CN114999624A - Remote control system and method - Google Patents

Abstract

The invention provides a remote control system and a method, which relate to the technical field of CT system control and are used for controlling a CT system under a remote address, and the method comprises the following steps: the system comprises an active control end server, a passive control end server and a local area network switch; the passive control end server is communicated with the CT system through a second control unit; controlling the second control unit to send an instruction to the CT system according to the operation of each touch unit on the active control end server so as to execute remote control on the CT system through the active control end server; the method comprises the steps of operating a touch control unit to control a first audio and video module and a second audio and video module to establish communication, visually displaying data collected by the second audio and video module on a display of an active control end server, adjusting the touch control unit according to the data collected by the second audio and video module to update an instruction sent to a CT system, and solving the problems that the CT system for the shelter is far away from a radiology department, needs to be operated by personnel independently, and is complex in operation and poor in safety.

Description

Remote control system and method

Technical Field

The invention relates to the technical field of CT system control, in particular to a remote control system and a remote control method.

Background

With the continuous update of infectious disease solutions, the CT system for the shelter is developed rapidly, plays an important role in infectious disease prevention and treatment work, and is a main application scene of shelter CT in the heating outpatient service requiring isolation in hospitals and under emergency situations. The large number of shelter CT applications require more operating technicians and doctors, human resource issues and on-site infection risks have become a problem for hospitals that require straight-on.

The existing shelter CT system is at a certain distance from the radiology department of the hospital, doctors and technicians are required to operate the CT independently, so that the requirement on the number of the personnel is high, the operation is possibly exposed to the environment with viruses, the operation infection risk is high, and a control system is needed to solve the problem.

Disclosure of Invention

In order to overcome the technical defects, the present invention provides a remote control system and method for solving the problems of the CT system for the shelter that the CT system is far away from the radiology department, the CT system needs to be operated by a single operator, the operation is complicated, and the safety is poor.

The invention discloses a remote control system, which is used for controlling a CT system under a remote address, and comprises:

the system comprises an active control end server, a passive control end server positioned under the remote address and a local area network switch for establishing data connection between the active control end server and the passive control end server;

the active control end server comprises a first control panel, a display and a first audio/video module; the first control panel comprises a plurality of touch units;

the passive control end server comprises a second control unit and a second audio/video module;

the passive control end server is communicated with the CT system through the second control unit;

controlling the second control unit to send an instruction to the CT system according to the operation of each touch unit on the first control panel so as to execute remote control on the CT system through the active control end server;

and operating a touch control unit to control the first audio/video module to establish communication with the second audio/video module, visually displaying the data acquired by the second audio/video module on a display of the active control end server, and adjusting the touch control unit according to the data acquired by the second audio/video module to update the instruction sent to the CT system.

Preferably, the instruction includes a power-on instruction, a power-off instruction, a scanning instruction, a data acquisition instruction, a data reconstruction instruction, a data transmission instruction, a data storage instruction, a viewing instruction, and a report generation instruction.

Preferably, the power button is independently arranged on the first control panel, and the power button is arranged to be pressed and then communicate with the passive control server to send a power on command or a power off command to the CT system.

Preferably, the CT system further comprises an emergency stop button, and the emergency stop button is configured to send a power-off instruction to the CT system through the passive control server after being triggered.

Preferably, the switch adopts a 5G network or is connected with a line network.

The invention also provides a remote control method for controlling the CT system under a remote address, which comprises the following steps:

sequentially operating touch control units for startup and audio-video connection on a first control panel of an active control end server, establishing communication with a passive control end server under a remote address through a local area network switch, sending a startup instruction to the CT system through a second control unit on the passive control server, acquiring audio-video data acquired by a second audio-video module, and sending the audio-video data to a first audio-video module to be displayed on a display screen;

operating the other touch control unit to send a corresponding instruction to the CT system through the second control unit to execute remote operation on the CT system, adjusting the touch control unit according to the display screen, and updating the instruction sent to the CT system;

after the remote operation of the CT system is finished, the touch control unit for shutdown is operated, so that a shutdown instruction is sent to the CT system through the second control unit, and the CT system is controlled to execute shutdown.

Preferably, the remote operation of the CT system comprises:

scanning, data acquisition, data reconstruction, data transmission, data storage, reading and report generation.

Preferably, the method further comprises the following steps:

before a touch control unit for starting is operated on a first control panel of an active control end server, a power button is pressed, so that a power starting instruction is sent to the CT system through the passive control end server;

and after the touch control unit for shutdown is operated, pressing a power button to send a power off instruction to the CT system through the passive control end server.

Preferably, when an abnormal condition occurs, an emergency stop button is pressed, communication with the passive control end server is established through a local area network switch, and a power supply disconnection instruction is sent to the CT system through the passive control server.

Preferably, the establishing, by the local area network switch, communication with the passive control end server under the remote address includes:

and establishing 5G local area network communication or wired local area network communication.

After the technical scheme is adopted, compared with the prior art, the method has the following beneficial effects:

by operating any touch unit on the first control panel of the active control end server, after the touch unit is triggered, communication with a passive control end server under a remote address is established through a local area network switch, and an instruction corresponding to the touch unit is sent to the CT system through a second control unit on the passive control server, so that remote control of the CT system is realized.

Drawings

FIG. 1 is a block diagram of a first embodiment of a remote control system according to the present invention;

fig. 2 is a flowchart of a second embodiment of a remote control method according to the present invention.

Reference numerals:

0-CT system; 1-an active control end; 11-a first control panel; 111-a touch-control unit; 12-a display; 13-a first audio-video module; 14-power button; 15-emergency stop button; 2-a passive control end; 21-a second control unit; 22-a second audio-video module; 3-a switch.

Detailed Description

The advantages of the invention are further illustrated in the following description of specific embodiments in conjunction with the accompanying drawings.

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The terminology used in the disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present disclosure. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

In the description of the present invention, unless otherwise specified and limited, it is to be noted that the terms "mounted," "connected," and "connected" are to be interpreted broadly, and may be, for example, a mechanical connection or an electrical connection, a communication between two elements, a direct connection, or an indirect connection via an intermediate medium, and specific meanings of the terms may be understood by those skilled in the art according to specific situations.

In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for facilitating the explanation of the present invention, and have no specific meaning in themselves. Thus, "module" and "component" may be used in a mixture.

The first embodiment is as follows: the present embodiment discloses a remote control system, which is used for controlling a CT system under a remote address, it should be noted that, in this embodiment, the remote address may be a shelter, and the active control end may be a radiology department of a hospital, or an address including at least one server at a certain safe distance from the shelter, with reference to fig. 1, including the following:

the system comprises an active control end server, a passive control end server positioned under the remote address and a local area network switch for establishing data connection between the active control end server and the passive control end server; it should be noted that, one active control end server may set to execute remote control on multiple passive control end servers synchronously or individually, or multiple active control end servers execute remote control on the same passive control end server, and steps may be performed according to specific actual scenes, and preferably, one active control end corresponds to multiple passive control ends, that is, one doctor may process CT systems under multiple shelter simultaneously or in a distributed manner, so as to greatly solve the number of required doctors, and the operation is simple and convenient, and the operation efficiency is greatly improved.

It should be noted that, the data connection established between the active control server and the passive control server may be implemented by directly relying on the lan switch, or by selecting that the active control server accesses the passive control server through dedicated remote control software for remote control, and the transmission of the software data is also implemented through the lan switch.

Specifically, the active control end server comprises a first control panel, a display and a first audio/video module; the first control panel comprises a plurality of touch units; each touch unit correspondingly controls different functions including but not limited to startup, shutdown, scanning, data acquisition, data reconstruction, data transmission, data storage, reading, report generation and the like, and the display is used for visually displaying the transmitted data.

The passive control end server comprises a second control unit and a second audio/video module; specifically, the second audio/video module can be further connected with an audio/video acquisition device arranged on the server of the passive control end and used for acquiring real-time pictures under the working state of the CT system so as to be conveniently transmitted to the active control end for visual display. The passive control end server is communicated with the CT system through the second control unit; controlling the second control unit to send instructions to the CT system according to the operation of each touch control unit on the first control panel so as to execute remote control on the CT system through the active control end server; specifically, the instructions correspond to the above functions, and include, but are not limited to, a power-on instruction, a power-off instruction, a scanning instruction, a data acquisition instruction, a data reconstruction instruction, a data transmission instruction, a data storage instruction, a viewing instruction, a report generation instruction, and the like.

And operating a touch control unit to control the first audio/video module to establish communication with the second audio/video module, visually displaying the data acquired by the second audio/video module on a display of the active control end server, and adjusting the touch control unit according to the data acquired by the second audio/video module to update the instruction sent to the CT system. Namely, the operation data and the operation audio and video images of the CT system can be acquired in real time on the active control end server, so that the operation can be carried out according to the real-time operation images of the CT system at any time.

In the present embodiment, by operating any touch unit on the first control panel of the active control server, after being triggered, the touch control unit establishes communication with a passive control end server under a remote address through a local area network switch, and sending an instruction corresponding to the touch control unit to the CT system through a second control unit on the passive control server, for the mild patients with convenient movement, the remote control system can be used for controlling the operation of the light patients by a virtual nurse (namely a virtual character for guiding action arranged on a passive control server), a remote on-off system and a remote scanning control system, or further, the first audio-video module and the second audio-video module are interacted, so that the doctor remotely commands the necessary actions of the patient, if the posture is changed, the doctor can complete the scanning and reading report of the CT directly in a department without going to the site to operate the CT; for the patient who is inconvenient to move, the whole CT scanning and film reading work can be finished at the far end only by the assistance of one person on the spot, so that the personnel amount and the operation complexity are greatly reduced.

Specifically, the remote control system may further include a power button independently disposed on the first control panel, and the power button is configured to communicate with the passive control server after being pressed, so as to send a power-on command or a power-off command to the CT system. The power button is used for controlling power supply and interruption of the CT system, namely, before each touch unit on the active control end server is triggered, the power button is pressed to enable the CT system to supply power for subsequent operations such as starting up and scanning, and after CT scanning or report generation, the power button can be pressed to enable the CT system to be powered off, so that the risk caused by mistaken touch of the CT system in an out-of-operation state is ensured; it is also possible to provide a button-type button, i.e. a button that is pressed once to restore but can switch states.

It should be noted that, for the power control of the CT system, the passive control server may be separately provided with a power control board for separate control, or may be integrated in the second control unit for control. For example, the department end has an independent "power button", the button signal is converted into a network signal through a "power signal board", the button signal is communicated with a "power control board" of the shelter, and the power control board converts the received network signal into a "power signal" to directly control the power on/off of the CT system.

Specifically, the CT system further comprises an emergency stop button, and the emergency stop button is set to send a power supply disconnection instruction to the CT system through the passive control end server after being triggered. The emergency stop button is used for dealing with sudden abnormal conditions, can be expanded to a power supply button, and can be independently arranged on the first control panel or the active control end server.

It should be noted that, in this embodiment, in order to further increase the stability of the data connection between the active control end server and the passive control end server, the switch adopts a 5G network or a wired network, that is, the switch may be located under a 5G local area network, or may be located under a wired local area network formed by connecting an external network through a network cable, and may be selectively arranged according to an actual usage scenario.

It should be emphasized that, in the present embodiment, the touch unit of the active control server and the instruction correspondingly sent to the CT system can be added or adjusted in a customized manner, so as to specifically meet the actual scene requirement. Under the working state that the CT system is remotely controlled, the real-time pictures can be displayed on the display screen of the active control end by matching the first audio-video module and the second audio-video module, and the safety of the use process is further improved. The active control end server can remotely control the CT system through the passive control server without entering the shelter, and the CT system is simple and convenient to operate and high in safety.

Example two: the present embodiment provides a remote control method, which is used in the remote control system in the first embodiment to control the CT system under a remote address, referring to fig. 2, and includes the following steps:

s100: sequentially operating touch control units for startup and audio-video connection on a first control panel of an active control end server, establishing communication with a passive control end server under a remote address through a local area network switch, sending a startup instruction to the CT system through a second control unit on the passive control server, acquiring audio-video data acquired by a second audio-video module, and sending the audio-video data to a first audio-video module to be displayed on a display screen;

in the foregoing step, establishing communication between the active control end server and the passive control end server through a local area network switch, more specifically, establishing communication with the passive control end server under a remote address through the local area network switch includes: and establishing 5G local area network communication or wired local area network communication. And preferably selecting a 5G network to further increase the stability of data connection between the active control end server and the passive control end server and the data transmission speed.

S200: operating the other touch control unit to send a corresponding instruction to the CT system through the second control unit to execute remote operation on the CT system, adjusting the touch control unit according to the display screen, and updating the instruction sent to the CT system;

specifically, the above remote operation of the CT system includes, but is not limited to: scanning, data acquisition, data reconstruction, data transmission, data storage, reading and report generation. Therefore, each remote operation corresponds to at least one touch unit.

S300: and after the remote operation of the CT system is finished, operating a touch unit for shutdown so as to send a shutdown instruction to the CT system through the second control unit and control the CT system to execute shutdown.

In the above steps S100 and S300, the CT system is remotely turned on and off by the touch control unit on the first control panel, in the step S200, operations such as scanning and data acquisition of the CT system are remotely controlled, a real-time image can be displayed on the display screen of the active control end by cooperating with the first audio/video module and the second audio/video module, real-time monitoring and adjustment of the operation of the CT system are performed, a doctor does not need to go to the shelter to operate the CT on site, the scanning and reading report of the CT can be directly completed in a department, and one doctor can operate a plurality of CT systems synchronously or respectively, thereby further improving the efficiency.

Specifically, the remote control method further comprises: s100-1: before a touch control unit used for starting is operated on a first control panel of an active control end server, a power button is pressed, and a power starting command is sent to the CT system through the passive control end server; s300-1: and after the touch control unit for shutdown is operated, pressing a power button to send a power off instruction to the CT system through the passive control end server. The power supply remote control is independent of other operations of the CT system, an independent power supply signal board can be arranged on the active control end server, and an independent power supply control board is arranged on the passive control server, so that the safety in the use process is further improved, the power supply is supplied before the power on, the power supply is cut off after the power off, and the potential safety hazard caused by mistakenly touching the components in the CT system is prevented while the energy is saved.

Specifically, the remote control method may further include: and when an abnormal condition occurs, pressing an emergency stop button, establishing communication with the passive control end server through a local area network switch, and sending a power supply disconnection instruction to the CT system through the passive control server. Namely, when an abnormal condition occurs, the power supply of the CT system can be directly and remotely cut off at the active control server side, and the safety risk is reduced.

By operating any touch unit on the first control panel of the active control end server, after the touch unit is triggered, communication with a passive control end server under a remote address can be established through a 5G local area network switch, and an instruction corresponding to the touch unit is sent to the CT system through the second control unit on the passive control server, so that the CT system is remotely controlled, a doctor does not need to enter the cabin for operation, and the system is simple and high in safety.

It should be noted that the embodiments of the present invention have been described in terms of preferred embodiments, and not by way of limitation, and that those skilled in the art can make modifications and variations of the embodiments described above without departing from the spirit of the invention.

Claims (10)

1. A remote control system for controlling a CT system at a remote location, comprising:

the system comprises an active control end server, a passive control end server positioned under the remote address and a local area network switch for establishing data connection between the active control end server and the passive control end server;

the active control end server comprises a first control panel, a display and a first audio/video module; the first control panel comprises a plurality of touch units;

the passive control end server comprises a second control unit and a second audio/video module;

the passive control end server is communicated with the CT system through the second control unit;

controlling the second control unit to send instructions to the CT system according to the operation of each touch control unit on the first control panel so as to execute remote control on the CT system through the active control end server;

and operating a touch control unit to control the first audio/video module to establish communication with the second audio/video module, visually displaying the data acquired by the second audio/video module on a display of the active control end server, and adjusting the touch control unit according to the data acquired by the second audio/video module to update the instruction sent to the CT system.

2. The remote control system of claim 1, wherein:

the instructions comprise a starting instruction, a closing instruction, a scanning instruction, a data acquisition instruction, a data reconstruction instruction, a data transmission instruction, a data storage instruction, a reading instruction and a report generation instruction.

3. The remote control system of claim 1, further comprising:

the power button is independently arranged on the first control panel, and the power button is arranged to be pressed and then communicated with the passive control end server so as to send a power on instruction or a power off instruction to the CT system.

4. The remote control system according to claim 1, wherein:

the CT system further comprises an emergency stop button, and the emergency stop button is set to send a power supply disconnection instruction to the CT system through the passive control end server after being triggered.

5. The remote control system of claim 1, comprising:

the switch adopts a 5G network or is connected with a line network.

6. A remote control method for controlling a CT system at a remote address, comprising:

sequentially operating touch control units for startup and audio-video connection on a first control panel of an active control end server, establishing communication with a passive control end server under a remote address through a local area network switch, sending a startup instruction to the CT system through a second control unit on the passive control server, acquiring audio-video data acquired by a second audio-video module, and sending the audio-video data to a first audio-video module to be displayed on a display screen;

operating the other touch control unit to send a corresponding instruction to the CT system through the second control unit to execute remote operation on the CT system, adjusting the touch control unit according to the display screen, and updating the instruction sent to the CT system; and after the remote operation of the CT system is finished, operating a touch unit for shutdown so as to send a shutdown instruction to the CT system through the second control unit and control the CT system to execute shutdown.

7. The remote control method according to claim 6, wherein the remote operation of the CT system comprises:

scanning, data acquisition, data reconstruction, data transmission, data storage, reading and report generation.

8. The remote control method of claim 6, further comprising:

before a touch control unit used for starting is operated on a first control panel of an active control end server, a power button is pressed, and a power starting command is sent to the CT system through the passive control end server;

and after the touch control unit for shutdown is operated, pressing a power button to send a power off instruction to the CT system through the passive control end server.

9. The remote control method of claim 6, comprising:

and when an abnormal condition occurs, pressing an emergency stop button, establishing communication with the passive control end server through a local area network switch, and sending a power supply disconnection command to the CT system through the passive control server.

10. The remote control method according to claim 6, wherein said establishing communication with the passive control server at the remote address through the local area network switch comprises:

and establishing 5G local area network communication or wired local area network communication.

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