CN113972013A - Remote multidisciplinary consultation system and remote multidisciplinary consultation method - Google Patents

Abstract

The invention provides a remote multidisciplinary consultation system and a remote multidisciplinary consultation method. The remote multidisciplinary consultation system comprises: the edge processing unit is connected with the plurality of medical devices and receives output data of the plurality of medical devices; the remote consultation unit receives the output data of the edge processing unit through a network and transmits control data for controlling the plurality of medical devices to the plurality of medical devices through the edge processing unit; and the authority distribution unit is used for endowing the control authority of a first medical device in the plurality of medical devices to a first user of the remote consultation unit and endowing the control authority of a second medical device in the plurality of medical devices to a second user of the remote consultation unit, wherein the first user transmits first control data for controlling the first medical device to the first medical device through the edge processing unit, and meanwhile, the second user transmits second control data for controlling the second medical device to the second medical device through the edge processing unit. The remote multidisciplinary consultation system enables a plurality of disciplinary experts to control different medical devices simultaneously.

Description

Remote multidisciplinary consultation system and remote multidisciplinary consultation method

Technical Field

The invention mainly relates to the field of medical treatment, in particular to a remote multidisciplinary consultation system and a remote multidisciplinary consultation method.

Background

With the rapid development of internet medical treatment, a remote consultation system is in operation in order to balance the imbalance of medical resources between hospitals. The remote consultation system is based on the Internet, breaks barriers among hospitals through digital transmission, image transmission and other modes, and enables excellent medical resources to sink.

The current remote consultation system has a single diagnosis and treatment mode, on one hand, the case data is single, most of the case data are data in the forms of characters, documents, pictures and the like, and the complete image data and the complete pathological data cannot be transmitted. On the other hand, the diagnosis and treatment mode is single, only one expert or a plurality of experts in the same department are supported, and more advanced multidisciplinary diagnosis and treatment modes are not supported. In order to solve the above problems, a multidisciplinary consultation (MDT) platform is proposed. The existing remote multidisciplinary consultation platform is developed based on a video conference system. However, the current multidisciplinary consultation (MDT) system still has a room to be improved to better meet the demand of remote clinical medicine, and mainly shows the following parts:

1) network delay is relatively high;

2) the compression ratio of video and audio is higher;

3) lack of presentation of patient multi-dimensional medical information;

4) data interaction is carried out with each service system in the hospital through network connection, and most of consultation center platforms are constructed in a public network server, so that the data security and privacy protection of each service system in the hospital cannot be guaranteed;

5) remote experts can only receive the information through video and audio passively in a one-sided way so as to conduct remote consultation guidance.

Aiming at the problem of network delay of the existing remote multidisciplinary consultation platform, the compression ratio of transmitted data is generally improved at present, but the requirement of clinical medical treatment cannot be met. Alternatively, by establishing a private network between end-to-end, the implementation cost is expensive and the remote experts are confined to a fixed area, which does not allow flexible mobile office work. In addition, aiming at the problem that the existing remote multidisciplinary consultation platform lacks multi-dimensional patient medical information, the remote multidisciplinary consultation platform is mainly completed through data integration at the system level at present, but the problems of data delay, potential safety hazards of data exchange with an intranet and the like exist.

Disclosure of Invention

In view of the above circumstances in the prior art, the present application provides a remote multidisciplinary consultation system and a remote multidisciplinary consultation method, which can display multidimensional patient data with ultra-low delay, provide an interface of a medical system and a scene audio/video picture for an expert doctor at the other end of the internet in real time, and further enable experts of multiple disciplines to control different medical devices simultaneously.

According to an aspect of the present invention, there is provided a remote multidisciplinary consultation system, including: an edge processing unit configured to connect to a plurality of medical devices and receive output data of the plurality of medical devices; a remote consultation unit configured to receive the output data from the edge processing unit through a network and transmit control data for controlling a plurality of the medical devices to the plurality of the medical devices via the edge processing unit; and an authority allocation unit configured to assign a control authority of a first medical device of the plurality of medical devices to a first user of the remote consultation unit and assign a control authority of a second medical device of the plurality of medical devices to a second user of the remote consultation unit, so that the second user can control the second medical device while the first user controls the first medical device.

Preferably, the right assigning unit is further configured to: and giving interface operation authority of the same medical equipment in the plurality of medical equipment to a plurality of users of the remote consultation unit, so that the plurality of users can interact with the operation interface of the same medical equipment at the same time.

Preferably, the control authority allocating unit is further configured to: directly assigning, by the medical device, the control authority and/or the interface operation authority of the medical device to a user of the remote consultation unit; or sending, by the medical device, an invitation for the control authority and/or the interface operation of the medical device to a user of the remote consultation unit, the user of the remote consultation unit accepting the invitation to obtain the control authority and/or the interface operation authority for the medical device; or in response to a control request from a user of the remote consultation unit, giving the control authority and/or the interface operation authority of the medical device to the user of the remote consultation unit by the medical device.

Preferably, the edge processing unit is connected to the video output interfaces of a plurality of medical devices through video connection lines to receive output data of the plurality of medical devices.

Preferably, the video output interface includes an HDMI interface, a DP interface, a DVI interface, or a VGA interface.

Preferably, transmitting control data for controlling a plurality of the medical devices to the plurality of the medical devices via the edge processing unit comprises: the edge processing unit is connected with USB interfaces of the medical devices to transmit control data for controlling the medical devices, wherein the control data comprises mouse signals and/or keyboard signals.

Preferably, the edge processing unit is further configured to be connected to a camera device, the edge processing unit receiving video images captured by the camera device and transmitting the video images to the remote consultation unit.

Preferably, the camera device comprises an intercom camera, a surgical field camera and a scene camera.

Preferably, the remote multidisciplinary consultation system further comprises: and the audio and video interaction unit is configured to transmit the audio and video signals of the medical equipment side to the remote consultation unit and transmit the audio and video signals of the remote consultation unit side to the medical equipment.

Preferably, the network is a 5G network.

According to another aspect of the present invention, there is provided a remote multidisciplinary consultation method, including: an edge processing step of receiving output data of a plurality of medical devices via an edge processing unit connected to the plurality of medical devices; a data receiving step of receiving the output data from the edge processing unit through a network and displaying the output data on a remote consultation unit side; an authority assignment step of assigning a control authority of a first medical device among the plurality of medical devices to a first user of the remote consultation unit and assigning a control authority of a second medical device among the plurality of medical devices to a second user of the remote consultation unit, so that the second user can control the second medical device while the first user controls the first medical device; a consultation step of receiving first control data of the first user and second control data of the second user of the remote consultation unit through a network, transmitting the first control data for controlling the first medical device to the first medical device via the edge processing unit, and transmitting the second control data for controlling the second medical device to the second medical device via the edge processing unit.

Compared with the prior art, the invention has the beneficial effects that:

(1) ultra-low latency, a latency of less than 200ms can be achieved;

(2) the high-fidelity and high-real-time medical image acquisition and transmission are realized;

(3) the interface of the medical system and the picture and voice of the on-site audio and video are strictly and synchronously displayed;

(4) meanwhile, the method is compatible with the access of systems with various resolutions, and the high-efficiency edge calculation realizes the coding processing of video and audio;

(5) the safety is high, and the remote consultation of the patient can be performed on the premise of meeting the safety requirements of medical data and the like;

(6) the experts of the multiple disciplines can simultaneously control the corresponding medical equipment, or the multiple experts can operate the operation interface of the same medical equipment, so that the collaborative sharing and case discussion are facilitated.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application. In the drawings:

FIG. 1 shows a schematic diagram of a remote multidisciplinary consultation system according to one embodiment of the present invention;

FIG. 2 illustrates a schematic diagram of one control example of a remote multidisciplinary consultation system according to one embodiment of the present invention;

FIG. 3 shows a schematic diagram of another control example of a remote multidisciplinary consultation system according to an embodiment of the present invention;

fig. 4 shows a flowchart of a remote multidisciplinary consultation method according to an embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail by referring to the following examples.

In order to avoid conflict, the embodiments and features of the embodiments of the present application may be combined with each other. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

It is noted that, unless otherwise indicated, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

In the present invention, unless specified to the contrary, use of the terms of orientation such as "upper, lower, top, bottom" or the like, generally refer to the orientation as shown in the drawings, or to the component itself in a vertical, perpendicular, or gravitational orientation; likewise, for ease of understanding and description, "inner and outer" refer to the inner and outer relative to the profile of the components themselves, but the above directional words are not intended to limit the invention.

Fig. 1 shows a schematic diagram of a remote multidisciplinary consultation system according to one embodiment of the present invention. As shown in fig. 1, the remote multidisciplinary consultation system includes:

1) the edge processing unit 104:

wherein the video encoder 104-2 of the edge processing unit 104 is connected to video output interfaces (e.g., a high definition multimedia interface (HDMI interface), a DP interface, a DVI interface, a VGA interface) of a plurality of medical examination devices 102-2 (e.g., a Computed Tomography (CT), a Magnetic Resonance Imager (MRI), a positron emission tomography (PET/CT), an ultrasound imaging system (US), a digital X-ray imaging system (DR), etc.) within the hospital via video connection lines to receive output data (e.g., an X-ray image, a DR image, a CT image, an MR image, or a PET image) of the plurality of medical examination devices 102-2, and the video encoder 104-2 processes (e.g., edge calculation, decentralization) the received data, and the video encoder 104-2 of the edge processing unit 104 is connected to the plurality of medical examination devices 102-2 (e.g., an edge calculation, decentration) within the hospital via data connection lines Such as CT, MRI, PET/CT, US, DR, etc.) to transmit control data (e.g., operational parameters) to a plurality of medical examination devices 102-2 (e.g., CT, MRI, PET/CT, US, DR, etc.) within the hospital for controlling the operation of the plurality of medical devices 102-2.

Further, the video encoder 104-4 of the edge processing unit 104 is connected to video output interfaces (e.g., HDMI interface, DP interface, DVI interface, VGA interface) of a plurality of medical information devices 102-4 (e.g., PACS system, EMR system, ECG system, etc.) within the hospital via video connection lines to receive output data of the plurality of medical information devices 102-4, and the video encoder 104-4 processes the received data, and the video encoder 104-4 of the edge processing unit 104 is connected to USB interfaces of the plurality of medical information devices 102-4 within the hospital via data connection lines to transmit control data to the plurality of medical information devices 102-4 within the hospital to control the operation of the plurality of medical information devices 102-4.

In addition, the host 104-6 of the edge processing unit 104 is connected to an audio-video device 102-6 (e.g., intercom camera, operative field camera, scene camera, microphone) within the hospital via a USB connection to obtain multi-dimensional patient information.

The authority assignment unit 104-8 of the edge processing unit 104 assigns the control authority and/or interface operation authority of the medical examination device 102-2 and the control authority and/or interface operation authority of the medical information device 102-4 to the user of the remote consultation unit 106, and the process of the authority assignment unit 104-8 will be described in detail below with reference to fig. 2 and 3.

2) The remote consultation unit 106 receives output data (e.g., processed output data of the medical examination device 102-2, processed output data of the medical information device 102-4, processed audio-video data) from the edge processing unit 104 through the 5G network, generates control data for controlling the examination device 102-2 and/or the medical information device 102-4 based on the received output data, and transmits the control data to the medical examination device 102-2 and/or the medical information device 102-4 through the edge processing unit 104 through the 5G network for controlling the examination device 102-2 and/or the medical information device 102-4.

The host 106-2 of the remote consultation unit 106 is connected to an audio-video device 106-4 (e.g., a camera, a microphone) via USB to acquire audio-video data of the remote consultation unit side and transmit the audio-video signal of the remote consultation unit 106 side to a user of the medical examination apparatus 102-2 side and/or the medical information apparatus 102-4 side through a 5G network.

Further, in embodiments of the present invention, the network may be a wired network, such as the Internet. One advantage of using the internet as a public network is that the speed of transmission of data can be significantly increased and transmission delays reduced. It will be appreciated that the public network may also be a wireless network, such as a cellular network. The cellular network may be GSM, CDMA, 3G, 4G, 5G, etc. One advantage of using a cellular network is that it can cover areas without internet access.

Fig. 2 is a schematic diagram illustrating one control example of the remote multidisciplinary consultation system according to an embodiment of the present invention. As shown in fig. 2, a first remote expert 202 may control a first medical examination device 206 via the remote multidisciplinary consultation system 200, while a second remote expert 204 may control a second medical examination device 208 via the remote multidisciplinary consultation system 200. Specifically, by the control authority allocation unit of the remote multidisciplinary consultation system 200, the user of the first medical examination apparatus 206 directly gives the control authority of the first medical examination apparatus 206 to the first remote specialist 202 on the remote consultation unit side; or an invitation by the user of the first medical examination device 206 to the first remote expert 202 for control authority of the first medical examination device 206, the first remote expert 202 accepting the invitation to obtain control authority for the first medical examination device 206; or in response to a control request of the first remote specialist 202, the control authority of the first medical examination device 206 is given to the first remote specialist 202 by the user of the first medical examination device 206. Further, by the control authority allocation unit of the remote multidisciplinary consultation system 200, the user of the second medical examination apparatus 208 directly gives the control authority of the second medical examination apparatus 208 to the second remote specialist 204 on the remote consultation unit side; or an invitation by the user of the second medical examination device 208 to the second remote expert 204 for control authority of the second medical examination device 208, the second remote expert 204 accepting the invitation to obtain control authority for the second medical examination device 208; or in response to a control request of the second remote specialist 204, the control authority of the second medical examination apparatus 208 is given to the second remote specialist 204 by the user of the second medical examination apparatus 208. For example, by displaying an operation screen of the medical examination apparatus on a display of the medical examination apparatus and displaying a mirror image of the operation screen of the medical examination apparatus on a display of the remote consultation unit side, a keyboard or mouse operation of a remote specialist having obtained a control authority on the display of the remote consultation unit side can be transmitted to the medical examination apparatus via the remote multidisciplinary consultation system 200 by, for example, a mouse-keyboard protocol to control the operation of the medical examination apparatus. Thus, through the remote multidisciplinary consultation system, different experts can control different systems simultaneously, for example, experts in different fields can control their corresponding fields of systems at the time of consultation (e.g., in a complex operating room clinical scenario, an ultrasound expert can remotely control the interface of an ultrasound device, while a angio specialist can remotely control the console of a angio machine). In addition, since the edge processing unit of the remote multidisciplinary consultation system 200 can be connected to the USB interface of the medical examination device and/or the medical information device to output the control signal to the medical examination device and/or the medical information device, this configuration has an advantage in that the control signal can be transmitted through the USB interface, thereby further avoiding the writing of security sensitive data and improving the security of remote control.

Fig. 3 shows a schematic diagram of another control example of the remote multidisciplinary consultation system according to an embodiment of the present invention. As shown in fig. 3, a first remote expert 302 may control the operator interface 306 of a medical examination device via the remote multidisciplinary consultation system 300, while a second remote expert 304 may also control the operator interface 306 of the same medical examination device via the remote multidisciplinary consultation system 300. Specifically, through the control authority allocation unit of the remote multidisciplinary consultation system 300, the user of the medical examination apparatus directly gives the interface operation authority of the medical examination apparatus to the first remote specialist 302 and the second remote specialist 304 on the remote consultation unit side; or sending an invitation of the interface operation authority of the medical examination device to the first remote specialist 302 and the second remote specialist 304 by the user of the medical examination device, wherein the first remote specialist 302 and the second remote specialist 304 accept the invitation to obtain the interface operation authority of the medical examination device; or in response to the interface operation requests of the first remote specialist 302 and the second remote specialist 304, the user of the medical examination apparatus gives the interface operation authority of the medical examination apparatus to the first remote specialist 302 and the second remote specialist 304. For example, an operation screen 306 of the medical examination apparatus is displayed on the display of the medical examination apparatus, and a mirror image of the operation screen 306 of the medical examination apparatus is displayed on the display of the remote consultation unit side, and by such as a mouse-and-keyboard protocol, a keyboard or mouse operation of the first remote specialist 302, which has obtained the interface operation authority, on the display of the remote consultation unit side can be displayed on the operation screen 306 of the medical examination apparatus, for example, as a mouse symbol 306-2. Meanwhile, an operation screen 306 of the medical examination apparatus is displayed on the display of the medical examination apparatus and a mirror image of the operation screen 306 of the medical examination apparatus is displayed on the display of the remote consultation unit side, and a keyboard or mouse operation of the second remote specialist 304, which obtains an interface operation authority, on the display of the remote consultation unit side by such as a mouse-keyboard protocol can be displayed on the operation screen 306 of the medical examination apparatus, for example, as a mouse symbol 306-4. Through the distribution of the interface operation authority, the operation of different experts on the same operation interface is displayed on the display screen of the medical examination equipment side and the display of the remote consultation unit side at the same time, so that the user of the medical examination equipment side and the user of the remote consultation unit side can watch the operation of different experts on the same operation interface in real time. Thus, on the operation screen 306 of the medical examination apparatus, different experts can control the same system at the same time. Through the remote multidisciplinary consultation system, different experts can control the same system simultaneously: aiming at remote consultation, two remote experts can simultaneously and remotely control the same set of remote system, the mouse positions of the two experts are simultaneously displayed on the interface, and the two experts can respectively input data, so that the collaborative sharing and case discussion are facilitated.

Fig. 4 shows a flowchart of a remote multidisciplinary consultation method according to an embodiment of the invention. As shown in fig. 4, the remote multidisciplinary consultation method includes the following steps: an edge processing step 402 of receiving output data of a plurality of medical devices via an edge processing unit connected to the plurality of medical devices; a data receiving step 404 of receiving output data from the edge processing unit through the network and displaying the output data at the remote consultation unit side; an authority assignment step 406, in which the control authority of a first medical device in the plurality of medical devices is assigned to a first user of the remote consultation unit, and the control authority of a second medical device in the plurality of medical devices is assigned to a second user of the remote consultation unit, so that the second user controls the second medical device while the first user controls the first medical device; a consultation step 408 of receiving, over the network, first control data of the first user and second control data of the second user of the remote consultation unit, transmitting, via the edge processing unit, the first control data for controlling the first medical device to the first medical device, and transmitting, via the edge processing unit, the second control data for controlling the second medical device to the second medical device.

From the above description, it can be seen that the embodiments of the present invention based on advanced technologies such as computer vision, internet of things, edge calculation, decentration, and 5G at the present frontier achieve the following technical effects:

1) the control system of various medical examination equipment (CT, MRI, PET/CT, US, DR, etc.) in the hospital and the original display video of the medical information system (including PACS system, EMR system, ECG system, etc.) are acquired in real time and encoded at high speed by one or more intelligent video encoders, so that each medical system can meet the real-time transmission of high speed, low delay and high definition under the condition of 5G in real time on the premise of not connecting with an external network, and the acquisition and encoding of the system which cannot be resolved are realized by a special video encoding chip, thereby supporting multiple medical devices;

2) through the USB remote control interface on the intelligent video encoder, various control systems and medical information systems (including a PACS system, an EMR system, an ECG system and the like) of various medical examination equipment (CT, MRI, PET/CT, US, DR and the like) in a hospital can be connected, and the data interface is physically disconnected with an external network, so that on the premise of not connecting the data interface, remote operation is carried out to control each medical system, and various related operations required in remote expert consultation are met;

3) on the basis of each medical system in the hospital, through the access support of the intercom camera, the operative field camera, the scene camera and the like, the multi-dimensional consultation requirement of the patient information is realized, a better treatment scheme can be formulated, and the synchronous acquisition and the brand-new coding mode of the multi-path audio and video realize the synchronous transmission, so that the synchronous display can be realized at the expert end; (ii) a

4) Through the support of various medical examination devices, the remote consultation of the patient can be realized during the examination. Not only saves time of doctors and patients, but also can make a diagnosis plan quickly;

5) through unified coding and transmission of different types of audio and video data, the requirement of an expert on computer resources is reduced, so that the computer resources can be remotely accessed to an iPad, a notebook computer and a mini computer without a special decoding terminal, and the requirement of consultation can be met at any time and any place;

6) meanwhile, the consultation platform system constructed on the consultation platform can conveniently initiate, share, control and stop remote consultation, can carry out offline message reminding, and can meet the requirements of various medical consultation clinical paths;

7) simultaneously, a brand new remote control mode is established: (a) different experts control different systems simultaneously: experts in different domains may control their corresponding domain systems at the time of consultation (e.g., in a complex operating room clinical scenario, an ultrasound expert may remotely control the interface of the ultrasound device while a angio specialist may remotely control the console of the angio machine), (b) different experts simultaneously control the same system: aiming at remote consultation, two remote experts can simultaneously and remotely control the same set of remote system, the mouse positions of the two experts are simultaneously displayed on the interface, and the two experts can respectively input data, so that the collaborative sharing and case discussion are convenient

8) The application of the USB control interface realizes the physical isolation of system data, thereby meeting the requirement of high safety.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (11)

1. A remote multidisciplinary consultation system, comprising:

an edge processing unit configured to connect to a plurality of medical devices and receive output data of the plurality of medical devices;

a remote consultation unit configured to receive the output data from the edge processing unit through a network and transmit control data for controlling a plurality of the medical devices to the plurality of the medical devices via the edge processing unit; and

an authority assignment unit configured to assign a control authority of a first medical device of the plurality of medical devices to a first user of the remote consultation unit and assign a control authority of a second medical device of the plurality of medical devices to a second user of the remote consultation unit, so that the second user can transmit second control data for controlling the second medical device to the second medical device via the edge processing unit while the first user transmits first control data for controlling the first medical device to the first medical device via the edge processing unit.

2. The remote multidisciplinary consultation system according to claim 1, wherein said right assigning unit is further configured to: and giving interface operation authority of the same medical equipment in the plurality of medical equipment to a plurality of users of the remote consultation unit, so that the plurality of users can interact with the operation interface of the same medical equipment at the same time.

3. The remote multidisciplinary consultation system according to claim 2, wherein said control authority allocation unit is further configured to:

directly assigning, by the medical device, the control authority and/or the interface operation authority of the medical device to a user of the remote consultation unit; or

Sending, by the medical device, an invitation for the control authority of the medical device and/or the interface operation to a user of the remote consultation unit, the user of the remote consultation unit accepting the invitation to obtain the control authority and/or the interface operation authority for the medical device; or

In response to a control request from a user of the remote consultation unit, giving, by the medical device, the control authority and/or the interface operation authority of the medical device to the user of the remote consultation unit.

4. The remote multidisciplinary consultation system according to claim 1, wherein said edge processing unit is connected to the video output interfaces of a plurality of medical devices through video connection lines to receive the output data of said plurality of medical devices.

5. The remote multidisciplinary consultation system according to claim 4, wherein said video output interface comprises an HDMI interface, a DP interface, a DVI interface, or a VGA interface.

6. The remote multidisciplinary consultation system according to claim 1, wherein transmitting control data for controlling a plurality of said medical devices to a plurality of said medical devices via said edge processing unit comprises: the edge processing unit is connected with USB interfaces of the medical devices to transmit control data for controlling the medical devices, wherein the control data comprises mouse signals and/or keyboard signals.

7. The remote multidisciplinary consultation system according to claim 1, wherein said edge processing unit is further configured to be connected to a camera device, said edge processing unit receiving video images captured by said camera device and transmitting said video images to said remote consultation unit.

8. The remote multidisciplinary consultation system according to claim 7, wherein said camera means comprises an intercom camera, a surgical field camera, or a scene camera.

9. The remote multidisciplinary consultation system according to claim 1, further comprising: and the audio and video interaction unit is configured to transmit the audio and video signals of the medical equipment side to the remote consultation unit and transmit the audio and video signals of the remote consultation unit side to the medical equipment.

10. The remote multidisciplinary consultation system according to claim 1, characterized in that said network is a 5G network.

11. A method of remote multidisciplinary consultation, comprising:

an edge processing step of receiving output data of a plurality of medical devices via an edge processing unit connected to the plurality of medical devices;

a data receiving step of receiving the output data from the edge processing unit through a network and displaying the output data on a remote consultation unit side;

an authority assignment step of assigning a control authority of a first medical device among the plurality of medical devices to a first user of the remote consultation unit and assigning a control authority of a second medical device among the plurality of medical devices to a second user of the remote consultation unit, so that the second user can control the second medical device while the first user controls the first medical device;

a consultation step of receiving first control data of the first user and second control data of the second user of the remote consultation unit through a network, transmitting the first control data for controlling the first medical device to the first medical device via the edge processing unit, and transmitting the second control data for controlling the second medical device to the second medical device via the edge processing unit.

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