阅读说明：本技术 远程临床会诊平台系统 (Remote clinical consultation platform system ) 是由 胡运波 胡运凤 于 2019-11-27 设计创作，主要内容包括：本发明公开了一种远程临床会诊平台系统,支持5G、IPV6互联网。将医院不能接外网的医疗检查仪器、PACS、HIS、CIS系统显示视频,釆用计算机视觉、物联网、去中心化、边缘计算、分布式计算等技术,压缩编码成HTTP通用网络协议视频流,具有独立IP地址,经网络管理,通过互联网指定播出实时视频。所有医疗检查仪器、PACS、HIS、CIS系统计算机数据接口不接外网,从物理上与外网断开,确保医院内网的医疗信息绝对安全,远程临床会诊平台系统兼容性好、效率高、延时小、成本低和安全性高。(The invention discloses a remote clinical consultation platform system which supports 5G, IPV6 Internet. The method comprises the steps of displaying videos of medical examination instruments, PACS, HIS and CIS systems which cannot be connected with an external network of a hospital, compressing and coding the videos into HTTP universal network protocol video streams by adopting computer vision, Internet of things, decentralized, edge calculation, distributed calculation and other technologies, wherein the HTTP universal network protocol video streams have independent IP addresses, and the real-time videos are appointed and played through the Internet through network management. All medical examination instruments, PACS, HIS and CIS system computer data interfaces are not connected with an external network, and are physically disconnected from the external network, so that absolute safety of medical information of an internal network of a hospital is ensured, and a remote clinical consultation platform system is good in compatibility, high in efficiency, small in delay, low in cost and high in safety.)

1. A remote clinical consultation platform system, comprising:

the system comprises more than one intelligent video encoder, a PACS system, an HIS system and a CIS system, wherein the intelligent video encoder collects original display videos of various medical examination instruments of a hospital and the PACS, HIS and CIS systems, and compresses and encodes the original display videos into real-time original video data streams, so that data interfaces of the various medical examination instruments, the PACS, HIS and CIS systems are not connected with an external network, and medical information videos needing real-time live broadcast are transmitted in real time through the Internet;

the more than one intelligent video encoders are provided with USB remote control interfaces, are connected with computer USB interfaces of a PACS system, an HIS system, a CIS system and various medical examination instruments, and can remotely operate and control the keyboards and mice of various medical examination instruments, the PACS system, the HIS system and the CIS system without connecting data interfaces;

and the control computer is used for acquiring more than one real-time original video data stream of the intelligent video encoder and more than one real-time video data stream of the network high-definition camera through a network, respectively managing, appointing and transmitting the real-time video data streams required by clinical consultation, and facilitating synchronous watching of users through the Internet.

2. The remote clinical consultation platform system according to claim 1,

the intelligent video encoders are used for acquiring display videos of the PACS in real time and compressing and encoding the display videos into real-time original video data streams which have independent IP addresses, conform to an HTTP (hyper text transport protocol) universal network protocol and are suitable for internet transmission;

the more than one intelligent video encoders are used for acquiring display videos of the HIS in real time and compressing and encoding the display videos into real-time original video data streams which have independent IP addresses, conform to an HTTP universal network protocol and are suitable for internet transmission;

the intelligent video encoders are used for acquiring display videos of the CIS system in real time and compressing and encoding the display videos into real-time original video data streams which have independent IP addresses, conform to an HTTP (hyper text transport protocol) universal network protocol and are suitable for internet transmission;

the more than one intelligent video encoders are used for acquiring display videos of various medical examination instruments in real time and compressing and encoding the display videos into real-time original video data streams which have independent IP addresses, conform to an HTTP universal network protocol and are suitable for internet transmission.

3. The remote clinical consultation platform system according to claim 2,

each real-time original video data stream suitable for internet transmission of the intelligent video encoder is processed by computer vision, internet of things, decentralization, edge calculation and distributed calculation technologies without cloud calculation and central server processing.

4. The remote clinical consultation platform system according to claim 3,

the control computer adopts a common computer to install remote clinical consultation platform system software and a high-definition network camera, watches remote clinical consultation medical videos in real time through the Internet, and carries out real-time audio and video interactive talkback with doctors of consultation parties, so that the remote clinical consultation of multiple subjects inside and outside the hospital is realized, the back running of the inside and outside of the hospital can be avoided, and the working efficiency is greatly improved.

5. The remote clinical consultation platform system according to claim 4,

a user installs remote clinical consultation platform system software by using a common computer, acquires real-time original medical information video stream appointed to be watched by an inviting hospital through the Internet, and carries out real-time audio interactive talkback without a special decoding terminal.

6. The remote clinical consultation platform system according to claim 5,

the remote clinical consultation platform system acquires an intercom camera, a surgical field camera and a scene camera on a mobile device through a network, acquires different types of real-time video data streams of a CT (computed tomography), a PET/CT (positron emission tomography)/MRI (magnetic resonance imaging), a DSA (digital signal acquisition), a DR (digital radiography), an ultrasonic image, a monitor, an endoscope, a PACS (picture archiving and communication system), an HIS (medical acquisition system) system and a CIS (contact information system) system, appoints network real-time live broadcast, acquires a remote medical clinical real-time video data stream through the internet, decodes and watches and interacts with the intercom in real time, and can be moved to.

7. The remote clinical consultation platform system according to claim 6,

the user adopts any one of a smart phone, an iPad and a notebook computer, watches the medical information video in real time through the mobile internet, carries out real-time interactive talkback and joins in remote multidisciplinary clinical consultation.

Technical Field

The invention relates to the technical field of remote medical treatment, in particular to a remote clinical consultation platform system.

Background

The current domestic remote medical service is live: as the focus interview of day 5, 23 in 2019 established a provincial-level telemedicine platform up to 22 provinces across the country by the end of 2017, and the medical nationwide telemedicine collaboration network covers 1.3 ten thousand medical institutions in all local cities and 1808 counties, including all national-level poverty counties. However, the number of hospitals actually conducting remote consultation is less than 20%, and 80% of hospital remote consultation systems belong to zombie equipment and are mostly idle. The reason for this is that telemedicine still has technical problems at present.

Since the remote medical system at home and abroad and the cloud remote medical system are generally the video conference modification. And each video communication terminal transmits a video of a camera and simultaneously opens a WORD document or a playing slide of about 2 frames by connecting a VGA interface of a PC. This approach is only suitable for video conferencing and does not meet the requirements of remote clinical medicine.

The modified telemedicine system, as shown in figure 1, requires that the hospital must build a so-called consultation center in a fixed room, where a room is also required for video communication equipment, and that the consultation doctor and the inviting doctor are both in video communication in the consultation center room.

As shown in fig. 2, in the modified cloud telemedicine system, a public cloud is established for the public, a hospital is added and can only be called as a tenant, the cloud telemedicine system is a local area network architecture adopting HFP and HDRDP technologies, and an overall management system of a cloud computing background data center is provided. In fact, the cloud telemedicine system is also a cloud video conference system, the network architecture of the cloud telemedicine system is not safe, the risk of medical information and data leakage can be caused, and the cloud telemedicine system is not suitable for the sensitive industry of hospitals at all.

The two major types of remote medical systems in the prior art adopt technologies and network video communication modes, which come from communication protocol standards such as H.323/H.239 established by ITU International telecommunication Union in 3 months in 97 years, are based on broadcast television and telephone multimedia communication architectures, a circuit switching network. The remote medical system is improved on the basis of the technology, and a video conference manufacturer adopts the technology, is also applied to the current remote medical system products, and is far from the actual remote clinical consultation requirement.

The brand-new technology is often applied to develop a generation of intelligent products, generally, the time of 5-10 years is not always required to be successful, a large amount of time is required for a plurality of links such as system overall architecture design, industrial design, system test, system error correction and software and hardware optimization, and a lot of time is required for solving errors in one link. Therefore, video conference manufacturers can modify the original video conference system and rapidly release telemedicine system products.

At present, a domestic remote medical system is formed by firstly pushing remote medical system products by several famous video conference manufacturers abroad, and the trend of hospital remote medical treatment is guided, however, the most influential hospitals in China are firstly assembled into the devices, the remote medical system actually requires doctors to carry out remote consultation according to the functions designed by the manufacturers, and the doctors of both parties need to carry out remote consultation according to the functions specified by the manufacturers in a consultation center.

During multidisciplinary consultation, multidisciplinary doctors are required to go to a consultation center room for remote consultation, a plurality of doctors often watch single cases of clinical diagnosis of other doctors beside the doctor, and other disciplinary doctors are idle, so that waste of human resources is caused. The vital signs, medical history, treatment process and examination image of all patients can be edited by the doctor of the inviting party in advance for 3-4 hours, and then uploaded to the doctor of the consultation party through the network for watching, and the observed data are not real-time pathological data and patients. If the patient is to be seen, the patient must be pushed to the consultation centre, which is difficult to do if the patient needs to be seen in the ICU ward. So 80% of the hospital remote consultation system devices are idle.

Remote multidisciplinary clinical consultation requires strong computer vision ability to recognize real-time videos of various medical examination instruments, and real-time videos of PACS systems, HIS systems and CIS systems of different manufacturers. However, this is a technology which has been developed rapidly in recent years, and is widely used in the fields of automatic driving, face recognition, and the like. The traditional remote medical system adopts the 80/90-year technology, does not have the capability of identifying real-time videos of various medical examination instruments, PACS systems, HIS systems and CIS systems of different manufacturers, and does not meet the actual requirements of remote clinical medical treatment.

Disclosure of Invention

The invention aims to provide a remote clinical consultation platform system, which is characterized in that a CT, a PET/CT, an MRI, a DSA, a DR, an ultrasonic image, a monitor, an endoscope, a PACS system, an HIS system, a CIS system and the like in a hospital are not connected with an external network and are completely disconnected from the external network physically, so that the absolute safety of a medical information system in the hospital is ensured, and only real-time original display videos of various medical examination instruments and the medical information system are transmitted in real time through the Internet.

To achieve the above object, the present invention provides a remote clinical consultation platform system, including:

the system supports a 5G mobile internet and an IPV6 internet, adopts the technologies of computer vision, Internet of things, decentralization, edge calculation, distributed calculation and the like, adopts the common internet to compress and code original display videos of a medical examination instrument, a PACS system, an HIS system and a CIS system which are not connected with an external network in a hospital into HTTP universal network protocol video data streams, has independent IP addresses, and is appointed to be played in real time through network management without a multipoint server, cloud calculation and private networks of various telecommunication providers. The medical information monitoring system aims to solve the technical problem that the whole system cannot operate due to the fact that a centralized system architecture adopted by an existing telemedicine system and a cloud telemedicine system cannot identify medical information videos of various medical examination instruments, a PACS system, an HIS system and a CIS system, leaves an MCU (microprogrammed control unit) multipoint control server and a cloud computing data center is provided with a computer server cluster.

The mobile Internet and the IPV6 Internet support 5G, have higher network security, can acquire independent IP addresses through the common Internet, and provide a network foundation for the rapid development of the medical industry in the era of the Internet of things.

The intelligent video encoders are used for collecting original display output videos of various medical examination instruments of a hospital and a PACS system, an HIS system and a CIS system, and compressing and encoding the videos into real-time original video data streams with independent IP addresses and according with an HTTP universal network protocol. The data interface is only connected with a special network for clinical medical information in a hospital, does not need to be connected with an external network, and is disconnected with the external network physically. The real-time video transmission system realizes the transmission of various medical examination instruments, PACS systems, HIS systems and CIS systems through the Internet and various medical information videos.

The intelligent video encoder adopts a local USB remote control interface to connect a PACS system, an HIS system, a CIS system and a USB interface of a control computer of various medical examination instruments, and a data interface does not need to be connected with an external network, so that the keyboard and the mouse of various medical examination instruments, the PACS system, the HIS system and the CIS system can be remotely operated through the USB interface under the authorization of a user, the various medical examination instruments can be synchronously operated to watch required real-time videos, and particularly, difficult and complicated symptoms are met in the operation just like the on-site operation.

The intelligent video encoders are video conversion sensors with computer vision capability, analog videos are converted into medical video digital signals with original display formats, the medical video digital signals are compressed and encoded into real-time original video data streams which conform to an HTTP (hyper text transport protocol) internet general protocol through the encoders, the real-time original video data streams are close to sources of various medical examination instruments, PACS (picture archiving and communication system), HIS (high-fidelity) systems and CIS (contact image sensor) systems for displaying video output, programs of the intelligent video encoders are launched at the edge side by applying edge computing, so that video data can be transmitted through the internet more quickly, requirements of intelligent medical treatment, network security, privacy protection and the like are met, distributed computing architecture network management is applied, and the analog videos are compressed and encoded into more than one real.

The intelligent video encoders are used for acquiring display videos of a medical image archiving and communication system in a PACS system in real time, compressing and encoding the display videos into real-time original video data streams with independent IP addresses conforming to an HTTP universal network protocol and suitable for internet transmission, and displaying the videos through network transmission real-time operation, wherein a data interface is physically disconnected from an external network, and a viewer cannot enter the PACS system.

The intelligent video encoders are used for acquiring display videos of the HIS system, namely a hospital information system in real time, compressing and encoding the display videos into real-time original video data streams which have independent IP addresses and conform to an HTTP universal network protocol and are suitable for internet transmission. The real-time operation display video is transmitted through the network, the data interface is disconnected with an external network physically, and a viewer cannot enter the HIS system.

The intelligent video encoders are used for acquiring display video of the CIS system in real time, compressing and encoding the display video into real-time original video data streams which have independent IP addresses, conform to HTTP universal network protocol and are suitable for internet transmission. The real-time operation display video is transmitted through the network, the data interface is disconnected with an external network physically, and a viewer cannot enter the CIS system.

The more than one intelligent video encoders are used for acquiring display videos of various medical examination instruments in real time, compressing and encoding the display videos into real-time original video data streams which have independent IP addresses, conform to an HTTP universal network protocol and are suitable for internet transmission. The real-time operation display video is transmitted through the network, the data interface is disconnected with the external network physically, and the viewers cannot enter the computer control systems of various medical examination instruments.

Each real-time original video data stream suitable for internet transmission of the intelligent video encoder adopts technologies such as computer vision, internet of things, decentralization, edge calculation, distributed calculation network management and the like, and therefore video quality is high, time delay is small, and compatibility is good.

As a further improvement of the invention:

preferably, the control computer is configured to obtain, through a network, more than one real-time video data streams of the intelligent video encoder, manage the data streams respectively, and designate transmission of the real-time video data streams through the internet, so that a user can watch the data streams synchronously through the internet.

Preferably, the control computer is configured to obtain real-time video data streams of more than one network high-definition camera through a network, manage the real-time video data streams respectively, and designate the real-time video data streams transmitted through the internet, so that a user can watch the real-time video data streams through the internet synchronously.

Preferably, the control computer adopts a common computer to install the remote clinical consultation platform system software and the high-definition network camera, watches the remote clinical consultation medical video in real time through the internet, and talkbacks with the doctor of the consultation party in real time through audio and video interaction, so that the remote clinical consultation of multiple subjects inside and outside the hospital is realized, running back from inside and outside the hospital can be avoided, and the working efficiency is greatly improved.

A user installs remote clinical consultation platform system software by using a common computer, acquires real-time original medical information video stream which is appointed to be watched by an inviting hospital through the Internet, and carries out real-time audio interactive talkback without a special decoding terminal.

Preferably, the intelligent remote clinical consultation platform system can acquire a talkback camera, a surgical field camera and a scene camera on a mobile device through a network, acquire different types of real-time video data streams such as CT, PET/CT, MRI, DSA, DR, an ultrasonic image, a monitor, an endoscope, a PACS system, an HIS system and a CIS system, and designate network real-time live broadcasting. The user obtains the telemedicine clinical real-time video data stream through the internet, and the telemedicine clinical real-time video data stream is decoded, watched and interactively talkbacked in real time. Can be moved to any patient bedside for remote clinical multidisciplinary consultation.

Preferably, the remote doctor can acquire the real-time original medical information video appointed to be watched by the hospital of the inviting party through the internet by using the computer to perform real-time interactive talkback. The intelligent mobile phone, the iPad and the notebook computer can also be used for watching real-time medical information videos to perform real-time interactive talkback. Realizing multi-party remote clinical consultation.

The invention has the following beneficial effects:

1. the remote clinical consultation platform system supports a 5G mobile internet and an IPV6 internet, is higher in network security, can acquire independent IP addresses through the common internet, can realize remote medical treatment by using the common network, accelerates the covering of national medical associations and county hospitals by remote medical services, and promotes the level and efficiency of basic medical services by walking to community health hospitals, village and town health centers, village health rooms, family sickbeds and the like.

2. According to the remote clinical consultation platform system, the original display output videos of medical examination instruments, a PACS system, an HIS system and a CIS system which cannot be connected with an external network in a hospital are compressed and encoded into HTTP universal network protocol video data streams by using an intelligent video encoder, the HTTP universal network protocol video data streams have independent IP addresses, and real-time video data streams are broadcast through internet designation.

3. According to the remote clinical consultation platform system, all medical examination instruments, the PACS system, the HIS system and the CIS system do not need to be connected with an external network, and are physically disconnected from the external network, so that the absolute safety of medical information of an internal network of a hospital is ensured.

4. The remote clinical consultation platform system realizes the purpose of appointing remote transmission of medical information and video data streams required by clinical consultation through the Internet and real-time audio and video interactive conversation under the condition that various medical examination instruments, a PACS system, an HIS system and a CIS system in an intranet of a hospital are not in public network.

5. The remote clinical consultation platform system comprises a USB remote control interface of an intelligent video encoder, a computer USB interface connected with a PACS system, an HIS system, a CIS system and various medical examination instruments, and a computer keyboard and a mouse which are authorized by a user to remotely operate various medical information through a network. The medical information safety monitoring system is not required to be connected with various medical examination instruments, a PACS system, an HIS system and a CIS system computer data interface, and is physically disconnected from an external network, so that the absolute safety of the medical information of an internal network of a hospital is ensured.

6. According to the remote clinical consultation platform system, the control computer adopts a common computer to install the software heightening network camera of the remote clinical consultation platform system, the remote clinical consultation medical videos are watched in real time through the internet, and the doctor of a consultation party talkbacks in real time in an audio-video interaction manner, so that the remote clinical consultation of multiple subjects inside and outside the hospital is realized, running back from inside and outside the hospital can be avoided, and the working efficiency is greatly improved.

7. According to the remote clinical consultation platform system, a common computer is adopted to install remote clinical consultation platform system software, real-time original medical information video streams which are appointed to be watched by an inviting hospital are obtained through the Internet, real-time audio interactive talkback is carried out, and a special decoding terminal is not needed.

8. The remote clinical consultation platform system can acquire an intercom camera, a surgical field camera and a scene camera on a mobile device through a network, acquires different types of real-time video data streams such as CT, PET/CT, MRI, DSA, DR, ultrasonic images, a monitor, an endoscope, a PACS system, an HIS system and a CIS system, and appoints the network to live in real time. The user acquires the telemedicine clinical real-time video data stream through the Internet, and the telemedicine clinical real-time video data stream is decoded, watched and interactively talkbacked in real time. Can be moved to the bedside of any patient for remote clinical multidisciplinary consultation.

In addition to the objects, features and advantages described above, other objects, features and advantages of the present invention are also provided. The present invention will be described in further detail below with reference to the drawings.

Drawings

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

fig. 1 is a diagram of the working principle of a telemedicine system with a modified video conference architecture.

Fig. 2 is a working schematic diagram of a cloud telemedicine system with a changed existing cloud video conference architecture.

FIG. 3 is a block diagram illustrating the operation of the remote clinical consultation platform system according to the preferred embodiment of the present invention.

Fig. 4 is a block diagram of the working principle of the intelligent video encoder of the preferred embodiment of the present invention.

FIG. 5 is a functional block diagram of a remote clinical consultation platform system according to a preferred embodiment of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered below.

Referring to fig. 3 and 4, the remote clinical consultation platform system of the present invention mainly includes the following components:

1. the intelligent video encoder is used for compressing and encoding real-time original display video data streams with independent IP addresses and HTTP universal network protocols for displaying videos of various medical examination instruments and different display formats of different manufacturers.

In the embodiment, referring to fig. 4, in the working process of the intelligent video encoder, the intelligent video converter computer visually identifies the collected real-time medical information videos with different display formats of various medical examination instruments, a PACS system, a HIS system and a CIS system, converts the videos into digital signals, performs video processing through the video conversion sensor to form an original video format capable of being compressed and encoded, adopts the technology of internet of things, is close to various medical examination instruments and PACS systems, the HIS system and the CIS system display the source of the video, the program is initiated at the edge side by applying edge calculation, so that the video data is transmitted through the Internet more quickly, the requirements of intelligent medical treatment, network security, privacy protection and the like are met, and the HIS system and the CIS system are compressed and encoded into more than one original display real-time medical treatment information network video data stream with independent IP addresses by applying decentralized and distributed calculation architectures.

2. And the intelligent video encoders are used for acquiring the display video of the PACS in real time and compressing and encoding the display video into more than one original display real-time medical information network video data streams which have independent IP addresses and are suitable for Internet transmission.

3. And the intelligent video encoders are used for acquiring display videos of the HIS system in real time and compressing and encoding the display videos into more than one original display real-time medical information network video data streams which have independent IP addresses and are suitable for Internet transmission.

4. And the intelligent video encoders are used for acquiring the display video of the CIS system in real time and compressing and encoding the display video into more than one original display real-time medical information network video data streams which have independent IP addresses and are suitable for Internet transmission.

5. The intelligent video encoders are used for acquiring display videos of various medical examination instruments and examination processes in real time, compressing and encoding the display videos into original display video data streams with independent IP addresses suitable for internet transmission, and seeing real-time network videos of patients examined by various medical examination instruments operated by remote doctors.

6. More than one USB remote control interface of the intelligent video encoder is connected with a PACS system, an HIS system, a CIS system and various medical examination instrument computer USB interfaces, and a computer keyboard and a mouse which are authorized by a user to remotely operate various medical information through a network. The medical information safety monitoring system is not required to be connected with various medical examination instruments, a PACS system, a HIS system and a CIS system computer data interface, and is physically disconnected from an external network, so that the absolute safety of the medical information of an internal network of a hospital is ensured.

Referring to fig. 5, the remote clinical consultation platform system mainly includes the following components:

7. the remote clinical consultation platform system consists of a mobile intelligent remote clinical consultation platform system, a multidisciplinary clinical consultation platform, a simple multidisciplinary clinical consultation platform, a smart phone clinical consultation and a plurality of intelligent video encoders.

In this embodiment, referring to fig. 5, a mobile intelligent remote clinical consultation platform system, a mobile device configured with a control computer, an intercom camera, a surgical field camera, a scene camera, and a plurality of intelligent video encoders implement remote clinical medical consultation in any department in a hospital.

The method comprises the steps of obtaining various network high-definition camera real-time video data streams of other departments, CT, PET/CT, MRI, DSA, DR, ultrasonic images, monitors, endoscopes, PACS systems, HIS systems, CIS systems and other different types of real-time video data streams through a network, and appointing real-time live broadcast and real-time interactive talkback through the Internet to carry out remote clinical consultation.

In this embodiment, the multidisciplinary clinical consultation platform adopts a common computer to install clinical consultation control software, a high-definition camera and an intelligent video encoder, and realizes various real-time medical information video data stream interactive communications, real-time audio and video interactive dialogues and remote multidisciplinary clinical consultation through a network.

In this embodiment, the simple multidisciplinary clinical consultation platform adopts a common computer to install clinical consultation control software, obtains various real-time medical information video data streams through a network, and performs simple remote multidisciplinary clinical consultation through real-time audio interactive conversation.

In the embodiment, any one of the smart phone, the iPad and the notebook computer is adopted for clinical consultation by the smart phone, real-time medical information video data streams are obtained through the mobile internet for real-time interactive talkback, and the intelligent mobile terminal for remote multi-party clinical consultation is added for clinical consultation.

Compared with the existing telemedicine system and cloud telemedicine system, the invention has the following advantages:

1. the remote clinical consultation platform system adopts the most advanced new technologies of computer vision, edge calculation, decentralized, internet of things, distributed calculation, network management and the like. The medical examination instrument, the PACS system, the HIS system and the CIS system which can not be connected with an external network in a hospital display videos, and are compressed and coded into HTTP universal network protocol video streams, the video streams have independent IP addresses, all the medical examination instruments, the PACS system, the HIS system and the CIS system computer data interfaces do not need to be connected with the external network, and are physically disconnected from the external network, so that the absolute safety of medical information of an internal network of the hospital is ensured, and the remote clinical consultation platform system has the advantages of good compatibility, high efficiency, small time delay, low cost, high safety and the like. 2. The remote clinical consultation platform system of the invention completely disconnects various medical examination instruments, PACS systems, HIS systems and CIS systems of hospitals from the external network in physics without connecting the external network. The real-time original display videos of various medical examination instruments and medical information systems can be transmitted in real time through the Internet.

3. The remote clinical consultation platform system supports 5G mobile internet and IPV6 interconnection, has higher network security, and can acquire an independent IP address through the internet. The 5G mobile internet, the IPV6 internet and the internet of things are the internet which is used by ordinary people and is the development direction of telemedicine. The remote clinical consultation platform system does not need an ISDN private network adopted by a remote medical system or a circuit switching private network based on a broadcast television and telephone multimedia communication framework to process video communication, does not need a local area network framework adopting HFP and HDRDP technologies adopted by a cloud remote medical system, and is an integral management system of a cloud computing background data center, and the cloud computing data center is provided with a computer server cluster to process video communication.

4. The remote clinical consultation platform system is used for watching scene high-definition cameras, talkback high-definition cameras, operative field high-definition cameras, PACS systems, HIS systems, CIS systems and various medical examination instruments in real time and originally displaying medical information videos through a network in real time. The hospital office computer is used for installing the remote clinical consultation platform system software, so that multidisciplinary consultation is realized, real-time multi-stream network videos which are appointed to be watched by the remote clinical consultation platform system control computer are watched, and doctors of consultation parties carry out real-time interactive talkback, so that running back and forth of various departments is avoided, and meanwhile, the working efficiency is greatly improved.

5. According to the remote clinical consultation platform system, a remote doctor adopts a computer to watch the video stream which is originally displayed with the real-time medical information and is appointed to be watched by an inviting hospital through the internet, and real-time interactive talkback is carried out. And the smart phone can also be used for watching real-time medical information videos and carrying out real-time interactive talkback. Realizing multi-party remote clinical consultation.

6. The remote clinical consultation platform system can acquire an intercom camera, a surgical field camera and a scene camera on a mobile device through a network, acquires different types of real-time video data streams such as CT, PET/CT, MRI, DSA, DR, ultrasonic images, a monitor, an endoscope, a PACS system, an HIS system and a CIS system, and appoints the network to live in real time. The user can acquire the telemedicine clinical real-time video data stream through the internet, can acquire the telemedicine clinical real-time video data stream through the internet by using a computer, and performs real-time interactive talkback on the real-time originally displayed real-time medical information video stream which is appointed to be watched by a hospital of an inviting party. And the smart phone can be used for watching the real-time medical information video to carry out real-time interactive talkback. Realizing multi-party remote clinical consultation.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present invention shall be included in the protection scope of the present invention.