CN219800061U - System for integrating multiple medical information systems - Google Patents

Abstract

The present utility model relates to a system for integrating a plurality of medical information systems, the system comprising: a plurality of medical information systems, each having a computer storing data of medical information of the corresponding medical information system and a medical information display connected to the computer for displaying screen display information representing the medical information; a plurality of video capture devices, each video capture device corresponding to each medical information system and receiving video signals representing screen display information from a computer of the corresponding medical information system and transmitting the received video signals as a video stream; and a workstation including a receiving end connected to the plurality of video collecting devices to receive the multi-path video stream, a splicing processor receiving the multi-path video stream from the receiving end and converting it into a spliced video signal, and a workstation display connected to the splicing processor to receive the spliced video signal to display a spliced video including the plurality of videos.

Description

System for integrating multiple medical information systems

Technical Field

The present utility model relates generally to the field of medical information systems, and more particularly to a system for integrating multiple medical information systems.

Background

In recent years, development and breakthroughs in information and communication technology have driven continuous progress in medical devices such as medical imaging devices and medical information systems, and a large number of advanced medical devices and medical information systems have been gradually applied and popularized in hospitals of all levels. Advanced medical equipment and medical information systems provide great assistance to doctors in diagnosis and treatment, but there are a number of problems in clinical applications at present. The method mainly comprises the following steps: each set of medical equipment and medical information system corresponds to one set of workstation, and the workstation at least comprises a host, a display, a set of mouse and a keyboard. The office desk of a doctor is generally full of workstations of different medical information systems, the doctor needs to frequently switch between a mouse keyboard and a display for the different medical information systems, and the working efficiency is seriously affected; there is no effective integration among the medical information systems, and when in switching, a great deal of repeated work is needed, such as login of doctor account number, input inquiry of patient information, etc., and the whole clinical process is low in efficiency.

Aiming at the problems, the existing solution is mainly to send the medical data of the patient to an integration platform by a background data integration mode through all medical information systems, and then the integration platform provides a unified interface for integrated display. However, this solution has several major problems: the data is sent to the integrated platform, serious data transmission delay exists, the development workload of the data integrated platform is huge, and the data integrated platform is extremely heavy for middle and small hospitals; the security in the data transmission process is not guaranteed effectively; the correlation of patient data may be subject to errors, resulting in unpredictable medical events.

Disclosure of Invention

Aiming at the problems, the utility model provides a novel integrated system of a novel non-invasive multi-medical information system based on advanced technologies such as computer vision, internet of things, high-speed video acquisition and processing and the like at the current front edge. The integrated system can avoid network delay caused in the data transmission process of the patient, enables a doctor to check all clinical data of the patient in real time, provides a clinical diagnosis and treatment process, integrates a plurality of systems through video data, avoids repeated storage of the patient data, ensures the safety of the patient data, and enables the doctor to work on one screen to optimize the work process.

To achieve the above object, according to one aspect of the present utility model, there is provided a system for integrating a plurality of medical information systems, the system comprising: a plurality of medical information systems, each of the medical information systems having a computer and a medical information display connected to the computer, the computer storing data of medical information of the corresponding medical information system, and the medical information display for displaying screen display information representing the medical information; a plurality of video capture devices, each corresponding to and connected to each of the medical information systems, for receiving video signals representing screen display information from computers of the corresponding medical information systems and transmitting the received video signals as a video stream; and a workstation including a receiving end connected to the plurality of video collecting devices to receive the multi-path video stream, a splicing processor receiving the multi-path video stream from the receiving end and converting the multi-path video stream into a spliced video signal for displaying the spliced video, and a workstation display connected to the splicing processor to receive the spliced video signal, the workstation display displaying the spliced video including the plurality of videos of the multi-path video stream arranged in a predetermined configuration.

In this way, a seamless integration of multiple medical information systems is performed by the workstation. By collecting and encoding the display video data of the display of each medical information system at high speed, transmitting the encoded video data to a workstation and displaying a plurality of videos of a plurality of medical information systems in a centralized manner, compared with the case that the data are transmitted to an integration platform and then stored through the integration platform and processed into videos for display in the prior art, the delay of video display and repeated storage of patient data can be at least reduced, thereby reducing the development workload of the data integration platform and the burden of middle and primary hospitals. Furthermore, by means of the workstation, at least the doctor can work on one screen optimizing the workflow and the patient data from different medical information systems can be accurately correlated. In addition, as the patient data of different medical information systems can be displayed on one display screen in real time and can be flexibly configured, doctors can switch among different medical information systems in real time, and therefore the working efficiency of the doctors is improved.

Further, according to an embodiment of the present utility model, the workstation further comprises: an input unit that receives instruction information from a user, the instruction information including control object information indicating a medical information system as a control object among a plurality of medical information systems and control operation information indicating a control operation for the medical information system as the control object.

In this way, the individual medical information systems can be remotely controlled by the input unit.

Further, according to an embodiment of the present utility model, the control object information includes a position of a cursor on a display of the workstation, the workstation further comprising: and a cursor position detector that detects a video corresponding to a position of the cursor on the workstation display, and the workstation transmits control operation information to the medical information system corresponding to the video.

In this way, a set of mouse-keyboard capable of controlling the functions of a plurality of medical information systems can be realized by the input operation control of a workstation such as a keyboard and a mouse for a doctor to each medical information system.

Further, according to an embodiment of the present utility model, the workstation is connected to each medical information system via a USB cable.

In this way, the display video data of the display provided for the medical information system is collected and encoded at a high speed in real time and displayed on the display used by the doctor, and then instruction information (for example, mouse and keyboard event data) operated by the doctor can be sent to the remotely controlled medical information system through the USB cable, and real-time control of the existing medical information system is achieved through cooperation of the two paths of data.

Further, according to an embodiment of the present utility model, the medical information system as a control object receives instruction information from the workstation via the USB cable to display an image screen indicated by the instruction information on the medical information display of the medical information system as a control object.

In this way, the controlled operation can be displayed simultaneously on the display of the controlled medical information system and thus the patient data stored in the controlled medical information system can be processed and controlled by means of remote control.

Further, according to an embodiment of the present utility model, the predetermined arrangement includes a predetermined arrangement rule and a predetermined display frame size of a plurality of video pictures of the multi-channel video stream, and the input unit further receives arrangement change operation information indicating a change of the predetermined arrangement from the user, and the splicing processor is connected to the input unit to receive the arrangement change operation information and transmit the spliced video signal of the arrangement change of the plurality of videos to the workstation display.

In this way, the video from different medical information systems can be flexibly configured, so that doctors can display different display sizes of the video from different medical information systems on the display according to the needs, and switch between different medical information systems, thereby improving the working efficiency of the doctors.

Further, according to an embodiment of the present utility model, each video capturing apparatus includes: the video collector is connected to corresponding medical information system, and includes: the acquisition unit receives video signals representing screen display information from a computer of a corresponding medical information system and transmits the video signals; the coding unit is connected to the acquisition unit to receive the video signal from the acquisition unit and send a coded video stream of the video signal; and a transmitting unit connected to the encoding unit to receive the encoded video stream from the encoding unit and transmit the encoded video stream to the workstation.

In this way, the plurality of medical information systems can be seamlessly integrated by the video collector, and the display video data of the plurality of medical information systems can be collected in real time at high speed, so that the display of the videos of the plurality of medical information systems on the display of the workstation can be achieved without delay.

Further, according to an embodiment of the present utility model, each video capturing apparatus includes: a video distributor connected to the corresponding medical information system, receiving video signals representing screen display information from the computer of the corresponding medical information system, and transmitting the video signals of the corresponding medical information system and copies of the video signals, wherein one of the copies and the video signals is transmitted to a workstation, and the other of the copies and the video signals is transmitted to a local user side of the corresponding medical information system; and a video collector connected to the video distributor to receive one of the copy and the video signal from the video distributor and to send an encoded video stream of one of the copy and the video signal to the workstation.

In this way, the workstation for integrating a plurality of medical information systems provided by the utility model can be arranged on the original working platform, so that convenience and adaptability can be provided for users.

Further, according to an embodiment of the present utility model, each medical information system, each video capture device, and the workstation are connected by a high definition multimedia interface HDMI cable.

In such a way, the system performs operation control on the existing medical information system through the HDMI cable, so that the patient data is prevented from being lost due to remote data of a network and unsafe of the existing medical information system caused by networking, virus invasion is prevented, and the safety of the patient data is effectively guaranteed.

Further, according to an embodiment of the present utility model, each video capture device receives a video signal representing screen display information from a computer of a corresponding medical information system through a high definition multimedia interface HDMI cable, and the workstation receives a video stream from each video capture device through the high definition multimedia interface HDMI cable.

In this way, video data of different medical information systems can be transmitted to the workstation in real time, thereby enabling the doctor to control the respective medical information systems in real time.

In the present utility model, a plurality of medical information systems are seamlessly integrated by a workstation. By collecting and encoding the display video data of the display provided for the medical information system at a high speed, transmitting the encoded video data to the workstation, and displaying a plurality of videos of a plurality of medical information systems in a centralized manner, compared with the case that in the prior art, the data are transmitted to the integration platform, then the data are stored through the integration platform and processed into videos for display, the delay of video display and repeated storage of patient data can be at least reduced, thereby reducing the development workload of the data integration platform and the burden of middle and primary hospitals.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

fig. 1 is a block diagram illustrating a system for integrating multiple medical information systems according to an embodiment of the present utility model.

Fig. 2 is a block diagram illustrating one example of the video capture device of fig. 1 according to an embodiment of the present utility model.

Fig. 3 is a block diagram illustrating another example of the video capture device of fig. 1 according to an embodiment of the present utility model.

Detailed Description

In order to make it possible to combine the embodiments of the present utility model and the features of the embodiments without collision. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

It is noted that 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 utility model belongs unless otherwise indicated.

In the present utility model, unless otherwise indicated, terms of orientation such as "upper, lower, top, bottom" are used generally with respect to the orientation shown in the drawings or with respect to the component itself in the vertical, upright or gravitational direction; also, for ease of understanding and description, "inner and outer" refers to inner and outer relative to the profile of each component itself, but the above-mentioned orientation terms are not intended to limit the present utility model.

Fig. 1 is a diagram illustrating a system for integrating a plurality of medical information systems according to an embodiment of the present utility model. As shown in fig. 1, a system 1 for integrating a plurality of medical information systems includes:

a plurality of medical information systems 100-1 to 100-n (hereinafter collectively referred to as medical information systems 100), each medical information system 100 having a computer 101 and a medical information display 102 connected to the computer 101, the computer 101 storing data of medical information of the corresponding medical information system 100, and the medical information display 102 for displaying screen display information representing the medical information;

a plurality of video capture devices 200-1 to 200-n (hereinafter collectively referred to as video capture devices 200), each video capture device 200 corresponding to each medical information system 100 and connected to the corresponding medical information system 100 for receiving video signals representing screen display information from the computer 101 of the corresponding medical information system 100 and transmitting the received video signals as a video stream; and

the workstation 300 includes an input/output terminal 301, a splicing processor 302, and a workstation display 303, the input/output terminal 301 being connected to the plurality of video capture devices 200-1 to 200-n to receive the multiplexed video streams, the splicing processor 302 receiving the multiplexed video streams from the input/output terminal 301 and converting the multiplexed video streams into a spliced video signal for displaying the spliced video, the workstation display 303 being connected to the splicing processor 302 to receive the spliced video signal, the workstation display 303 displaying the spliced video, the spliced video including a plurality of videos of the multiplexed video streams arranged in a predetermined configuration.

By way of example, the plurality of medical information systems 100 may include an image reporting system 100-1, an electronic medical record system 100-2 …, and an electrocardiographic system 100-n. Specifically, the image reporting system 100-1 may store information such as B-mode ultrasound, CT, nuclear magnetic resonance, etc. of the patient, the electronic medical record system 100-2 may store diagnostic information, allergy history information, prescription information, surgical information, electronic document information, etc. of the patient, and the electrocardiographic system 100-n may store electrocardiographic information, etc. of the patient.

Herein, the input/output terminal 301 may correspond to a receiving terminal, and the splice processor 302 may be separately provided in a workstation or may be integrated in a general-purpose processor. The splice processor 302 may perform a splicing process on the received plurality of video streams according to a predetermined configuration to convert the multiplexed video into a spliced video signal formed from video streams from the respective medical information systems 100. Wherein the video formed by the video streams from the respective medical information systems 100 can be displayed in equal proportion in the screen displayed on the workstation display 303, enabling the doctor to view all relevant diagnosis and treatment data of the patient on one screen.

As an example, the workstation 300, each video capture device 200, each medical information system 100 may be connected in sequence through a high definition multimedia interface HDMI cable, and each video capture device 200 may receive video signals representing screen display information from the computer 101 of the corresponding medical information system 100 through the high definition multimedia interface HDMI cable, and the input output 301 of the workstation 300 may receive video streams from each video capture device 200 through the high definition multimedia interface HDMI cable.

Further, the workstation 300 may further include: the input unit 304 receives instruction information from a user, the instruction information may include control object information indicating a medical information system as a control object among a plurality of medical information systems, and control operation information indicating a control operation for the medical information system as a control object. As an example, the control object information may include a position of a cursor on the workstation display 303, and the control operation information may include, for example, an operation of editing a display video of a medical information system to be controlled, specifically, inputting remark information, adding a mark on the corresponding video, or the like.

As an example, as shown in fig. 1, the workstation 300 may also be connected to each of the medical information systems 100 via a USB cable using the input/output terminal 301, and the medical information system 100 as a control object receives instruction information from the workstation 300 via the USB cable to display an image screen indicated by the instruction information on the medical information display 102 of the medical information system 100 as a control object. Specifically, the workstation 300 may transmit instruction information to the medical information system 100 to be controlled by the instruction information via the USB cable using the input/output terminal 301 to remotely control the medical information system 100 to be controlled.

As an example, the workstation 300 may further include a cursor position detector 305 that detects a video corresponding to the position of a cursor on the workstation display 303, whereby the workstation 300 may send control operation information to the medical information system 100 corresponding to the detected video, thereby providing a flexible visual configuration to interface with different medical information systems. As an example, the input unit 304 may include a keyboard and a mouse, a cursor position may be changed and indicated by operating the mouse or the keyboard, and control operation information may be input through the keyboard. Specifically, the cursor position detector 305 may detect the cursor position displayed by the mouse on the workstation display 303 in real time and determine the video corresponding to the cursor position, so that the workstation 303 may transmit control operation information to the medical information system 100 corresponding to the video to which the cursor position is directed. The screen displayed on the medical information display 102 of the medical information system 100 that has received the control operation information is the same as the screen displayed on the workstation display 303 of the workstation 300 for the video of the medical information system 100.

Further, the predetermined configuration mode may include a predetermined arrangement rule and a predetermined display frame size of a plurality of videos formed by the plurality of video streams, and the user may input configuration mode changing operation information indicating a change of the predetermined configuration mode via the input unit 304, the mosaic processor 302 receives the configuration mode changing operation information from the input unit 304 to change a current configuration mode of the plurality of videos according to the configuration mode changing operation information, and transmits a mosaic video signal in which the configuration mode of the plurality of videos is changed to the workstation display 303, thereby displaying the mosaic video in which the arrangement rule or the display frame size of one or more videos is changed on the workstation display 303.

The video capture device 200 has been described above as receiving video signals representing screen display information from the computer 101 of the corresponding medical information system 100, but the present utility model is not limited thereto, and for example, the video capture device 200 may employ a video capture box, be directly connected to the medical information display 102, and capture video signals representing screen display information from the screen of the medical information display 102.

An exemplary embodiment of a video capture device according to the present utility model will be described in detail below.

As one example, fig. 2 is a block diagram illustrating one example of the video capture device in fig. 1 according to an embodiment of the present utility model. Describing fig. 2 in conjunction with fig. 1, each video capture device 200 may include: the video collector 201 is connected to the corresponding medical information system 100. The video collector 201 may include: an acquisition unit 202 that receives a video signal representing screen display information from the computer 101 of the corresponding medical information system 100 and transmits the video signal; an encoding unit 203 connected to the acquisition unit 202 to receive the video signal from the acquisition unit 202 and transmit an encoded video stream of the video signal; and a transmitting unit 204 connected to the encoding unit 203 to receive the encoded video stream from the encoding unit 203 and transmit the encoded video stream to the input/output terminal 301 of the workstation 300, for example, through a high definition multimedia interface HDMI cable.

As another example, fig. 3 is a block diagram illustrating another example of the video capture device in fig. 1 according to an embodiment of the present utility model. Describing fig. 3 in conjunction with fig. 1, each video capture device 200 may include: a video distributor 205 connected to the computer 101 of the corresponding medical information system 100, receiving a video signal representing screen display information from the computer 101 of the corresponding medical information system 100, copying the received video signal and transmitting the video signal and a copy of the video signal of the corresponding medical information system 100, wherein one of the copy and the video signal is transmitted to a workstation and the other of the copy and the video signal is transmitted to a local client of the corresponding medical information system (e.g., a local workstation provided for each medical information system in the prior art); and a video collector 201 connected to the video distributor 205 to receive one of the copy and the video signal from the video distributor 205 and to transmit an encoded video stream of one of the copy and the video signal to the workstation 300. The configuration of the video collector 201 herein may be substantially the same as that of the video collector shown in fig. 2, and will not be described herein.

The specific configuration and constitution of the system for integrating a plurality of medical information systems according to the present utility model are described above by way of example, but the present utility model is not limited thereto. It will be apparent that the embodiments described above are merely some, but not all, embodiments of the utility model. All other embodiments, which are intended to be encompassed by the present utility model, by those of ordinary skill in the art based on the embodiments herein, are intended to be within the scope of the present utility model without undue burden.

The system for integrating a plurality of medical information systems provided by the utility model has at least the following technical effects:

1. the existing medical information system is seamlessly integrated through the video collector and the USB mouse keyboard line. The high-speed acquisition and encoding of the display video data of the control computer are realized through the HDMI cable, and the encoded data are transmitted to the workstation through the HDMI cable and then are displayed on a display used by a doctor after post-processing of the system software. The mouse-keyboard event data operated by the doctor is transmitted to a remotely controlled medical information system (e.g., a clinical information system) through a USB mouse-keyboard line. By matching the two paths of data, the real-time control of the existing clinical information system is achieved.

2. Because the system performs operation control on the existing medical information system through the HDMI line and the USB line, the safety of patient data due to remote data loss of a network and the safety of the existing clinical information system caused by networking are avoided, virus invasion is prevented, and therefore the safety of the patient data is effectively ensured.

3. And uniformly displaying the multiple paths of video signals on a screen according to the preset set of the user, checking the mouse position of the user, and automatically judging to transmit the current mouse and keyboard data to the corresponding controlled clinical information system.

4. Network delay caused in the data transmission process of the patient is avoided, so that doctors can check all clinical data of the patient in real time, and a clinical diagnosis and treatment process is provided; the integration of a plurality of systems is carried out through the video data, so that repeated storage of patient data is avoided, and the safety of the patient data is ensured; enabling the physician to work on one screen optimizes the workflow.

5. Advanced technologies such as computer vision, internet of things and high-speed video acquisition and processing enable the control of the system to the third-party clinical system to achieve ultra-low time delay (less than 60 ms), meet medical service requirements, and achieve high-fidelity and high-real-time acquisition and transmission of medical images and audios and videos.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present utility model. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present utility model and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the utility model described herein may be implemented in sequences other than those illustrated or otherwise described herein.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. A system for integrating a plurality of medical information systems, the system comprising:

a plurality of medical information systems (100), each of the medical information systems (100) having a computer (101) and a medical information display (102) connected to the computer (101), the computer (101) storing data of medical information of the corresponding medical information system (100), and the medical information display (102) being for displaying screen display information representing the medical information;

a plurality of video capture devices (200), each of the video capture devices (200) corresponding to each of the medical information systems (100) and connected to a corresponding medical information system (100) for receiving video signals representing the screen display information from the computer (101) of the corresponding medical information system (100) and transmitting the received video signals as a video stream; and

workstation (300) comprising a receiving end (301), a splice processor (302) and a workstation display (303), the receiving end (301) being connected to the plurality of video capture devices (200) for receiving a multi-path video stream, the splice processor (302) receiving the multi-path video stream from the receiving end (301) and converting the multi-path video stream into a spliced video signal for displaying a spliced video, the workstation display (303) being connected to the splice processor (302) for receiving the spliced video signal, the workstation display (303) displaying the spliced video, the spliced video comprising a plurality of videos of the multi-path video stream arranged in a predetermined configuration.

2. The system of claim 1, wherein the workstation (300) is connected to each medical information system (100) via a USB cable.

3. The system of claim 1, wherein each of the video capture devices (200) comprises:

a video collector (201) connected to a corresponding medical information system (100) and comprising:

an acquisition unit (202) that receives the video signal representing the screen display information from the computer (101) of the corresponding medical information system (100) and transmits the video signal;

an encoding unit (203) connected to the acquisition unit (202) to receive the video signal from the acquisition unit (202) and to transmit an encoded video stream of the video signal; and

and a transmitting unit (204) connected to the encoding unit (203) to receive the encoded video stream from the encoding unit (203) and transmit the encoded video stream to the workstation (300).

4. The system of claim 1, wherein each of the video capture devices (200) comprises:

-a video distributor (205) connected to a corresponding medical information system (100), receiving the video signal representing the screen display information from the computer (101) of the corresponding medical information system (100), and transmitting the video signal and a copy of the video signal of the corresponding medical information system (100), wherein one of the copy and the video signal is transmitted to the workstation (300), and the other of the copy and the video signal is transmitted to a local user side of the corresponding medical information system (100); and

a video collector (201) connected to the video distributor (205) to receive one of the copy and the video signal from the video distributor (205) and to send an encoded video stream of one of the copy and the video signal to the workstation (300).

5. The system of claim 1, wherein each medical information system (100), each video capture device (200), and the workstation (300) are connected by a high definition multimedia interface, HDMI, cable.

6. The system of claim 1, wherein each of the video capture devices (200) receives the video signal representing the screen display information from the computer (101) of the corresponding medical information system (100) over a High Definition Multimedia Interface (HDMI) cable, and the workstation (300) receives the video stream from each video capture device (200) over a High Definition Multimedia Interface (HDMI) cable.