CN115379107B - Tool use video processing method and device - Google Patents

Abstract

The application discloses a tool use video processing method and device, wherein the method comprises the following steps of; acquiring a first signal of the activation of the tool, wherein the tool is used for treating a patient; in response to the first signal, a camera is started to record the using process of the tool when the treatment is carried out, wherein the camera is arranged on the tool; acquiring a second signal for stopping the tool; and responding to the second signal, stopping the recording process of the camera, and storing the recorded video file. The problem that how the doctor uses the tool to treat the patient can not be known in the prior art is solved through the method, the real-time recording of the use of the treatment tool is realized, the standardized and normalized treatment operation of the doctor is ensured, and the medical disputes are effectively avoided.

Description

Tool use video processing method and device

Technical Field

The present application relates to the field of medical devices, and in particular, to a tool use video processing method and apparatus.

Background

In the current medical field, doctors often use tools to treat patients, and the process of how a doctor treats each patient using a tool is usually different, but in the prior art, it is not known how a doctor treats a patient using a tool.

Disclosure of Invention

The embodiment of the application provides a tool use video processing method and device, which at least solve the problem that in the prior art, how a doctor uses tools to treat a patient and the difference of using tools by different doctors cannot be known.

According to one aspect of the present application, there is provided a tool-use video processing method, comprising: acquiring a first signal of the activation of the tool, wherein the tool is used for treating a patient; in response to the first signal, a camera is started to record the using process of the tool when the treatment is carried out, wherein the camera is arranged on the tool; acquiring a second signal for stopping the tool; and responding to the second signal, stopping the recording process of the camera, and storing the recorded video file.

Further, the camera comprises a first camera and a second camera, the first camera records towards the direction of the focus part of the patient to be treated, and the second camera records towards the direction of the doctor holding the tool.

Further, storing the recorded video file includes: storing a first video file obtained by shooting by the first camera; storing a second video file obtained by shooting by the second camera; and merging the first video file and the second video file into a third video file according to a time axis and storing, wherein one part of the third video file displays the first video file, and the other part of the third video file displays the second video file.

Further, the method further comprises the following steps: and sending the stored video file to application software, wherein the application software is installed on the doctor and/or a mobile terminal configured by the doctor by using a therapeutic apparatus.

Further, the method further comprises the following steps: receiving a deletion command from the application software, wherein the application software is installed on the mobile terminal of the patient; and deleting the video file in response to the deletion command.

Further, storing the recorded video file includes: acquiring a first identity of the patient; acquiring the starting and stopping time of the tool; acquiring a second identity of a doctor using the tool; naming the video file, wherein the named name of the video file comprises the following components: the first identity, the time the tool was started, the time the tool was stopped, and the second identity.

Further, storing the recorded video file includes: obtaining a secret key corresponding to the second identity; encrypting the named video file by using the secret key; and storing the encrypted video file.

According to another aspect of the present application, there is provided a tool use video processing apparatus comprising: software for executing the tool using a video processing method; the tool comprises the camera and the needle part, wherein the needle part is used for being intervened in muscles and/or tendons of a focus part of a limb of a human body.

Further, the software is located on a therapeutic apparatus host, the tool is connected to the host, and the tool and the host are one type of apparatus; alternatively, the software is provided as a service by a server to which the tool is connected via a network.

According to another aspect of the present application, there is provided a tool use video processing apparatus comprising: a first acquisition module for acquiring a first signal for activation of the tool, wherein the tool is used for treating a patient; the recording module is used for responding to the first signal and starting a camera to record the using process of the tool after the camera is started, wherein the camera is arranged on the tool; a second acquisition module for acquiring a second signal that the tool is stopped; and the storage module is used for responding to the second signal, stopping the recording process of the camera and storing the recorded video file.

In an embodiment of the present application, acquiring a first signal for activation of the tool, wherein the tool is used for treating a patient; in response to the first signal, a camera is started to record the using process of the tool when the treatment is carried out, wherein the camera is arranged on the tool; acquiring a second signal for stopping the tool; and responding to the second signal, stopping the recording process of the camera, and storing the recorded video file. The utility model solves the problems that in the prior art, a doctor cannot know how to use tools to treat patients and the difference of different doctors to use the tools, realizes the real-time recording of the use of the treatment tools, ensures the standardized and normalized treatment operation of the doctor, and effectively avoids the occurrence of medical disputes.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application, illustrate and explain the application and are not to be construed as limiting the application. In the drawings:

fig. 1 is a flow chart of a tool using a video processing method according to an embodiment of the present application.

Detailed Description

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

It should be noted that the steps illustrated in the flowcharts of the figures may be performed in a computer system such as a set of computer executable instructions, and that although a logical order is illustrated in the flowcharts, in some cases the steps illustrated or described may be performed in an order other than that illustrated herein.

In this embodiment, a method for processing a tool using video is provided, fig. 1 is a flowchart of a method for processing a tool using video according to an embodiment of the present application, and as shown in fig. 1, a flow of the method includes the following steps:

step S102, acquiring a first signal for starting the tool, wherein the tool is used for treating a patient;

step S104, responding to the first signal, starting a camera to record the using process of the tool when the treatment is implemented, wherein the camera is arranged on the tool;

step S106, obtaining a second signal for stopping the tool;

step S108, responding to the second signal, stopping the recording process of the camera, and storing the recorded video file.

With this embodiment, a first signal is acquired of activation of the tool for treatment of the patient; responding to the first signal, and starting a camera to record the using process of the tool after starting, wherein the camera is arranged on the tool; acquiring a second signal for stopping the tool; and responding to the second signal, stopping the recording process of the camera, and storing the recorded video file. The problem that how the doctor uses the tool to treat the patient and the problem that the different doctors use the tool to be different can not be known through the application, the real-time recording of the use of the treatment tool is realized, the standardized and standardized treatment operation of the doctor is ensured, and the medical disputes are effectively avoided.

In the above steps, the different tools have different signals, for example, the first signal and the second signal include, but are not limited to, one of: optical signals, acoustic signals, and electrical signals.

In order to better record the operation method of a doctor and the condition of a tool acting on a treatment point of a focus part of a patient, as an alternative implementation manner, two cameras can be provided, namely the cameras can comprise a first camera and a second camera, the first camera records towards the direction of a part to be treated of the patient, and the second camera records towards the direction of the doctor holding the tool.

In the case of using two cameras, at least one of the two cameras may be separately controlled to be activated, the activation of the camera control not being on the treatment tool but on a device or server connected to the treatment tool. For example, in the following, the patient is treated with a treatment pen, which may be used in connection with the host computer, the conditions for activating the camera may be pre-configured on the host computer, e.g. recording may be performed when the treatment pen is picked up, etc. The modification of the condition of the starting camera may require a certain authority, and only the authority is possessed to modify the condition of the starting camera. In another embodiment, the treatment pen can be connected with a server, or the host computer can be connected with the server, and the condition for starting the camera is obtained from the server and cannot be modified locally. If it is desired to obtain a new condition for activating the camera, the treatment pen or the host computer is connected to the server and operated by the server.

After the starting condition of the camera is controlled, the content recorded by the camera can be controlled, for example, the camera can be started to record the whole process of treating the patient by holding the tool by the doctor; for another example, at least one of the following may also be recorded: the action of the doctor manipulating the tool, the depth of the doctor manipulating the tool, the sound of the doctor, the action of the patient, the physiological response of the patient, the sound of the patient, etc.

When two cameras exist, a first video file obtained by shooting by the first camera can be stored; the second video file shot by the second camera can also be saved; as an implementation manner for facilitating video browsing, the first video file and the second video file may be combined into a third video file according to a time axis and stored, where a part of the third video file displays the first video file, and another part of the third video file displays the second video file.

These video files may set the rights to view, for example, the video may allow a particular doctor to view, or may also allow an authorized patient to view. The configuration of the viewing rights may be set on the treatment pen, host and/or server. As a preferred embodiment, the video may be actively pushed to the user with viewing rights. For example, the saved video file is sent to application software, wherein the application software is installed on the doctor and/or a mobile terminal configured by the doctor using a therapeutic apparatus.

If the patient sees the videos, and considers that the videos possibly relate to own privacy, the patient can put forward the requirement of deletion, at the moment, a authorized main pipe makes a decision of agreeing to delete, a special operator is authorized to operate, and a deleting instruction is sent, and the instrument receives a deleting instruction from the application software, wherein the application software is installed on a mobile terminal of the doctor; and deleting the video file in response to the deletion command.

After the video is pushed to the application software, the video file may be automatically displayed on the application software. For example: the video file can be displayed on the mobile terminal in the form of a floating window; for another example, the video file may also be displayed on the mobile terminal in full screen form.

With more and more video file recordings, in order to better save video files, in an alternative embodiment, the video files may be saved by means of distinguishing naming of the video files. For example, in step S108, storing the recorded video file may include: acquiring a first identity of the patient; acquiring the starting and stopping time of the tool; acquiring a second identity of a doctor using the tool; naming the video file, wherein the named name of the video file comprises the following components: the first identity, the time the tool was started, the time the tool was stopped, and the second identity.

In order to better keep the file secret, preferably, in step S108, storing the recorded video file includes: obtaining a secret key corresponding to the second identity; encrypting the named video file by using the secret key; and storing the encrypted video file.

The stored video file can be checked by a doctor or can be subjected to some automatic processing, so that whether a problem occurs in the operation of the doctor can be obtained.

For example, acquiring a sound characteristic of a patient; matching sound characteristics of the stored video file; after matching, extracting the patient's sound from the video file; generating a curve of decibels and time; acquiring a time point when the patient has the highest decibel and exceeds a threshold value in the treatment process; and intercepting and storing the video file with the time point as the center in a preset time range.

For another example, key frames of skin bleeding of a patient are obtained from a stored video file, and time information of the key frames is stored; acquiring an operation method of a doctor corresponding to time information from a camera for shooting the operation method of the doctor; acquiring configuration parameters of a tool corresponding to the time information; and storing the time information, the key frame, the operation method of the doctor and the configuration parameters. The stored things are used for later-stage expert verification or new doctor skill training and business capability improvement.

As another relatively visual mode, the content shot by the camera in real time can be live broadcast in a live broadcast mode.

In this embodiment, there is provided a tool-use video processing apparatus including: software for executing the tool using a video processing method; the tool comprises the camera and the needle part, wherein the needle part is used for being intervened in muscles and/or tendons of a focus part of a limb of a human body.

Preferably, the software is located on a host, the tool is connected to the host, and the tool and the host are one instrument; alternatively, the software is provided as a service by a server to which the tool is connected via a network.

With this embodiment, in the device, software executes the tool using a video processing method, and the tool includes the camera and the needle. The problem that how the doctor uses the tool to treat the patient can not be known in the prior art is solved through the application, so that the record of tool use is realized, and a foundation is laid for solving the problem of the difference of using tools by the doctor.

In this embodiment, there is provided a device in software, where modules in the device correspond to the above method steps, and the tool uses a video processing device including:

a first acquisition module for acquiring a first signal for activation of the tool, wherein the tool is used for treating a patient;

the recording module is used for responding to the first signal and starting a camera to record the using process of the tool after the camera is started, wherein the camera is arranged on the tool;

a second acquisition module for acquiring a second signal that the tool is stopped;

and the storage module is used for responding to the second signal, stopping the recording process of the camera and storing the recorded video file. In an alternative embodiment, the video file saved by the saving module can be added with a time stamp besides being checked by related personnel, and the time stamp is a legal time stamp, so that the real recording time of the video file can be ensured. Video files may also be saved in the blockchain, which may prevent video tampering. For example, as another alternative embodiment, the server may save the video file in a blockchain, in which embodiment: the server sends the video file to an endorsement node; the endorsement node is one of nodes in a blockchain, and is used for generating endorsement signatures for each received video file and sending the signed transactions to the server; said server is used for endorsing the video file into a payload and broadcasting it to the ordering service node; the ordering service node is used for placing ordered video files into blocks and sending the ordered video files to all nodes in a channel, the ordering service node is one of nodes in a block chain, and the ordering service node is used for providing a shared communication channel and providing broadcast service for messages containing the video files; the block is used to generate a blockchain, the block including at least one transaction and a timestamp of the block.

Other steps may be implemented using modules, which are not described herein.

Through the embodiment, the first signal for starting the tool is acquired by the first acquisition module, the recording module starts the camera to record the using process of the tool after the tool is started, and the second acquisition module acquires the second signal for stopping the tool; and the storage module stops the recording process of the camera and stores the recorded video file. The problem that how a doctor uses the tool to treat a patient cannot be known in the prior art is solved through the method and the device, so that the record of tool use is realized.

Preferably, the camera comprises a first camera and a second camera, the first camera records towards the direction of the focus part of the patient to be treated, and the second camera records towards the direction of the doctor holding the tool.

Optionally, the starting the camera by the recording module to record the use process of the tool after starting includes: the camera is activated to record the overall progress of the doctor's hand holding the tool for treatment of the patient, including but not limited to: the action of the doctor manipulating the tool, the depth of the doctor manipulating the tool, the sound of the doctor, the action of the patient, the response of the patient, the sound of the patient, etc.

Preferably, the storing module stores the recorded video file includes: storing a first video file obtained by shooting by the first camera; storing a second video file obtained by shooting by the second camera; and merging the first video file and the second video file into a third video file according to a time axis and storing, wherein one part of the third video file displays the first video file, and the other part of the third video file displays the second video file.

Preferably, the saving module sends the saved video file to application software, wherein the application software is installed on the doctor and/or a mobile terminal configured by a therapeutic apparatus used by the doctor.

Preferably, the save module receives a delete command from the application software, wherein the application software is installed on the doctor's mobile terminal; and deleting the video file in response to the deletion command.

Optionally, the application software displays the video file.

As an alternative and additional embodiment, the mobile terminal displays the video file in the form of a floating window.

As an alternative, but in addition, the mobile terminal displays the video file in full screen form.

Preferably, the storing module stores the video file obtained by recording, including: acquiring a first identity of the patient; acquiring the starting and stopping time of the tool; acquiring a second identity of a doctor using the tool; naming the video file, wherein the named name of the video file comprises the following components: the first identity, the time the tool was started, the time the tool was stopped, and the second identity.

Preferably, the storing module stores the video file obtained by recording, including: obtaining a secret key corresponding to the second identity; encrypting the named video file by using the secret key; and storing the encrypted video file. In this embodiment, there is provided an electronic device including a memory in which a computer program is stored, and a processor configured to run the computer program to perform the method in the above embodiment.

Optionally, the first signal and the second signal include, but are not limited to, one of: optical signals, acoustic signals, and electrical signals.

In this embodiment, a treatment pen for a limb pain therapeutic apparatus including a main body outputting a vibration prescription signal to the treatment pen is provided, the apparatus or the treatment tool in the above embodiment may be a treatment pen with a needle, and a camera may be mounted on the treatment pen for photographing a procedure of treating a patient using the treatment pen.

There are a wide variety of structures for the treatment pen, and in an alternative embodiment, the treatment pen includes: the pen comprises a pen holder and a detachable pen cap connected with the far end of the pen holder, wherein a treatment needle is arranged on the surface of the pen holder after the pen cap is detached, a switch button is arranged on the surface of the pen holder, a needle tube of the treatment needle extends out of the far end of the pen cap, a vibrator capable of being controlled by the switch button to start and stop is arranged in the pen holder, and the vibrator is used for transmitting physical kinetic energy corresponding to a vibration prescription signal to the treatment needle in an intervention focus part when the vibrator is started.

Optionally, an elastic wave bead for installing and releasing the pen cap is arranged at the far end of the pen holder; the pen cap is internally provided with a contact surface, the contact surface is positioned at the far end of the pen cap, the treatment needle also comprises a needle tube seat fixedly connected with the needle tube, and when the treatment needle is fixed on the pen holder, the far end surface of the needle tube seat is contacted with the contact surface.

Optionally, the needle tube seat comprises a needle tube fixing part and a clamping part fixedly connected with the needle tube fixing part, the needle tube fixing part is provided with a needle tube mounting hole in a penetrating way, the needle tube is fixed in the needle tube mounting hole in an inserting way, the clamping part is in an annular hollow shape, and a cavity of the clamping part is communicated with the needle tube mounting hole; the distal end of the pen cap is provided with a needle tube penetrating hole, and the needle tube can penetrate through the needle tube penetrating hole and extend out of the distal end of the pen cap; the treatment pen further comprises a mounting bracket arranged in the pen holder, wherein the mounting bracket comprises a bracket body extending along the length direction of the pen holder and a mastoid fixedly connected to the far end of the bracket body, and the clamping part is sleeved and fixed on the mastoid.

Optionally, the bracket body comprises a first body part and a second body part which are oppositely arranged and fixedly connected, and the vibrator is fixedly connected between the first body part and the second body part; the mounting bracket further includes a sidewall secured to the distal ends of the first and second body portions and surrounding the mastoid process, the sidewall contacting an outer side of the needle cannula mount.

Optionally, a far end inside the pen holder is provided with an ultraviolet disinfection wave band LED emitter which emits light towards the treatment needle head, and the ultraviolet disinfection wave band LED emitter is used for carrying out ultraviolet disinfection on the treatment needle head and the pen cap.

Optionally, at least one window is arranged along the circumference of the pen cap, and the needle holder is made of transparent material and can be observed through each window.

Optionally, the inside printed circuit board PCB printed control board that still is provided with of pen-holder, integrate LED backlight, vibration pilot lamp and shift knob on the PCB control board, LED backlight with shift knob expose in the pen-holder surface still be equipped with the work observation hole on the pen-holder surface, the work observation hole with vibration pilot lamp position corresponds, LED backlight is than the vibration pilot lamp is closer to the distal end of pen-holder, the PCB control board still with the vibrator electricity is connected.

Optionally, the treatment pen satisfies at least one of the following characteristics: (a) The track of the vibrator output vibration is in a plane perpendicular to or parallel to the axis of the pen holder, and the track of the vibration comprises: a track which reciprocates along a single direction and/or a track which circularly reciprocates along a plurality of angle directions by taking the axis of the pen holder as the center; (b) The amplitude of the vibrator is designed to be between 2 and 500 mu m, and the vibration frequency of the vibrator is designed to be between 5 and 500 Hz; (c) The treatment needle is a special treatment needle or a disposable syringe needle and is used for diagnosing and/or treating a focus part formed by the intervention soft tissue damage.

Optionally, the treatment pen further comprises: the negative pressure pump is detachably connected to the far end of the pen holder; the pen cap is made of transparent material; the pen cap surface is fixed with the joint, the negative pressure pump pass through the drainage tube with connect, connect with pen cap and treatment syringe needle intercommunication, the negative pressure pump is used for providing the drawing liquid negative pressure for the hydrops in the focus position when starting, makes the hydrops follow in the focus position.

Optionally, the drainage tube further comprises a communicating pipe for communicating the drainage tube and the joint; the control signal of starting and stopping the negative pressure pump comes from the host, and the host detects whether the liquid accumulation exists at the position of the sensor in the communicating pipe and generates the corresponding control signal.

Optionally, the sensor is a liquid level sensor, the liquid level sensor includes two electrodes fixed on the inner wall of the communicating pipe and having a gap, and a control circuit board electrically connected to the two electrodes, the control circuit board is disposed in the host, and the control circuit board is further electrically connected to the CPU main control board; when liquid accumulation exists at the position of the two electrodes in the communicating pipe, the two electrodes are conducted, and the control circuit board transmits electric signals corresponding to the conduction of the two electrodes to the CPU main control board; or when no effusion exists at the position where the two electrodes are located in the communicating pipe, the two electrodes are disconnected and connected, and the control circuit board transmits electric signals corresponding to the disconnection and connection of the two electrodes to the CPU main control board.

Optionally, the vibrator comprises a rotary centrifugal vibrator.

Optionally, in the case that a rotary centrifugal vibrator capable of being controlled to start and stop by the switch button is provided inside the pen holder, the treatment pen further includes: and a Printed Circuit Board (PCB) control board electrically connected with the rotary centrifugal vibrator and used for outputting a vibration prescription signal to the rotary centrifugal vibrator, wherein a common mode filter is integrated on the PCB control board.

Optionally, at least one of the treatment needle, the cap and the barrel has terahertz energy with a frequency of 0.1THz-10THz.

In this embodiment, there is also provided a host computer for a limb pain therapeutic apparatus, the host computer including: the machine case is arranged on the surface of the machine case, the touch display screen and the CPU main control board which is arranged in the machine case and is electrically connected with the touch display screen, wherein the CPU main control board is used for supplying power to the vibrator and outputting the vibration prescription signal, and the touch display screen is used for a user to select a vibration prescription, and the vibration prescription signal is output to the treatment pen.

Optionally, the chassis includes: the device comprises a base, a top support and a side wall assembly arranged between the base and the top support, wherein the base, the top support and the side wall assembly are surrounded to form a closed structure; at least three casters are arranged at the bottom of the case.

Optionally, the top bracket comprises two opposite vertical plates and an arc plate positioned between the two vertical plates, and the touch display screen is fixed on the surface of the arc plate.

Optionally, the sidewall assembly includes: the CPU main control panel is fixed on the mounting plate, and U-shaped handles are further pivoted on the outer sides of the two side brackets.

Optionally, a sliding groove is formed on the opposite surfaces of the two side brackets, and the mounting plate is slidably connected in the sliding groove.

Optionally, the lateral part support includes outer panel and fixed connection in the outer panel is inboard, and along a plurality of first floor that the direction of height of outer panel set up, and along a plurality of second floor that the direction of width of outer panel set up, wherein, two adjacent second floor between form the spout.

Optionally, the below of mounting panel is provided with and holds the box, the bottom of mounting panel is provided with the ultraviolet ray disinfection lamp, the ultraviolet ray disinfection lamp is used for to hold the article of placing in the box and carry out ultraviolet ray disinfection treatment.

Optionally, the method further comprises: at least one intermediate frequency output interface arranged on the surface of the chassis; the limb pain therapeutic instrument further comprises at least one group of electrode plates which are respectively and electrically connected with the at least one intermediate frequency output interface through cables, and the CPU main control board is also electrically connected with the at least one intermediate frequency output interface and is used for outputting current prescription signals to the at least one group of electrode plates.

Optionally, the characteristic parameters of the vibration prescription signal include: the vibrator continuously vibrates and the vibration frequency and amplitude of the continuous vibration are increased; or, the vibrator intermittently vibrates and the duty ratio, vibration frequency and amplitude of intermittent vibration.

Optionally, the vibration recipe includes: default fixed parameters of each treatment site and individual vibration intensity levels manually adjusted for the same treatment site that have been stored; the touch display screen is used for enabling a user to select a corresponding vibration prescription aiming at a treatment part, generating target characteristic parameters together according to default fixed parameters included in the selected vibration prescription and individual vibration intensity levels manually adjusted by the user for the same treatment part, and sending the target characteristic parameters generated according to the vibration prescription selected by the user to the CPU main control panel; and the CPU main control board is used for generating a corresponding vibration prescription signal according to the target characteristic parameters.

Optionally, the CPU main control board includes: a microcomputer chip and a triode; the microcomputer chip is used for receiving the target characteristic parameters and determining target duty ratio according to the amplitude in the target characteristic parameters and the corresponding relation between the pre-stored amplitude and the duty ratio; generating the vibration prescription signal according to the target duty ratio and the vibration frequency in the target characteristic parameter, and sending the vibration prescription signal to a triode; the triode is used for outputting the vibration prescription signal to the treatment pen and controlling the vibration prescription signal to drive the vibrator.

Optionally, a timer and a counter are integrated in the touch display screen, and the timer is used for closing the host or sending out an alarm when the duration of outputting the vibration prescription signal to the treatment pen by the host reaches a preset duration threshold; the counter is used for recording the output times of the host computer outputting the vibration prescription signal to the treatment pen.

These computer programs may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart block or blocks and/or block diagram block or blocks, and corresponding steps may be implemented in different modules.

The above-described programs may be run on a processor or may also be stored in memory (or referred to as computer-readable media), including both permanent and non-permanent, removable and non-removable media, and information storage may be implemented by any method or technique. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of storage media for a computer include, but are not limited to, phase change memory (PRAM), static Random Access Memory (SRAM), dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), read Only Memory (ROM), electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium, which can be used to store information that can be accessed by a computing device. Computer-readable media, as defined herein, does not include transitory computer-readable media (transmission media), such as modulated data signals and carrier waves.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and changes may be made to the present application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc. which are within the spirit and principles of the present application are intended to be included within the scope of the claims of the present application.

Claims (8)

1. A tool-use video processing method, comprising:

acquiring a first signal of the activation of the tool, wherein the tool is used for treating a patient;

in response to the first signal, a camera is started to record the using process of the tool when the treatment is carried out, wherein the camera is arranged on the tool;

acquiring a second signal for stopping the tool;

responding to the second signal, stopping the recording process of the camera, and storing the recorded video file; the camera comprises a first camera and a second camera, the first camera records towards the direction of the focus part of the patient, and the second camera records towards the direction of the doctor holding the tool; the step of storing the recorded video file comprises the following steps: storing a first video file obtained by shooting by the first camera; storing a second video file obtained by shooting by the second camera; merging the first video file and the second video file into a third video file according to a time axis and storing, wherein one part of the third video file displays the first video file, and the other part of the third video file displays the second video file; wherein the stored video file is processed, the processing includes: acquiring sound characteristics of a patient; matching sound characteristics of the stored video file; after matching, extracting the patient's sound from the video file; generating a curve of decibels and time; acquiring a time point when the patient has the highest decibel and exceeds a threshold value in the treatment process; intercepting and storing the video file in a preset time range with the time point as the center; obtaining a key frame of skin hemorrhage of a patient from a stored video file, and storing time information of the key frame; acquiring an operation method of a doctor corresponding to time information from a camera for shooting the operation method of the doctor; acquiring configuration parameters of a tool corresponding to the time information; and storing the time information, the key frame, the operation method of the doctor and the configuration parameters.

2. The method as recited in claim 1, further comprising:

and sending the stored video file to application software, wherein the application software is installed on the doctor and/or a mobile terminal configured by the doctor by using a therapeutic apparatus.

3. The method as recited in claim 2, further comprising:

receiving a deletion command from the application software, wherein the application software is installed on the mobile terminal of the doctor;

and deleting the video file in response to the deletion command.

4. A method according to any one of claims 1 to 3, wherein saving the recorded video file comprises:

acquiring a first identity of the patient;

acquiring the starting and stopping time of the tool;

acquiring a second identity of a doctor using the tool;

naming the video file, wherein the named name of the video file comprises the following components: the first identity, the time the tool was started, the time the tool was stopped, and the second identity.

5. The method of claim 4, wherein saving the recorded video file comprises:

obtaining a secret key corresponding to the second identity;

encrypting the named video file by using the secret key;

and storing the encrypted video file.

6. A tool-use video processing device, comprising:

software for performing the method of any one of claims 1 to 5;

the tool comprises the camera and a needle part, wherein the needle part is used for being intervened in muscles and/or tendons of a focus part of a limb of a human body.

7. The apparatus of claim 6, wherein the device comprises a plurality of sensors,

the software is positioned on a host, the tool is connected to the host, and the tool and the host are an instrument; or alternatively, the process may be performed,

the software is provided as a service by a server to which the tool is connected via a network.

8. A tool-use video processing device, comprising:

a first acquisition module for acquiring a first signal for activation of the tool, wherein the tool is used for treating a patient;

the recording module is used for responding to the first signal and starting a camera to record the using process of the tool after the camera is started, wherein the camera is arranged on the tool;

a second acquisition module for acquiring a second signal that the tool is stopped;

the storage module is used for responding to the second signal, stopping the recording process of the camera and storing the recorded video file; the camera comprises a first camera and a second camera, the first camera records towards the direction of the focus part of the patient, and the second camera records towards the direction of the doctor holding the tool; the step of storing the recorded video file comprises the following steps: storing a first video file obtained by shooting by the first camera; storing a second video file obtained by shooting by the second camera; merging the first video file and the second video file into a third video file according to a time axis and storing, wherein one part of the third video file displays the first video file, and the other part of the third video file displays the second video file; wherein the stored video file is processed, the processing includes: acquiring sound characteristics of a patient; matching sound characteristics of the stored video file; after matching, extracting the patient's sound from the video file; generating a curve of decibels and time; acquiring a time point when the patient has the highest decibel and exceeds a threshold value in the treatment process; intercepting and storing the video file in a preset time range with the time point as the center; obtaining a key frame of skin hemorrhage of a patient from a stored video file, and storing time information of the key frame; acquiring an operation method of a doctor corresponding to time information from a camera for shooting the operation method of the doctor; acquiring configuration parameters of a tool corresponding to the time information; and storing the time information, the key frame, the operation method of the doctor and the configuration parameters.

Images