CN114040138A - Visual operation process recording method and recording system - Google Patents

Abstract

The invention provides a visual operation process recording method and a visual operation process recording system, which store the consultation and examination process, the operation process, the post-operation treatment process and the post-discharge treatment process of a patient into image data and audio data, thereby effectively storing the historical data of the patient and embodying the advantage of convenient management. In the present invention, a bookmark function is added to a part (a part describing surgery or a corresponding disease, etc.) in which important contents are recorded during consultation with a corresponding patient, so that a search can be performed quickly and accurately. In addition, when medical accident disputes occur, the cause of the medical accident can be quickly identified, and the method has the advantage that the responsibility of the medical accident can be clarified. Therefore, the reliability and competitiveness of the hospital to the patient in the medical field can be greatly improved.

Description

Visual operation process recording method and recording system

Technical Field

The invention relates to the technical field of data management systems, in particular to a visual operation process recording method and a visual operation process recording system.

Background

Generally, when a patient goes to a hospital, the patient's personal information, the name of a previously affected disease, medical history, and the like are written and submitted in written form according to the requirements of the hospital. After filling and receiving the document, the hospital will make a chart according to the written content, and if the person is a person who receives treatment at the hospital, the hospital will prepare for the treatment, for example, search the past chart.

However, with regard to the written medical records as described above, it has taken a lot of time in the past to search for charts or create new charts by referring to information of patients, which has a problem that cannot be effectively solved. In particular, these files must be retained for a certain time, and there is a problem in that a place where the files need to be stored and storage costs.

To solve this problem, techniques and contents for sharing various types of information about patients through various types of networks (such as the internet, LAN, and Intranet) as a network have been developed. Electronic medical record processing performed in this manner is called Electronic Medical Record (EMR). However, information sharing currently performed in a hospital is only simple contents such as personal information of a user, treatment items to be treated, treatment reservation information, treatment history information, and hospitalization information. However, since the course of treatment of a patient cannot be understood in detail only by such simple information, it is impossible to provide a countermeasure against a medical accident. When a medical accident occurs in the above environment, both the hospital and the patient often waste more time and money than is needed to solve the problem, and in some cases, the hospital business may be paralyzed.

The most important information for treating or caring for patients in hospitals is not only simple information as described above, but also a nursing diary recorded by a nurse who observes symptoms of patients and information on diseases of patients, which are personal conditions. Information provided according to the disease symptoms of each patient, such as counseling contents, a doctor's treatment result and treatment method, a test result, and a treatment result. Particularly in operations with a high incidence of accidents, hospitals communicate preventive measures or risks to patients and obtain patient consent, and it is difficult to confirm the transfer of such information after a medical accident has occurred. The difficulty caused by disputes is solved.

Therefore, in order to easily solve the disputes caused by medical accidents, the basic treatment process of the patient's disease and the contents of conversation with the patient or detailed data of the treatment process are required.

Disclosure of Invention

The present invention is directed to storing consultation and examination procedures, surgical procedures, post-operative treatment procedures, and treatment procedures after discharge as historical data of patients, and provides a system and method for recording and managing the historical data of hospital treatment.

In order to achieve the above object, the present invention provides a recording method for visualizing a surgical procedure, comprising the following steps:

a first history data generation step: when receiving two or more image data and audio data of a patient consultation and examination process, the image processing device generates the two or more image data and the audio data into first image data and generates first history data from the first image data and the related first editing data. At this time, the generated first data is transmitted to the server and stored in the database;

a second history data generation step: when two or more image data and audio data capturing a surgical procedure of a corresponding patient are received through the input device, the image processing apparatus generates them into second image data, and the server generates and stores second history data including the second image data and second edit data generated in the history data;

a third history data generation step: when two or more image data and audio data capturing post-operative treatment procedures of a corresponding patient are received by being installed in a hospital room or the like, the image processing apparatus generates them into third image data, and the server generates and stores third history data including the third image data and third edit data;

a fourth history data generation step: after the completion of the treatment as described above, when two or more image data and audio data for photographing the course of the treatment after the patient is discharged are received by being installed in the treatment room, the image processing apparatus generates fourth image data thereof. The server generates and stores fourth history data comprising fourth image data and fourth edit data;

and (3) historical data integration step: when the patient's disease is cured and the treatment is completed, the server stores and manages the fourth history data as the integrated history data.

Preferably, at least one of the first to fourth history data generation steps may include: the received two or more video data and audio data are processed, accumulated continuously and stored in the history data.

Preferably, at least one of the first to fourth history data generation steps may include: analyzing the input edited data when the edited data is input; and matching the analysis data with the historical data and storing.

Preferably, at least one of the first to fourth history data generation steps may include: if the bookmark information is included, the bookmark information is further matched with the received image data and audio data and stored.

Preferably, the process of receiving patient information including personal information of the patient before the step of generating the first history data; a process of checking whether the input patient is the first patient; a process of generating historical data for the patient if the patient is the first visit to the hospital; and a process of requesting transmission of the image data and the audio data.

Preferably, before the step of generating the second historical data, personal information and surgical information of the surgeon are received; the personal information of the surgeon includes a name, an ID, a password, a title or an affiliation, and the operation information includes information on an operation site of the patient who has undergone the operation, an operation reason or an operation date.

The invention also provides a recording system for the visual operation process, which specifically comprises the following steps:

an input device receiving images and audio for at least one of text information, bookmark information;

the image processing apparatus stores information input by an input device, manages image and audio data generated for each surgical procedure, stores and stores bookmark information in corresponding edit data, and includes edit data including the bookmark information in corresponding matching data;

the server updates the history data according to the diagnosis process, the operation process, the post-operation treatment process and the treatment process after discharge after receiving the history data created and stored in the image processing apparatus, generates integrated history data, and may store the integrated history data in the database;

the output device displays the received video data on the output device;

a portable terminal carried by a doctor or a nurse inputs and checks information on treatment and treatment procedures of inpatients.

Preferably, the input device is configured to include: at least three cameras, namely a boom camera, an indoor camera and a video endoscope and a vital signs monitor.

Preferably, the image processing apparatus includes: a data processing unit; a bookmark information processing unit; a transmission unit;

the data processing unit receives video, image, and voice data input by the output unit. The personal information of the patient is matched with the corresponding video and transmitted to the server.

The bookmark information processing module analyzes and processes the bookmark information and sends the bookmark information to the data processing module, the data processing module stores and stores the bookmark information sent from the bookmark information processing module in corresponding editing data, and the corresponding matching data contains the editing data containing the bookmark information.

The transmission unit requests video data stored in the history data accumulated in the server in response to the request message. The transmission unit receives video data transmitted from the server and displays the received video data on the output device.

Preferably, the server includes: a request input unit; a search unit; a database;

when video information or patient information is input, the image processing apparatus analyzes and processes information such as the video information or patient personal information included in the patient information, and transmits it to the database; the database checks whether history data for the patient has been stored based on the processing result, and updates the history data;

the search unit searches, in response to a request of the image processing apparatus, history data of the patient stored in the database, and makes a transmission request for streaming of the searched history data so that the contained video can be transmitted to the image processing apparatus.

Preferably, the terminal receives the login information, classifies the member grades according to the location or membership of the user, and prevents a third party from viewing or editing the operation images stored in the service providing server without authorization by performing the login process.

Compared with the prior art, the invention has the advantages that: the invention stores the consultation and examination process, the operation process, the post-operation treatment process and the treatment process after discharge of a patient into image data and audio data, thereby effectively storing historical data related to the patient and embodying the advantage of convenient management.

In the present invention, a bookmark function is added to a part (a part describing surgery or a corresponding disease, etc.) in which important contents are recorded during consultation with a corresponding patient, so that a search can be performed quickly and accurately. In addition, when medical accident disputes occur, the cause of the medical accident can be quickly identified, and the method has the advantage that the responsibility of the medical accident can be clarified. Therefore, the reliability and competitiveness of the hospital to the patient in the medical field can be greatly improved.

Drawings

FIG. 1 is a block diagram of an example of a surgical recording system of the present invention recording in DICOM format;

fig. 2 is a method for managing historical data of hospital treatment according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be further described below.

Fig. 1 is a block diagram illustrating an example of a surgical recording system recorded in DICOM format according to the present invention, as shown in fig. 1.

The input device 100 receives images and audio for at least one of:

the image processing apparatus 200 stores the input images and audio and manages history data generated for each surgical procedure;

the server 300 performs integrated management on the history data;

an output device 400;

a portable terminal 500 carried by a doctor or nurse;

a PACS (picture archiving and communication system) 600 stores and retrieves DICOM-formatted data in medical images and video for subsequent retrieval.

The input device 100 is configured to include: at least three cameras 110, namely a boom camera 111, an indoor camera 112 and a video endoscope 113, a vital signs monitor 114; a conversion unit 120; a control signal input unit 130; a transfer unit 140 and a support unit 150.

Among them, one controller is assigned to each of the video signal sources of the three kinds of camera boom cameras 111, the room camera 112, and the video endoscope 113. The controller continuously evaluates the video signal of the video signal source with respect to predetermined characteristics, such as brightness and sharpness, in order to adjust the exposure time, aperture setting and focus setting of the video signal source. In the case of laparoscopic surgery, when the video endoscope 113 is inserted into the patient, the organ of the patient may be photographed by an imaging device located at the rear of the microscope.

The conversion unit 120 encodes the surgical image captured by the camera into a digital file. The encoding may use WMV (windows media video) methods to convert the surgical images into high definition, low volume files. In order for the transmission unit 140 to transmit the photographed surgical image to the image processing apparatus 200 in real time, the conversion unit 120 may encode the surgical image input from the camera 110 in real time without a separate start command signal.

The control signal input unit 130 receives a signal related to recording of a surgical image. At this time, the control signal input unit 130 is a voice recognizer (not shown) that recognizes the surgeon's voice and determines a signal related to the recording of the surgical image, or allows the surgeon to input a signal related to the recording of the surgical image. The control signal input unit 130 may also be a surgical image with a touch, and may be a touch screen (not shown), and the signals related to the recording of the surgical image include a signal to start recording the surgical image and a signal to stop recording the surgical image. When a voice recognizer is used as the input unit 130, since the surgeon can control the recording of the operation image only with voice, the operation image can be recorded more efficiently.

The transmission unit 140 transmits the surgical image captured by the camera 110 to the service-providing image processing apparatus 200. By transmitting the operation image in real time using a wired/wireless network, a person who does not participate in the operation can directly check the operation image using the output device 400, and users such as doctors, nurses, and patients can view and confirm the operation image.

The support unit 150 is used to support the camera 110 and control the position or angle of the camera 110 according to a control signal transmitted from the controller. It may be in the form of a crane, or it may be mounted in the camera 110 and automatically adjust the position or angle of the camera 110 according to a control signal, or the position or angle of the camera 110 may be manually adjusted by the surgeon.

The image processing apparatus 200 receives video and audio input through the camera 110 or the like of the input apparatus 100, converts the received video and audio into data, and synchronously generates video, and generates and stores matching data including the generated video.

The image processing apparatus 200 includes:

a data processing unit 210;

a bookmark information processing unit 220;

a transmission unit 230;

the data processing unit 210 receives and processes video, image, and voice data input by the output unit 140.

The transmission unit 230 transmits video, image, and voice data to the server 300, and is configured to enable short-range wired/wireless communication. Here, the personal information of the patient is matched with the corresponding video and transmitted to the server 300.

When receiving input edit data including text information (personal information of a patient, medical information, etc.), the data processing module 210 stores it as matching data corresponding to video, image, voice data. The matching data and the edit data are combined (included) to generate and store history data.

Another way to reduce the video data storage requirements is to eliminate portions of the video that have little clinical significance. For example, in certain surgical procedures, only a few minutes of an hour of video is considered sufficient for archiving. The storage requirements can be greatly reduced by using a simple, automated method to identify important portions of a video. One way to achieve this is to make a video clip using bookmarks placed by the surgeon as reference points. The bookmark information processing module 220 analyzes and processes bookmark information and transmits it to the data processing module 210, and at this time, the data processing module 210 stores and stores the bookmark information transmitted from the bookmark information processing module 220 in corresponding edit data, and includes edit data including the bookmark information in corresponding matching data.

Also, if the doctor needs to check the video included in the stored history data due to negotiation with the patient or the like, the transmission unit 230 requests the video data stored in the history data accumulated in the server 300 in response to the request message when the message is input through a data input request message (such as a command transmitted by pressing the Enter key on the keyboard or clicking the mouse button). When video data is requested as described above, the transmission unit 230 transmits the video data from the server 300 and displays the received video data on the output device 400.

In addition, the generated video is output through the screen output device 400 such as an LCD, and through text information (e.g., treatment details, the current state of the patient, etc.) such as a keyboard or a mouse and bookmark information, and when edit data including at least one of the bookmark information is received, history data including the edit data is generated and stored in the matching data. Textual information may also be output via the output device 400.

The server 300 updates the history data according to the procedure, the operation procedure, the post-operation procedure, and the treatment procedure after discharge after receiving the history data created and stored in the image processing apparatus 200. Integration history data is then generated and may be stored in a database.

The server 300 includes:

a request input unit 310;

a search unit 320;

database 330

When video information or patient information is input from the terminal 500 or the request input unit 310, the image processing apparatus analyzes and processes information such as the video information or patient personal information included in the patient information, and transmits it to the database 330. The database 330 checks whether history data for the patient has already been stored based on the processing result, and as a result of the check, whether history data for the patient has been stored, the data is called and updated, and the updated history data is saved.

The search unit 320 searches the history data of the patient stored in the database 330 in response to a request of the image processing apparatus 200, and makes a transmission request for streaming the searched history data so that the contained video can be transmitted to the image processing apparatus 200.

The terminal 500 is a personal terminal including a Personal Computer (PC) and a portable terminal including a Personal Digital Assistant (PDA), and can mainly input and check information on treatment and treatment procedures of inpatients. Login information is received from an electronic device of a user. The electronic devices of the users include computers, mobile phones and other terminals, and may be devices that can access the service providing server through the internet. The user may be a doctor, a trainee, a medical student, a nurse or a patient who has undergone surgery. At this time, the member grades may be classified according to the location or membership of the user. And if the login information is matched with the member information, transmitting the operation image playlist to the electronic equipment of the user. By performing the login process, it is possible to prevent a third party from viewing or editing the operation image stored in the service providing server without authorization.

Each configuration of fig. 1 described above is configured to enable data communication through a wired/wireless communication network, and external hacking can fundamentally prevent such a situation from occurring by data transmission through a closed communication network inside a hospital according to the requirements of those skilled in the art.

The data processing unit 210 receives and processes video, image, and voice data input by the output unit 140. Since video data storage is large and cannot be archived in a PACS system for a long period of time, a plurality of video processing rules are set to automatically process video data and process and store the video data in the DICOM format. Multiple video processing rules may be applied to any given video, image or patient record. Video processing rules may also be applied at different times during information processing. For example, some rules may apply to video files, while other rules are used to convert video to DICOM formatted patient records or transmit them to other systems (e.g., PACS systems). The rules may also optionally manage the method of compressing the size of the captured video data and routing the predetermined video data to various long term storage destinations.

The specific processing rules are as follows: (1) and (3) transcoding setting of the video: specific video transcoding settings are defined based on characteristics of the received video or video contained in patient records received from other sources. A single source video may be transcoded into multiple reduced-size videos by decoding the source video into a single frame, changing it to include a lower resolution, lower bitrate, corresponding frame, low-level frame rate video data. Since different videos require different resolutions according to their application scenarios, for example, a doctor preparing to present a medical conference of new surgical techniques may want a high resolution video to show exceptional details, while a surgeon performing a surgical review at home may require a lower resolution and a lower bit rate. The settings of resolution, frame rate and bit rate can be changed as required by transcoding settings to change the size of the video.

Encoding settings of video: i.e., using different video compression techniques. MPEG2 is a popular video encoding method found in consumer and commercial applications and is used in many input devices 100. New encoding techniques such as h.264 can reduce storage requirements by up to 25% of the original MPEG2 data size without visually significant changes in video quality. The data processing unit includes therein a plurality of video encoders that can be combined with settings of resolution, frame rate and bit rate in different rules.

And (3) bookmark setting: the rule extracts video clip bookmarks from the corresponding video using different settings of a number of seconds specified before the image time index and a number of seconds after the image time index to be used at the time of extraction. Configurable time settings "before" and "after" are both part of the rule. The start time and end time bookmarks for the low resolution and high resolution video may be set simultaneously, in this way, the user is not burdened with problems associated with viewing high resolution video, but may still achieve the goal of extracting high resolution clips using low resolution versions of the video, which are easier to view and navigate remotely. At the same time, it may also allow video clip information of significant events to be generated from multiple reference points in multiple input devices 100, all of which input devices 100 capture patient information from different angles simultaneously during the same procedure.

And (3) transmission setting: the rules communicate the specific resolution of any video to the PACS. For example, it is specified that only 480p resolution of video is transmitted to the PACS. The patient may also include patient, physician, and/or procedure information in the decision making process when determining which medical records to select for transfer or other operation. For example, a particular surgeon may wish to save all of their automatically generated video clips and images from gallbladder surgery to a PACS system.

Saving the setting: it is determined how long a video of a particular resolution, frame rate or bit rate will be stored on the server. Different rules may be created for different time ranges. For example, a rule may be set on the server to delete all 1080p high resolution video immediately after transcoding to lower resolutions 480p and 240 p. A second rule may be created on the same server to delete all 480p videos 60 days after the last view of all 480p videos. The "medical records" may also include patient, physician, and/or procedure information in the decision making process when determining which medical records to select for deletion or other operation.

Multiple rules may be created that may be used in combination to improve their usefulness and functionality.

To further reduce the size of video and other data delivered to a PACS system at a given time, a predetermined set of rules may be applied to data received in designated temporary storage folders, where each local video data is stored on a server or PACS 360 system.

The data processing procedure of the recording and history data management system for hospital treatment according to the present invention including hospital consultation and operation according to the present invention will be described in the following examples.

First, when two or more image data and audio data, which record a consultation and examination procedure for a patient, are received through the input device 100, the image processing apparatus 200 generates them into first image data, and generates the first history data from the first image data and data of the relevant first edit data. At this time, the generated first data is transmitted to the server 300 and stored in the database 330.

And, when two or more image data and audio data capturing a surgical procedure of a corresponding patient are received through the input device 100, the image processing apparatus 200 generates them into second image data, and the server 300 generates and stores second history data including the second image data and the second edit data generated in the history data.

Here, the generation and storage of the second history data may be performed in the image processing apparatus 200.

Also, when two or more image data and audio data capturing post-operative treatment procedures of the corresponding patient are received through the input device 100 installed in a hospital room or the like, the image processing device 200 generates them into third image data, and the server 300 generates and stores third history data including the third image data and third edit data.

After the completion of the treatment as described above, when two or more image data and audio data capturing a treatment course after the patient is discharged are received through the input device 100 installed in the treatment room or the like, the image processing device 200 generates fourth image data by them. The server 300 generates and stores fourth history data including fourth image data and fourth edit data.

Thereafter, when the patient's disease is cured and the treatment is completed, the server 300 stores and manages the fourth history data as the integrated history data.

The method for managing the history data of the hospital treatment according to the present invention as described above is explained in more detail as shown in fig. 2.

In addition, since the process for data processing and transmission of the detailed configuration of the data processing unit 200 has been described above, a repetitive description is omitted.

First, when personal information of a patient is input (S101), the image processing apparatus 200 receives the input personal information of the patient and analyzes and processes it (S102) to determine whether it is a new patient (S103). If the patient has gone through the hospital, the history information of the patient is requested to the database (S104), and the requested history information is retrieved (S105) and transmitted to the image processing apparatus (S107).

If it is a new patient, history data including personal information of the patient is newly created (S106). Here, the newly created history data does not include video information, but only includes patient personal information.

Personal information of the surgeon is received (S108). At this time, the personal information of the surgeon includes a name, an ID, a password, a title or an affiliation, which is necessary for classification and identification of the operation image.

The operation information includes personal information on a patient who has undergone an operation, an operation site, an operation reason, or an operation date, and is essential for classification and identification of an operation image, such as personal information of an operating surgeon.

Thereafter, the image processing apparatus 200 requests the input device 100 to transmit data for at least one of a consultation and examination procedure, a surgical procedure, a post-operation treatment procedure and a post-discharge treatment procedure of the patient (S109). In other words, it is allowed to receive video and audio input to the input apparatus 100.

As described above, when image data and audio data about a patient are received from the input device 100, the image processing apparatus 200 processes the received image data and audio data to generate history data. It is accumulated (updated) and stored in the database, and the stored image data and audio data are output through the output device 400 (S110).

The doctor and the patient can check the video output in this manner in real time.

Thereafter, the image processing apparatus 200 receives the edited data and information necessary for performing patient treatment (cause of disease, treatment, and the like) while outputting the video. If the counseling information or the like is input, after receiving the data, text information is added to the video or bookmark information is added if editing is required (S111).

Through the above processes, when at least one of the consultation examination process, the operation process, the post-operation process, and the discharge post-process of the patient is completed, the history data including the video and the edit data stored so far is transmitted to the database, and the transmitted history data is accumulated and stored and managed as the integrated history data (S112).

The integrated history data as described above may be used as data for quick resolution when medical accident disputes occur, and may be used as educational data.

In the foregoing, a method and system for recording and managing historical data for hospital treatment, including hospital consultation and surgery, in accordance with the present invention has been described. It should be understood that the technical configuration of the present invention can be implemented in other specific forms by those skilled in the art without changing the technical spirit or essential features of the present invention.

The above description is only a preferred embodiment of the present invention, and does not limit the present invention in any way. It will be understood by those skilled in the art that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (11)

1. A recording method for a visual operation process is characterized by comprising the following steps:

a first history data generation step: when receiving two or more image data and audio data for a patient consultation and examination procedure, the image processing apparatus (200) generates them into first image data, and generates first history data from the first image data and data of the associated first edit data. At this time, the generated first data is transmitted to the server (300) and stored in the database (330);

a second history data generation step: when two or more image data and audio data capturing a surgical procedure of a corresponding patient are received through the input device (100), the image processing apparatus (200) generates them into second image data, and the server (300) generates and stores second history data including the second image data and second edit data generated in the history data;

a third history data generation step: when two or more image data and audio data capturing post-operative treatment procedures of a corresponding patient are received by being installed in a hospital room or the like, the image processing apparatus (200) generates them into third image data, and the server (300) generates and stores third history data including the third image data and third edit data;

a fourth history data generation step: after the completion of the treatment as described above, when two or more image data and audio data for photographing the course of the treatment after the patient is discharged are received by being installed in the treatment room, the image processing apparatus (200) generates fourth image data by them. The server (300) generates and stores fourth history data including fourth image data and fourth edit data;

and (3) historical data integration step: when the patient's disease is cured and the treatment is completed, the server (300) stores and manages the fourth history data as integrated history data.

2. A method of recording a visual surgical procedure according to claim 1, wherein at least one of the first through fourth historical data generating steps may include: the received two or more video data and audio data are processed, accumulated continuously and stored in the history data.

3. A method of recording a visual surgical procedure according to claim 1, wherein at least one of the first through fourth historical data generating steps may include: analyzing the input edited data when the edited data is input; and matching the analysis data with the historical data and storing.

4. A method of recording a visual surgical procedure according to claim 1, wherein at least one of the first through fourth historical data generating steps may include: if the bookmark information is included, the bookmark information is further matched with the received image data and audio data and stored.

5. A method of recording a visual surgical procedure according to claim 1, wherein, prior to the step of generating the first historical data, a process of receiving patient information including personal information of the patient; a process of checking whether the input patient is the first patient; a process of generating historical data for the patient if the patient is the first visit to the hospital; and a process of requesting transmission of the image data and the audio data.

6. A method of recording a visual surgical procedure according to claim 1, wherein prior to the step of generating second historical data, personal and surgical information of the surgeon is received; the personal information of the surgeon includes a name, an ID, a password, a title or an affiliation, and the operation information includes information on an operation site of the patient who has undergone the operation, an operation reason or an operation date.

7. A recording system for visualizing a surgical procedure, comprising:

an input device (100) receiving images and audio for at least one of text information, bookmark information;

the image processing apparatus (200) stores information input by the input device (100), manages image and audio data generated for each surgical procedure, stores and stores bookmark information in corresponding edit data, and includes edit data including the bookmark information in corresponding matching data;

the server (300) updates the history data according to the procedure of diagnosis, the procedure of operation, the procedure of post-operation treatment, and the procedure of treatment after discharge after receiving the history data created and stored in the image processing apparatus (200), generates integrated history data, and may store the integrated history data in the database;

the output device (400) displays the received video data on the output device (400);

a portable terminal (500) carried by a doctor or nurse inputs and checks information on treatment and treatment procedures of inpatients.

8. A logging system for visualizing a surgical procedure as in claim 7, wherein the input device (100) is configured to comprise: at least three cameras (110), namely a boom camera (111), an indoor camera (112) and a video endoscope (113) and a vital signs monitor (114).

9. A recording system for visualizing a surgical procedure as in claim 7, wherein the image processing device (200) comprises: a data processing unit (210); a bookmark information processing unit (220); a transmission unit (230);

the data processing unit (210) receives video, image, and voice data input from the output unit (140). The personal information of the patient is matched with the corresponding video and transmitted to the server (300).

The bookmark information processing module (220) analyzes and processes the bookmark information and sends the bookmark information to the data processing module (210), the data processing module (210) stores and stores the bookmark information sent from the bookmark information processing module (220) in corresponding editing data, and the corresponding matching data contains the editing data containing the bookmark information.

The transmission unit (230) requests video data stored in the history data accumulated in the server (300) in response to the request message. The transmission unit (230) receives video data transmitted from the server (300) and displays the received video data on the output device (400).

10. A logging system for visualization of surgical procedures as claimed in claim 7, characterized in that the server (300) comprises: a request input unit (310); a search unit (320); a database (330);

when video information or patient information is input, the image processing apparatus (200) analyzes and processes information such as personal information of a patient included in the video information or the patient information, and transmits it to the database (330); the database (330) checks whether history data for the patient has been stored based on the processing result, and updates the history data;

the search unit (320) searches, in response to a request of the image processing apparatus (200), the history data of the patient stored in the database (330), and makes a transmission request for streaming the searched history data so that the contained video can be transmitted to the image processing apparatus (200).

11. A system for recording a visual surgical procedure according to claim 7, wherein the terminal (500) receives login information, classifies member grades according to the location or membership of the user, and prevents a third party from unauthorized viewing or editing of the surgical image stored in the service providing server by performing the login procedure.

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