, when the version of the device information is high based only on the image camera information, it is possible to connect the device with the web socket method from the beginning without connection in the protocol mode, thereby preventing the speed reduction of the device.
On the other hand, if the image camera is shared, the
Then, in the virtualization server, various medical devices as well as a video camera are executed, so that the client and the client can perform image services by meeting with the server in the virtualization server.
While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.
GD: client terminals selected as a video treatment grouping terminal
G1, G2, Gn: a plurality of client terminal groups
1: image camera 3: medical device
10: client to be treated client terminal 11: client to be treated client agent
11a: first connection detection /
11c: First resource conversion / transmission module 15: Clinical client terminal
16: Clinic client agent 16a: Second connection detection / sharing confirmation module
16b: second device
20: CB Manager 21: Authentication module
23: server allocation module 25: monitoring module
30: Virtualization server 31: Server agent
31a: virtual machine designation module 31b: connection control module
31c: terminal registration storage module 33: virtual machine
35: hypervisor 40: management server
Claims (5)
A plurality of medical care client terminals manipulated by a medical practitioner who wants to perform a video medical treatment remotely;
A CB (Connection Broker) manager for authenticating a connection of the client terminals including the client clients to be treated and the client terminals, and allowing the client terminals to connect to the virtualization server;
And a virtualization server for providing a virtualized imaging service to the connected client terminals,
Wherein when the connected client terminal is connected to the virtualization server, when the connection of the video camera is detected, the server client confirms the sharing of the image camera to the virtualization server, and when connection of the medical device is detected, And a subject client agent that further confirms the sharing,
Wherein the medical care client terminal includes a medical care client agent for confirming the sharing of the image camera to the virtualization server when connection of the image camera is detected in a state of being connected to the virtualization server,
Wherein the virtualization server is a server for controlling the virtual machines to execute resources from the image cameras and the medical devices connected to the client terminals selected as the videotherapy grouping terminal among the plurality of clients to be treated and the plurality of client terminals, Agent,
A first connection detection / sharing confirmation module that detects whether the image camera is connected to the client client to be treated, and confirms whether the image camera is shared with the server agent when a connection is detected; A first device information providing module for transmitting the image camera information to the server agent when the sharing is selected, and a first resource conversion / transmission module for converting resources of the image camera and transmitting the converted image to the server agent ,
The first connection detection / sharing confirmation module detects whether the medical device is connected after the connection of the image camera is detected, and additionally confirms whether the medical device is shared with the server agent when a connection is detected, Wherein the provisioning module further transmits the medical device information to the server agent when the sharing of the medical device by the server agent is selected and the first resource conversion / transmission module converts the resource of the medical device to transmit to the server agent In addition,
Wherein the server agent selects a connection mode based on a virtual machine designation module designating a virtual machine and the image camera information transmitted from the first device information providing module, And a connection control module for executing a video camera connected to client terminals selected as the videotherapy grouping terminal in the virtual machine by using the video camera resources transmitted by requesting resource sharing to the camera,
Wherein the connection control module requests resource sharing for the medical device connected to the client terminals to be treated included in the client terminals selected as the videotherapy grouping terminal and uses the transmitted medical device resource, Controls the medical device to be executed,
Wherein the medical care client terminal performs image treatment for a patient using the image of the image camera and the medical data of the medical device executed in the virtualization server.
Wherein the medical data associated with the medical device executed in the virtual machine is stored in the virtualization server in correspondence with the unique information of the client terminal to which the medical device is connected, And the management server manages the medical history of each client to be treated by using the medical data.
A second connection detection / sharing confirmation module for detecting whether the image camera is connected to the care client terminal and confirming whether the image camera is shared with the server agent when a connection is detected; A second device information providing module for transmitting the image camera information to the server agent, and a second resource conversion / transmission module for converting the resource of the image camera and transmitting the converted image to the server agent. Based virtual telemedicine system.
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KR20190088063A (en) * | 2016-11-30 | 2019-07-25 | 지티이 코포레이션 | Resource sharing methods, devices and systems |
WO2023153803A1 (en) * | 2022-02-09 | 2023-08-17 | 주식회사 플라잉닥터 | Apparatus and method for providing telemedicine service |
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KR20190088063A (en) * | 2016-11-30 | 2019-07-25 | 지티이 코포레이션 | Resource sharing methods, devices and systems |
KR102286129B1 (en) * | 2016-11-30 | 2021-08-05 | 지티이 코포레이션 | Resource sharing methods, devices and systems |
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