CN114423353A

CN114423353A - Endoscope camera host, mode setting method, system and storage medium thereof

Info

Publication number: CN114423353A
Application number: CN202080061715.1A
Authority: CN
Inventors: 曾超凡; 杨哲; 郑怀朋; 杨诗
Original assignee: Shenzhen Mindray Bio Medical Electronics Co Ltd
Current assignee: Shenzhen Mindray Bio Medical Electronics Co Ltd
Priority date: 2019-10-16
Filing date: 2020-05-08
Publication date: 2022-04-29
Also published as: CN114072037A; WO2021073072A1; CN114072040A; WO2021073074A1; WO2021073073A1

Abstract

A mode setting method of an endoscopic camera host, an endoscopic system, and a computer-readable storage medium, the method comprising: displaying a main function interface on a touch display screen of the camera host, wherein the main function interface at least comprises a scene mode area; displaying at least identification information of a first scene mode in a scene mode area; generating a scene mode switching instruction when the sliding operation in a preset sliding area on the scene mode area is determined; switching the current working scene mode of the camera host to a second scene mode based on the scene mode switching instruction; and at least displaying identification information of a second scene mode in the scene mode area, and switching the parameter configuration of the camera host to the parameter configuration corresponding to the second scene mode. The user can quickly select the scene mode corresponding to the current operation type before an operation by switching different scene modes through sliding operation in the scene mode area, and the convenience of setting the scene mode is improved.

Description

Endoscope camera host, mode setting method, system and storage medium thereof

Technical Field

The present application relates to the field of medical equipment technologies, and in particular, to a mode setting method for an endoscope imaging host, an endoscope system, and a computer-readable storage medium.

Background

The endoscope system generally includes an endoscope, a camera, a main camera for processing image information collected by the camera, a display for displaying the image information processed by the main camera, and a light source.

At present, when a user (nurse or doctor) before an operation selects an operation mode to be performed, the user usually selects the mode to perform corresponding setting by operating external equipment such as an external handle and a keyboard, so that the operation is performed in different types, and related parameter values are more, so that the user needs to perform corresponding operation step by step, and the operation is very complicated and is not beneficial to preparation work in the early stage of the operation. Therefore, how to facilitate the user to quickly set the mode when using the endoscope camera host becomes a problem that needs to be solved.

Disclosure of Invention

Based on this, the application provides a mode setting method of an endoscope camera host, the endoscope camera host, an endoscope system and a computer readable storage medium, so as to improve the convenience of setting a scene mode, realize the rapid setting of an operation scene mode, correspond to operations of different types and facilitate the use of a user.

In a first aspect, the present application provides a mode setting method for an endoscopic camera host, the method including:

a touch display screen of the camera host displays a main function interface, wherein the main function interface at least comprises a scene mode area; the camera shooting host comprises a plurality of scene modes, each scene mode corresponds to different parameter configurations, and the parameter configurations are used in the scene mode of the camera shooting host working in the endoscopic surgery;

at least displaying identification information of a first scene mode of the camera host in the scene mode area; the first scene mode is a scene mode in which the camera host works currently, and the first scene mode is any one of a plurality of scene modes of the endoscope camera host;

when the camera host determines that the camera host is in the sliding operation in the preset sliding area on the scene mode area, generating a scene mode switching instruction;

switching the current working scene mode of the camera host to a second scene mode based on the scene mode switching instruction; the second scene mode is any one of the plurality of scene modes of the endoscope camera host except the first scene mode;

and at least displaying the identification information of the second scene mode in the scene mode area, and switching the parameter configuration of the camera host to the parameter configuration corresponding to the second scene mode.

In a second aspect, the present application further provides an endoscope camera host, including:

a housing;

the touch display screen is arranged on the shell;

the control panel is arranged in the shell and connected with the touch display screen, a processor and a memory are arranged on the control panel, the memory is used for storing executable program instructions, and the processor is used for executing the program instructions to realize the steps of the mode setting method.

In a third aspect, the present application also provides an endoscopic system comprising: the system comprises an endoscope, a camera, a light source host, a display, a light guide beam and the camera host; one end of the light guide beam is connected to a light source interface of the light source host, and the other end of the light guide beam is connected to the endoscope and used for providing a light source for the endoscope; one end of the camera is connected to the camera host through a communication cable so as to transmit an image signal acquired by the camera to the camera host for processing; the other end of the camera is used for being clamped to the endoscope so as to acquire an optical signal of the endoscope; the display is connected to the camera host and used for displaying the image output by the camera host.

In a fourth aspect, the present application further provides a computer-readable storage medium, wherein the computer-readable storage medium stores a computer program, and the computer program, when executed by a processor, causes the processor to implement the mode setting method as described above.

According to the mode setting method of the endoscope camera shooting host, the endoscope system and the computer readable storage medium, the scene mode area is displayed on the main function interface of the touch display screen of the endoscope camera shooting host, and the user can switch different scene modes through sliding operation in the scene mode area, so that the user can quickly select the scene mode corresponding to the current operation type before an operation, compared with the situation that the scene mode setting is carried out through operating an external device, the convenience of setting the scene mode is greatly improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic diagram of an endoscope system according to an embodiment of the present application;

fig. 2 is an external structural schematic diagram of an endoscope camera host provided in an embodiment of the present application;

fig. 3 is a schematic internal structural diagram of an endoscope camera host provided in an embodiment of the present application;

fig. 4 is a flowchart of a mode setting method for an endoscopic camera host according to an embodiment of the present application;

fig. 5 is a schematic effect diagram of a main function interface displayed on a touch display screen according to an embodiment of the present disclosure;

fig. 6 is a schematic effect diagram of a main function interface displayed on a touch display screen according to an embodiment of the present disclosure;

FIG. 7 is a schematic diagram illustrating an effect of a secondary menu interface under a main function interface according to an embodiment of the present application;

description of the main elements and symbols:

1000. an endoscope system; 100. observing a part to be observed of the body; 10. an endoscope light source host; 20. conducting light beam guiding; 30. an endoscope; 40. an optical bayonet; 50. a camera; 60. a camera host; 70. a display; 80. a communication cable; 90. a video cable.

61. A housing; 62. an image signal input interface; 63. a touch display screen; 64. an image processing board card assembly; 65. an image output board card assembly; 66. an AC-DC power supply module; 67. a control panel; 110. a main functional interface; 120. a scene mode region; 121. a first brightness adjustment key; 122. a second brightness adjustment key; 123. a brightness indication mark; 124. a first image adjustment key; 125. a second image adjustment key; 126. an image adjustment indicator bar; 127. identifying image scaling times; 111. and setting a key.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The flow diagrams depicted in the figures are merely illustrative and do not necessarily include all of the elements and operations/steps, nor do they necessarily have to be performed in the order depicted. For example, some operations/steps may be decomposed, combined or partially combined, so that the actual execution sequence may be changed according to the actual situation.

It is to be understood that the terminology used in the description of the present application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the specification of the present application and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should also be understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an endoscope system according to an embodiment of the present disclosure.

The endoscope system 1000 includes, but is not limited to, an endoscope light source host 10, a light guide 20, an endoscope 30, an optical mount 40, a camera 50, a camera host 60, a display 70, a communication cable 80, and a video cable 90.

One end of the light guide beam 20 is connected to the light source interface of the endoscope light source host 10, and the other end is connected to the light source interface of the endoscope 30, and the light guide beam 20 is used for providing a light source for the endoscope 30 to illuminate a part to be observed of an observation body.

The camera 50 has one end connected to an image signal input interface of the camera host 60 through a communication cable 80, and the other end connected to the optical bayonet 40 of the endoscope 30 in a snap-in manner, so as to image an optical signal of the to-be-observed part 100 of the observation object acquired by the endoscope 30, obtain an image signal, and transmit the acquired image signal to the camera host 60 for processing.

The display 70 is connected to the camera host 60 through a video cable 90, and displays an image output by the camera host 60.

The display 70 may be a liquid crystal display, an LED display, an OLED display, or the like, and may also be a display screen on an electronic device such as a mobile phone, a tablet computer, or a personal computer, or the like, which is connected to the camera host 60.

It should be noted that fig. 1 is only an example of the endoscope system 1000 and does not constitute a limitation to the endoscope system 1000, and the endoscope system 1000 may include more or less components than those shown in fig. 1, or combine some components, or different components, for example, the endoscope system 1000 may further include a dilator, a smoke control device, an input-output device, a network access device, etc.

Referring to fig. 2 and fig. 3, fig. 2 is a schematic diagram of an external structure of a camera host according to an embodiment of the present disclosure; fig. 3 is a schematic internal structural diagram of a camera host according to an embodiment of the present application.

As shown in fig. 2 and 3, the camera host 60 includes a housing 61, an image signal input interface 62, a touch display screen 63, an image processing board assembly 64, an image output board assembly 65, a power supply module 66 (specifically, an AC-DC power supply module), a control board 67, an I/O board, and the like.

The image signal input interface 62 is provided on the housing 61; the touch display screen 63 is arranged on the shell 61; the image processing board card assembly 64 at least comprises an image processing board card, and the image processing board card is in communication connection with the image signal input interface 62 and is used for processing the image signal input by the image signal input interface 62; the image output board card assembly 65 is in communication connection with the image processing board card, and is configured to convert and output an image processed by the image processing board card.

Illustratively, the image signal input interface 62 is for communicating with a camera to acquire image signals therefrom.

Illustratively, the camera is provided with keys, and the image signal input interface 62 may further obtain a signal from the camera that the user presses the keys.

Illustratively, the image signal input interface 62 may be wired, and may communicate with the camera handle via a communication cable; or a wireless communication module, which communicates with the camera through wireless signals.

The control panel 67 is arranged inside the shell 61, is connected with the touch display screen 63, and is used for controlling power supply among devices inside the endoscope camera host and controlling display of the touch display screen 63; the I/O board is connected to at least an external storage device interface 600 provided on the housing 61. The external storage device interface 600 is used to connect an external storage device, such as a usb disk.

In some embodiments, in order to ensure smooth video recording, at least two external storage device interfaces 600 are disposed on the housing 61, which are respectively a USB interface 601 and a USB interface 602 for externally connecting a USB disk.

The control panel 67 is provided with a processor and a memory; the Processor may be a Central Processing Unit (CPU), and the Processor may be other general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components, etc. The general-purpose processor may be a microprocessor, or the processor may be any conventional processor, so that the processor may execute the corresponding steps of the mode setting method for the endoscope camera host in the embodiments of the present application.

The Memory may be a volatile Memory (volatile Memory), such as a Random Access Memory (RAM); or a non-volatile Memory (non-volatile Memory), such as a Read Only Memory (ROM), a flash Memory (flash Memory), a Hard Disk (Hard Disk Drive, HDD) or a Solid-State Drive (SSD); or a combination of the above types of memories and provides instructions and data to the processor.

The memory is used for storing executable program instructions, and the processor is used for executing the program instructions to realize any mode setting method for the endoscope camera shooting host provided by the embodiment of the application.

Illustratively, referring to fig. 5-6, the processor is configured to execute the program instructions to implement:

displaying a main function interface 110 on a touch display screen of the camera host, wherein the main function interface 110 at least comprises a scene mode area 120; the camera shooting host comprises a plurality of scene modes, each scene mode corresponds to different parameter configurations, and the parameter configurations are used in the scene mode of the camera shooting host working in the endoscopic surgery;

displaying at least identification information of a first scene mode of the camera host in the scene mode area 120; the first scene mode is a scene mode in which the camera host works currently, and the first scene mode is any one of a plurality of scene modes of the endoscope camera host;

at least the identification information of the second scene mode is displayed in the scene mode area 120, and the parameter configuration of the camera host is switched to the parameter configuration corresponding to the second scene mode.

For example, the scene mode of the camera host may include a laparoscope mode, a hysteroscope mode, a cystoscope mode, a ureteroscope mode, a choledochoscope mode, an arthroscope mode, an otorhinolaryngoscope mode, and the like, and each mode has a corresponding parameter configuration to adapt to a corresponding operation type. Different types of procedures may require different parameter configurations, which may include some image parameters such as exposure, color, brightness, sharpness, contrast, etc.

For example, switching the current operating scene mode of the camera host to the second scene mode based on the scene mode switching instruction further includes: and identifying the type of the sliding operation, and determining a second scene mode corresponding to switching selection of the sliding operation based on the type of the sliding operation and a preset association sequence of switching among a plurality of scene modes.

In an embodiment, determining, based on the type of the sliding operation and a preset association sequence of switching among multiple scene modes, a second scene mode corresponding to switching selection of the sliding operation includes:

if the sliding operation is a leftward sliding operation, determining a last associated scene mode of the first scene mode as the second scene mode according to the association sequence switched among the plurality of scene modes;

and if the sliding operation is rightward sliding operation, determining a next associated scene mode of the first scene mode as the second scene mode according to the association sequence switched among the plurality of scene modes.

As shown in fig. 5-6, the current working scene mode of the camera host is the pleuroperitoneal cavity mirror mode (i.e., the first scene mode). At this time, the scene mode area 120 displays identification information of the pleuroperitoneal endoscope mode, specifically, the identification information may be a text identification (i.e., a literal name of the scene mode), and of course, the identification information may also be a graphical identification corresponding to various scene modes. The textual indicia and graphical indicia may be displayed in only one or both of the scene mode regions 120. When the user slides in the scene mode region 120, the pleuroperitoneal cavity mirror mode may be switched to another scene mode (i.e., the second scene mode), for example, when the user slides to the left in the scene mode region 120, the user switches to the hysteroscope mode, and when the user slides to the right, the user switches to the cystoscope mode. Of course, the association sequence of the various scene modes may be preset, and when the user slides to the left to switch to the hysteroscope mode, the user may also continue to slide to the left to switch to the next mode of the hysteroscope mode.

In order to better identify the current scene mode, in the scene mode area 120, the identification information corresponding to the scene mode currently selected by the camera host is highlighted, and the identification information corresponding to other scene modes is displayed in a gray scale. As shown in fig. 5 to 6, if the pleuroperitoneal mirror mode is the current working mode of the camera host, the name of the pleuroperitoneal mirror mode is highlighted, and the associated previous and next modes (cystoscope mode and hysteroscope mode) are displayed in gray scale.

In an embodiment, in the scene mode area 120, indication icons corresponding to a plurality of scene modes are displayed side by side below the identification information of the corresponding scene modes, and the indication icons include circular icons. Therefore, the number of the indication icons displayed in the gray scale on the left side of the highlighted indication icon and the number of the indication icons displayed in the gray scale on the right side of the highlighted indication icon are displayed, and a user can clearly distinguish that the left side can slide a few and the right side can slide a few through the indication icons displayed in the gray scale and the highlighted indication icons.

In some embodiments, the endoscope camera host can be connected with an external storage device, such as a usb disk, a mobile hard disk, an SD card, and the like. The image information processed by the endoscope camera shooting host can be stored in the external storage device, so that data such as endoscope images can be read from the storage device at a later stage, and analysis by a user is facilitated.

Illustratively, the main function interface further comprises a first display area 112, wherein the first display area 112 is a storage device status display area; the processor is configured to execute the program instructions to implement:

determining the storage device state of the storage device accessed by the camera host;

the storage device status of the storage device accessed by the endoscopic camera host is displayed in the storage device status display area 112.

The storage device status display area 112 displays the storage device status of the storage device, so that the user can know the working condition of the storage device conveniently. Specifically, the storage device status may include an available status, a remaining space, a remaining storage time, and the like of the storage device.

In an embodiment, the main function interface further includes a second display area 130, where the second display area 130 is a parameter setting area; the processor is configured to execute the program instructions to implement: at least one parameter adjustment key is displayed in the parameter setting area 130.

Specifically, the size, shape, and position of each display area on the main function interface 110 may be designed according to actual needs. For example, in order to facilitate the user to operate the endoscope camera host through the main function interface, the storage device status display area 112 and the parameter setting area 130 are arranged side by side in the main function interface 110.

Illustratively, the parameter setting area 130 is configured to display brightness adjustment keys including a first brightness adjustment key 121 and a second brightness adjustment key 122. The processor is configured to execute the program instructions to implement: when the operation of the first brightness adjustment key 121 by the user is detected, the image brightness is reduced; when the user's operation of the second brightness adjustment key 122 is detected, the image brightness is increased. Therefore, the endoscope camera host can be conveniently adjusted by a user, and the working efficiency is further improved.

Illustratively, the parameter setting area 130 is further configured to display a brightness indicator 123, where the brightness indicator 123 includes a set of rectangular icons with increasing heights, and is disposed between the first brightness adjustment key 121 and the second brightness adjustment key 122. The processor is configured to execute the program instructions to implement: and when the operation of the user on the brightness adjusting key is detected, changing the image brightness according to the operation of the user on the brightness adjusting key. Therefore, the user can know the brightness level of the current image clearly. The brightness level of the image can be visually embodied through a display connected with the camera host, and the brightness of the operation image displayed on the display can be adjusted through adjusting a brightness adjusting key on the camera host.

Illustratively, the parameter setting area is further configured to display image adjustment keys including a first image adjustment key 124 and a second image adjustment key 125. The processor is configured to execute the program instructions to implement: when the operation of the first image adjustment key 124 by the user is detected, the image is subjected to reduction adjustment processing; when the user's operation of the second image adjustment key 125 is detected, the image is subjected to the enlargement adjustment processing.

Illustratively, the parameter setting area is further configured to display an image adjustment indication bar 126, which includes an indication mark 127 (i.e., an image zoom factor mark) in which an image zoom factor is displayed. The processor is configured to execute the program instructions to implement: when the operation of the user on the image adjusting key is detected, the size of the image is changed according to the operation of the user on the image adjusting key, and the movement of the indication mark on the image adjusting indication bar is controlled to indicate the image zooming times. In addition, the user can drag the indication mark on the image adjustment indication bar to move so as to perform zoom adjustment on the image.

Illustratively, the main function interface 110 further includes a third display area 111, and the third display area 111 is configured to display a setting button, and a user can perform a corresponding setting operation by clicking the setting button. As shown in fig. 7, the processor is configured to execute the program instructions to implement: when the operation of the user on the setting key is detected, controlling the touch display screen to switch and display a preset secondary menu selection interface, wherein the secondary menu selection interface displays selection keys corresponding to multiple scene modes; when the operation of a user on a certain selection key on a secondary menu selection interface is detected, determining a scene mode corresponding to the selection key as a third scene mode, and switching the current working scene mode of the camera host to the third scene mode.

Illustratively, a return button is further provided on the secondary menu selection interface, and the processor is configured to execute the program instructions to implement: and when the operation of the user on the return key is detected, controlling the touch display screen to switch and display the main function interface of the endoscope camera host, wherein the scene mode displayed in the main function interface is the selected third scene mode, namely the camera host works in the third scene mode.

Illustratively, the processor is configured to execute the program instructions to perform: generating a custom scene mode according to custom mode setting information input by a user; and when a storage instruction is received, storing the setting information corresponding to the custom scene mode. By setting and storing the custom scene mode, the user can conveniently and directly call the custom scene mode, so that the setting operation is omitted, and the operation experience of the user is further improved.

The mode setting method of the endoscopic camera host according to the embodiment of the present application will be described in detail below with reference to specific configurations and operation principles of the endoscopic camera host 60 and the endoscopic system 1000.

Referring to fig. 4, fig. 4 is a flowchart illustrating a mode setting method of an endoscopic camera host according to an embodiment of the present application. The method can be used in any endoscope camera host provided by the embodiment, so that the convenience of setting the scene mode is improved.

As shown in fig. 4 (refer to fig. 5 to 7 in synchronization), the mode setting method of the endoscopic camera host specifically includes steps S101 to S105.

S101, displaying a main function interface on a touch display screen of the camera host, wherein the main function interface at least comprises a scene mode area; the scene mode of the camera host comprises a plurality of scene modes, each scene mode corresponds to different parameter configurations, and the parameter configurations are used in the scene mode in which the camera host works during the endoscopic surgery.

S102, at least displaying identification information of a first scene mode of the camera host in the scene mode area; the first scene mode is a scene mode in which the camera host works currently, and the first scene mode is any one of a plurality of scene modes of the endoscope camera host.

S103, generating a scene mode switching instruction when the camera host determines that the camera host performs the sliding operation in a preset sliding area on the scene mode area.

S104, switching the current working scene mode of the camera host to a second scene mode based on the scene mode switching instruction; the second scene mode is any one of the plurality of scene modes of the endoscope camera host except the first scene mode.

And S105, at least displaying the identification information of the second scene mode in the scene mode area, and switching the parameter configuration of the camera host to the parameter configuration corresponding to the second scene mode.

Illustratively, when the endoscope system is used, the endoscope light source camera host needs to be turned on, and after the user turns on the endoscope camera host, the camera host displays the main function interface. At this time, the camera host may select a default scene mode, or select a scene mode used before the last shutdown, where the scene mode is used as the current operating mode, i.e., the first scene mode. If the first scene mode does not correspond to the current surgery type, the user switches the scene mode through a sliding operation, and the specific method steps are as follows.

The endoscope camera shooting host machine has multiple scene modes including but not limited to a laparoscope mode, a hysteroscope mode, a cystoscope mode, a ureteroscope mode, a choledochoscope mode, an arthroscope mode, an otorhinolaryngoscope mode and the like, and the various modes have corresponding parameter configurations so as to adapt to corresponding operation types. Different types of procedures may require different parameter configurations, which may include some image parameters such as exposure, color, brightness, sharpness, contrast, etc.

Illustratively, the main function interface further comprises a first display area 112, wherein the first display area 112 is a storage device status display area; the method further comprises the following steps:

Illustratively, the parameter setting area 130 is configured to display brightness adjustment keys including a first brightness adjustment key 121 and a second brightness adjustment key 122. The method further comprises the following steps: when the operation of the first brightness adjustment key 121 by the user is detected, the image brightness is reduced; when the user's operation of the second brightness adjustment key 122 is detected, the image brightness is increased. Therefore, the endoscope camera host can be conveniently adjusted by a user, and the working efficiency is further improved.

Illustratively, the parameter setting area 130 is further configured to display a brightness indicator 123, where the brightness indicator 123 includes a set of rectangular icons with increasing heights, and is disposed between the first brightness adjustment key 121 and the second brightness adjustment key 122. The method further comprises the following steps: and when the operation of the user on the brightness adjusting key is detected, changing the image brightness according to the operation of the user on the brightness adjusting key. Therefore, the user can know the brightness level of the current image clearly.

Illustratively, the parameter setting area is further configured to display image adjustment keys including a first image adjustment key 124 and a second image adjustment key 125. The method further comprises the following steps: when the operation of the first image adjustment key 124 by the user is detected, the image is subjected to reduction adjustment processing; when the user's operation of the second image adjustment key 125 is detected, the image is subjected to the enlargement adjustment processing.

Illustratively, the parameter setting area is further configured to display an image adjustment indicator bar 126, which includes an indicator 127 in which an image zoom factor is displayed. The method further comprises the following steps: when the operation of the user on the image adjusting key is detected, the size of the image is changed according to the operation of the user on the image adjusting key, and the movement of the indication mark on the image adjusting indication bar is controlled to indicate the image zooming times. In addition, the user can drag the indication mark on the image adjustment indication bar to move so as to perform zoom adjustment on the image.

Illustratively, the main function interface 110 further includes a third display area 111, and the third display area 111 is configured to display a setting button, and a user can perform a corresponding setting operation by clicking the setting button. As shown in fig. 7, the method further comprises: when the operation of the user on the setting key is detected, controlling the touch display screen to switch and display a preset secondary menu selection interface, wherein the secondary menu selection interface displays selection keys corresponding to multiple scene modes; when the operation of a user on a certain selection key on a secondary menu selection interface is detected, determining a scene mode corresponding to the selection key as a third scene mode, and switching the current working scene mode of the camera host to the third scene mode.

Illustratively, a return button is further provided on the secondary menu selection interface, and the method further includes: and when the operation of the user on the return key is detected, controlling the touch display screen to switch and display the main function interface of the endoscope camera host, wherein the scene mode displayed in the main function interface is the selected third scene mode, namely the camera host works in the third scene mode.

In some embodiments, the user may also perform a custom scene mode setting operation, where the custom scene mode setting operation includes: generating a custom scene mode according to custom mode setting information input by a user; and when a storage instruction is received, storing the setting information corresponding to the custom scene mode.

Illustratively, at least one custom scene mode selection key is arranged on the secondary menu selection interface, when a user wants to set a custom scene mode, a certain custom scene mode selection key is clicked, when the operation is detected, the touch display screen is controlled to switch and display a working interface corresponding to the custom scene mode, and the user can input custom mode setting information on the working interface, wherein the custom mode setting information includes but is not limited to parameter information such as brightness and white balance.

And after receiving the user-defined mode setting information input by the user, the endoscope camera shooting host generates a user-defined scene mode according to the user-defined mode setting information. After the custom scene mode is generated, the user can select whether to store the setting information corresponding to the custom scene mode. For example, after the custom scene mode is generated, a corresponding confirmation window pops up, wherein the confirmation window is provided with a confirmation control and a cancellation control. And when the user needs to save the setting information corresponding to the custom scene mode, clicking a confirmation control in the confirmation window to trigger a saving instruction. And when a storage instruction is received, storing the setting information corresponding to the custom scene mode. Otherwise, when the user does not need to store the setting information corresponding to the custom scene mode, the user can click the cancel control in the confirmation window. And when receiving the operation of the user on the cancel control, not storing the setting information corresponding to the custom scene mode.

According to the setting method provided by each embodiment, the scene mode area is displayed on the main function interface of the endoscope camera host touch display screen, and the user can switch different scene modes through sliding operation in the scene mode area, so that the user can quickly select the scene mode corresponding to the current operation type before operation.

An embodiment of the present application further provides a computer-readable storage medium, where a computer program is stored in the computer-readable storage medium, where the computer program includes program instructions, and the processor executes the program instructions to implement the mode setting method for the endoscope camera host provided in any one of the above embodiments.

The computer-readable storage medium may be an internal storage unit of the camera host described in the foregoing embodiment, for example, a hard disk or a memory of the camera host. The computer-readable storage medium may also be an external storage device of the camera host, such as a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like, provided on the camera host.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive various equivalent modifications or substitutions within the technical scope of the present application, and these modifications or substitutions should be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims

A mode setting method of an endoscope camera host is characterized by comprising the following steps:

a touch display screen of the camera host displays a main function interface, wherein the main function interface at least comprises a scene mode area; the camera shooting host comprises a plurality of scene modes, each scene mode corresponds to different parameter configurations, and the parameter configurations are used in the scene mode of the camera shooting host working in the endoscopic surgery;

at least displaying identification information of a first scene mode of the camera host in the scene mode area; the first scene mode is a scene mode in which the camera host works currently, and the first scene mode is any one of a plurality of scene modes of the endoscope camera host;

when the camera host determines that the camera host is in the sliding operation in the preset sliding area on the scene mode area, generating a scene mode switching instruction;

switching the current working scene mode of the camera host to a second scene mode based on the scene mode switching instruction; the second scene mode is any one of the plurality of scene modes of the endoscope camera host except the first scene mode;

and at least displaying the identification information of the second scene mode in the scene mode area, and switching the parameter configuration of the camera host to the parameter configuration corresponding to the second scene mode.
The mode setting method according to claim 1, wherein the scene modes of the camera host include at least two of a laparoscope mode, a hysteroscope mode, a cystoscope mode, a ureteroscope mode, a cholangioscope mode, an arthroscope mode, and an otorhinolaryngoscope mode.
The mode setting method according to claim 1, wherein switching the scene mode in which the camera host is currently operating to the second scene mode based on the scene mode switching instruction further comprises:

and identifying the type of the sliding operation, and determining a second scene mode corresponding to switching selection of the sliding operation based on the type of the sliding operation and a preset association sequence of switching among a plurality of scene modes.
The mode setting method according to claim 3, wherein determining the second scene mode corresponding to the switching selection of the sliding operation based on the type of the sliding operation and the preset associated sequence of switching among the plurality of scene modes comprises:

if the sliding operation is a leftward sliding operation, determining a last associated scene mode of the first scene mode as the second scene mode according to the association sequence switched among the plurality of scene modes;

and if the sliding operation is rightward sliding operation, determining a next associated scene mode of the first scene mode as the second scene mode according to the association sequence switched among the plurality of scene modes.
The mode setting method according to claim 1, wherein displaying, in the scene mode area, identification information of a scene mode in which the camera host is currently operating includes: and displaying the character name and/or the graphical identification of the current working scene mode of the camera host in the scene mode area.
The mode setting method according to claim 1, characterized by further comprising: and highlighting the identification information corresponding to the currently selected scene mode of the camera host in the scene mode area, and carrying out gray scale display on the identification information corresponding to other scene modes.
The mode setting method according to claim 1, characterized by further comprising: in the scene mode area, indicating icons corresponding to a plurality of scene modes are displayed below the identification information of the corresponding scene modes side by side, wherein the indicating icons comprise circular icons.
The mode setting method according to claim 1, wherein the main function interface further includes a first display area; the method further comprises the following steps:

determining the storage device state of the storage device accessed by the camera host;

and displaying the storage device state of the storage device accessed by the endoscope camera host in the first display area.
The mode setting method of claim 1, wherein the main function interface further comprises a second display area, the method further comprising:

and displaying at least one parameter adjusting key in the second display area.
The mode setting method according to claim 9, wherein the second display region is configured to display a brightness adjustment key including a first brightness adjustment key and a second brightness adjustment key; the method further comprises the following steps:

when the operation of the user on the first brightness adjusting key is detected, controlling to reduce the image brightness;

and when the operation of the user on the second brightness adjusting key is detected, controlling to increase the image brightness.
The mode setting method according to claim 10, wherein the second display area is further configured to display a brightness indicator, the brightness indicator comprising a set of rectangular icons with increasing heights, and being disposed between the first brightness adjustment key and the second brightness adjustment key; the method further comprises the following steps:

and when the operation of the user on the brightness adjusting key is detected, controlling the brightness of the image according to the operation of the user on the brightness adjusting key, and controlling to light the corresponding rectangular icon to indicate the brightness value of the current image.
The mode setting method according to claim 9, wherein the second display area is further configured to display image adjustment keys including a first image adjustment key and a second image adjustment key; the method further comprises the following steps:

when the operation of the user on the first image adjusting key is detected, carrying out reduction adjustment on the image;

and when the operation of the user on the second image adjusting key is detected, the image is amplified and adjusted.
The mode setting method according to claim 12, wherein the second display area is further configured to display an image adjustment indication bar, the image adjustment indication bar including an indication mark; the method further comprises the following steps:

when the operation of the user on the image adjusting key is detected, the size of the image is changed according to the operation of the user on the image adjusting key, and the indication mark on the image adjusting indication bar is controlled to move so as to indicate the image zooming times.
The mode setting method according to claim 1, wherein the main function interface further includes a third display area; the method further comprises the following steps:

displaying a setting key in the third display area;

when the operation of the user on the setting key is detected, controlling the touch display screen to switch and display a preset secondary menu selection interface, wherein the secondary menu selection interface displays selection keys corresponding to multiple scene modes;

when the operation of a user on one of the selection keys is detected, determining a scene mode corresponding to the selection key as a third scene mode;

and switching the current working scene mode of the camera host to the third scene mode.
The mode setting method of claim 14, wherein the secondary menu selection interface is further provided with a return key; the method further comprises the following steps:

when the operation of the user on the return key is detected, controlling the touch display screen to switch and display the main function interface;

and at least displaying identification information of the third scene mode in the scene mode area, and switching the parameter configuration of the camera host to the parameter configuration corresponding to the third scene mode.
The mode setting method according to any one of claims 1 to 15, characterized by further comprising:

generating a custom scene mode according to custom mode setting information input by a user;

and when a storage instruction is received, storing the setting information corresponding to the custom scene mode.
An endoscope camera host, comprising:

a housing;

the touch display screen is arranged on the shell;

a control panel disposed inside the housing and connected to the touch display screen, wherein the control panel is provided with a processor and a memory, the memory is used for storing executable program instructions, and the processor is used for executing the program instructions to implement the mode setting method of the endoscope camera host according to any one of claims 1 to 16.
An endoscopic system, comprising: an endoscope, a camera head, a light source host, a display, a light guide beam and the camera host of claim 17; one end of the light guide beam is connected to a light source interface of the light source host, and the other end of the light guide beam is connected to the endoscope and used for providing a light source for the endoscope; one end of the camera is connected to the camera host through a communication cable so as to transmit an image signal acquired by the camera to the camera host for processing; the other end of the camera is used for being clamped to the endoscope so as to acquire an optical signal of the endoscope; the display is connected to the camera host and used for displaying the image output by the camera host.
A computer-readable storage medium, characterized in that a computer program is stored which, when executed by a processor, causes the processor to implement the mode setting method of an endoscopic camera host according to any one of claims 1 to 16.