CN111857521B - Multi-device management method and device and integrated display control system - Google Patents

Abstract

The embodiment of the invention discloses a multi-device management method, a multi-device management device and an integrated display control system. The multi-device management method includes: responding to a user adding instruction, and adding a device to be managed, wherein the device to be managed is at least one of a display control device, a video processing device and a multimedia server; generating and displaying a list of the devices to be managed according to the devices to be managed; and responding to a user operation instruction, and performing operation management on target equipment in the equipment to be managed list. The embodiment of the invention simplifies the management configuration operation of the integrated display control system, reduces the cost and improves the working efficiency and the user experience.

Description

Multi-device management method and device and integrated display control system

Technical Field

The present invention relates to the field of display control technologies, and in particular, to a multi-device management method, a multi-device management apparatus, and an integrated display control system.

Background

With the continuous maturity of scientific technology and the continuous improvement of the control system in the audio-visual field, the control system related to the current display screen, such as an LED display screen, develops towards the direction of high integration, so as to simplify the whole system chain and improve the system stability. The current LED display screen management device cannot manage, configure and control the video processor, and the video processor management equipment cannot manage and configure the LED display screen. Therefore, for an integrated display control system integrated with functions of video processing, display control and the like, a plurality of management devices or management software are needed to be adopted to realize the management and configuration of the integrated display control system, the switching is performed back and forth, the cost is high, the operation is complex and inconvenient, and especially when an LED display screen is built and controlled on site, the user experience is poor.

Disclosure of Invention

Therefore, the embodiment of the invention provides a multi-device management method, a multi-device management device and an integrated display control system, which can simplify the management configuration operation of the integrated display control system, reduce the cost and improve the working efficiency and the user experience.

In one aspect, a method for managing multiple devices provided in an embodiment of the present invention includes: responding to a user adding instruction, and adding a device to be managed, wherein the device to be managed is at least one of a display control device, a video processing device and a multimedia server; generating and displaying a list of the devices to be managed according to the devices to be managed; and responding to a user operation instruction, and performing operation management on target equipment in the equipment to be managed list.

According to the embodiment of the invention, the equipment to be managed is added in response to the user operation instruction, the equipment list to be managed is generated and displayed according to the equipment to be managed, and the user operation instruction is responded, and the target equipment in the equipment to be managed in the equipment list to be managed is operated and managed, so that the management configuration operation of the integrated display control system is simplified, the cost is reduced, and the working efficiency and the user experience are improved.

In an embodiment of the present invention, the multi-device management method is applied to a multi-device management system, where the multi-device management system is connected to the device to be managed; the number of the devices to be managed is multiple, and the communication protocol formats between the multiple devices to be managed and the multi-device management system are the same.

In an embodiment of the present invention, the performing, in response to the user operation instruction, operation management on the target device in the to-be-managed device list includes: and responding to the selection operation of a user on an equipment management interface to an equipment attribute page, and displaying an equipment control panel picture corresponding to the control panel of the target equipment in an equipment management area of the equipment attribute page, wherein the equipment control panel picture comprises a logic input interface and a logic output interface corresponding to the input interface and the output interface of the target equipment.

In an embodiment of the present invention, the performing, in response to the user operation instruction, operation management on the target device in the to-be-managed device list includes: and responding to the selection operation of a user on an input attribute page on the equipment management interface, acquiring input source information of the target equipment, and displaying an input source thumbnail corresponding to the input source of the target equipment and the input source information in an input source management area of the input attribute page, wherein the input source information comprises an input source name, an input source type and an input source sequence number of the input source.

In an embodiment of the present invention, the performing, in response to the user operation instruction, operation management on the target device in the to-be-managed device list includes: responding to the selection operation of a user on the screen attribute page on the equipment management interface, and displaying a screen editing area of the screen attribute page; responding to screen editing operation of a user, acquiring input screen parameters, editing a simulation screen corresponding to a display screen of the target equipment according to the screen parameters, and sending an edited result to the target equipment, wherein the screen parameters comprise: the simulation screen comprises the size of the simulation screen, the size and the number of simulation display units included in the simulation screen, and output interface information of the simulation display units.

In an embodiment of the present invention, the acquiring the input screen parameter and editing the simulation screen corresponding to the display screen of the target device according to the screen parameter includes: responding to the simulation screen adding operation of a user, and displaying a simulation screen adding interface; and responding to the screen parameter input operation of a user on the simulation screen adding interface, acquiring the screen parameters, adding the screen parameters in the screen editing area according to the screen parameters and displaying the simulation screen.

In an embodiment of the present invention, the performing, in response to the user operation instruction, operation management on the target device in the to-be-managed device list includes: and responding to the selected operation of a user on the simulation display unit on the simulation screen, acquiring the selected sequence and determining the wiring mode of the display unit of the display screen of the target equipment according to the selected sequence.

In an embodiment of the present invention, the performing, in response to the user operation instruction, operation management on the target device in the to-be-managed device list includes: and responding to the selection operation of the user on the layer attribute page on the equipment management interface, acquiring the layer attribute information of the target equipment and displaying a layer window corresponding to the display screen of the target equipment in the layer management area of the layer attribute page.

In an embodiment of the present invention, the performing, in response to the user operation instruction, operation management on the target device in the to-be-managed device list includes: and responding to a scene switching operation of a user in the layer management area, and switching the scene displaying the layer window in the layer management area to a target scene, wherein the target scene comprises a three-dimensional scene, and the three-dimensional scene comprises the position of a display screen of the target equipment.

On the other hand, an apparatus for managing multiple devices provided in an embodiment of the present invention includes: the device adding module is used for responding to a user adding instruction and adding a device to be managed, wherein the device to be managed is at least one of a display control device, a video processing device and a multimedia server; the list generating module is used for generating and displaying a list of the equipment to be managed according to the equipment to be managed; and the equipment management module is used for responding to a user operation instruction and carrying out operation management on target equipment in the equipment to be managed list.

In another aspect, an integrated display control system provided in an embodiment of the present invention includes; a video processing device; the display control equipment is connected with the video processing equipment; a multi-device management system connected to the video processing device and the display control device; the multi-device management system is used for displaying a device list to be managed in a device management interface and managing target devices in the device list to be managed in response to the operation of a user on the target devices, wherein the target devices are selected from the video processing device and the display control device.

In another aspect, an embodiment of the present invention provides a multi-device management system, including: the multi-device management system comprises a memory and a processor connected with the memory, wherein the memory stores a computer program, and the processor executes the multi-device management method when running the computer program.

In another aspect, an embodiment of the present invention provides a computer-readable storage medium, which is a non-volatile memory and stores computer-executable instructions, where the computer-executable instructions are configured to perform a multi-device management method according to any one of the foregoing methods.

One or more of the above technical solutions may have the following advantages or beneficial effects: according to the embodiment of the invention, the equipment to be managed is added in response to the user operation instruction, the equipment list to be managed is generated and displayed according to the equipment to be managed, and the user operation instruction is responded, and the target equipment in the equipment to be managed in the equipment list to be managed is operated and managed, so that the management configuration operation of the integrated display control system is simplified, the cost is reduced, and the working efficiency and the user experience are improved. In addition, the preview and the edit of different attribute parameters are realized by responding the operation that the user selects different attribute pages. And moreover, by responding to scene switching operation of a user, the screen layer can be displayed in different scenes, further, the target scene comprises a three-dimensional scene, and the three-dimensional scene comprises the position of the display screen of the target equipment, so that the position of the display screen can be displayed very intuitively, the editing of the layer of the display screen is more suitable for the field environment, the feeling of being personally on the scene is provided, the user experience degree is improved, and the projection adjustment and change of the layer are more convenient. The embodiment of the invention can conveniently and quickly manage and configure a plurality of devices of the integrated display control system.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, 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 only some embodiments of the present invention, 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 flowchart illustrating a multi-device management method according to a first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a hardware architecture for implementing the multi-device management method shown in fig. 1.

Fig. 3a to 3i are schematic diagrams illustrating a plurality of detailed flows of step S13 in fig. 1.

Fig. 4a to 4m are schematic diagrams illustrating a plurality of effects of implementing the multi-device management method illustrated in fig. 1.

Fig. 5 is a block diagram of a multi-device management apparatus according to a second embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a multiple device management system according to a third embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a computer-readable storage medium according to a fourth embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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 invention.

[ first embodiment ] A method for manufacturing a semiconductor device

As shown in fig. 1, a first embodiment of the present invention provides a multi-device management method. As shown in fig. 2, the multi-device management method can be applied to a multi-device management system (or referred to as an audiovisual integration management and control platform) 300, for example. The multi-device management system 300 is, for example, an upper computer such as a PC. The multiple device management system 300 may be used to manage an integrated display control system 200. As shown in fig. 1, the integrated display control system 200 may include, for example, a multimedia server 210, a video processing device 230, and a display control device 250, which are connected in sequence. The multi-device management system 300 connects the multimedia server 210, the video processing device 230, and the display control device 250. That is, the multi-device management system 300 may also be considered as a part of the integrated display control system 200. Typically, the multimedia server 210 here may be, for example, a server capable of storing media and playing media, for example, a host computer such as a PC, and specifically, a plurality of media files such as videos, pictures and the like may be stored thereon, and multimedia playing software may be installed for playing and controlling the media. The video processing device 230 may be, for example, a device that has image processing functions of superimposing, scaling, transparency setting, and the like on an input image and video, and that can output video data in a plurality of formats to a display control device for display control. The display control device 250 may be, for example, a display controller (or a transmitting card) which receives an input source signal, performs image processing on the input source signal, and transmits the processed input source signal to a display screen, such as an LED display screen, through a network or an optical fiber, and displays a corresponding picture. In addition, the display control device 250 here may also be replaced by a projection device, which may be, for example, a commercially available sophisticated projection device. That is, the multi-device management system 300 can add, manage, and manipulate multiple types of devices. The multi-device management system 300 may be, for example, a device having a function of managing and configuring the integrated display control system 200, for example, the multimedia server 210, the video processing device 230, and/or the display control device 250, for example, a host computer such as a PC.

Specifically, the multi-device management method provided by the embodiment of the present invention includes, for example, the steps of:

s11: responding to a user adding instruction, and adding a device to be managed, wherein the device to be managed is at least one of a display control device, a video processing device and a multimedia server;

s12: generating and displaying a list of the devices to be managed according to the devices to be managed; and S13: and responding to a user operation instruction, and performing operation management on target equipment in the equipment to be managed list.

According to the embodiment of the invention, the equipment to be managed is added in response to the user operation instruction, the equipment list to be managed is generated and displayed according to the equipment to be managed, the user operation instruction is responded, the target equipment in the equipment to be managed in the equipment list to be managed is operated and managed, the management configuration operation of the integrated display control system is simplified, the cost is reduced, the working efficiency and the user experience degree are improved, and particularly, the situation that the equipment of the integrated display control system is switched back and forth and configured and managed on the display screen building site is avoided.

Specifically, as shown in fig. 3a, step S13 includes, for example:

s131: and responding to the selection operation of a user on an equipment management interface to an equipment attribute page, and displaying an equipment control panel picture corresponding to the control panel of the target equipment in an equipment management area of the equipment attribute page, wherein the equipment control panel picture comprises a logic input interface (or called as a simulation input interface) and a logic output interface (or called as a simulation output interface) corresponding to the input interface and the output interface of the target equipment.

As shown in fig. 3b, step S13 further includes, for example:

s132: and responding to the selection operation of a user on an input attribute page on the equipment management interface, acquiring input source information of the target equipment, and displaying an input source thumbnail corresponding to the input source of the target equipment and the input source information in an input source management area of the input attribute page, wherein the input source information comprises an input source name, an input source type and an input source sequence number of the input source.

As shown in fig. 3c, step S13 further includes, for example:

s133: and responding to the selection operation of a user on an output attribute page on the equipment management interface, acquiring output attribute information of an output interface of the target equipment, and displaying an output interface thumbnail corresponding to the output interface of the target equipment and the output attribute information in an output management area of the output attribute page, wherein the output attribute information comprises an output interface name of the output interface, an output interface type, a resolution of a display screen carried by the output interface and an output interface frame frequency.

As shown in fig. 3d, step S13 further includes, for example:

s134: and responding to the selection operation of a user on a media attribute page on the equipment management interface, acquiring media attribute information of media of the target equipment, and displaying a media thumbnail of the media of the target equipment and the media attribute information in a media management area of the media attribute page, wherein the media attribute information comprises a media name and a media resolution of the media.

As shown in fig. 3e, step S13 further includes, for example:

s135: responding to the selection operation of a user on the screen attribute page on the equipment management interface, and displaying a screen editing area of the screen attribute page;

s136: responding to screen editing operation of a user, acquiring input screen parameters, editing a simulation screen corresponding to a display screen of the target equipment according to the screen parameters, and sending an edited result to the target equipment, wherein the screen parameters comprise: the simulation screen comprises the size of the simulation screen, the size and the number of simulation display units included in the simulation screen, and output interface information of the simulation display units.

As shown in fig. 3f, step S136 includes:

s1361: responding to the simulation screen adding operation of a user, and displaying a simulation screen adding interface; and

s1362: and responding to the screen parameter input operation of a user on the simulation screen adding interface, acquiring the screen parameters, adding the screen parameters in the screen editing area according to the screen parameters and displaying the simulation screen.

As shown in fig. 3g, step S13 further includes, for example:

s137: and responding to the selected operation of a user on the simulation display unit on the simulation screen, acquiring the selected sequence and determining the wiring mode of the display unit of the display screen of the target equipment according to the selected sequence.

As shown in fig. 3h, step S13 further includes, for example:

s138: and responding to the selection operation of the user on the layer attribute page on the equipment management interface, acquiring the layer attribute information of the target equipment and displaying a layer window corresponding to the display screen of the target equipment in the layer management area of the layer attribute page.

As shown in fig. 3i, step S13 further includes, for example:

s139: and responding to the scene switching operation of the user in the layer management area, and switching the scene displaying the layer window in the layer management area to a target scene.

In order to facilitate understanding of the present invention, the steps of the multi-device management method of the present embodiment will be described in detail below with reference to fig. 4a to 4 m.

The multi-device management method provided in the embodiment of the present invention may be implemented by, for example, multi-device management software installed on the multi-device management system 300, for example, an upper computer, as follows.

As shown in fig. 4a, the multi-device management software has a device management interface. The multi-device management software automatically obtains the device information of at least one device to be managed of the integrated display control system 200 connected to the device management device 300 by responding to a user operation, such as an instruction of adding a device by a user, or the multi-device management software automatically obtains the device information of at least one device to be managed of the integrated display control system 200 connected to the device management device 300, and then generates and displays a list of devices to be managed (see the upper part of fig. 4 a) in the device management interface according to the plurality of devices to be managed, wherein the list of devices to be managed lists a plurality of devices to be managed of the integrated display control system 200 connected to the device management device 300, for example, a multimedia server 210 such as a local media player, a video processing device 230 (or video processor), and a display control device 250 such as an LED display controller (or LED controller). It is worth mentioning here that a multi-device management system, for example, an upper computer, in which the multi-device management software is installed, is connected to the device to be managed; when the number of the devices to be managed is multiple, the communication protocol formats between the multiple devices to be managed and the multiple device management system are the same, for example, the Json format protocol is favorable for device interconversion and transmission use convenience during user operation.

In addition, referring to fig. 4a, for example, a property page with different properties of each device is set on the left side of the device management interface, such as a device property page (see "device" on the left side in fig. 4 a), an input property page (see "input" on the left side in fig. 4 a), a gallery property page (or a media property page, see "gallery" on the left side in fig. 4 a), an output property page (see "output" on the left side in fig. 4 a), a screen property page (see "screen" on the left side in fig. 4 a), and a layer property page (see "layer" on the left side in fig. 4 a). The multi-device management software responds to the selected operation instruction of the user to each attribute page, and can display the corresponding attribute management area in the corresponding attribute page to carry out operation management on the target device.

Specifically, the multi-device management software, for example, responds to a selection operation of a device property page by a user on a device management interface, and displays a device control panel screen corresponding to a control panel of the target device in a device management area of the device property page, where the device control panel includes an input interface and an output interface of the target device. More specifically, when the target device selected by the user is a video processing device, a device control panel screen corresponding to a control panel of the video processing device is displayed in the device management area (see the video processor in fig. 4 b). When the target device selected by the user is a display control device, a device control panel screen corresponding to a control panel of the display control device is displayed in the device management area (see the LED controller in fig. 4 c). When the target device selected by the user is the multimedia server, a device control panel picture corresponding to the control panel of the multimedia server is displayed in the device management area (see local media playing in fig. 4 d). Therefore, the user can intuitively and clearly know the input interface and the output interface of each device of the integrated display control system 200 connected with the multi-device management system 300, and does not need to know the corresponding input interface and output interface through a plurality of management and configuration devices, thereby improving the working efficiency and the user experience.

In addition, the multi-device management software, for example, in response to a selection operation of a user on an input attribute page on the device management interface, acquires input source information of the target device and displays an input source thumbnail corresponding to an input source of the target device and the input source information in an input source management area of the input attribute page, wherein the input source information includes an input source name, an input source type and an input source number of the input source. The number of input sources is at least one. The input source types here may include, for example: HDMI, DVI, SDI, and other video types. For example, as shown in fig. 4e, when the target device is a video processing device such as a video processor, the multi-device management software acquires input source information of the video processor such as an input source name, an input source type, for example, in response to a user's selection operation on an input property page, and displays an input source thumbnail and input source information corresponding to an input source of the video processor in an input source management area of the input property page.

Further, the multi-device management software also responds to a selection operation of a user for selecting an input source thumbnail of a target input source of the at least one input source and an input source parameter input operation on an input source parameter setting interface, acquires input source parameters of the target input source input by the user, modifies the parameters of the target input source according to the input source parameters, and sends the input source parameters to the target device to update the parameters of the target input source. For example, as shown in fig. 4e, the user selects an input source such as input 1-1, and the multi-device management software displays information of the input 1-1, such as the name of the input source, the current signal, the resolution and the frame rate, in the input source parameter setting interface at the lower part of the input management area in fig. 4e in response to the user operation. The preset resolution and frame frequency of the input 1-1 are 1920 × 1080@60HZ, when a user sets the preset resolution and frame frequency to 1080 × 120@60HZ, the multi-device management software responds to user operation to acquire input source parameters of a target input source input by the user, for example, the preset resolution and frame frequency are set to 1080 × 120@60HZ, modifies the preset resolution and frame frequency parameters of the target input source in an input source management area to 1080 × 120@60HZ according to the input source parameters, and sends the input source parameters to the target device to update the preset resolution and frame frequency parameters of the target input source to 1080 × 120@60 HZ. Therefore, the user can conveniently manage and configure the target equipment, and the working efficiency and the user experience are improved.

Furthermore, the multi-device management software also acquires output attribute information of an output interface of the target device, for example, in response to a selection operation of a user on an output attribute page on the device management interface, and displays an output interface thumbnail corresponding to the output interface of the target device and the output attribute information in an output management area of the output attribute page. The output attribute information comprises an output interface name of the output interface, an output interface type, a resolution of a display screen carried by the output interface and an output interface frame frequency. The number of output interfaces may for example be at least one. The output interface types herein may include, for example: video interface types such as HDMI, DVI, SDI, etc. For example, as shown in fig. 4f, when the target device is a video processing device such as a video processor, the multi-device management software acquires output attribute information of the output interfaces of the video processor, such as output interface names of all the output interfaces, output interface types, resolutions of display screens carried by the output interfaces, and frame rates, for example, in response to a user's selection operation on an output attribute page; then, an output interface thumbnail corresponding to an output interface of the video processor and the output attribute information are displayed in an output management area of an output attribute page, for example, the name of the output interface is output 4-1, the type of the output interface is Single Link DI-D type, and the resolution and frame rate are 1920 × 1080@60 HZ.

Further, the multi-device management software also acquires the media attribute information of the media of the target device and displays the media thumbnail of the media of the target device and the media attribute information in the media management area of the media attribute page, for example, in response to the selection operation of the user on the media attribute page in the device management interface. Wherein the media attribute information includes a media name and a media resolution of the media. Generally, when the target device is a video processing device or a display control device, most of the media on the target device is pictures, such as background pictures or logo icons (see fig. 4 g); when the target device is a multimedia server, such as a local media player, the media on the target device is video or pictures, which can be used as an input source for a video processing device or a display control device (see fig. 4 h).

In addition, the multi-device management software also responds to the selection operation of a user on the screen attribute page in the device management interface, and displays a screen editing area of the screen attribute page; then the multi-device management software responds to the screen editing operation of a user, acquires input screen parameters, edits a simulation screen (or called logic screen) corresponding to the display screen of the target device according to the screen parameters, and sends an edited result to the target device, wherein the screen parameters comprise: the simulation screen comprises a simulation screen size (or called resolution of the simulation screen), the size and the number of simulation display units (or called logic display units) included in the simulation screen, and output interface information of the simulation display units. The simulation display unit here corresponds to a display unit, such as an LED box, that displays a display screen carried by the control device. For example, as shown in fig. 4i, when the target device is a display control device, the multi-device management software responds to a selection operation of a user on the device management interface on a screen property page, and displays a screen editing area of the screen property page, in which three added simulation screens (or logical screens) carried with the display control device, such as screen 1, screen 2 and screen 3, are displayed. The screen boundary operation of the user here can be, for example, clicking a "+" button at the lower left corner of the screen editing area to create a new simulation screen; or double-clicking the existing simulation screen to edit the simulation screen. When a user wants to add a new simulation screen, the multi-device management software displays a simulation screen adding interface (see fig. 4j) in response to the operation of clicking a "+" button by the user, and then inputs parameters of the simulation screen to be added, such as the size (or resolution) and the number of simulation display units forming the simulation screen, such as the number of spliced rows and columns, and output interface information of each simulation display unit, such as a plurality of output interface information listed on the right side in fig. 4j, in the simulation screen adding interface, i.e., an output layer name to be displayed by each simulation display unit, the resolution and frame rate of each output layer, and the like, in response to the screen parameter input operation of the user on the simulation screen adding interface, so that a new simulation screen, such as the screen 4, can be added. Of course, when the user wants to edit an existing screen, the user may double-click the existing screen, for example, the screen 1, and the multi-device management software pops up a screen editing interface (not shown in the figure) in response to the user's screen parameter input operation to obtain the input screen parameters, adjusts the attributes of the simulation screen according to the screen parameters, and sends the edited attribute parameters to the target device to update the corresponding parameters of the display screen of the target device.

Furthermore, when the target device is a display control device such as an LED display controller, the multi-device management software also determines a routing manner of the target device, for example, a display unit of the display screen of the display control device, in response to a sequential selection operation (see fig. 4k) by a user on the simulation display unit on the simulation screen, so as to complete the screen configuration of the display screen. The determination of the screen configuration setting of the display unit of the display screen, such as the routing mode of the display box, may refer to the routing mode determination technology and the screen configuration technology in the prior art, and is not described herein again.

In addition, the multi-device management software also acquires the layer attribute information of the target device and displays a layer window corresponding to a display screen of the target device in a layer management area of the layer attribute page, for example, in response to a selection operation of a user on the layer attribute page in the device management interface. As shown in fig. 4l, when the target device is a video processing device, for example, a video processor, the multi-device management software, for example, responds to a selection operation of a user on a layer attribute page to obtain layer attribute information of the video processor, for example, layer channel names corresponding to all layers; and then, displaying layer windows and layer channel names corresponding to a display screen of the video processor in a layer management area of the layer attribute page, such as output 1-1 and input 2-3.

The multi-device management software also switches the scene displaying the layer window in the layer management area to a target scene, for example, in response to a scene switching operation of a user in the layer management area. The scene (or referred to as background) here may be, for example, a two-dimensional (2D) scene, or a three-dimensional scene (3D scene); other scenarios are of course possible. For example, as shown in fig. 4m, a scene switching button is disposed on the device management interface. After the user clicks the scene switching button, the multi-device management software responds to the user operation to acquire the current scene parameter of the layer corresponding to the display screen of the target device, and switches the scene of the layer to another scene according to the current scene parameter, for example, switching from a two-dimensional (2D) scene to a three-dimensional (3D) scene. Typically, the scene in which the two-dimensional scene representation layers are located is represented by a coordinate system consisting of two coordinate axes, e.g. X-Y. The three-dimensional scene representation layer is located in a scene represented by a coordinate system consisting of three coordinate axes such as X-Y-Z. The current scene parameter here may be used to represent parameters of different scenes, where different parameter values represent different scenes, for example, when a parameter value is 2, the current scene is represented as a 2D scene, and when a parameter value is 3, the current scene is represented as a 3D scene, and the like. And when the current scene of the layer is a 3D scene, the multi-device management software responds to the operation of a user and switches the scene of the layer of the target device from the 3D scene to a 2D scene. The 3D scene may, for example, include a location, such as a longitude and a latitude, at which a display screen of the target device is located. Therefore, the position of the display screen can be visually displayed, the editing of the layer of the display screen is more suitable for the field environment, the user experience is improved, and the projection adjustment and change of the layer are more convenient. It is worth mentioning here that when the target device is a video processing device, its layer includes a video output window (PGM) and a video pre-monitoring window (PVW).

Certainly, in a corresponding attribute page, for example, a layer attribute page, a user may select different devices in a device to be managed list for the multi-device management software to respond to an operation to display a layer window of the corresponding device, and respond to the operation of the user to complete configuration and management of the corresponding device, thereby effectively simplifying management and configuration operations of a target device. In addition, the multimedia server and the multi-device management system can be integrated on the same upper computer, so that the equipment can be saved, the multiple purposes of one machine can be realized, and the cost is reduced. At this time, the multimedia server is not included in the device to be managed list of the device management interface of the multi-device management software.

In summary, in the embodiments of the present invention, a to-be-managed device list including multiple devices of an integrated display control system is displayed in a device management interface, and a user is responded to an operation of the user on a target device in the to-be-managed device list to manage and configure the target device, so that a management configuration operation of the integrated display control system is simplified, the cost is reduced, and the work efficiency and the user experience are improved. In addition, the preview and the edit of different attribute parameters are realized by responding the operation that the user selects different attribute pages. And moreover, by responding to scene switching operation of a user, the screen layer can be displayed in different scenes, further, the target scene comprises a three-dimensional scene, and the three-dimensional scene comprises the position of the display screen of the target equipment, so that the position of the display screen can be displayed very intuitively, the editing of the layer of the display screen is more suitable for the field environment, the feeling of being personally on the scene is provided, the user experience degree is improved, and the projection adjustment and change of the layer are more convenient. The embodiment of the invention can conveniently and quickly manage and configure a plurality of devices of the integrated display control system, can realize modular design, improves the development efficiency and reduces the research, development, management and maintenance costs.

[ second embodiment ]

As shown in fig. 5, a second embodiment of the present invention provides a multi-device management apparatus 400. The multi-device management apparatus 400 can be applied to a multi-device management system that manages an integrated display control system, for example. Display control system integrates includes multimedia server, video processing equipment and display control equipment, video processing equipment connects multimedia server with between the display control equipment, many equipment management system connect multimedia server video processing equipment with display control equipment.

Specifically, the multi-device management apparatus includes:

the device adding module 410 is configured to add a device to be managed in response to a user adding instruction, where the device to be managed is at least one of a display control device, a video processing device, and a multimedia server.

A list generating module 420, configured to generate and display a list of devices to be managed according to the devices to be managed; and

the device management module 430 is configured to respond to a user operation instruction, and perform operation management on a target device in the to-be-managed device list.

For specific working procedures and technical effects among the modules in the multiple device management apparatus 300 in this embodiment, reference is made to the description of the foregoing first embodiment, and details are not repeated here.

[ third embodiment ]

As shown in fig. 6, a third embodiment of the present invention provides a multiple device management system 500. The multi-device management system 500 includes, for example, a memory 510 and a processor 530 coupled to the memory 510. The memory 510 may be, for example, a non-volatile memory having stored thereon a computer program 511. Processor 530 may be, for example, an embedded processor. The processor 530, when running the computer program 511, performs the multi-device management method in the foregoing first embodiment.

The specific operation and technical effects of the multiple device management system 500 in this embodiment are described in the foregoing first embodiment.

[ fourth example ] A

As shown in fig. 7, a fourth embodiment of the present invention provides a storage medium, such as a computer-readable storage medium 600. The computer-readable storage medium 600 is, for example, a nonvolatile memory, which is, for example: magnetic media (e.g., hard disks, floppy disks, and magnetic tape), optical media (e.g., CDROM disks and DVDs), magneto-optical media (e.g., optical disks), and hardware devices specially constructed for storing and executing computer-executable instructions (e.g., Read Only Memories (ROMs), Random Access Memories (RAMs), flash memories, etc.). Computer-readable storage medium 600 has stored thereon computer-executable instructions 610. The computer-readable storage medium 600 may execute the computer-executable instructions 610 by one or more processors or processing devices to implement the multi-device management method in the foregoing first embodiment.

In addition, it should be understood that the foregoing embodiments are merely exemplary illustrations of the present invention, and the technical solutions of the embodiments can be arbitrarily combined and collocated without conflict between technical features and structural contradictions, which do not violate the purpose of the present invention.

In the embodiments provided in the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described embodiments of the apparatus are merely illustrative, and for example, a division of a unit is merely a division of one logic function, and an actual implementation may have another division, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may also be distributed on multiple network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (11)

1. A multi-device management method, comprising:

responding to a user adding instruction, and adding a device to be managed, wherein the device to be managed is a plurality of display control devices, video processing devices and multimedia servers which are connected in sequence;

generating and displaying a list of the equipment to be managed in an equipment management interface according to the equipment to be managed; and

responding to a user operation instruction, and performing operation management on target equipment in the equipment to be managed list;

the device management interface is provided with attribute pages with different attributes; the responding to the user operation instruction, specifically performing operation management on the target device in the device to be managed list:

and responding to a selected operation instruction of a user on the attribute page, and displaying an attribute management area corresponding to the target equipment in the attribute page so as to perform operation management on the target equipment.

2. The multi-device management method according to claim 1, wherein the multi-device management method is applied to a multi-device management system, and the multi-device management system is connected with the device to be managed; the communication protocol formats between the multiple devices to be managed and the multi-device management system are the same.

3. The multi-device management method according to claim 1, wherein the performing operation management on the target device among the devices to be managed in the device list to be managed in response to the user operation instruction comprises:

responding to the selection operation of a user on the device property page on the device management interface, and displaying a device control panel picture corresponding to the control panel of the target device in the device management area of the device property page, wherein the device control panel picture comprises a logic input interface and a logic output interface corresponding to the input interface and the output interface of the target device.

4. The multi-device management method according to claim 1, wherein the performing operation management on the target device in the devices to be managed in the device list to be managed in response to the user operation instruction comprises:

and responding to the selection operation of a user on an input attribute page on the equipment management interface, acquiring input source information of the target equipment, and displaying an input source thumbnail corresponding to the input source of the target equipment and the input source information in an input source management area of the input attribute page, wherein the input source information comprises an input source name, an input source type and an input source sequence number of the input source.

5. The multi-device management method according to claim 1, wherein the performing operation management on the target device among the devices to be managed in the device list to be managed in response to the user operation instruction comprises:

responding to the selection operation of a user on the screen attribute page on the equipment management interface, and displaying a screen editing area of the screen attribute page;

responding to screen editing operation of a user, acquiring input screen parameters, editing a simulation screen corresponding to a display screen of the target equipment according to the screen parameters, and sending an edited result to the target equipment, wherein the screen parameters comprise: the simulation screen comprises the size of the simulation screen, the size and the number of simulation display units included in the simulation screen, and output interface information of the simulation display units.

6. The multi-device management method of claim 5, wherein the acquiring the input screen parameters and editing the emulation screen corresponding to the display screen of the target device according to the screen parameters comprises:

responding to the simulation screen adding operation of a user and displaying a simulation screen adding interface; and

and responding to the screen parameter input operation of a user on the simulation screen adding interface, acquiring the screen parameters, adding the screen parameters in the screen editing area according to the screen parameters and displaying the simulation screen.

7. The multi-device management method according to claim 6, wherein the performing operation management on the target device in the devices to be managed in the device list to be managed in response to the user operation instruction comprises:

and responding to the selected operation of a user on the simulation display unit on the simulation screen, acquiring a selected sequence and determining the wiring mode of the display unit of the display screen of the target equipment according to the selected sequence.

8. The multi-device management method according to claim 1, wherein the performing operation management on the target device among the devices to be managed in the device list to be managed in response to the user operation instruction comprises:

and responding to the selection operation of the user on the layer attribute page on the equipment management interface, acquiring the layer attribute information of the target equipment and displaying a layer window corresponding to the display screen of the target equipment in the layer management area of the layer attribute page.

9. The multi-device management method according to claim 8, wherein the performing operation management on the target device in the devices to be managed in the device list to be managed in response to the user operation instruction comprises:

and responding to a scene switching operation of a user in the layer management area, and switching the scene displaying the layer window in the layer management area to a target scene, wherein the target scene comprises a three-dimensional scene, and the three-dimensional scene comprises the position of a display screen of the target equipment.

10. A multi-device management apparatus, comprising:

the device adding module is used for responding to a user adding instruction and adding the devices to be managed, wherein the devices to be managed are a plurality of display control devices, video processing devices and multimedia servers which are sequentially connected;

the list generating module is used for generating and displaying a list of the equipment to be managed in an equipment management interface according to the equipment to be managed; and

the device management module is used for responding to a user operation instruction and carrying out operation management on target devices in the devices to be managed in the device list to be managed;

the device management interface is provided with attribute pages with different attributes; the device management module is specifically configured to:

and responding to a selected operation instruction of a user to the attribute page, and displaying an attribute management area corresponding to the target equipment in the attribute page to perform operation management on the target equipment.

11. An integrated display control system, comprising;

a video processing device;

the display control equipment is connected with the video processing equipment;

the multimedia server is connected with the video processing equipment; and

a multi-device management system connected to the multimedia server, the video processing device, and the display control device;

the multi-device management system is used for responding to a user adding instruction to add a device to be managed, generating and displaying a device list to be managed in a device management interface according to the device to be managed, responding to a user operation instruction to carry out operation management on target devices in the device to be managed in the device list to be managed, wherein the device to be managed is a plurality of display control devices, video processing devices and multimedia servers which are sequentially connected;

the device management interface is provided with attribute pages with different attributes; the multi-device management system is configured to respond to a user operation instruction, and specifically, perform operation management on a target device in the to-be-managed device list by:

and responding to a selected operation instruction of a user to the attribute page, and displaying an attribute management area corresponding to the target equipment in the attribute page to perform operation management on the target equipment.

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